‘Operation Tarpit’ Targets Customers of Online Attack-for-Hire Services

December 13, 2016

Federal investigators in the United States and Europe last week arrested nearly three-dozen people suspected of patronizing so-called “booter” services that can be hired to knock targeted Web sites offline. The global crackdown is part of an effort by authorities to weaken demand for these services by impressing upon customers that hiring someone to launch cyberattacks on your behalf can land you in jail.

On Dec. 9, 2016, the U.S. Federal Bureau of Investigation (FBI) arrested Sean Sharma, a 26-year-old student at the University of California accused of using a booter service to knock a San Francisco chat service company’s Web site offline.

Sharma was one of almost three dozen others across 13 countries who were arrested on suspicion of paying for cyberattacks. As part of a coordinated law enforcement effort dubbed “Operation Tarpit,” investigators here and abroad also executed more than 100 so-called “knock-and-talk” interviews with booter buyers who were quizzed about their involvement but not formally charged with crimes.

Netspoof's DDoS-for-hire packages. Image: Samsclass.info.

Netspoof’s DDoS-for-hire packages. Image: Samsclass.info.

Stresser and booter services leverage commercial hosting services and security weaknesses in Internet-connected devices to hurl huge volleys of junk traffic at targeted Web sites. These attacks, known as “distributed denial-of-service” (DDoS) assaults, are digital sieges aimed at causing a site to crash or at least to remain unreachable by legitimate Web visitors.

“DDoS tools are among the many specialized cyber crime services available for hire that may be used by professional criminals and novices alike,” said Steve Kelly, FBI unit chief of the International Cyber Crime Coordination Cell, a task force created earlier this year by the FBI whose stated mission is to ‘defeat the most significant cyber criminals and enablers of the cyber underground.’ “While the FBI is working with our international partners to apprehend and prosecute sophisticated cyber criminals, we also want to deter the young from starting down this path.”

According to Europol, the European Union’s law enforcement agency, the operation involved arrests and interviews of suspected DDoS-for-hire customers in Australia, Belgium, France, Hungary, Lithuania, the Netherlands, Norway, Portugal, Romania, Spain, Sweden, the United Kingdom, and the U.S. Europol said investigators are only warning one-time users, but aggressively pursuing repeat offenders who frequented the booter services.

“This successful operation marks the kick-off of a prevention campaign in all participating countries in order to raise awareness of the risk of young adults getting involved in cybercrime,” reads a statement released Monday by Europol. “Many do it for fun without realizing the consequences of their actions – but the penalties can be severe and have a negative impact on their future prospects.”

The arrests stemmed at least in part from successes that investigators had infiltrating a booter service operating under the name “Netspoof.” According to the U.K.’s National Crime Agency, Netspoof offered subscription packages ranging from £4 (~USD $5) to £380 (~USD $482) – with some customers paying more than £8,000 (> USD $10,000) to launch hundreds of attacks. The NCA said twelve people were arrested in connection with the Netspoof investigation, and that victims included gaming providers, government departments, internet hosting companies, schools and colleges.

The Netspoof portion of last week’s operation was fueled by the arrest of Netspoof’s founder — 20-year-old U.K. resident Grant Manser. As Bleeping Computer reports, Manser’s business had 12,800 registered users, of which 400 bought his tools, launching 603,499 DDoS attacks on 224,548 targets.

Manser was sentenced in April 2016 to two years youth detention suspended for 18 months, as well as 100 hours of community service. According to BC’s Catalin Cimpanu, the judge in Manser’s case went easy on him because he built safeguards in his tools that prevented customers from attacking police, hospitals and government institutions. Continue reading

‘Avalanche’ Crime Ring Leader Eludes Justice

December 8, 2016

The accused ringleader of a cyber fraud gang that allegedly rented out access to a criminal cloud hosting service known as “Avalanche” is now a fugitive from justice following a bizarre series of events in which he shot at Ukrainian police, was arrested on cybercrime charges and then released from custody.

Gennady Kapkanov. Source: NPU.gov

Gennady Kapkanov. Source: NPU.gov

On Nov. 30, authorities across Europe coordinated the arrest of five individuals thought to be tied to the Avalanche crime gang, in an operation that the FBI and its partners abroad described as an unprecedented global law enforcement response to cybercrime.

