Insert Skimmer + Camera Cover PIN Stealer

March 10, 2019

Very often the most clever component of your typical ATM skimming attack is the hidden pinhole camera used to record customers entering their PINs. These little video bandits can be hidden 100 different ways, but they’re frequently disguised as ATM security features — such as an extra PIN pad privacy cover, or an all-in-one skimmer over the green flashing card acceptance slot at the ATM.

And sometimes, the scammers just hijack the security camera built into the ATM itself.

Below is the hidden back-end of a skimmer found last month placed over top of the customer-facing security camera at a drive-up bank ATM in Hurst, Texas. The camera components (shown below in green and red) were angled toward the cash’s machine’s PIN pad to record victims entering their PINs. Wish I had a picture of this thing attached to the ATM.

This hidden camera was fixed to the underside of a fake lens cover for the skimmed ATM’s built-in security camera. Image: Hurst Police.

The clever PIN grabber was paired with an “insert skimmer,” a wafer-thin, usually metallic and battery powered skimmer made to be fitted straight into the mouth of the ATM’s card acceptance slot, so that the card skimmer cannot be seen from outside of the compromised ATM.

The insert skimmer, seen as inserted into the card acceptance device in the hacked ATM. Image: Hurst PD.

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MyEquifax.com Bypasses Credit Freeze PIN

March 8, 2019

Most people who have frozen their credit files with Equifax have been issued a numeric Personal Identification Number (PIN) which is supposed to be required before a freeze can be lifted or thawed. Unfortunately, if you don’t already have an account at the credit bureau’s new myEquifax portal, it may be simple for identity thieves to lift an existing credit freeze at Equifax and bypass the PIN armed with little more than your, name, Social Security number and birthday.

Consumers in every U.S. state can now freeze their credit files for free with Equifax and two other major bureaus (Trans Union and Experian). A freeze makes it much harder for identity thieves to open new lines of credit in your name.

In the wake of Equifax’s epic 2017 data breach impacting some 148 million Americans, many people did freeze their credit files at the big three in response. But Equifax has changed a few things since then.

Seeking to manage my own credit freeze at equifax.com as I’d done in years past, I was steered toward creating an account at myequifax.com, which I was shocked to find I did not previously possess.

Getting an account at myequifax.com was easy. In fact, it was too easy. The portal asked me for an email address and suggested a longish, randomized password, which I accepted. I chose an old email address that I knew wasn’t directly tied to my real-life identity.

The next page asked me enter my SSN and date of birth, and to share a phone number (sharing was optional, so I didn’t). SSN and DOB data is widely available for sale in the cybercrime underground on almost all U.S. citizens. This has been the reality for years, and was so well before Equifax announced its big 2017 breach.

myEquifax said it couldn’t verify that my email address belonged to the Brian Krebs at that SSN and DOB. It then asked a series of four security questions — so-called “knowledge-based authentication” or KBA questions designed to see if I could recall bits about my recent financial history.

In general, the data being asked about in these KBA quizzes is culled from public records, meaning that this information likely is publicly available in some form — either digitally or in-person. Indeed, I have long assailed the KBA industry as creating a false sense of security that is easily bypassed by fraudsters.

One potential problem with relying on KBA questions to authenticate consumers online is that so much of the information needed to successfully guess the answers to those multiple-choice questions is now indexed or exposed by search engines, social networks and third-party services online — both criminal and commercial.

The first three multiple-guess questions myEquifax asked were about loans or debts that I have never owed. Thus, the answer to the first three KBA questions asked was, “none of the above.” The final question asked for the name of our last mortgage company. Again, information that is not hard to find.

Satisfied with my answers, Equifax informed me that yes indeed I was Brian Krebs and that I could now manage my existing freeze with the company. After requesting a thaw, I was brought to a vintage Equifax page that looked nothing like myEquifax’s sunnier new online plumage.

Equifax’s site says it will require users requesting changes to an existing credit freeze to have access to their freeze PIN and be ready to supply it. But Equifax never actually asks for the PIN.

This page informed me that if I previously secured a freeze of my credit file with Equifax and been given a PIN needed to undo that status in any way, that I should be ready to provide said information if I was requesting changes via phone or email. 

In other words, credit freezes and thaws requested via myEquifax don’t require users to supply any pre-existing PIN.

