Bug Bounty Hunter Ran ISP Doxing Service

November 9, 2018

A Connecticut man who’s earned bug bounty rewards and public recognition from top telecom companies for finding and reporting security holes in their Web sites secretly operated a service that leveraged these same flaws to sell their customers’ personal data, KrebsOnSecurity has learned.

In May 2018, ZDNet ran a story about the discovery of a glaring vulnerability in the Web site for wireless provider T-Mobile that let anyone look up customer home addresses and account PINs. The story noted that T-Mobile disabled the feature in early April after being alerted by a 22-year-old “security researcher” named Ryan Stevenson, and that the mobile giant had awarded Stevenson $1,000 for reporting the discovery under its bug bounty program.

The Twitter account @phobia, a.k.a. Ryan Stevenson. The term “plug” referenced next to his Twitch profile name is hacker slang for employees at mobile phone stores who can be tricked or bribed into helping with SIM swap attacks.

Likewise, AT&T has recognized Stevenson for reporting security holes in its services. AT&T’s bug bounty site lets contributors share a social media account or Web address where they can be contacted, and in Stevenson’s case he gave the now-defunct Twitter handle “@Phoobia.”

Stevenson’s Linkedin profile — named “Phobias” — says he specializes in finding exploits in numerous Web sites, including hotmail.com, yahoo.com, aol.com, paypal.com and ebay.com. Under the “contact info” tab of Stevenson’s profile it lists the youtube.com account of “Ryan” and the Facebook account “Phobia” (also now deleted).

Coincidentally, I came across multiple variations on this Phobia nickname as I was researching a story published this week on the epidemic of fraudulent SIM swaps, a complex form of mobile phone fraud that is being used to steal millions of dollars in cryptocurrencies.

Unauthorized SIM swaps also are often used to hijack so-called “OG” user accounts — usually short usernames on top social network and gaming Web sites that are highly prized by many hackers because they can make the account holder appear to have been a savvy, early adopter of the service before it became popular and before all of the short usernames were taken. Some OG usernames can be sold for thousands of dollars in underground markets.

This week’s SIM swapping story quoted one recent victim who lost $100,000 after his mobile phone number was briefly stolen in a fraudulent SIM swap. The victim said he was told by investigators in Santa Clara, Calif. that the perpetrators of his attack were able to access his T-Mobile account information using a specialized piece of software that gave them backdoor access to T-Mobile’s customer database.

Both the Santa Clara investigators and T-Mobile declined to confirm or deny the existence of this software. But their non-denials prompted me to start looking for it on my own. So naturally I began searching at ogusers-dot-com, a forum dedicated to the hacking, trading and sale of OG accounts. Unsurprisingly, ogusers-dot-com also has traditionally been the main stomping grounds for many individuals involved in SIM swapping attacks.

It didn’t take long to discover an account on ogusers named “Ryan,” who for much of 2018 has advertised a number of different “doxing” services — specifically those aimed at finding the personal information of customers at major broadband and telecom companies. Continue reading

U.S. Secret Service Warns ID Thieves are Abusing USPS’s Mail Scanning Service

November 8, 2018

A year ago, KrebsOnSecurity warned that “Informed Delivery,” a new offering from the U.S. Postal Service (USPS) that lets residents view scanned images of all incoming mail, was likely to be abused by identity thieves and other fraudsters unless the USPS beefed up security around the program and made it easier for people to opt out. This week, the U.S. Secret Service issued an internal alert warning that many of its field offices have reported crooks are indeed using Informed Delivery to commit various identity theft and credit card fraud schemes.

Image: USPS

The internal alert — sent by the Secret Service on Nov. 6 to its law enforcement partners nationwide — references a recent case in Michigan in which seven people were arrested for allegedly stealing credit cards from resident mailboxes after signing up as those victims at the USPS’s Web site.

According to the Secret Service alert, the accused used the Informed Delivery feature “to identify and intercept mail, and to further their identity theft fraud schemes.”

“Fraudsters were also observed on criminal forums discussing using the Informed Delivery service to surveil potential identity theft victims,” the Secret Service memo reads.

The USPS did not respond to repeated requests for comment over the past six days.

The Michigan incident in the Secret Service alert refers to the September 2018 arrest of seven people accused of running up nearly $400,000 in unauthorized charges on credit cards they ordered in the names of residents. According to a copy of the complaint in that case (PDF), the defendants allegedly stole the new cards out of resident mailboxes, and then used them to fraudulently purchase gift cards and merchandise from department stores.