According to Ukrainian news outlets, the alleged leader of the gang — 33-year-old Russian Gennady Kapkanov — did not go quietly. Kapkanov allegedly shot at officers with a Kalashnikov assault rifle through the front door as they prepared to raid his home, and then attempted to escape off of his 4th floor apartment balcony.

Ukrainian police arrested Kapkanov and booked him on cybercrime charges. But a judge in the city of Poltava, Ukraine later ordered Kapkanov released, saying the prosecution had failed to file the proper charges (including charges of shooting at police officers), charges which could have allowed authorities to hold him much longer. Ukrainian media reports that police have since lost track of Kapkanov.

Ukraine’s Prosecutor General Yuri Lutsenko is now calling for the ouster of the prosecutor in charge of the case. Meanwhile, the Ukranian authorities are now asking the public for help in re-arresting Kapkanov.

kapkanovguns

Weapons police say they seized from Kapkanov’s apartment. Source: npu.gov.ua

Continue reading

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Researchers Find Fresh Fodder for IoT Attack Cannons

December 6, 2016

New research published this week could provide plenty of fresh fodder for Mirai, a malware strain that enslaves poorly-secured Internet of Things (IoT) devices for use in powerful online attacks. Researchers in Austria have unearthed a pair of backdoor accounts in more than 80 different IP camera models made by Sony Corp. Separately, Israeli security experts have discovered trivially exploitable weaknesses in nearly a half-million white-labeled IP camera models that are not currently sought out by Mirai.

A Sony IPELA camera. Image: Sony.

A Sony IPELA camera. Image: Sony.

In a blog post published today, Austrian security firm SEC Consult said it found two apparent backdoor accounts in Sony IPELA Engine IP Cameras  devices mainly used by enterprises and authorities. According to SEC Consult, the two previously undocumented user accounts — named “primana” and “debug” — could be used by remote attackers to commandeer the Web server built into these devices, and then to enable “telnet” on them.

Telnet — a protocol that allows remote logons over the Internet — is the very same communications method abused by Mirai, which constantly scours the Web for IoT devices with telnet enabled and protected by factory-default passwords.

“We believe that this backdoor was introduced by Sony developers on purpose (maybe as a way to debug the device during development or factory functional testing) and not an ‘unauthorized third party’ like in other cases (e.g. the Juniper ScreenOS Backdoor, CVE-2015-7755),” SEC Consult wrote.

It’s unclear precisely how many Sony IP cameras may be vulnerable, but a scan of the Web using Censys.io indicates there are at least 4,250 that are currently reachable over the Internet.

“Those Sony IPELA ENGINE IP camera devices are definitely reachable on the Internet and a potential target for Mirai-like botnets, but of course it depends on the network/firewall configuration,” said Johannes Greil, head of SEC Consult Vulnerability Lab. “From our point of view, this is only the tip of the iceberg because it’s only one search string from the device we have.”

Greil said there are other undocumented functionalities in the Sony IP cameras that could be maliciously used by malware or miscreants, such as commands that can be invoked to distort images and/or video recorded by the cameras, or a camera heating feature that could be abused to overheat the devices.

Sony did not respond to multiple requests for comment. But the researchers said Sony has quietly made available to its users an update that disables the backdoor accounts on the affected devices. However, users still need to manually update the firmware using a program called SNC Toolbox.

Greil said it seems likely that the backdoor accounts have been present in Sony cameras for at least four years, as there are signs that someone may have discovered the hidden accounts back in 2012 and attempted to crack the passwords then. SEC Consult’s writeup on their findings is available here.

In other news, researchers at security firm Cybereason say they’ve found at least two previously unknown security flaws in dozens of IP camera families that are white-labeled under a number of different brands (and some without brands at all) that are available for purchase via places like eBay and Amazon. The devices are all administered with the password “888888,” and may be remotely accessible over the Internet if they are not protected behind a firewall. KrebsOnSecurity has confirmed that while the Mirai botnet currently includes this password in the combinations it tries, the username for this password is not part of Mirai’s current configuration.

But Cybereason’s team found that they could easily exploit these devices even if they were set up behind a firewall. That’s because all of these cameras ship with a factory-default peer-to-peer (P2P) communications capability that enables remote “cloud” access to the devices via the manufacturer’s Web site — provided a customer visits the site and provides the unique camera ID stamped on the bottom of the devices.