Fine, I said. Let’s do this.

myEquifax then asked for the date range requested to thaw my credit freeze. Submit.

“We’ve successfully processed your security freeze request!,” the site declared.

This also was exclaimed in an email to the random old address I’d used at myEquifax, although the site never once made any attempt to validate that I had access to this inbox, something that could be done by simply sending a confirmation link that needs to be clicked to activate the account.

In addition, I noticed Equifax added my old mobile number to my account, even though I never supplied this information and was not using this phone when I created the myEquifax account.

Successfully unfreezing (temporarily thawing) my credit freeze did not require me to ever supply my previously-issued freeze PIN from Equifax. Anyone who knew the vaguest and most knowable details about me could have done the same.

myEquifax.com does not currently seek to verify the account by requesting confirmation via a phone call or text to the phone number associated with the account (also, recall that even providing a phone number was optional).

Happily, I did discover then when I used a different computer and Internet address to try to open up another account under my name, date of birth and SSN, it informed me that a profile already existed for this information. This suggests that signing up at myEquifax is probably a good idea, given that the alternative is more risky.

It was way too easy to create my account, but I’m not saying everyone will be able to create one online. In testing with several readers over the past 24 hours, myEquifax seems to be returning a lot more error pages at the KBA stage of the process now, prompting people to try again later or make a request via email or phone.

Equifax spokesperson Nancy Bistritz-Balkan said not requiring a PIN for people with existing freezes was by design.

“With myEquifax, we created an online experience that enables consumers to securely and conveniently manage security freezes and fraud alerts,” Bistritz-Balkan said..

“We deployed an experience that embraces both security standards (using a multi-factor and layered approach to verify the consumer’s identity) and reflects specific consumer feedback on managing security freezes and fraud alerts online without the use of a PIN,” she continued. “The account set-up process, which involves the creation of a username and password, relies on both user inputs and other factors to securely establish, verify, and authenticate that the consumer’s identity is connected to the consumer every time.” Continue reading

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Hackers Sell Access to Bait-and-Switch Empire

March 4, 2019

Cybercriminals are auctioning off access to customer information stolen from an online data broker behind a dizzying array of bait-and-switch Web sites that sell access to a vast range of data on U.S. consumers, including DMV and arrest records, genealogy reports, phone number lookups and people searches. In an ironic twist, the marketing empire that owns the hacked online properties appears to be run by a Canadian man who’s been sued for fraud by the U.S. Federal Trade Commission, Microsoft and Oprah Winfrey, to name a few.

Earlier this week, a cybercriminal on a Dark Web forum posted an auction notice for access to a Web-based administrative panel for an unidentified “US Search center” that he claimed holds some four million customer records, including names, email addresses, passwords and phone numbers. The starting bid price for that auction was $800.

Several screen shots shared by the seller suggested the customers in question had all purchased subscriptions to a variety of sites that aggregate and sell public records, such as dmv.us.org, carhistory.us.org, police.us.org, and criminalrecords.us.org.

A (redacted) screen shot shared by the apparent hacker who was selling access to usernames and passwords for customers of multiple data-search Web sites.

A few hours of online sleuthing showed that these sites and dozens of others with similar names all at one time shared several toll-free phone numbers for customer support. The results returned by searching on those numbers suggests a singular reason this network of data-search Web sites changed their support numbers so frequently: They quickly became associated with online reports of fraud by angry customers.

That’s because countless people who were enticed to pay for reports generated by these services later complained that although the sites advertised access for just $1, they were soon hit with a series of much larger charges on their credit cards.

Using historic Web site registration records obtained from Domaintools.com (a former advertiser on this site), KrebsOnSecurity discovered that all of the sites linked back to two related companies — Las Vegas, Nev.-based Penguin Marketing, and Terra Marketing Group out of Alberta, Canada.

Both of these entities are owned by Jesse Willms, a man The Atlantic magazine described in an unflattering January 2014 profile as “The Dark Lord of the Internet” [not to be confused with The Dark Overlord].

Jesse Willms’ Linkedin profile.

The Atlantic pointed to a sprawling lawsuit filed by the Federal Trade Commission, which alleged that between 2007 and 2011, Willms defrauded consumers of some $467 million by enticing them to sign up for “risk free” product trials and then billing their cards recurring fees for a litany of automatically enrolled services they hadn’t noticed in the fine print.