KrebsOnSecurity took the USPS to task last year in part for not using its own unique communications method — the U.S. Mail — to validate and notify residents when someone at their address signs up for Informed Delivery. The USPS addressed that shortcoming earlier this year, announcing it had started alerting all households by mail whenever anyone signs up to receive scanned notifications of mail delivered to their address.

However, it appears that ID thieves have figured out ways to hijack identities and order new credit cards in victims’ names before the USPS can send their notification — possibly by waiting until the cards are already approved and ordered before signing up for Informed Delivery in the victim’s name.

Last month, WKMG’s Clickorlando.com wrote that a number of Belle Isle, Fla. residents reported receiving hefty bills for credit cards they never knew they had. One resident was quoted as saying she received a bill for $2,000 in charges on a card she’d never seen before, and only after that did she get a notice from the USPS saying someone at her address had signed up for Informed Delivery. The only problem was she’d never signed up for the USPS program.

“According to a police report, someone opened fraudulent credit card accounts and charged more than $14,000 and signed her neighbors up for Informed Delivery, too,” Clickorlando’s Louis Bolden explained. “Photos of what would be in their mail were going to someone else.”

Residents in Texas have reported similar experiences. Dave Lieber, author of The Watchdog column for The Dallas Morning News, said he heard from victim Chris Torraca, 58, a retired federal bank regulator from Grapevine, a town between Dallas and Ft. Worth.

“Chris discovered it after someone created an account in his name at usps.com,” Lieber wrote in a post published Nov. 2. “The thief began receiving photos of Chris’ mail and also opened a bank credit card in Chris’ wife’s name. Postal officials promote the program as a great way to prevent ID theft, but for Chris, that’s what led to it.” Continue reading

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Busting SIM Swappers and SIM Swap Myths

November 7, 2018

KrebsOnSecurity recently had a chance to interview members of the REACT Task Force, a team of law enforcement officers and prosecutors based in Santa Clara, Calif. that has been tracking down individuals engaged in unauthorized “SIM swaps” — a complex form of mobile phone fraud that is often used to steal large amounts of cryptocurrencies and other items of value from victims. Snippets from that fascinating conversation are recounted below, and punctuated by accounts from a recent victim who lost more than $100,000 after his mobile phone number was hijacked.

In late September 2018, the REACT Task Force spearheaded an investigation that led to the arrest of two Missouri men — both in their early 20s — who are accused of conducting SIM swaps to steal $14 million from a cryptocurrency company based in San Jose, Calif. Two months earlier, the task force was instrumental in apprehending 20-year-old Joel Ortiz, a Boston man suspected of stealing millions of dollars in cryptocoins with the help of SIM swaps.

Samy Tarazi is a sergeant with the Santa Clara County Sheriff’s office and a REACT supervisor. The force was originally created to tackle a range of cybercrimes, but Tarazi says SIM swappers are a primary target now for two reasons. First, many of the individuals targeted by SIM swappers live in or run businesses based in northern California.

More importantly, he says, the frequency of SIM swapping attacks is…well, off the hook right now.

“It’s probably REACT’s highest priority at the moment, given that SIM swapping is actively happening to someone probably even as we speak right now,” Tarazi said. “It’s also because there are a lot of victims in our immediate jurisdiction.”

As common as SIM swapping has become, Tarazi said he and other members of REACT suspect that there are only a few dozen individuals responsible for perpetrating most of these heists.

“For the amounts being stolen and the number of people being successful at taking it, the numbers are probably historic,” Tarazi said. “We’re talking about kids aged mainly between 19 and 22 being able to steal millions of dollars in cryptocurrencies. I mean, if someone gets robbed of $100,000 that’s a huge case, but we’re now dealing with someone who buys a 99 cent SIM card off eBay, plugs it into a cheap burner phone, makes a call and steals millions of dollars. That’s pretty remarkable.

Indeed, the theft of $100,000 worth of cryptocurrency in July 2018 was the impetus for my interview with REACT. I reached out to the task force after hearing about their role in assisting SIM swapping victim Christian Ferri, who is president and CEO of San Francisco-based cryptocurrency firm BlockStar.

