Is Your Chip Card Secure? Much Depends on Where You Bank

July 30, 2020

Chip-based credit and debit cards are designed to make it infeasible for skimming devices or malware to clone your card when you pay for something by dipping the chip instead of swiping the stripe. But a recent series of malware attacks on U.S.-based merchants suggest thieves are exploiting weaknesses in how certain financial institutions have implemented the technology to sidestep key chip card security features and effectively create usable, counterfeit cards.

A chip-based credit card. Image: Wikipedia.

Traditional payment cards encode cardholder account data in plain text on a magnetic stripe, which can be read and recorded by skimming devices or malicious software surreptitiously installed in payment terminals. That data can then be encoded onto anything else with a magnetic stripe and used to place fraudulent transactions.

Newer, chip-based cards employ a technology known as EMV that encrypts the account data stored in the chip. The technology causes a unique encryption key — referred to as a token or “cryptogram” — to be generated each time the chip card interacts with a chip-capable payment terminal.

Virtually all chip-based cards still have much of the same data that’s stored in the chip encoded on a magnetic stripe on the back of the card. This is largely for reasons of backward compatibility since many merchants — particularly those in the United States — still have not fully implemented chip card readers. This dual functionality also allows cardholders to swipe the stripe if for some reason the card’s chip or a merchant’s EMV-enabled terminal has malfunctioned.

But there are important differences between the cardholder data stored on EMV chips versus magnetic stripes. One of those is a component in the chip known as an integrated circuit card verification value or “iCVV” for short — also known as a “dynamic CVV.”

The iCVV differs from the card verification value (CVV) stored on the physical magnetic stripe, and protects against the copying of magnetic-stripe data from the chip and the use of that data to create counterfeit magnetic stripe cards. Both the iCVV and CVV values are unrelated to the three-digit security code that is visibly printed on the back of a card, which is used mainly for e-commerce transactions or for card verification over the phone.

The appeal of the EMV approach is that even if a skimmer or malware manages to intercept the transaction information when a chip card is dipped, the data is only valid for that one transaction and should not allow thieves to conduct fraudulent payments with it going forward.

However, for EMV’s security protections to work, the back-end systems deployed by card-issuing financial institutions are supposed to check that when a chip card is dipped into a chip reader, only the iCVV is presented; and conversely, that only the CVV is presented when the card is swiped. If somehow these do not align for a given transaction type, the financial institution is supposed to decline the transaction.

The trouble is that not all financial institutions have properly set up their systems this way. Unsurprisingly, thieves have known about this weakness for years. In 2017, I wrote about the increasing prevalence of “shimmers,” high-tech card skimming devices made to intercept data from chip card transactions.

A close-up of a shimmer found on a Canadian ATM. Source: RCMP.

More recently, researchers at Cyber R&D Labs published a paper detailing how they tested 11 chip card implementations from 10 different banks in Europe and the U.S. The researchers found they could harvest data from four of them and create cloned magnetic stripe cards that were successfully used to place transactions.

There are now strong indications the same method detailed by Cyber R&D Labs is being used by point-of-sale (POS) malware to capture EMV transaction data that can then be resold and used to fabricate magnetic stripe copies of chip-based cards.

Earlier this month, the world’s largest payment card network Visa released a security alert regarding a recent merchant compromise in which known POS malware families were apparently modified to target EMV chip-enabled POS terminals.

“The implementation of secure acceptance technology, such as EMV® Chip, significantly reduced the usability of the payment account data by threat actors as the available data only included personal account number (PAN), integrated circuit card verification value (iCVV) and expiration date,” Visa wrote. “Thus, provided iCVV is validated properly, the risk of counterfeit fraud was minimal. Additionally, many of the merchant locations employed point-to-point encryption (P2PE) which encrypted the PAN data and further reduced the risk to the payment accounts processed as EMV® Chip.”

Visa did not name the merchant in question, but something similar seems to have happened at Key Food Stores Co-Operative Inc., a supermarket chain in the northeastern United States. Key Food initially disclosed a card breach in March 2020, but two weeks ago updated its advisory to clarify that EMV transaction data also was intercepted.

“The POS devices at the store locations involved were EMV enabled,” Key Food explained. “For EMV transactions at these locations, we believe only the card number and expiration date would have been found by the malware (but not the cardholder name or internal verification code).”

While Key Food’s statement may be technically accurate, it glosses over the reality that the stolen EMV data could still be used by fraudsters to create magnetic stripe versions of EMV cards presented at the compromised store registers in cases where the card-issuing bank hadn’t implemented EMV correctly. Continue reading

Here’s Why Credit Card Fraud is Still a Thing

July 29, 2020

Most of the civilized world years ago shifted to requiring computer chips in payment cards that make it far more expensive and difficult for thieves to clone and use them for fraud. One notable exception is the United States, which is still lurching toward this goal. Here’s a look at the havoc that lag has wrought, as seen through the purchasing patterns at one of the underground’s biggest stolen card shops that was hacked last year.

In October 2019, someone hacked BriansClub, a popular stolen card bazaar that uses this author’s likeness and name in its marketing. Whoever compromised the shop siphoned data on millions of card accounts that were acquired over four years through various illicit means from legitimate, hacked businesses around the globe — but mostly from U.S. merchants. That database was leaked to KrebsOnSecurity, which in turn shared it with multiple sources that help fight payment card fraud.

An ad for BriansClub has been using my name and likeness for years to peddle millions of stolen credit cards.

Among the recipients was Damon McCoy, an associate professor at New York University’s Tandon School of Engineering [full disclosure: NYU has been a longtime advertiser on this blog]. McCoy’s work in probing the credit card systems used by some of the world’s biggest purveyors of junk email greatly enriched the data that informed my 2014 book Spam Nation, and I wanted to make sure he and his colleagues had a crack at the BriansClub data as well.

McCoy and fellow NYU researchers found BriansClub earned close to $104 million in gross revenue from 2015 to early 2019, and listed over 19 million unique card numbers for sale. Around 97% of the inventory was stolen magnetic stripe data, commonly used to produce counterfeit cards for in-person payments.

“What surprised me most was there are still a lot of people swiping their cards for transactions here,” McCoy said.