“In just a few months, Willms’ companies could charge a consumer hundreds of dollars like this, and making the flurry of debits stop was such a convoluted process for those ensnared by one of his schemes that some customers just canceled their credit cards and opened new ones,” wrote The Atlantic’s Taylor Clark.

Willms’ various previous ventures reportedly extended far beyond selling access to public records. In fact, it’s likely everyone reading this story has at one time encountered an ad for one of his dodgy, bait-and-switch business schemes, The Atlantic noted:

“If you’ve used the Internet at all in the past six years, your cursor has probably lingered over ads for Willms’s Web sites more times than you’d suspect. His pitches generally fit in nicely with what have become the classics of the dubious-ad genre: tropes like photos of comely newscasters alongside fake headlines such as “Shocking Diet Secrets Exposed!”; too-good-to-be-true stories of a “local mom” who “earns $629/day working from home”; clusters of text links for miracle teeth whiteners and “loopholes” entitling you to government grants; and most notorious of all, eye-grabbing animations of disappearing “belly fat” coupled with a tagline promising the same results if you follow “1 weird old trick.” (A clue: the “trick” involves typing in 16 digits and an expiration date.)”

In a separate lawsuit, Microsoft accused Willms’ businesses of trafficking in massive quantities of counterfeit copies of its software. Oprah Winfrey also sued a Willms-affiliated site (oprahsdietscecrets.com) for linking her to products and services she claimed she had never endorsed.

KrebsOnSecurity reached out to multiple customers whose name, email address and cleartext passwords were exposed in the screenshot shared by the Dark Web auctioneer who apparently hacked Willms’ Web sites. All three of those who responded shared roughly the same experience: They said they’d ordered reports for specific criminal background checks from the sites on the promise of a $1 risk-free fee, never found what they were looking for, and were subsequently hit by the same merchant for credit card charges ranging from $20 to $38. Continue reading

Booter Boss Interviewed in 2014 Pleads Guilty

February 28, 2019

A 20-year-old Illinois man has pleaded guilty to running multiple DDoS-for-hire services that launched millions of attacks over several years. The plea deal comes almost exactly five years after KrebsOnSecurity interviewed both the admitted felon and his father and urged the latter to take a more active interest in his son’s online activities.

Sergiy P. Usatyuk of Orland Park, Ill. pleaded guilty this week to one count of conspiracy to cause damage to Internet-connected computers and for his role in owning, administering and supporting illegal “booter” or “stresser” services designed to knock Web sites offline, including exostress[.]in, quezstresser[.]com, betabooter[.]com, databooter[.]com, instabooter[.]com, polystress[.]com and zstress[.]net.

Some of Rasbora’s posts on hackforums[.]net prior to our phone call in 2014. Most of these have since been deleted.

A U.S. Justice Department press release on the guilty plea says Usatyuk — operating under the hacker aliases “Andrew Quez” and “Brian Martinez” — admitted developing, controlling and operating the aforementioned booter services from around August 2015 through November 2017. But Usatyuk’s involvement in the DDoS-for-hire space very much predates that period.

In February 2014, KrebsOnSecurity reached out to Usatyuk’s father Peter Usatyuk, an assistant professor at the University of Illinois at Chicago. I did so because a brief amount of sleuthing on Hackforums[.]net revealed that his then 15-year-old son Sergiy — who at the time went by the nicknames “Rasbora” and “Mr. Booter Master”  — was heavily involved in helping to launch crippling DDoS attacks.

I phoned Usatyuk the elder because Sergiy’s alter egos had been posting evidence on Hackforums and elsewhere that he’d just hit KrebsOnSecurity.com with a 200 Gbps DDoS attack, which was then considered a fairly impressive DDoS assault.

“I am writing you after our phone conversation just to confirm that you may call evening time/weekend to talk to my son Sergio regarding to your reasons,” Peter Usatyuk wrote in an email to this author on Feb. 13, 2014. “I also have [a] major concern what my 15 yo son [is] doing. If you think that is any kind of illegal work, please, let me know.” Continue reading

Crypto Mining Service Coinhive to Call it Quits

February 27, 2019

Roughly one year ago, KrebsOnSecurity published a lengthy investigation into the individuals behind Coinhive[.]com, a cryptocurrency mining service that has been heavily abused to force hacked Web sites to mine virtual currency. On Tuesday, Coinhive announced plans to pull the plug on the project early next month.