In early July 2018, Ferri was traveling in Europe when he discovered his T-Mobile phone no longer had service. He’d later learn that thieves had abused access to T-Mobile’s customer database to deactivate the SIM card in his phone and to activate a new one that they had in their own mobile device.

Soon after, the attackers were able to use their control over his mobile number to reset his Gmail account password. From there, the perpetrators accessed a Google Drive document that Ferri had used to record credentials to other sites, including a cryptocurrency exchange. Although that level of access could have let the crooks steal a great deal more from Ferri, they were simply after his cryptocoins, and in short order he was relieved of approximately $100,000 worth of coinage.

We’ll hear more about Ferri’s case in a moment. But first I should clarify that the REACT task force members did not discuss with me the details of Mr. Ferri’s case — even though according to Ferri a key member of the task force we’ll meet later has been actively investigating on his behalf. The remainder of this interview with REACT pivots off of Ferri’s incident mainly because the details surrounding his case help clarify some of the most confusing and murky aspects of how these crimes are perpetrated — and, more importantly, what we can do about them.

WHO’S THE TARGET?

SIM swapping attacks primarily target individuals who are visibly active in the cryptocurrency space. This includes people who run or work at cryptocurrency-focused companies; those who participate as speakers at public conferences centered around Blockchain and cryptocurrency technologies; and those who like to talk openly on social media about their crypto investments.

REACT Lieutenant John Rose said in addition to or in lieu of stealing cryptocurrency, some SIM swappers will relieve victims of highly prized social media account names (also known as “OG accounts“) — usually short usernames that can convey an aura of prestige or the illusion of an early adopter on a given social network. OG accounts typically can be resold for thousands of dollars.

Rose said even though a successful SIM swap often gives the perpetrator access to traditional bank accounts, the attackers seem to be mainly interested in stealing cryptocurrencies.

“Many SIM swap victims are understandably very scared at how much of their personal information has been exposed when these attacks occur,” Rose said. “But [the attackers] are predominantly interested in targeting cryptocurrencies for the ease with which these funds can be laundered through online exchanges, and because the transactions can’t be reversed.”

FAKE IDs AND PHONY NOTES

The “how” of these SIM swaps is often the most interesting because it’s the one aspect of this crime that’s probably the least well-understood. Ferri said when he initially contacted T-Mobile about his incident, the company told him that the perpetrator had entered a T-Mobile store and presented a fake ID in Ferri’s name.

But Ferri said once the REACT Task Force got involved in his case, it became clear that video surveillance footage from the date and time of his SIM swap showed no such evidence of anyone entering the store to present a fake ID. Rather, he said, this explanation of events was a misunderstanding at best, and more likely a cover-up at some level.

Caleb Tuttle, a detective with the Santa Clara County District Attorney’s office, said he has yet to encounter a single SIM swapping incident in which the perpetrator actually presented ID in person at a mobile phone store. That’s just too risky for the attackers, he said.

“I’ve talked to hundreds of victims, and I haven’t seen any cases where the suspect is going into a store to do this,” Tuttle said.

Tuttle said SIM swapping happens in one of three ways. The first is when the attacker bribes or blackmails a mobile store employee into assisting in the crime. The second involves current and/or former mobile store employees who knowingly abuse their access to customer data and the mobile company’s network. Finally, crooked store employees may trick unwitting associates at other stores into swapping a target’s existing SIM card with a new one.

“Most of these SIM swaps are being done over the phone, and the notes we’re seeing about the change in the [victim’s] account usually are left either by [a complicit] employee trying to cover their tracks, or because the employee who typed in that note actually believed what they were typing.” In the latter case, the employee who left a note in the customer’s account saying ID had been presented in-store was tricked by a complicit co-worker at another store who falsely claimed that a customer there had already presented ID.

DARK WEB SOFTWARE?

Ferri said the detectives investigating his SIM swap attack let on that the crooks responsible had at some point in the attack used “specialized software to get into T-Mobile’s customer database.”

“The investigator said there were employees of the company who had built a special software tool that they could use to connect to T-Mobile’s customer database, and that they could use this software from their home or couch to log in and see all the customer information there,” Ferri recalled. “The investigator didn’t explain exactly how it worked, but it was basically a backdoor entrance that they were reselling on the Dark Web, and it bypassed whatever security there was and let them go straight into the customer database.”