In 2015, the major credit card associations instituted new rules that made it riskier and potentially more expensive for U.S. merchants to continue allowing customers to swipe the stripe instead of dip the chip. Complicating this transition was the fact that many card-issuing U.S. banks took years to replace their customer card stocks with chip-enabled cards, and countless retailers dragged their feet in updating their payment terminals to accept chip-based cards.

Indeed, three years later the U.S. Federal Reserve estimated (PDF) that 43.3 percent of in-person card payments were still being processed by reading the magnetic stripe instead of the chip. This might not have been such a big deal if payment terminals at many of those merchants weren’t also compromised with malicious software that copied the data when customers swiped their cards.

Following the 2015 liability shift, more than 84 percent of the non-chip cards advertised by BriansClub were sold, versus just 35 percent of chip-based cards during the same time period.

“All cards without a chip were in much higher demand,” McCoy said.

Perhaps surprisingly, McCoy and his fellow NYU researchers found BriansClub customers purchased only 40% of its overall inventory. But what they did buy supports the notion that crooks generally gravitate toward cards issued by financial institutions that are perceived as having fewer or more lax protections against fraud.

Source: NYU.

While the top 10 largest card issuers in the United States accounted for nearly half of the accounts put up for sale at BriansClub, only 32 percent of those accounts were sold — and at a roughly half the median price of those issued by small- and medium-sized institutions.

In contrast, more than half of the stolen cards issued by small and medium-sized institutions were purchased from the fraud shop. This was true even though by the end of 2018, 91 percent of cards for sale from medium-sized institutions were chip-based, and 89 percent from smaller banks and credit unions. Nearly all cards issued by the top ten largest U.S. card issuers (98 percent) were chip-enabled by that time.

REGION LOCK

The researchers found BriansClub customers strongly preferred cards issued by financial institutions in specific regions of the United States, specifically Colorado, Nevada, and South Carolina.

“For whatever reason, those regions were perceived as having lower anti-fraud systems or those that were not as effective,” McCoy said.

Cards compromised from merchants in South Carolina were in especially high demand, with fraudsters willing to spend twice as much on those cards per capita than any other state — roughly $1 per resident.

That sales trend also was reflected in the support tickets filed by BriansClub customers, who frequently were informed that cards tied to the southeastern United States were less likely to be restricted for use outside of the region.

Image: NYU.

McCoy said the lack of region locking also made stolen cards issued by banks in China something of a hot commodity, even though these cards demanded much higher prices (often more than $100 per account): The NYU researchers found virtually all available Chinese cards were sold soon after they were put up for sale. Ditto for the relatively few corporate and business cards for sale.

A lack of region locks may also have caused card thieves to gravitate toward buying up as many cards as they could from USAA, a savings bank that caters to active and former military service members and their immediate families. More than 83 percent of the available USAA cards were sold between 2015 and 2019, the researchers found.

Although Visa cards made up more than half of accounts put up for sale (12.1 million), just 36 percent were sold. MasterCards were the second most-plentiful (3.72 million), and yet more than 54 percent of them sold.

American Express and Discover, which unlike Visa and MasterCard are so-called “closed loop” networks that do not rely on third-party financial institutions to issue cards and manage fraud on them, saw 28.8 percent and 33 percent of their stolen cards purchased, respectively. Continue reading

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Business ID Theft Soars Amid COVID Closures

July 27, 2020

Identity thieves who specialize in running up unauthorized lines of credit in the names of small businesses are having a field day with all of the closures and economic uncertainty wrought by the COVID-19 pandemic, KrebsOnSecurity has learned. This story is about the victims of a particularly aggressive business ID theft ring that’s spent years targeting small businesses across the country and is now pivoting toward using that access for pandemic assistance loans and unemployment benefits.

Most consumers are likely aware of the threat from identity theft, which occurs when crooks apply for new lines of credit in your name. But the same crime can be far more costly and damaging when thieves target small businesses. Unfortunately, far too many entrepreneurs are simply unaware of the threat or don’t know how to be watchful for it.

What’s more, with so many small enterprises going out of business or sitting dormant during the COVID-19 pandemic, organized fraud rings have an unusually rich pool of targets to choose from.

Short Hills, N.J.-based Dun & Bradstreet [NYSE:DNB] is a data analytics company that acts as a kind of de facto credit bureau for companies: When a business owner wants to open a new line of credit, creditors typically check with Dun & Bradstreet to gauge the business’s history and trustworthiness.

In 2019, Dun & Bradstreet saw more than a 100 percent increase in business identity theft. For 2020, the company estimates an overall 258 percent spike in the crime. Dun & Bradstreet said that so far this year it has received over 4,700 tips and leads where business identity theft or malfeasance are suspected.

“The ferocity of cyber criminals to take advantage of COVID-19 uncertainties by preying on small businesses is disturbing,” said Andrew LaMarca, who leads the global high-risk and fraud team at Dun & Bradstreet.

For the past several months, Milwaukee, Wisc. based cyber intelligence firm Hold Security has been monitoring the communications between and among a businesses ID theft gang apparently operating in Georgia and Florida but targeting businesses throughout the United States. That surveillance has helped to paint a detailed picture of how business ID thieves operate, as well as the tricks they use to gain credit in a company’s name.

Hold Security founder Alex Holden said the group appears to target both active and dormant or inactive small businesses. The gang typically will start by looking up the business ownership records at the Secretary of State website that corresponds to the company’s state of incorporation. From there, they identify the officers and owners of the company, acquire their Social Security and Tax ID numbers from the dark web and other sources online.

To prove ownership over the hijacked firms, they hire low-wage image editors online to help fabricate and/or modify a number of official documents tied to the business — including tax records and utility bills.

The scammers frequently then file phony documents with the Secretary of State’s office in the name(s) of the business owners, but include a mailing address that they control. They also create email addresses and domain names that mimic the names of the owners and the company to make future credit applications appear more legitimate, and submit the listings to business search websites, such as yellowpages.com.

For both dormant and existing businesses, the fraudsters attempt to create or modify the target company’s accounts at Dun & Bradstreet. In some cases, the scammers create dashboard accounts in the business’s names at Dun & Bradstreet’s credit builder portal; in others, the bad guys have actually hacked existing business accounts at DNB, requesting a new DUNS numbers for the business (a DUNS number is a unique, nine-digit identifier for businesses).