A message posted to the Coinhive blog on Tuesday, Feb. 26, 2019.

In March 2018, Coinhive was listed by many security firms as the top malicious threat to Internet users, thanks to the tendency for Coinhive’s computer code to be surreptitiously deployed on hacked Web sites to steal the computer processing power of its visitors’ devices.

Coinhive took a whopping 30 percent of the cut of all Monero currency mined by its code, and this presented something of a conflict of interest when it came to stopping the rampant abuse of its platform. At the time, Coinhive was only responding to abuse reports when contacted by a hacked site’s owner. Moreover, when it would respond, it did so by invalidating the cryptographic key tied to the abuse.

Trouble was, killing the key did nothing to stop Coinhive’s code from continuing to mine Monero on a hacked site. Once a key was invalidated, Coinhive would simply cut out the middleman and proceed to keep 100 percent of the cryptocurrency mined by sites tied to that account from then on.

In response to that investigation, Coinhive made structural changes to its platform to ensure it was no longer profiting from this shady practice.

Troy Mursch is chief research officer at Bad Packets LLC, a company that has closely chronicled a number of high-profile Web sites that were hacked and seeded with Coinhive mining code over the years. Mursch said that after those changes by Coinhive, the mining service became far less attractive to cybercriminals.

“After that, it was not exactly enticing for miscreants to use their platform,” Mursch said. “Most of those guys just took their business elsewhere to other mining pools that don’t charge anywhere near such high fees.”

As Coinhive noted in the statement about its closure, a severe and widespread drop in the value of most major crytpocurrencies weighed heavily on its decision. At the time of my March 2018 piece on Coinhive, Monero was trading at an all-time high of USD $342 per coin, according to charts maintained by coinmarketcap.com. Today, a single Monero is worth less than $50. Continue reading

Former Russian Cybersecurity Chief Sentenced to 22 Years in Prison

February 26, 2019

A Russian court has handed down lengthy prison terms for two men convicted on treason charges for allegedly sharing information about Russian cybercriminals with U.S. law enforcement officials. The men — a former Russian cyber intelligence official and an executive at Russian security firm Kaspersky Lab — were reportedly prosecuted for their part in an investigation into Pavel Vrublevsky, a convicted cybercriminal who ran one of the world’s biggest spam networks and was a major focus of my 2014 book, Spam Nation.

Sergei Mikhailov, formerly deputy chief of Russia’s top anti-cybercrime unit, was sentenced today to 22 years in prison. The court also levied a 14-year sentence against Ruslan Stoyanov, a senior employee at Kaspersky Lab. Both men maintained their innocence throughout the trial.

Following their dramatic arrests in 2016, many news media outlets reported that the men were suspected of having tipped off American intelligence officials about those responsible for Russian hacking activities tied to the 2016 U.S. presidential election.

That’s because two others arrested for treason at the same time — Mikhailov subordinates Georgi Fomchenkov and Dmitry Dokuchaev — were reported by Russian media to have helped the FBI investigate Russian servers linked to the 2016 hacking of the Democratic National Committee. The case against Fomchenkov and Dokuchaev has not yet gone to trial.

What exactly was revealed during the trial of Mikhailov and Stoyanov is not clear, as the details surrounding it were classified. But according to information first reported by KrebsOnSecurity in January 2017, the most likely explanation for their prosecution stemmed from a long-running grudge held by Pavel Vrublevsky, a Russian businessman who ran a payment firm called ChronoPay and for years paid most of the world’s top spammers and virus writers to pump malware and hundreds of billions of junk emails into U.S. inboxes. Continue reading

Payroll Provider Gives Extortionists a Payday

February 23, 2019

Payroll software provider Apex Human Capital Management suffered a ransomware attack this week that severed payroll management services for hundreds of the company’s customers for nearly three days. Faced with the threat of an extended outage, Apex chose to pay the ransom demand and begin the process of restoring service to customers.

Roswell, Ga. based Apex HCM is a cloud-based payroll software company that serves some 350 payroll service bureaus that in turn provide payroll services to small and mid-sized businesses. At 4 a.m. on Tuesday, Feb. 19, Apex was alerted that its systems had been infected with a destructive strain of ransomware that encrypts computer files and demands payment for a digital key needed to unscramble the data.