Asked directly about this mysterious product supposedly being offered on the Dark Web, the REACT task force members put our phone interview on hold for several minutes while they privately huddled to discuss the question. When they finally took me off mute, a member of the task force instead answered a different question that I’d asked much earlier in the interview.

When pressed about the software again, there was a long, uncomfortable silence. Then Detective Tuttle spoke up.

“We’re not going to talk about that,” he said curtly. “Deal with it.”

T-Mobile likewise declined to comment on the allegation that thieves had somehow built software which gave them direct access to T-Mobile customer data. However, in at least three separate instances over the past six months, T-Mobile has been forced to acknowledge incidents of unauthorized access to customer records.

In August 2018, T-Mobile published a notice saying its security team discovered and shut down unauthorized access to certain information, including customer name, billing zip code, phone number, email address, account number, account type (prepaid or postpaid) and/or date of birth. A T-Mobile spokesperson said at the time that this incident impacted roughly two percent of its subscriber base, or approximately 2.5 million customers.

In May 2018, T-Mobile fixed a bug in its Web site that let anyone view the personal account details of any customer. The bug could be exploited simply by adding the phone number of a target to the end of a Web address used by one of the company’s internal tools that was nevertheless accessible via the open Internet. The data provided by that tool reportedly also included references to account PINs used by customers as a security question when contacting T-Mobile customer support.

In April 2018, T-Mobile fixed a related bug in its public Web site that allowed anyone to pull data tied to customer accounts, including the user’s account number and the target phone’s IMSI — a unique number that ties subscribers to their specific mobile device. Continue reading

Who’s In Your Online Shopping Cart?

November 4, 2018

Crooks who hack online merchants to steal payment card data are constantly coming up with crafty ways to hide their malicious code on Web sites. In Internet ages past, this often meant obfuscating it as giant blobs of gibberish text that was obvious even to the untrained eye. These days, a compromised e-commerce site is more likely to be seeded with a tiny snippet of code that invokes a hostile domain which appears harmless or that is virtually indistinguishable from the hacked site’s own domain.

Before going further, I should note that this post includes references to domains that are either compromised or actively stealing user data. Although the malcode implanted on these sites is not designed to foist malicious software on visitors, please be aware that this could change at a moment’s notice. Anyone seeking to view the raw code on sites referenced here should proceed with caution; using an online source code viewer like this one can let readers safely view the HTML code on any Web page without actually rendering it in a Web browser.

As its name suggests, asianfoodgrocer-dot-com offers a range of comestibles. It also currently includes a spicy bit of card-skimming code that is hosted on the domain zoobashop-dot-com. In this case, it is easy to miss the malicious code when reviewing the HTML source, as it fits neatly into a single, brief line of code.

Zoobashop is also a presently hacked e-commerce site. Based in Accra, Ghana, zoobashop bills itself as Ghana’s “largest online store.” In addition to offering great deals on a range of electronics and home appliances, it is currently serving a tiny obfuscated script called “js.js” that snarfs data submitted into online forms.

As sneaky as this attack may be, the hackers in this case did not go out of their way to make the domain hosting the malicious script blend in with the surrounding code. However, increasingly these data-slurping scripts are hidden behind fully fraudulent https:// domains that are custom-made to look like they might be associated with content delivery networks (CDNs) or web-based scripts, and include terms like “jquery,” “bootstrap,” and “js.”

Publicwww.com is a handy online service that lets you search the Web for sites running snippets of specific code. Searching publicwww.com for sites pulling code from bootstrap-js-dot-com currently reveals more than 50 e-commerce sites seeded with this malicious script. A search at publicwww for the malcode hosted at js-react-dot-com indicates the presence of this code on at least a dozen online merchants.

Sometimes, the malicious domain created to host a data-snarfing script mimics the host domain by referencing a doppelganger Web site name. For example, check out the source code for the e-commerce site bargainjunkie-dot-com and you’ll notice at the bottom that it pulls a malicious script from the domain “bargalnjunkie-dot-com,” where the “i” in “bargain” is sneakily replaced with a lowercase “L”.

In many cases, running a reverse search for other domain names where the doppelganger domain is hosted reveals additional compromised hosts, or other methods of compromising them. For example, the look-alike domain bargalnjunkie-dot-com is hosted on the address 46.161.40.49, which is the home to several domains, including payselector-dot-com and billgetstatus-dot-com.