Finally, after the bogus profiles are approved by Dun & Bradstreet, the gang waits a few weeks or months and then starts applying for new lines of credit in the target business’s name at stores like Home Depot, Office Depot and Staples. Then they go on a buying spree with the cards issued by those stores.

Usually, the first indication a victim has that they’ve been targeted is when the debt collection companies start calling.

“They are using mostly small companies that are still active businesses but currently not operating because of COVID-19,” Holden said. “With this gang, we see four or five people working together. The team leader manages the work between people. One person seems to be in charge of getting stolen cards from the dark web to pay for the reactivation of businesses through the secretary of state sites. Another team member works on revising the business documents and registering them on various sites. The others are busy looking for specific businesses they want to revive.”

Holden said the gang appears to find success in getting new lines of credit with about 20 percent of the businesses they target.

“One’s personal credit is nothing compared to the ability of corporations to borrow money,” he said. “That’s bad because while the credit system may be flawed for individuals, it’s an even worse situation on average when we’re talking about businesses.”

Holden said over the past few months his firm has seen communications between the gang’s members indicating they have temporarily shifted more of their energy and resources to defrauding states and the federal government by filing unemployment insurance claims and apply for pandemic assistance loans with the Small Business Administration.

“It makes sense, because they’ve already got control over all these dormant businesses,” he said. “So they’re now busy trying to get unemployment payments and SBA loans in the names of these companies and their employees.”

PHANTOM OFFICES

Hold Security shared data intercepted from the gang that listed the personal and financial details of dozens of companies targeted for ID theft, including Dun & Bradstreet logins the crooks had created for the hijacked businesses. Dun & Bradstreet declined to comment on the matter, other than to say it was working with federal and state authorities to alert affected businesses and state regulators.

Among those targeted was Environmental Safety Consultants Inc. (ESC), a 37-year-old environmental engineering firm based in Bradenton, Fla. ESC owner Scott Russell estimates his company was initially targeted nearly two years ago, and that he first became aware something wasn’t right when he recently began getting calls from Home Depot’s corporate offices inquiring about the company’s delinquent account.

But Russell said he didn’t quite grasp the enormity of the situation until last year, when he was contacted by the manager of a virtual office space across town who told him about a suspiciously large number of deliveries at an office space that was rented out in his name.

Russell had never rented that particular office. Rather, the thieves had done it for him, using his name and the name of his business. The office manager said the deliveries came virtually non-stop, even though there was apparently no business operating within the rented premises. And in each case, shortly after the shipments arrived someone would show up and cart them away.

“She said we don’t think it’s you,” he recalled. “Turns out, they had paid for a lease in my name with someone else’s credit card. She shared with me a copy of the lease, which included a fraudulent ID and even a vehicle insurance card for a Land Cruiser we got rid of like 15 years ago. The application listed our home address with me and some woman who was not my wife’s name.”

The crates and boxes being delivered to his erstwhile office space were mostly computers and other high-priced items ordered from 10 different Office Depot credit cards that also were not in his name.

“The total value of the electronic equipment that was bought and delivered there was something like $75,000,” Russell said, noting that it took countless hours and phone calls with Office Depot to make it clear they would no longer accept shipments addressed to him or his company. “It was quite spine-tingling to see someone penned a lease in the name of my business and personal identity.”

Even though the virtual office manager had the presence of mind to take photocopies of the driver’s licenses presented by the people arriving to pick up the fraudulent shipments, the local police seemed largely uninterested in pursuing the case, Russell said.

“I went to the local county sheriff’s office and showed them all the documentation I had and the guy just yawned and said he’d get right on it,” he recalled. “The place where the office space was rented was in another county, and the detective I spoke to there about it was interested, but he could never get anyone from my county to follow up.” Continue reading

Thinking of a Cybersecurity Career? Read This

July 24, 2020

Thousands of people graduate from colleges and universities each year with cybersecurity or computer science degrees only to find employers are less than thrilled about their hands-on, foundational skills. Here’s a look at a recent survey that identified some of the bigger skills gaps, and some thoughts about how those seeking a career in these fields can better stand out from the crowd.

Virtually every week KrebsOnSecurity receives at least one email from someone seeking advice on how to break into cybersecurity as a career. In most cases, the aspirants ask which certifications they should seek, or what specialization in computer security might hold the brightest future.

Rarely am I asked which practical skills they should seek to make themselves more appealing candidates for a future job. And while I always preface any response with the caveat that I don’t hold any computer-related certifications or degrees myself, I do speak with C-level executives in cybersecurity and recruiters on a regular basis and frequently ask them for their impressions of today’s cybersecurity job candidates.

A common theme in these C-level executive responses is that a great many candidates simply lack hands-on experience with the more practical concerns of operating, maintaining and defending the information systems which drive their businesses.

Granted, most people who have just graduated with a degree lack practical experience. But happily, a somewhat unique aspect of cybersecurity is that one can gain a fair degree of mastery of hands-on skills and foundational knowledge through self-directed study and old fashioned trial-and-error.

One key piece of advice I nearly always include in my response to readers involves learning the core components of how computers and other devices communicate with one another. I say this because a mastery of networking is a fundamental skill that so many other areas of learning build upon. Trying to get a job in security without a deep understanding of how data packets work is a bit like trying to become a chemical engineer without first mastering the periodic table of elements.

But please don’t take my word for it. The SANS Institute, a Bethesda, Md. based security research and training firm, recently conducted a survey of more than 500 cybersecurity practitioners at 284 different companies in an effort to suss out which skills they find most useful in job candidates, and which are most frequently lacking.

The survey asked respondents to rank various skills from “critical” to “not needed.” Fully 85 percent ranked networking as a critical or “very important” skill, followed by a mastery of the Linux operating system (77 percent), Windows (73 percent), common exploitation techniques (73 percent), computer architectures and virtualization (67 percent) and data and cryptography (58 percent). Perhaps surprisingly, only 39 percent ranked programming as a critical or very important skill (I’ll come back to this in a moment).