The company quickly took all of its systems offline, and began notifying customers that it was trying to remediate a security threat. Over a series of bi-hourly updates, Apex kept estimating that it expected to restore service in a few hours, only to have to walk back those estimates almost every other time a new customer update went out.

Contacted Wednesday by an Apex client who was nervous about being unable to make this week’s payroll for his clients, KrebsOnSecurity reached out to Apex for comment. Ian Oxman, the company’s chief marketing officer, said the ransomware never touched customer data, but instead encrypted and disrupted everything in the company’s computer systems and at its off-site disaster recovery systems.

“We had just recently completed a pretty state-of-the-art disaster recovery plan off-site out and out of state that was mirroring our live system,” Oxman said. “But when the ransomware bomb went off, not only did it go through and infect our own network, it was then immediately picked up in our disaster recovery site, which made switching over to that site unusable.”

Oxman said Apex hired two outside security firms, and by Feb. 20 the consensus among all three was that paying the ransom was the fastest way to get back online. The company declined to specify how much was paid or what strain of ransomware was responsible for the attack.

“We paid the ransom, and it sucked,” Oxman said. “In respect for our clients who needed to get their businesses up and running that was going to be obviously the quicker path.”

Unfortunately for Apex, paying up didn’t completely solve its problems. For one thing, Oxman said, the decryption key they were given after paying the ransom didn’t work exactly as promised. Instead of restoring all files and folders to their pre-encrypted state, the decryption process broke countless file directories and rendered many executable files inoperable — causing even more delays.

“When they encrypt the data, that happens really fast,” he said. “When they gave us the keys to decrypt it, things didn’t go quite as cleanly.” Continue reading

New Breed of Fuel Pump Skimmer? Not Really

February 21, 2019

Fraud investigators say they’ve uncovered a sophisticated new breed of credit card skimmers being installed at gas pumps that is capable of relaying stolen card data via mobile text message. KrebsOnSecurity has since learned those claims simply don’t hold water.

An earlier version of this story cited an alert sent by the U.S. Secret Service and interviews with a company that helps merchants secure their payment terminals. The claims were that a circular device found on the side of a gas pump was a skimmer that was believed to be responsible for communicating with other Bluetooth-based skimmers found embedded in the pumps, and that its purpose was to gather stolen card data and send it off wirelessly to the skimmer thieves via text message.

Since that story was published, I heard from a reader who works in security for the company that owns the compromised filling station in question. This person asked not to be quoted directly, but shared information showing that the mysterious circular device was not a Bluetooth anything. Rather, he said, it is little more than a GPS-based tracker that can be bought at Amazon and other online stores for about $100-$150.

The source shared a clearer image of the “skimmer,” and a review of the components shown there indicate this thing is indeed a GPS tracker — the kind of device that a suspicious husband or wife might attach to the undercarriage of the family car to track the other’s whereabouts in real time:

The most likely explanation as to why this tracker was on the side of a gas pump to begin with is that someone who was being tracked discovered it and left it at the station. The source also said claims that this was found beneath an NFC reader on the pump are not correct either. However, he said it was true that there were multiple gas pumps at the station that were internally compromised with Bluetooth skimming devices.

While I am not wild about having to post this correction, I also don’t believe it would be right to simply unpublish the original story — flawed as it is. So in the interests of full transparency, what follows is the original piece, minus the lede.

Continue reading

A Deep Dive on the Recent Widespread DNS Hijacking Attacks

February 18, 2019

The U.S. government — along with a number of leading security companies — recently warned about a series of highly complex and widespread attacks that allowed suspected Iranian hackers to siphon huge volumes of email passwords and other sensitive data from multiple governments and private companies. But to date, the specifics of exactly how that attack went down and who was hit have remained shrouded in secrecy.

This post seeks to document the extent of those attacks, and traces the origins of this overwhelmingly successful cyber espionage campaign back to a cascading series of breaches at key Internet infrastructure providers.

Before we delve into the extensive research that culminated in this post, it’s helpful to review the facts disclosed publicly so far. On Nov. 27, 2018, Cisco’s Talos research division published a write-up outlining the contours of a sophisticated cyber espionage campaign it dubbed “DNSpionage.”