Payselector-dot-com and billgetstatus-dot-com were apparently registered so that they appear related to online payment services. But both of these domains actually host complex malicious scripts that are loaded in an obfuscated way on a number of Web sites — including the ballet enthusiast store balletbeautiful-dot-com. Interestingly, the Internet address hosting the payselector and billgetstatus domains — the aforementioned 46.161.40.49 — also hosts the doppelganger domain “balletbeautlful-dot-com,” again with the “i” replaced by a lowercase “L”. Continue reading

SMS Phishing + Cardless ATM = Profit

November 2, 2018

Thieves are combining SMS-based phishing attacks with new “cardless” ATMs to rapidly convert phished bank account credentials into cash. Recent arrests in Ohio shed light on how this scam works.

A number of financial institutions are now offering cardless ATM transactions that allow customers to withdraw cash using nothing more than their mobile phones. But this also creates an avenue of fraud for bad guys, who can leverage phished or stolen account credentials to add a new phone number to the customer’s account and then use that added device to siphon cash from hijacked accounts at cardless ATMs.

Image: Mastercard.us

In May 2018, Cincinnati, Ohio-based financial institution Fifth Third Bank began hearing complaints from customers who were receiving text messages on their phones that claimed to be from the bank, warning recipients that their accounts had been locked.

The text messages contained a link to unlock their accounts and led customers to a Web site that mimicked the legitimate Fifth Third site. That phishing site prompted visitors to enter their account credentials — including usernames, passwords, one-time passcodes and PIN numbers — to unlock their accounts.

All told, that scam netted credentials for approximately 125 Fifth Third customers — most of them in or around the Cincinnati area. The crooks then used the phished data to withdraw $68,000 from 17 ATMs in Illinois, Michigan, and Ohio in less than two weeks using Fifth Third’s cardless ATM function.

According to court documents, the SMS phishing and fraudulent withdrawals at cardless ATMs continued through October 2018, earning the scammers an additional $40,000. That is, until the bank zeroed in on four individuals suspected of perpetrating the crime spree. Shortly thereafter, four men were arrested in connection with the crimes. Continue reading

Equifax Has Chosen Experian. Wait, What?

November 1, 2018

A year after offering free credit monitoring to all Americans on account of its massive data breach that exposed the personal information of nearly 148 million people, Equifax now says it has chosen to extend the offer by turning to a credit monitoring service offered by a top competitor — Experian. And to do that, it will soon be sharing with Experian contact information that affected consumers gave to Equifax in order to sign up for the service.

The news came in an email Equifax is sending to people who took the company up on its offer for one year of free credit monitoring through its TrustedID Premier service.

Here’s the introduction from that message:

“We recently sent you an email advising you that, until further notice, we would be extending the free TrustedID® Premier subscription you enrolled in following the September 7, 2017 cybersecurity incident. We are now pleased to let you know that Equifax has chosen Experian®, one of the three nationwide credit bureaus, to provide you with an additional year of free credit monitoring service. This extension is at no cost to you , and you will not be asked to provide a credit card number or other payment information. You have until January 31, 2019 to enroll in this extension of free credit monitoring through IDnotify™, a part of Experian.”

Equifax says it will share the name, address, date of birth, Social Security number and self-provided phone number and email address with Experian for anyone who signed up for its original TrustedID Premier offering. That is, unless those folks affirmatively opt-out of having that information transferred from Equifax to Experian.

But not to worry, Equifax says: Experian already has most of this data.

“Experian currently has and is using this information (except phone number and email address) in the fulfillment of the Experian file monitoring which is part of your current service with TrustedID Premier,” Equifax wrote in its email. “Experian will only use the information Equifax is sharing to confirm your identity and securely enroll you in the Experian product, and will not use it for marketing or solicitation.”

Even though people who don’t opt-out of the new IDnotify offer will have their contact information automatically shared with Experian, TrustedID Premier users must still affirmatively enroll in the new program before then end of January 2019 — the date the TrustedID product expires.

Equifax’s FAQ on the changes is available here. Continue reading

Mirai Co-Author Gets 6 Months Confinement, $8.6M in Fines for Rutgers Attacks

October 26, 2018

The convicted co-author of the highly disruptive Mirai botnet malware strain has been sentenced to 2,500 hours of community service, six months home confinement, and ordered to pay $8.6 million in restitution for repeatedly using Mirai to take down Internet services at Rutgers University, his alma mater.