Although it may seem that attackers would need physical access to the vulnerable devices in order to derive those unique camera IDs, Cybereason’s principal security researcher Amit Serper said the company figured out a simple way to enumerate all possible camera IDs using the manufacturer’s Web site.

“We reverse engineered these cameras so that we can use the manufacturer’s own infrastructure to access them and do whatever we want,” Serper said. “We can use the company’s own cloud network and from there jump onto the customer’s network.” Continue reading

DDoS, IoT Top Cybersecurity Priorities for 45th President

December 5, 2016

Addressing distributed denial-of-service (DDoS) attacks designed to knock Web services offline and security concerns introduced by the so-called “Internet of Things” (IoT) should be top cybersecurity priorities for the 45th President of the United States, according to a newly released blue-ribbon report commissioned by President Obama.

commish“The private sector and the Administration should collaborate on a roadmap for improving the security of digital networks, in particular by achieving robustness against denial-of-service, spoofing, and other attacks on users and the nation’s network infrastructure,” reads the first and foremost cybersecurity recommendation for President-elect Donald Trump. “The urgency of the situation demands that the next Administration move forward promptly on our recommendations, working closely with Congress and the private sector.”

The 12-person, non-partisan commission produced a 90-page report (PDF) and recommended as their very first action item that the incoming President “should direct senior federal executives to launch a private–public initiative, including provisions to undertake, monitor, track, and report on measurable progress in enabling agile, coordinated responses and mitigation of attacks on the users and the nation’s network infrastructure.”

The panel said this effort should build on previous initiatives, such as a 2011 program by the U.S. Department of Commerce called the Industry Botnet Group.

“Specifically, this effort would identify the actions that can be taken by organizations responsible for the Internet and communications ecosystem to define, identify, report, reduce, and respond to attacks on users and the nation’s network infrastructure,” the report urged. “This initiative should include regular reporting on the actions that these organizations are already taking and any changes in technology, law, regulation, policy, financial reimbursement, or other incentives that may be necessary to support further action—while ensuring that no participating entity obstructs lawful content, applications, services, or nonharmful devices, subject to reasonable network management.”

The report spans some six major imperatives, including 16 recommendations and 63 associated action items. The second major imperative focuses on IoT security concerns, and urges the federal government and private industry to embark upon a number of initiatives to “rapidly and purposefully to improve the security of the Internet of Things.”

“The Department of Justice should lead an interagency study with the Departments of Commerce and Homeland Security and work with the Federal Trade Commission, the Consumer Product Safety Commission, and interested private sector parties to assess the current state of the law with regard to liability for harm caused by faulty IoT devices and provide recommendations within 180 days,” the panel recommended. “To the extent that the law does not provide appropriate incentives for companies to design security into their products, and does not offer protections for those that do, the President should draw on these recommendations to present Congress with a legislative proposal to address identified gaps, as well as explore actions that could be accomplished through executive order.”

Meanwhile, Morning Consult reports that U.S. Federal Communications Commission Chairman Tom Wheeler has laid out an unexpected roadmap through which the agency could regulate the security of IoT devices. The proposed certification process was laid out in a response to a letter sent by Sen. Mark Warner (D-Va.) shortly after the IoT-based attacks in October that targeted Internet infrastructure company Dyn and knocked offline a number of the Web’s top destinations for the better part of a day.

Morning Consult’s Brendan Bordelon notes that while Wheeler is set to step down as chairman on Jan. 20, “the new framework could be used to support legislation enhancing the FCC’s ability to regulate IoT devices.” Continue reading

Visa Delays Chip Deadline for Pumps To 2020

December 2, 2016

Visa this week delayed by three years a deadline for fuel station owners to install payment terminals at the pump that are capable of handling more secure chip-based cards. Experts say the new deadline — extended from 2017 — comes amid a huge spike in fuel pump skimming, and means fraudsters will have another three years to fleece banks and their customers by installing card-skimming devices at the pump.

Until this week, fuel station owners in the United States had until October 1, 2017 to install chip-capable readers at their pumps. Under previous Visa rules, station owners that didn’t have chip-ready readers in place by then would have been on the hook to absorb 100 percent of the costs of fraud associated with transactions in which the customer presented a chip-based card yet was not asked or able to dip the chip (currently, card-issuing banks eat most of the fraud costs from fuel skimming). The chip card technology standard, also known as EMV (short for Europay, MasterCard and Visa) makes credit and debit cards far more expensive and difficult for thieves to clone.