The DNS part of that moniker refers to the global “Domain Name System,” which serves as a kind of phone book for the Internet by translating human-friendly Web site names (example.com) into numeric Internet address that are easier for computers to manage.

Talos said the perpetrators of DNSpionage were able to steal email and other login credentials from a number of government and private sector entities in Lebanon and the United Arab Emirates by hijacking the DNS servers for these targets, so that all email and virtual private networking (VPN) traffic was redirected to an Internet address controlled by the attackers.

Talos reported that these DNS hijacks also paved the way for the attackers to obtain SSL encryption certificates for the targeted domains (e.g. webmail.finance.gov.lb), which allowed them to decrypt the intercepted email and VPN credentials and view them in plain text.

On January 9, 2019, security vendor FireEye released its report, “Global DNS Hijacking Campaign: DNS Record Manipulation at Scale,” which went into far greater technical detail about the “how” of the espionage campaign, but contained few additional details about its victims.

About the same time as the FireEye report, the U.S. Department of Homeland Security issued a rare emergency directive ordering all U.S. federal civilian agencies to secure the login credentials for their Internet domain records. As part of that mandate, DHS published a short list of domain names and Internet addresses that were used in the DNSpionage campaign, although those details did not go beyond what was previously released by either Cisco Talos or FireEye.

That changed on Jan. 25, 2019, when security firm CrowdStrike published a blog post listing virtually every Internet address known to be (ab)used by the espionage campaign to date. The remainder of this story is based on open-source research and interviews conducted by KrebsOnSecurity in an effort to shed more light on the true extent of this extraordinary — and ongoing — attack.

The “indicators of compromise” related to the DNSpionage campaign, as published by CrowdStrike.

PASSIVE DNS

I began my research by taking each of the Internet addresses laid out in the CrowdStrike report and running them through both Farsight Security and SecurityTrails, services that passively collect data about changes to DNS records tied to tens of millions of Web site domains around the world.

Working backwards from each Internet address, I was able to see that in the last few months of 2018 the hackers behind DNSpionage succeeded in compromising key components of DNS infrastructure for more than 50 Middle Eastern companies and government agencies, including targets in Albania, Cyprus, Egypt, Iraq, Jordan, Kuwait, Lebanon, Libya, Saudi Arabia and the United Arab Emirates.

For example, the passive DNS data shows the attackers were able to hijack the DNS records for mail.gov.ae, which handles email for government offices of the United Arab Emirates. Here are just a few other interesting assets successfully compromised in this cyber espionage campaign:

-nsa.gov.iq: the National Security Advisory of Iraq
-webmail.mofa.gov.ae: email for the United Arab Emirates’ Ministry of Foreign Affairs
-shish.gov.al: the State Intelligence Service of Albania
-mail.mfa.gov.eg: mail server for Egypt’s Ministry of Foreign Affairs
-mod.gov.eg: Egyptian Ministry of Defense
-embassy.ly: Embassy of Libya
-owa.e-albania.al: the Outlook Web Access portal for the e-government portal of Albania
-mail.dgca.gov.kw: email server for Kuwait’s Civil Aviation Bureau
-gid.gov.jo: Jordan’s General Intelligence Directorate
-adpvpn.adpolice.gov.ae: VPN service for the Abu Dhabi Police
-mail.asp.gov.al: email for Albanian State Police
-owa.gov.cy: Microsoft Outlook Web Access for Government of Cyprus
-webmail.finance.gov.lb: email for Lebanon Ministry of Finance
-mail.petroleum.gov.eg: Egyptian Ministry of Petroleum
-mail.cyta.com.cy: Cyta telecommunications and Internet provider, Cyprus
-mail.mea.com.lb: email access for Middle East Airlines

The passive DNS data provided by Farsight and SecurityTrails also offered clues about when each of these domains was hijacked. In most cases, the attackers appear to have changed the DNS records for these domains (we’ll get to the “how” in a moment) so that the domains pointed to servers in Europe that they controlled.

Shortly after the DNS records for these TLDs were hijacked — sometimes weeks, sometimes just days or hours — the attackers were able to obtain SSL certificates for those domains from SSL providers Comodo and/or Let’s Encrypt. The preparation for several of these attacks can be seen at crt.sh, which provides a searchable database of all new SSL certificate creations.