Paras Jha, in an undated photo from his former LinkedIn profile.

Paras Jha, a 22-year-old computer whiz from Fanwood, N.J., was studying computer science at Rutgers when he developed Mirai along with two other convicted co-conspirators. According to sentencing memo submitted by government prosecutors, in his freshman and sophomore years at Rutgers Jha used a collection of hacked devices to launch at least four distributed denial-of-service (DDoS) attacks against the university’s networks.

Jha told investigators he carried out the attacks not for profit but purely for personal, juvenile reasons: “He reveled in the uproar caused by the first attack, which he launched to delay upper-classmen registration for an advanced computer science class he wanted to take,” the government’s sentencing memo stated. “The second attack was launched to delay his calculus exam. The last two attacks were motivated in part by the publicity and outrage” his previous attacks had generated. Jha would later drop out of Rutgers after struggling academically.

In January 2017, almost a year before Jha’s arrest and guilty plea, KrebsOnSecurity identified Jha as the likely co-author of Mirai — which sprang to notoriety after a record-smashing Sept. 2016 attack that sidelined this Web site for nearly four days.

That story posited that Jha, operating under the pseudonyms “Ogmemes” and “OgRichardStallman,” gave interviews with a local paper in which he taunted Rutgers and encouraged the school to consider purchasing some kind of DDoS protection service to ward off future attacks. At the time, Jha was president and co-founder of ProTraf Solutions, a DDoS mitigation firm that provided just such a service. Continue reading

How Do You Fight a $12B Fraud Problem? One Scammer at a Time

October 25, 2018

The fraudsters behind the often laughable Nigerian prince email scams have long since branched out into far more serious and lucrative forms of fraud, including account takeovers, phishing, dating scams, and malware deployment. Combating such a multifarious menace can seem daunting, and it calls for concerted efforts to tackle the problem from many different angles. This post examines the work of a large, private group of volunteers dedicated to doing just that.

According to the most recent statistics from the FBI‘s Internet Crime Complaint Center, the most costly form of cybercrime stems from a complex type of fraud known as the “Business Email Compromise” or BEC scam. A typical BEC scam involves phony e-mails in which the attacker spoofs a message from an executive at a company or a real estate escrow firm and tricks someone into wiring funds to the fraudsters.

The FBI says BEC scams netted thieves more than $12 billion between 2013 and 2018. However, BEC scams succeed thanks to help from a variety of seemingly unrelated types of online fraud — most especially dating scams. I recently interviewed Ronnie Tokazowski, a reverse engineer at New York City-based security firm Flashpoint and something of an expert on BEC fraud.

Tokazowski is an expert on the subject thanks to his founding in 2015 of the BEC Mailing List, a private discussion group comprising more than 530 experts from a cross section of security firms, Internet and email providers and law enforcement agents that is dedicated to making life more difficult for scammers who perpetrate these schemes.

Earlier this month, Tokazowski was given the JD Falk award by the Messaging Malware Mobile Anti-Abuse Working Group (M3AAWG) for his efforts in building and growing the BEC List (loyal readers here may recognize the M3AAWG name: KrebsOnSecurity received a different award from M3AAWG in 2014). M3AAWG presents its JD Falk Award annually to recognize “a project that helps protect the internet and embodies a spirit of volunteerism and community building.”

Here are some snippets from our conversation:

Brian Krebs (BK): You were given the award by M3AAWG in part for your role in starting the BEC mailing list, but more importantly for the list’s subsequent growth and impact on the BEC problem as a whole. Talk about why and how that got started and evolved.

Ronnie Tokazowski (RT): The why is that there’s a lot of money being lost to this type of fraud. If you just look at the financial losses across cybercrime — including ransomware, banking trojans and everything else — BEC is number one. Something like 63 percent of fraud losses reported to the FBI are related to it.

When we started the list around Christmas of 2015, it was just myself and one FBI agent. When we had our first conference in May 2016, there were about 20 people attending to try to figure out how to tackle all of the individual pieces of this type of fraud.

Fast forward to today, and the group now has about 530 people, we’ve now held three conferences, and collectively the group has directly or indirectly contributed to over 100 arrests for people involved in BEC scams.

BK: What did you discover as the group began to coalesce?

RT: As we started getting more and more people involved, we realized BEC was much broader than just phishing emails. These guys actually maintain vast networks of money mules, technical and logistical infrastructure, as well as tons of romance scam accounts that they have to maintain over time.