How did the cybersecurity practitioners surveyed grade their pool of potential job candidates on these critical and very important skills? The results may be eye-opening:

“Employers report that student cybersecurity preparation is largely inadequate and are frustrated that they have to spend months searching before they find qualified entry-level employees if any can be found,” said Alan Paller, director of research at the SANS Institute. “We hypothesized that the beginning of a pathway toward resolving those challenges and helping close the cybersecurity skills gap would be to isolate the capabilities that employers expected but did not find in cybersecurity graduates.”

The truth is, some of the smartest, most insightful and talented computer security professionals I know today don’t have any computer-related certifications under their belts. In fact, many of them never even went to college or completed a university-level degree program.

Rather, they got into security because they were passionately and intensely curious about the subject, and that curiosity led them to learn as much as they could — mainly by reading, doing, and making mistakes (lots of them).

I mention this not to dissuade readers from pursuing degrees or certifications in the field (which may be a basic requirement for many corporate HR departments) but to emphasize that these should not be viewed as some kind of golden ticket to a rewarding, stable and relatively high-paying career.

More to the point, without a mastery of one or more of the above-mentioned skills, you simply will not be a terribly appealing or outstanding job candidate when the time comes. Continue reading

NY Charges First American Financial for Massive Data Leak

July 23, 2020

In May 2019, KrebsOnSecurity broke the news that the website of mortgage title insurance giant First American Financial Corp. had exposed approximately 885 million records related to mortgage deals going back to 2003. On Wednesday, regulators in New York announced that First American was the target of their first ever cybersecurity enforcement action in connection with the incident, charges that could bring steep financial penalties.

First American Financial Corp.

Santa Ana, Calif.-based First American [NYSE:FAF] is a leading provider of title insurance and settlement services to the real estate and mortgage industries. It employs some 18,000 people and brought in $6.2 billion in 2019.

As first reported here last year, First American’s website exposed 16 years worth of digitized mortgage title insurance records — including bank account numbers and statements, mortgage and tax records, Social Security numbers, wire transaction receipts, and drivers license images.

The documents were available without authentication to anyone with a Web browser.

According to a filing (PDF) by the New York State Department of Financial Services (DFS), the weakness that exposed the documents was first introduced during an application software update in May 2014 and went undetected for years.

Worse still, the DFS found, the vulnerability was discovered in a penetration test First American conducted on its own in December 2018.

“Remarkably, Respondent instead allowed unfettered access to the personal and financial data of millions of its customers for six more months until the breach and its serious ramifications were widely publicized by a nationally recognized cybersecurity industry journalist,” the DFS explained in a statement on the charges.

A redacted screenshot of one of many millions of sensitive records exposed by First American’s Web site.

Reuters reports that the penalties could be significant for First American: The DFS considers each instance of exposed personal information a separate violation, and the company faces penalties of up to $1,000 per violation. Continue reading

Twitter Hacking for Profit and the LoLs

July 22, 2020

The New York Times last week ran an interview with several young men who claimed to have had direct contact with those involved in last week’s epic hack against Twitter. These individuals said they were only customers of the person who had access to Twitter’s internal employee tools, and were not responsible for the actual intrusion or bitcoin scams that took place that day. But new information suggests that at least two of them operated a service that resold access to Twitter employees for the purposes of modifying or seizing control of prized Twitter profiles.

As first reported here on July 16, prior to bitcoin scam messages being blasted out from such high-profile Twitter accounts @barackobama, @joebiden, @elonmusk and @billgates, several highly desirable short-character Twitter account names changed hands, including @L, @6 and @W.

A screenshot of a Discord discussion between the key Twitter hacker “Kirk” and several people seeking to hijack high-value Twitter accounts.

Known as “original gangster” or “OG” accounts, short-character profile names confer a measure of status and wealth in certain online communities, and such accounts can often fetch thousands of dollars when resold in the underground.

The people involved in obtaining those OG accounts on July 15 said they got them from a person identified only as “Kirk,” who claimed to be a Twitter employee. According to The Times, Kirk first reached out to the group through a hacker who used the screen name “lol” on OGusers, a forum dedicated to helping users hijack and resell OG accounts from Twitter and other social media platforms. From The Times’s story:

“The hacker ‘lol’ and another one he worked with, who went by the screen name ‘ever so anxious,’ told The Times that they wanted to talk about their work with Kirk in order to prove that they had only facilitated the purchases and takeovers of lesser-known Twitter addresses early in the day. They said they had not continued to work with Kirk once he began more high-profile attacks around 3:30 p.m. Eastern time on Wednesday.

‘lol’ did not confirm his real-world identity, but said he lived on the West Coast and was in his 20s. “ever so anxious” said he was 19 and lived in the south of England with his mother.

Kirk connected with “lol” late Tuesday and then “ever so anxious” on Discord early on Wednesday, and asked if they wanted to be his middlemen, selling Twitter accounts to the online underworld where they were known. They would take a cut from each transaction.”

Twice in the past year, the OGUsers forum was hacked, and both times its database of usernames, email addresses and private messages was leaked online. A review of the private messages for “lol” on OGUsers provides a glimpse into the vibrant market for the resale of prized OG accounts.

On OGUsers, lol was known to other members as someone who had a direct connection to one or more people working at Twitter who could be used to help fellow members gain access to Twitter profiles, including those that had been suspended for one reason or another. In fact, this was how lol introduced himself to the OGUsers community when he first joined.

“I have a twitter contact who I can get users from (to an extent) and I believe I can get verification from,” lol explained.

In a direct message exchange on OGUsers from November 2019, lol is asked for help from another OGUser member whose Twitter account had been suspended for abuse.

“hello saw u talking about a twitter rep could you please ask if she would be able to help unsus [unsuspend] my main and my friends business account will pay 800-1k for each,” the OGUusers profile inquires of lol.

Lol says he can’t promise anything but will look into it. “I sent her that, not sure if I will get a reply today bc its the weekend but ill let u know,” Lol says.

In another exchange, an OGUser denizen quizzes lol about his Twitter hookup.

“Does she charge for escalations? And how do you know her/what is her department/job. How do you connect with them if I may ask?”

“They are in the Client success team,” lol replies. “No they don’t charge, and I know them through a connection.”