Let’s take a closer look at one example. The CrowdStrike report references the Internet address 139.59.134[.]216 (see above), which according to Farsight was home to just seven different domains over the years. Two of those domains only appeared at that Internet address in December 2018, including domains in Lebanon and — curiously — Sweden.

The first domain was “ns0.idm.net.lb,” which is a server for the Lebanese Internet service provider IDM. From early 2014 until December 2018, ns0.idm.net.lb pointed to 194.126.10[.]18, which appropriately enough is an Internet address based in Lebanon. But as we can see in the screenshot from Farsight’s data below, on Dec. 18, 2018, the DNS records for this ISP were changed to point Internet traffic destined for IDM to a hosting provider in Germany (the 139.59.134[.]216 address).

Source: Farsight Security

Notice what else is listed along with IDM’s domain at 139.59.134[.]216, according to Farsight:

The DNS records for the domains sa1.dnsnode.net and fork.sth.dnsnode.net also were changed from their rightful home in Sweden to the German hosting provider controlled by the attackers in December. These domains are owned by Netnod Internet Exchange, a major global DNS provider based in Sweden. Netnod also operates one of the 13 “root” name servers, a critical resource that forms the very foundation of the global DNS system.

We’ll come back to Netnod in a moment. But first let’s look at another Internet address referenced in the CrowdStrike report as part of the infrastructure abused by the DNSpionage hackers: 82.196.11[.]127. This address in The Netherlands also is home to the domain mmfasi[.]com, which Crowdstrike says was one of the attacker’s domains that was used as a DNS server for some of the hijacked infrastructure.

As we can see in the screenshot above, 82.196.11[.]127 was temporarily home to another pair of Netnod DNS servers, as well as the server “ns.anycast.woodynet.net.” That domain is derived from the nickname of Bill Woodcock, who serves as executive director of Packet Clearing House (PCH).

PCH is a nonprofit entity based in northern California that also manages significant amounts of the world’s DNS infrastructure, particularly the DNS for more than 500 top-level domains and a number of the Middle East top-level domains targeted by DNSpionage. Continue reading

Bomb Threat Hoaxer Exposed by Hacked Gaming Site

February 14, 2019

Federal authorities this week arrested a North Carolina man who allegedly ran with a group of online hooligans that attacked Web sites (including this one), took requests on Twitter to call in bomb threats to thousands of schools, and tried to frame various online gaming sites as the culprits. In an ironic twist, the accused — who had fairly well separated his real life identity from his online personas — appears to have been caught after a gaming Web site he frequented got hacked.

On Feb. 12, the U.S. Justice Department announced the arrest of Timothy Dalton Vaughn, a 20-year-old from Winston-Salem, N.C. Vaughn is alleged to have been a key member of the Apophis Squad, a gang of ne’er-do-wells who made bomb threats against thousands of schools and launched distributed denial-of-service (DDoS) attacks against Web sites — including KrebsOnSecurity on multiple occasions.

The feds say Vaughn used multiple aliases on Twitter and elsewhere to crow about his attacks, including “HDGZero,” “WantedByFeds,” and “Xavier Farbel.” Among the Apophis Squad’s targets was encrypted mail service Protonmail, which reached out to this author last year for clues about the identities of the Apophis Squad members after noticing we were both being targeted by them and receiving demands for money in exchange for calling off the attacks.

Protonmail later publicly thanked KrebsOnSecurity for helping to bring about the arrest of Apophis Squad leader George Duke-Cohan — a.k.a. “opt1cz,” “7R1D3n7,” and “Pl3xl3t,” — a 19-year-old from the United Kingdom who was convicted in December 2018 and sentenced to three years in prison. But the real-life identity of HDGZero remained a mystery to both of us, as there was little publicly available information at the time connecting that moniker to anyone.

The DDoS-for-hire service run by Apophis Squad listed their members.

That is, until early January 2019, when news broke that hackers had broken into the servers of computer game maker BlankMediaGames and made off with account details of some 7.6 million people who had signed up to play “Town of Salem,” the company’s browser-based role playing game. That stolen information has since been posted and resold in underground forums.

A review of the leaked BlankMediaGames user database shows that in late 2018, someone who selected the username “hdgzero” signed up to play Town of Salem, registering with the email address xavierfarbel@gmail.com. The data also shows this person registered at the site using a Sprint mobile device with an Internet address that traced back to the Carolinas. Continue reading