This week, however, Visa said fuel station owners would have until October 1, 2020 to meet the liability shift deadline.

A Bluetooth-based pump card skimmer found inside of a Food N Things pump in Arizona in April 2016.

A Bluetooth-based pump card skimmer found inside of a Food N Things pump in Arizona in April 2016.

“The fuel segment has its own unique challenges, which we recognized when we first set the chip activation date for automated fuel dispensers/pumps (AFDs) two years after regular in-store locations,” Visa said in a statement explaining its decision. “We knew that the AFD segment would need more time to upgrade to chip because of the complicated infrastructure and specialized technology required for fuel pumps. For instance, in some cases, older pumps may need to be replaced before adding chip readers, requiring specialized vendors and breaking into concrete. Furthermore, five years after announcing our liability shift, there are still issues with a sufficient supply of regulatory-compliant EMV hardware and software to enable most upgrades by 2017.”

Visa said fuel pump skimming accounts for just 1.3 percent of total U.S. payment card fraud.

“During this interim period, Visa will monitor AFD fraud trends closely and work with merchants, acquirers and issuers to help mitigate any potential counterfeit fraud exposure at AFDs,” Visa said.

Avivah Litan, a fraud analyst with Gartner Inc., said the deadline shift wasn’t unexpected given how many U.S. fuel stations are behind on costly updates, noting that in some cases it can cost more than $10,000 per pump to accommodate chip card readers. The National Association of Convenience Stores estimates that station operators will spend approximately $30,000 per store to accommodate chip readers, and that the total cost to the fuel industry could exceed $4 billion.

“Some of them you can just replace the payment module inside the pump, but the older pumps will need to be completely removed and replaced,” Litan said. “Gas stations and their unattended pumps have always been an easy target for thieves. The fraud usually migrates to the point of least resistance, and we’re seeing now the fraudsters really moving to targeting unattended stations that haven’t been upgraded.” Continue reading

‘Avalanche’ Global Fraud Ring Dismantled

December 1, 2016

In what’s being billed as an unprecedented global law enforcement response to cybercrime, federal investigators in the United States, United Kingdom and Europe today say they’ve dismantled a sprawling cybercrime machine known as “Avalanche” — a distributed, cloud-hosting network that for the past seven years has been rented out to fraudsters for use in launching countless malware and phishing attacks.

The global distribution of servers used in the Avalanche crime machine. Source: Shadowserver.org

The global distribution of servers used in the Avalanche crime machine. Source: Shadowserver.org

According to Europol, the action was the result of a four-year joint investigation between Europol, Eurojust the FBI and authorities in the U.K. and Germany that culminated on Nov. 30, 2016 with the arrest of five individuals, the seizure of 39 Web servers, and the sidelining of more than 830,000 web domains used in the scheme.

Built as a criminal cloud-hosting environment that was rented out to scammers, spammers other ne’er-do-wells, Avalanche has been a major source of cybercrime for years. In 2009, when investigators say the fraud network first opened for business, Avalanche was responsible for funneling roughly two-thirds of all phishing attacks aimed at stealing usernames and passwords for bank and e-commerce sites.  By 2011, Avalanche was being heavily used by crooks to deploy banking Trojans.

The U.K.’s National Crime Agency (NCA), says the more recent Avalanche fraud network comprised up to 600 servers worldwide and was used to host as many as 800,000 web domains at a time. Continue reading

New Mirai Worm Knocks 900K Germans Offline

November 30, 2016

More than 900,000 customers of German ISP Deutsche Telekom (DT) were knocked offline this week after their Internet routers got infected by a new variant of a computer worm known as Mirai. The malware wriggled inside the routers via a newly discovered vulnerability in a feature that allows ISPs to remotely upgrade the firmware on the devices. But the new Mirai malware turns that feature off once it infests a device, complicating DT’s cleanup and restoration efforts.

Security experts say the multi-day outage is a sign of things to come as cyber criminals continue to aggressively scour the Internet of Things (IoT) for vulnerable and poorly-secured routers, Internet-connected cameras and digital video recorders (DVRs). Once enslaved, the IoT devices can be used and rented out for a variety of purposes — from conducting massive denial-of-service attacks capable of knocking large Web sites offline to helping cybercriminals stay anonymous online.