As for how he got access to the Twitter employee, lol declines to elaborate, saying it’s a private method. “It’s a lil method, sorry I cant say.”

In another direct message, lol asks a fellow OGUser member to edit a comment in a forum discussion which included the Twitter account “@tankska,” saying it was his IRL (in real life) Twitter account and that he didn’t want to risk it getting found out or suspended (Twitter says this account doesn’t exist, but a simple text search on Twitter shows the profile was active until late 2019).

“can u edit that comment out, @tankska is a gaming twitter of mine and i dont want it to be on ogu :D’,” lol wrote. “just dont want my irl getting sus[pended].”

Still another OGUser member would post lol’s identifying information into a forum thread, calling lol by his first name — “Josh” — in a post asking lol what he might offer in an auction for a specific OG name.

“Put me down for 100, but don’t note my name in the thread please,” lol wrote.

WHO IS LOL?

The information in lol’s OGUsers registration profile indicates he was probably being truthful with The Times about his location. The hacked forum database shows a user “tankska” registered on OGUsers back in July 2018, but only made one post asking about the price of an older Twitter account for sale.

The person who registered the tankska account on OGUsers did so with the email address jperry94526@gmail.com, and from an Internet address tied to the San Ramon Unified School District in Danville, Calif.

According to 4iq.com, a service that indexes account details like usernames and passwords exposed in Web site data breaches, the jperry94526 email address was used to register accounts at several other sites over the years, including one at the apparel store Stockx.com under the profile name Josh Perry.

Tankska was active only briefly on OGUsers, but the hacked OGUsers database shows that “lol” changed his username three times over the years. Initially, it was “freej0sh,” followed by just “j0sh.”

lol did not respond to requests for comment sent to email addresses tied to his various OGU profiles and Instagram accounts.

ALWAYS IN DISCORD

Last week’s story on the Twitter compromise noted that just before the bitcoin scam tweets went out, several OG usernames changed hands. The story traced screenshots of Twitter tools posted online back to a moniker that is well-known in the OGUsers circle: PlugWalkJoe, a 21-year-old from the United Kingdom.

Speaking with The Times, PlugWalkJoe — whose real name is Joseph O’Connor — said while he acquired a single OG Twitter account (@6) through one of the hackers in direct communication with Kirk, he was otherwise not involved in the conversation.

“I don’t care,” O’Connor told The Times. “They can come arrest me. I would laugh at them. I haven’t done anything.”

In an interview with KrebsOnSecurity, O’Connor likewise asserted his innocence, suggesting at least a half dozen other hacker handles that may have been Kirk or someone who worked with Kirk on July 15, including “Voku,” “Crim/Criminal,” “Promo,” and “Aqua.”

“That twit screenshot was the first time in a while I joke[d], and evidently I shouldn’t have,” he said. “Joking is what got me into this mess.”

O’Connor shared a number of screenshots from a Discord chat conversation on the day of the Twitter hack between Kirk and two others: “Alive,” which is another handle used by lol, and “Ever So Anxious.” Both were described by The Times as middlemen who sought to resell OG Twitter names obtained from Kirk. O’Connor is referenced in these screenshots as both “PWJ” and by his Discord handle, “Beyond Insane.”

The negotiations over highly-prized OG Twitter usernames took place just prior to the hijacked celebrity accounts tweeting out bitcoin scams.

Ever So Anxious told Kirk his OGU nickname was “Chaewon,” which corresponds to a user in the United Kingdom. Just prior to the Twitter compromise, Chaewon advertised a service on the forum that could change the email address tied to any Twitter account for around $250 worth of bitcoin. O’Connor said Chaewon also operates under the hacker alias “Mason.”

“Ever So Anxious” tells Kirk his OGUsers handle is “Chaewon,” and asks Kirk to modify the display names of different OG Twitter handles to read “lol” and “PWJ”.

At one point in the conversation, Kirk tells Alive and Ever So Anxious to send funds for any OG usernames they want to this bitcoin address. The payment history of that address shows that it indeed also received approximately $180,000 worth of bitcoin from the wallet address tied to the scam messages tweeted out on July 15 by the compromised celebrity accounts.

The Twitter hacker “Kirk” telling lol/Alive and Chaewon/Mason/Ever So Anxious where to send the funds for the OG Twitter accounts they wanted.

Continue reading

Who’s Behind Wednesday’s Epic Twitter Hack?

July 16, 2020

Twitter was thrown into chaos on Wednesday after accounts for some of the world’s most recognizable public figures, executives and celebrities starting tweeting out links to bitcoin scams. Twitter says the attack happened because someone tricked or coerced an employee into providing access to internal Twitter administrative tools. This post is an attempt to lay out some of the timeline of the attack, and point to clues about who may have been behind it.

The first public signs of the intrusion came around 3 PM EDT, when the Twitter account for the cryptocurrency exchange Binance tweeted a message saying it had partnered with “CryptoForHealth” to give back 5000 bitcoin to the community, with a link where people could donate or send money.

Minutes after that, similar tweets went out from the accounts of other cryptocurrency exchanges, and from the Twitter accounts for democratic presidential candidate Joe Biden, Amazon CEO Jeff Bezos, President Barack Obama, Tesla CEO Elon Musk, former New York Mayor Michael Bloomberg and investment mogul Warren Buffett.

While it may sound ridiculous that anyone would be fooled into sending bitcoin in response to these tweets, an analysis of the BTC wallet promoted by many of the hacked Twitter profiles shows that over the past 24 hours the account has processed 383 transactions and received almost 13 bitcoin — or approximately USD $117,000.

Twitter issued a statement saying it detected “a coordinated social engineering attack by people who successfully targeted some of our employees with access to internal systems and tools. We know they used this access to take control of many highly-visible (including verified) accounts and Tweet on their behalf. We’re looking into what other malicious activity they may have conducted or information they may have accessed and will share more here as we have it.”

There are strong indications that this attack was perpetrated by individuals who’ve traditionally specialized in hijacking social media accounts via “SIM swapping,” an increasingly rampant form of crime that involves bribing, hacking or coercing employees at mobile phone and social media companies into providing access to a target’s account.