BK: I want to ask you more about the romance scam aspect of BEC fraud in just a moment, because that’s one of the most fascinating cogs in this enormous crime machine. But I’m curious about what short-term goals the group set in identifying the individuals behind these extremely lucrative scams?

RT: We wanted to start a collaboration group to fight BEC, and really a big part of that involved just trying to social engineer the actors and get them to click on links that we could use to find out more about them and where they’re coming from. Continue reading

Who Is Agent Tesla?

October 22, 2018

A powerful, easy-to-use password stealing program known as Agent Tesla has been infecting computers since 2014, but recently this malware strain has seen a surge in popularity — attracting more than 6,300 customers who pay subscription fees to license the software. Although Agent Tesla includes a multitude of features designed to help it remain undetected on host computers, the malware’s apparent creator seems to have done little to hide his real-life identity.

The proprietors of Agent Tesla market their product at agenttesla-dot-com, selling access to the software in licenses paid for via bitcoin, for prices ranging from $15 to $69 depending on the desired features.

The Agent Tesla Web site emphasizes that the software is strictly “for monitoring your personel [sic] computer.” The site’s “about” page states that Agent Tesla “is not a malware. Please, don’t use for computers which is not access permission.” To backstop this disclaimer, the site warns that any users caught doing otherwise will have their software licenses revoked and subscriptions canceled.

At the same time, the Agent Tesla Web site and its 24/7 technical support channel (offered via Discord) is replete with instances of support personnel instructing users on ways to evade antivirus software detection, use software vulnerabilities to deploy the product, and secretly bundle the program inside of other file types, such as images, text, audio and even Microsoft Office files.

A description of some of the options posted to the Agent Tesla sales Web site.

In August 2018, computer security firm LastLine said it witnessed a 100 percent increase in Agent Tesla instances detected in the wild over just a three month period.

“Acting as a fully-functional information stealer, it is capable of extracting credentials from different browsers, mail, and FTP clients,” LastLine wrote. “It logs keys and clipboards data, captures screen and video, and performs form-grabbing (Instagram, Twitter, Gmail, Facebook, etc.) attacks.”

Most of the options included in Agent Tesla revolve around stealth, persistence, evading security tools, spreading to other computers, or tampering with system settings.

I CAN HAZ TESLA

The earliest versions of Agent Tesla were made available for free via a Turkish-language WordPress site that oddly enough remains online (agenttesla.wordpress-dot-com), although its home page now instructs users to visit the current AgentTesla-dot-com domain. Not long after that WordPress site was erected, its author(s) began charging for the software, accepting payments via a variety of means, including PayPal, Bitcoin and even wire transfer to several bank accounts in Turkey.

Historic WHOIS Web site registration records maintained by Domaintools.com show that the current domain for the software — agenttesla-dot-com — was registered in 2014 to a young man from Antalya, Turkey named Mustafa can Ozaydin, and to the email address mcanozaydin@gmail.com. Sometime in mid-2016 the site’s registration records were hidden behind WHOIS privacy services [full disclosure: Domaintools is a previous advertiser on KrebsOnSecurity].

That Gmail address is tied to a Youtube.com account for a Turkish individual by the same name who has uploaded exactly three videos over the past four years. In one of them, uploaded in October 2017 and titled “web panel,” Mr. can Ozaydin demonstrates how to configure a Web site. At around 3:45 in the video, we can see the purpose of this demonstration is to show people one way to install an Agent Tesla control panel to keep track of systems infected with the malware.

Incidentally, the administrator of the 24/7 live support channel for Agent Tesla users at one point instructed customers to view this same video if they were having trouble figuring out how to deploy the control panel.

The profile picture shown in that Youtube account is remarkably similar to the one displayed on the Twitter account “MCanOZAYDIN.” This Twitter profile makes no mention of Agent Tesla, but it does state that Mustafa can Ozaydin is an “information technology specialist” in Antalya, Turkey.

That Twitter profile also shows up on a Facebook account for a Mustafa can Ozaydin from Turkey. A LinkedIn profile for a person by the same name from Antalya, Turkey states that Mr. can Ozaydin is currently a “systems support expert” for Memorial Healthcare Group, a hospital in Istanbul.