An internet-wide scan conducted by Shodan.io suggests there may be more than five million devices vulnerable to the exploit that caused problems for so many DT customers this week. Image: Badcyber.com

An internet-wide scan conducted by Shodan.io suggests there may be as many as five million devices vulnerable to the exploit that caused problems for so many DT customers this week. Image: Badcyber.com

This new variant of Mirai builds on malware source code released at the end of September. That leak came a little more a week after a botnet based on Mirai was used in a record-sized attack that caused KrebsOnSecurity to go offline for several days. Since then, dozens of new Mirai botnets have emerged, all competing for a finite pool of vulnerable IoT systems that can be infected.

Until this week, all Mirai botnets scanned for the same 60+ factory default usernames and passwords used by millions of IoT devices. But the criminals behind one of the larger Mirai botnets apparently decided to add a new weapon to their arsenal, incorporating exploit code published earlier this month for a security flaw in specific routers made by Zyxel and Speedport.

These companies act as original equipment manufacturers (OEMs) that specialize in building DSL modems that ISPs then ship to customers. The vulnerability exists in communications protocols supported by the devices that ISPs can use to remotely manage all of the customer-premises routers on their network.

According to BadCyber.com, which first blogged about the emergence of the new Mirai variant, part of the problem is that Deutsche Telekom does not appear to have followed the best practice of blocking the rest of the world from remotely managing these devices as well.

“The malware itself is really friendly as it closes the vulnerability once the router is infected,” BadCyber noted. “It performs [a] command which should make the device ‘secure,’ until next reboot. The first one closes port 7547 and the second one kills the telnet service, making it really hard for the ISP to update the device remotely.” [For the Geek Factor 5 readership out there, the flaw stems from the way these routers parse incoming traffic destined for Port 7547 using communications protocols known as TR-069].

DT has been urging customers who are having trouble to briefly disconnect and then reconnect the routers, a process which wipes the malware from the device’s memory. The devices should then be able to receive a new update from DT that plugs the vulnerability.

That is, unless the new Mirai strain gets to them first. Johannes Ullrich, dean of security research at The SANS Technology Institute, said this version of Mirai aggressively scans the Internet for new victims, and that SANS’s research has shown vulnerable devices are compromised by the new Mirai variant within five to ten minutes of being plugged into the Internet.

Ullrich said the scanning activity conducted by the new Mirai variant is so aggressive that it can create hangups and crashes even for routers that are are not vulnerable to this exploit.

“Some of these devices went down because of the sheer number of incoming connections” from the new Mirai variant, Ullrich said. “They were listening on Port 7547 but were not vulnerable to this exploit and were still overloaded with the number of connections to that port.”

A Deutsche Telekom Speedport DSL modem.

A Deutsche Telekom Speedport DSL modem.

FEEDING THE CRIME MACHINE

Allison Nixon, director of security research at Flashpoint, said this latest Mirai variant appears to be an attempt to feed fresh victims into one of the larger and more established Mirai botnets out there today.

Nixon said she suspects this particular botnet is being rented out in discrete chunks to other cybercriminals. Her suspicions are based in part on the fact that the malware phones home to a range of some 256 Internet addresses that for months someone has purchased for the sole purpose of hosting nothing but servers used to control multiple Mirai botnets.

“The malware points to some [Internet addresses] that are in ranges which were purchased for the express purpose of running Mirai,” Nixon said. “That range does nothing but run Mirai control servers on it, and they’ve been doing it for a while now. I would say this is probably part of a commercial service because purchasing this much infrastructure is not cheap. And you generally don’t see people doing this for kicks, you see them doing it for money.” Continue reading

San Francisco Rail System Hacker Hacked

November 29, 2016

The San Francisco Municipal Transportation Agency (SFMTA) was hit with a ransomware attack on Friday, causing fare station terminals to carry the message, “You are Hacked. ALL Data Encrypted.” Turns out, the miscreant behind this extortion attempt got hacked himself this past weekend, revealing details about other victims as well as tantalizing clues about his identity and location.

A copy of the ransom message left behind by the "Mamba" ransomware.

A copy of the ransom message left behind by the “Mamba” ransomware.