People within the SIM swapping community are obsessed with hijacking so-called “OG” social media accounts. Short for “original gangster,” OG accounts typically are those with short profile names (such as @B or @joe). Possession of these OG accounts confers a measure of status and perceived influence and wealth in SIM swapping circles, as such accounts can often fetch thousands of dollars when resold in the underground.

In the days leading up to Wednesday’s attack on Twitter, there were signs that some actors in the SIM swapping community were selling the ability to change an email address tied to any Twitter account. In a post on OGusers — a forum dedicated to account hijacking — a user named “Chaewon” advertised they could change email address tied to any Twitter account for $250, and provide direct access to accounts for between $2,000 and $3,000 apiece.

The OGUsers forum user “Chaewon” taking requests to modify the email address tied to any twitter account.

“This is NOT a method, you will be given a full refund if for any reason you aren’t given the email/@, however if it is revered/suspended I will not be held accountable,” Chaewon wrote in their sales thread, which was titled “Pulling email for any Twitter/Taking Requests.”

Hours before any of the Twitter accounts for cryptocurrency platforms or public figures began blasting out bitcoin scams on Wednesday, the attackers appear to have focused their attention on hijacking a handful of OG accounts, including “@6.

That Twitter account was formerly owned by Adrian Lamo — the now-deceased “homeless hacker” perhaps best known for breaking into the New York Times’s network and for reporting Chelsea Manning‘s theft of classified documents. @6 is now controlled by Lamo’s longtime friend, a security researcher and phone phreaker who asked to be identified in this story only by his Twitter nickname, “Lucky225.”

Lucky225 said that just before 2 p.m. EDT on Wednesday, he received a password reset confirmation code via Google Voice for the @6 Twitter account. Lucky said he’d previously disabled SMS notifications as a means of receiving multi-factor codes from Twitter, opting instead to have one-time codes generated by a mobile authentication app.

But because the attackers were able to change the email address tied to the @6 account and disable multi-factor authentication, the one-time authentication code was sent to both his Google Voice account and to the new email address added by the attackers.

“The way the attack worked was that within Twitter’s admin tools, apparently you can update the email address of any Twitter user, and it does this without sending any kind of notification to the user,” Lucky told KrebsOnSecurity. “So [the attackers] could avoid detection by updating the email address on the account first, and then turning off 2FA.”

Lucky said he hasn’t been able to review whether any tweets were sent from his account during the time it was hijacked because he still doesn’t have access to it (he has put together a breakdown of the entire episode at this Medium post).

But around the same time @6 was hijacked, another OG account – @B — was swiped. Someone then began tweeting out pictures of Twitter’s internal tools panel showing the @B account.

A screenshot of the hijacked OG Twitter account “@B,” shows the hijackers logged in to Twitter’s internal account tools interface.

Twitter responded by removing any tweets across its platform that included screenshots of its internal tools, and in some cases temporarily suspended the ability of those accounts to tweet further.

Another Twitter account — @shinji — also was tweeting out screenshots of Twitter’s internal tools. Minutes before Twitter terminated the @shinji account, it was seen publishing a tweet saying “follow @6,” referring to the account hijacked from Lucky225.

The account “@shinji” tweeting a screenshot of Twitter’s internal tools interface.

Cached copies of @Shinji’s tweets prior to Wednesday’s attack on Twitter are available here and here. Those caches show Shinji claims ownership of two OG accounts on Instagram — “j0e” and “dead.”

KrebsOnSecurity heard from a source who works in security at one of the largest U.S.-based mobile carriers, who said the “j0e” and “dead” Instagram accounts are tied to a notorious SIM swapper who goes by the nickname “PlugWalkJoe.” Investigators have been tracking PlugWalkJoe because he is thought to have been involved in multiple SIM swapping attacks over the years that preceded high-dollar bitcoin heists.

Archived copies of the @Shinji account on twitter shows one of Joe’s OG Instagram accounts, “Dead.”

Now look at the profile image in the other Archive.org index of the @shinji Twitter account (pictured below). It is the same image as the one included in the @Shinji screenshot above from Wednesday in which Joseph/@Shinji was tweeting out pictures of Twitter’s internal tools.

Image: Archive.org

This individual, the source said, was a key participant in a group of SIM swappers that adopted the nickname “ChucklingSquad,” and was thought to be behind the hijacking of Twitter CEO Jack Dorsey‘s Twitter account last year. As Wired.com recounted, @jack was hijacked after the attackers conducted a SIM swap attack against AT&T, the mobile provider for the phone number tied to Dorsey’s Twitter account.

A tweet sent out from Twitter CEO Jack Dorsey’s account while it was hijacked shouted out to PlugWalkJoe and other Chuckling Squad members.

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‘Wormable’ Flaw Leads July Microsoft Patches

July 14, 2020

Microsoft today released updates to plug a whopping 123 security holes in Windows and related software, including fixes for a critical, “wormable” flaw in Windows Server versions that Microsoft says is likely to be exploited soon. While this particular weakness mainly affects enterprises, July’s care package from Redmond has a little something for everyone. So if you’re a Windows (ab)user, it’s time once again to back up and patch up (preferably in that order).

Top of the heap this month in terms of outright scariness is CVE-2020-1350, which concerns a remotely exploitable bug in more or less all versions of Windows Server that attackers could use to install malicious software simply by sending a specially crafted DNS request.

Microsoft said it is not aware of reports that anyone is exploiting the weakness (yet), but the flaw has been assigned a CVSS score of 10, which translates to “easy to attack” and “likely to be exploited.”

“We consider this to be a wormable vulnerability, meaning that it has the potential to spread via malware between vulnerable computers without user interaction,” Microsoft wrote in its documentation of CVE-2020-1350. “DNS is a foundational networking component and commonly installed on Domain Controllers, so a compromise could lead to significant service interruptions and the compromise of high level domain accounts.”

CVE-2020-1350 is just the latest worry for enterprise system administrators in charge of patching dangerous bugs in widely-used software. Over the past couple of weeks, fixes for flaws with high severity ratings have been released for a broad array of software products typically used by businesses, including Citrix, F5, Juniper, Oracle and SAP. This at a time when many organizations are already short-staffed and dealing with employees working remotely thanks to the COVID-19 pandemic.