KrebsOnSecurity first reached out for comment to all of these accounts back in August 2018, but received no reply. Repeated attempts to reach those accounts this past week also elicited no response. Continue reading

Supply Chain Security 101: An Expert’s View

October 12, 2018

Earlier this month I spoke at a cybersecurity conference in Albany, N.Y. alongside Tony Sager, senior vice president and chief evangelist at the Center for Internet Security and a former bug hunter at the U.S. National Security Agency. We talked at length about many issues, including supply chain security, and I asked Sager whether he’d heard anything about rumors that Supermicro — a high tech firm in San Jose, Calif. — had allegedly inserted hardware backdoors in technology sold to a number of American companies.

Tony Sager, senior vice president and chief evangelist at the Center for Internet Security.

The event Sager and I spoke at was prior to the publication of Bloomberg Businessweek‘s controversial story alleging that Supermicro had duped almost 30 companies into buying backdoored hardware. Sager said he hadn’t heard anything about Supermicro specifically, but we chatted at length about the challenges of policing the technology supply chain.

Below are some excerpts from our conversation. I learned quite bit, and I hope you will, too.

Brian Krebs (BK): Do you think Uncle Sam spends enough time focusing on the supply chain security problem? It seems like a pretty big threat, but also one that is really hard to counter.

Tony Sager (TS): The federal government has been worrying about this kind of problem for decades. In the 70s and 80s, the government was more dominant in the technology industry and didn’t have this massive internationalization of the technology supply chain.

But even then there were people who saw where this was all going, and there were some pretty big government programs to look into it.

BK: Right, the Trusted Foundry program I guess is a good example.

TS: Exactly. That was an attempt to help support a U.S.-based technology industry so that we had an indigenous place to work with, and where we have only cleared people and total control over the processes and parts.

BK: Why do you think more companies aren’t insisting on producing stuff through code and hardware foundries here in the U.S.?

TS: Like a lot of things in security, the economics always win. And eventually the cost differential for offshoring parts and labor overwhelmed attempts at managing that challenge.

BK: But certainly there are some areas of computer hardware and network design where you absolutely must have far greater integrity assurance?

TS: Right, and this is how they approach things at Sandia National Laboratories [one of three national nuclear security research and development laboratories]. One of the things they’ve looked at is this whole business of whether someone might sneak something into the design of a nuclear weapon.

The basic design principle has been to assume that one person in the process may have been subverted somehow, and the whole design philosophy is built around making sure that no one person gets to sign off on what goes into a particular process, and that there is never unobserved control over any one aspect of the system. So, there are a lot of technical and procedural controls there.

But the bottom line is that doing this is really much harder [for non-nuclear electronic components] because of all the offshoring now of electronic parts, as well as the software that runs on top of that hardware.

BK: So is the government basically only interested in supply chain security so long as it affects stuff they want to buy and use?

TS: The government still has regular meetings on supply chain risk management, but there are no easy answers to this problem. The technical ability to detect something wrong has been outpaced by the ability to do something about it.

BK: Wait…what?

TS: Suppose a nation state dominates a piece of technology and in theory could plant something inside of it. The attacker in this case has a risk model, too. Yes, he could put something in the circuitry or design, but his risk of exposure also goes up.

Could I as an attacker control components that go into certain designs or products? Sure, but it’s often not very clear what the target is for that product, or how you will guarantee it gets used by your target. And there are still a limited set of bad guys who can pull that stuff off. In the past, it’s been much more lucrative for the attacker to attack the supply chain on the distribution side, to go after targeted machines in targeted markets to lessen the exposure of this activity.

BK: So targeting your attack becomes problematic if you’re not really limiting the scope of targets that get hit with compromised hardware.

TS: Yes, you can put something into everything, but all of a sudden you have this massive big data collection problem on the back end where you as the attacker have created a different kind of analysis problem. Of course, some nations have more capability than others to sift through huge amounts of data they’re collecting.

BK: Can you talk about some of the things the government has typically done to figure out whether a given technology supplier might be trying to slip in a few compromised devices among an order of many?

TS: There’s this concept of the “blind buy,” where if you think the threat vector is someone gets into my supply chain and subverts the security of individual machines or groups of machines, the government figures out a way to purchase specific systems so that no one can target them. In other words, the seller doesn’t know it’s the government who’s buying it. This is a pretty standard technique to get past this, but it’s an ongoing cat and mouse game to be sure. Continue reading