On Friday, The San Francisco Examiner reported that riders of SFMTA’s Municipal Rail or “Muni” system were greeted with handmade “Out of Service” and “Metro Free” signs on station ticket machines. The computer terminals at all Muni locations carried the “hacked” message: “Contact for key (cryptom27@yandex.com),” the message read.

The hacker in control of that email account said he had compromised thousands of computers at the SFMTA, scrambling the files on those systems with strong encryption. The files encrypted by his ransomware, he said, could only be decrypted with a special digital key, and that key would cost 100 Bitcoins, or approximately USD $73,000.

On Monday, KrebsOnSecurity was contacted by a security researcher who said he hacked this very same cryptom27@yandex.com inbox after reading a news article about the SFMTA incident. The researcher, who has asked to remain anonymous, said he compromised the extortionist’s inbox by guessing the answer to his secret question, which then allowed him to reset the attacker’s email password. A screen shot of the user profile page for cryptom27@yandex.com shows that it was tied to a backup email address, cryptom2016@yandex.com, which also was protected by the same secret question and answer.

Copies of messages shared with this author from those inboxes indicate that on Friday evening, Nov. 25, the attacker sent a message to SFMTA infrastructure manager Sean Cunningham with the following demand (the entirety of which has been trimmed for space reasons), signed with the pseudonym “Andy Saolis.”

“if You are Responsible in MUNI-RAILWAY !

All Your Computer’s/Server’s in MUNI-RAILWAY Domain Encrypted By AES 2048Bit!

We have 2000 Decryption Key !

Send 100BTC to My Bitcoin Wallet , then We Send you Decryption key For Your All Server’s HDD!!”

One hundred Bitcoins may seem like a lot, but it’s apparently not far from a usual payday for this attacker. On Nov. 20, hacked emails show that he successfully extorted 63 bitcoins (~$45,000) from a U.S.-based manufacturing firm.

The attacker appears to be in the habit of switching Bitcoin wallets randomly every few days or weeks. “For security reasons” he explained to some victims who took several days to decide whether to pay the ransom they’d been demanded. A review of more than a dozen Bitcoin wallets this criminal has used since August indicates that he has successfully extorted at least $140,000 in Bitcoin from victim organizations.

That is almost certainly a conservative estimate of his overall earnings these past few months: My source said he was unable to hack another Yandex inbox used by this attacker between August and October 2016, “w889901665@yandex.com,” and that this email address is tied to many search results for tech help forum postings from people victimized by a strain of ransomware known as Mamba and HDD Cryptor.

Copies of messages shared with this author answer many questions raised by news media coverage of this attack, such as whether the SFMTA was targeted. In short: No. Here’s why.

Messages sent to the attacker’s cryptom2016@yandex.com account show a financial relationship with at least two different hosting providers. The credentials needed to manage one of those servers were also included in the attacker’s inbox in plain text, and my source shared multiple files from that server.

KrebsOnSecurity sought assistance from several security experts in making sense of the data shared by my source. Alex Holden, chief information security officer at Hold Security Inc, said the attack server appears to have been used as a staging ground to compromise new systems, and was equipped with several open-source tools to help find and infect new victims.

“It appears our attacker has been using a number of tools which enabled the scanning of large portions of the Internet and several specific targets for vulnerabilities,” Holden said. “The most common vulnerability used ‘weblogic unserialize exploit’ and especially targeted Oracle Corp. server products, including Primavera project portfolio management software.”

According to a review of email messages from the Cryptom27 accounts shared by my source, the attacker routinely offered to help victims secure their systems from other hackers for a small number of extra Bitcoins. In one case, a victim that had just forked over a 20 Bitcoin ransom seemed all too eager to pay more for tips on how to plug the security holes that got him hacked. In return, the hacker pasted a link to a Web server, and urged the victim to install a critical security patch for the company’s Java applications.

“Read this and install patch before you connect your server to internet again,” the attacker wrote, linking to this advisory that Oracle issued for a security hole that it plugged in November 2015.