The Windows Server vulnerability isn’t the only nasty one addressed this month that malware or malcontents can use to break into systems without any help from users. A full 17 other critical flaws fixed in this release tackle security weaknesses that Microsoft assigned its most dire “critical” rating, such as in Office, Internet Exploder, SharePoint, Visual Studio, and Microsoft’s .NET Framework. Continue reading

Breached Data Indexer ‘Data Viper’ Hacked

July 13, 2020

Data Viper, a security startup that provides access to some 15 billion usernames, passwords and other information exposed in more than 8,000 website breaches, has itself been hacked and its user database posted online. The hackers also claim they are selling on the dark web roughly 2 billion records Data Viper collated from numerous breaches and data leaks, including data from several companies that likely either do not know they have been hacked or have not yet publicly disclosed an intrusion.

The apparent breach at St. Louis, Mo. based Data Viper offers a cautionary and twisted tale of what can happen when security researchers seeking to gather intelligence about illegal activity online get too close to their prey or lose sight of their purported mission. The incident also highlights the often murky area between what’s legal and ethical in combating cybercrime.

Data Viper is the brainchild of Vinny Troia, a security researcher who runs a cyber threat intelligence company called Night Lion Security. Since its inception in 2018, Data Viper has billed itself as a “threat intelligence platform designed to provide organizations, investigators and law enforcement with access to the largest collection of private hacker channels, pastes, forums and breached databases on the market.”

Many private companies sell access to such information to vetted clients — mainly law enforcement officials and anti-fraud experts working in security roles at major companies that can foot the bill for these often pricey services.

Data Viper has sought to differentiate itself by advertising “access to private and undisclosed breach data.” As KrebsOnSecurity noted in a 2018 story, Troia has acknowledged posing as a buyer or seller on various dark web forums as a way to acquire old and newly-hacked databases from other forum members.

But this approach may have backfired over the weekend, when someone posted to the deep web a link to an “e-zine” (electronic magazine) describing the Data Viper hack and linking to the Data Viper user base. The anonymous poster alleged he’d been inside Data Viper for months and had exfiltrated hundreds of gigabytes of breached data from the service without notice.

The intruder also linked to several dozen new sales threads on the dark web site Empire Market, where they advertise the sale of hundreds of millions of account details from dozens of leaked or hacked website databases that Data Viper allegedly acquired via trading with others on cybercrime forums.

An online post by the attackers who broke into Data Viper.

Some of the databases for sale tie back to known, publicly reported breaches. But others correspond to companies that do not appear to have disclosed a security incident. As such, KrebsOnSecurity is not naming most of those companies and is currently attempting to ascertain the validity of the claims.

KrebsOnSecurity did speak with Victor Ho, the CEO of Fivestars.com, a company that helps smaller firms run customer loyalty programs. The hackers claimed they are selling 44 million records taken from Fivestars last year. Ho said he was unaware of any data security incident and that no such event had been reported to his company, but that Fivestars is now investigating the claims. Ho allowed that the number of records mentioned in the dark web sales thread roughly matches the number of users his company had last year.

But on Aug. 3, 2019, Data Viper’s Twitter account casually noted, “FiveStars — 44m breached records added – incl Name, Email, DOB.” The post, buried among a flurry of similar statements about huge caches of breached personal information added to Data Viper, received hardly any attention and garnered just one retweet.

GNOSTIC PLAYERS, SHINY HUNTERS

Reached via Twitter, Troia acknowledged that his site had been hacked, but said the attackers only got access to the development server for Data Viper, and not the more critical production systems that power the service and which house his index of compromised credentials.

Troia said the people responsible for compromising his site are the same people who hacked the databases they are now selling on the dark web and claiming to have obtained exclusively from his service.

What’s more, Troia believes the attack was a preemptive strike in response to a keynote he’s giving in Boston this week: On June 29, Troia tweeted that he plans to use the speech to publicly expose the identities of the hackers, who he suspects are behind a large number of website break-ins over the years.

Hacked or leaked credentials are prized by cybercriminals engaged in “credential stuffing,” a rampant form of cybercrime that succeeds when people use the same passwords across multiple websites. Armed with a list of email addresses and passwords from a breached site, attackers will then automate login attempts using those same credentials at hundreds of other sites.

Password re-use becomes orders of magnitude more dangerous when website developers engage in this unsafe practice. Indeed, a January 2020 post on the Data Viper blog suggests credential stuffing is exactly how the group he plans to discuss in his upcoming talk perpetrated their website compromises.

In that post, Troia wrote that the hacker group, known variously as “Gnostic Players” and “Shiny Hunters,” plundered countless website databases using roughly the same method: Targeting developers using credential stuffing attacks to log into their GitHub accounts.

“While there, they would pillage the code repositories, looking for AWS keys and similar credentials that were checked into code repositories,” Troia wrote.

Troia said the intrusion into his service wasn’t the result of the credential re-use, but instead because his developer accidentally left his credentials exposed in documents explaining how customers can use Data Viper’s application programming interface.

“I will say the irony of how they got in is absolutely amazing,” Troia said. “But all of this stuff they claim to be selling is [databases] they were already selling. All of this is from Gnostic players. None of it came from me. It’s all for show to try and discredit my report and my talk.”

Troia said he didn’t know how many of the databases Gnostic Players claimed to have obtained from his site were legitimate hacks or even public yet.

“As for public reporting on the databases, a lot of that will be in my report Wednesday,” he said. “All of my ‘reporting’ goes to the FBI.”

SMOKE AND MIRRORS

The e-zine produced by the Data Viper hackers claimed that Troia used many nicknames on various cybercrime forums, including the moniker “Exabyte” on OGUsers, a forum that’s been closely associated with account takeovers.

In a conversation with KrebsOnSecurity, Troia acknowledged that this Exabyte attribution was correct, noting that he was happy about the exposure because it further solidified his suspicions about who was responsible for hacking his site.

This is interesting because some of the hacked databases the intruders claimed to have acquired after compromising Data Viper correspond to discoveries credited to Troia in which companies inadvertently exposed tens of millions of user details by leaving them publicly accessible online at cloud services like Amazon’s EC2.

For example, in March 2019, Troia said he’d co-discovered a publicly accessible database containing 150 gigabytes of plaintext marketing data — including 763 million unique email addresses. The data had been exposed online by Verifications.io, an email validation firm.

On Oct 12, 2019, a new user named Exabyte registered on RaidForums — a site dedicated to sharing hacked databases and tools to perpetrate credential stuffing attacks. That Exabyte account was registered less than two weeks after Troia created his Exabyte identity on OGUsers. The Exabyte on RaidForums posted on Dec. 26, 2019 that he was providing the community with something of a belated Christmas present: 200 million accounts leaked from Verifications.io.

“Verifications.io is finally here!” Exabyte enthused. “This release contains 69 of 70 of the original verifications.io databases, totaling 200+ million accounts.”

Exabyte’s offer of the Verifications.io database on RaidForums.

In May 2018, Troia was featured in Wired.com and many other publications after discovering that sales intelligence firm Apollo left 125 million email addresses and nine billion data points publicly exposed in a cloud service. As I reported in 2018, prior to that disclosure Troia had sought my help in identifying the source of the exposed data, which he’d initially and incorrectly concluded was exposed by LinkedIn.com. Rather, Apollo had scraped and collated the data from many different sites, including LinkedIn.

Then in August 2018, someone using the nickname “Soundcard” posted a sales thread to the now-defunct Kickass dark web forum offering the personal information of 212 million LinkedIn users in exchange for two bitcoin (then the equivalent of ~$12,000 USD). Incredibly, Troia had previously told me that he was the person behind that Soundcard identity on the Kickass forum.

Soundcard, a.k.a. Troia, offering to sell what he claimed was all of LinkedIn’s user data, on the Dark Web forum Kickass.

Asked about the Exabyte posts on RaidForums, Troia said he wasn’t the only one who had access to the Verifications.io data, and that the full scope of what’s been going on would become clearer soon.

“More than one person can have the same name ‘Exabyte,” Troia said. “So much from both sides you are seeing is smoke and mirrors.”

Smoke and mirrors, indeed. It’s entirely possible this incident is an elaborate and cynical PR stunt by Troia to somehow spring a trap on the bad guys. Troia recently published a book on threat hunting, and on page 360 (PDF) he describes how he previously staged a hack against his own site and then bragged about the fake intrusion on cybercrime forums in a bid to gather information about specific cybercriminals who took the bait — the same people, by the way, he claims are behind the attack on his site.

Continue reading

E-Verify’s “SSN Lock” is Nothing of the Sort

July 4, 2020

One of the most-read advice columns on this site is a 2018 piece called “Plant Your Flag, Mark Your Territory,” which tried to impress upon readers the importance of creating accounts at websites like those at the Social Security Administration, the IRS and others before crooks do it for you. A key concept here is that these services only allow one account per Social Security number — which for better or worse is the de facto national identifier in the United States. But KrebsOnSecurity recently discovered that this is not the case with all federal government sites built to help you manage your identity online.

A reader who was recently the victim of unemployment insurance fraud said he was told he should create an account at the Department of Homeland Security‘s myE-Verify website, and place a lock on his Social Security number (SSN) to minimize the chances that ID thieves might abuse his identity for employment fraud in the future.

DHS’s myE-Verify homepage.

According to the website, roughly 600,000 employers at over 1.9 million hiring sites use E-Verify to confirm the employment eligibility of new employees. E-Verify’s consumer-facing portal myE-Verify lets users track and manage employment inquiries made through the E-Verify system. It also features a “Self Lock” designed to prevent the misuse of one’s SSN in E-Verify.

Enabling this lock is supposed to mean that for the next year thereafter, if an unauthorized individual attempts to fraudulently use a SSN for employment authorization, he or she cannot use the SSN in E-Verify, even if the SSN is that of an employment authorized individual. But in practice, this service may actually do little to deter ID thieves from impersonating you to a potential employer.

At the request of the reader who reached out (and in the interest of following my own advice to plant one’s flag), KrebsOnSecurity decided to sign up for a myE-Verify account. After verifying my email address, I was asked to pick a strong password and select a form of multi-factor authentication (MFA). The most secure MFA option offered (a one-time code generated by an app like Google Authenticator or Authy) was already pre-selected, so I chose that.

The site requested my name, address, SSN, date of birth and phone number. I was then asked to select five questions and answers that might be asked if I were to try to reset my password, such as “In what city/town did you meet your spouse,” and “What is the name of the company of your first paid job.” I chose long, gibberish answers that had nothing to do with the questions (yes, these password questions are next to useless for security and frequently are the cause of account takeovers, but we’ll get to that in a minute).

Password reset questions selected, the site proceeded to ask four, multiple-guess “knowledge-based authentication” questions to verify my identity. The U.S. Federal Trade Commission‘s primer page on preventing job-related ID theft says people who have placed a security freeze on their credit files with the major credit bureaus will need to lift or thaw the freeze before being able to answer these questions successfully at myE-Verify. However, I did not find that to be the case, even though my credit file has been frozen with the major bureaus for years.

After successfully answering the KBA questions (the answer to each was “none of the above,” by the way), the site declared I’d successfully created my account! I could then see that I had the option to place a “Self Lock” on my SSN within the E-Verify system.

Doing so required me to pick three more challenge questions and answers. The site didn’t explain why it was asking me to do this, but I assumed it would prompt me for the answers in the event that I later chose to unlock my SSN within E-Verify.

After selecting and answering those questions and clicking the “Lock my SSN” button, the site generated an error message saying something went wrong and it couldn’t proceed.

Alas, logging out and logging back in again showed that the site did in fact proceed and that my SSN was locked. Joy.

But I still had to know one thing: Could someone else come along pretending to be me and create another account using my SSN, date of birth and address but under a different email address? Using a different browser and Internet address, I proceeded to find out.

Imagine my surprise when I was able to create a separate account as me with just a different email address (once again, the correct answers to all of the KBA questions was “none of the above”). Upon logging in, I noticed my SSN was indeed locked within E-Verify. So I chose to unlock it.

Did the system ask any of the challenge questions it had me create previously? Nope. It just reported that my SSN was now unlocked. Logging out and logging back in to the original account I created (again under a different IP and browser) confirmed that my SSN was unlocked. Continue reading