In many cases, the extortionist told victims their data would be gone forever if they didn’t pay the ransom in 48 hours or less. In other instances, he threatens to increase the ransom demand with each passing day. Continue reading

ATM Insert Skimmers: A Closer Look

November 27, 2016

KrebsOnSecurity has featured multiple stories about the threat from ATM fraud devices known as “insert skimmers,” wafer-thin data theft tools made to be completely hidden inside of a cash’s machine’s card acceptance slot. For a closer look at how stealthy insert skimmers can be, it helps to see videos of these things being installed and removed. Here’s a look at promotional sales videos produced by two different ATM insert skimmer peddlers.

Traditional ATM skimmers are fraud devices made to be placed over top of the cash machine’s card acceptance slot, usually secured to the ATM with glue or double-sided tape. Increasingly, however, more financial institutions are turning to technologies that can detect when something has been affixed to the ATM. As a result, more fraudsters are selling and using insert skimming devices — which are completely hidden from view once inserted into an ATM.

The fraudster demonstrating his insert skimmer in the short video above spends the first half of the demo showing how a regular bank card can freely move in and out of the card acceptance slot while the insert skimmer is nestled inside. Toward the end of the video, the scammer retrieves the insert skimmer using what appears to be a rather crude, handmade tool thin enough to fit inside a wallet.

A sales video produced by yet another miscreant in the cybercrime underground shows an insert skimmer being installed and removed from a motorized card acceptance slot that has been fully removed from an ATM so that the fraud device can be seen even while it is inserted.

In a typical setup, insert skimmers capture payment card data from the magnetic stripe on the backs of cards inserted into a hacked ATM, while a pinhole spy camera hidden above or beside the PIN pad records time-stamped video of cardholders entering their PINs. The data allows thieves to fabricate new cards and use PINs to withdraw cash from victim accounts.

Covering the PIN pad with your hand blocks any hidden camera from capturing your PIN — and hidden cameras are used on the vast majority of the more than three dozen ATM skimming incidents that I’ve covered here. Shockingly, few people bother to take this simple and effective step, as detailed in this skimmer tale from 2012, wherein I obtained hours worth of video seized from two ATM skimming operations and saw customer after customer walk up, insert their cards and punch in their digits — all in the clear.

Once you understand how stealthy these ATM fraud devices are, it’s difficult to use a cash machine without wondering whether the thing is already hacked. The truth is most of us probably have a better chance of getting physically mugged after withdrawing cash than encountering a skimmer in real life. However, here are a few steps we can all take to minimize the success of skimmer gangs.

-Cover the PIN pad while you enter your PIN.

-Keep your wits about you when you’re at the ATM, and avoid dodgy-looking and standalone cash machines in low-lit areas, if possible.

-Stick to ATMs that are physically installed in a bank. Stand-alone ATMs are usually easier for thieves to hack into.

-Be especially vigilant when withdrawing cash on the weekends; thieves tend to install skimming devices on a weekend — when they know the bank won’t be open again for more than 24 hours.

-Keep a close eye on your bank statements, and dispute any unauthorized charges or withdrawals immediately.

If you liked this piece and want to learn more about skimming devices, check out my series All About Skimmers.

DoD Opens .Mil to Legal Hacking, Within Limits

November 23, 2016

Hackers of all stripes looking to test their mettle can now legally hone their cyber skills, tools and weaponry against any Web property operated by the U.S. Department of Defense (DoD), according to a new military-wide policy for reporting and fixing security vulnerabilities.

hackthearmy

Security researchers are often reluctant to report programming flaws or security holes they’ve stumbled upon for fear that the vulnerable organization might instead decide to shoot the messenger and pursue hacking charges.

But on Nov. 21, the DoD sought to clear up any ambiguity on that front for the military’s substantial online presence, creating both a centralized place to report cybersecurity flaws across the dot-mil space as well as a legal safe harbor (and the prospect of public recognition) for researchers who abide by a few ground rules.

The DoD said it would “deal in good faith” with researchers “who discover, test, and submit vulnerabilities or indicators of vulnerabilities in accordance with these guidelines:

“Your activities are limited exclusively to –
(1) Testing to detect a vulnerability or identify an indicator related to a vulnerability; or
(2) Sharing with, or receiving from, DoD information about a vulnerability or an indicator related to a vulnerability.”

The Department of Defense also issued the following ten commandments for demonstrating compliance with its policy:

  1. You do no harm and do not exploit any vulnerability beyond the minimal amount of testing required to prove that a vulnerability exists or to identify an indicator related to a vulnerability.
  2. You avoid intentionally accessing the content of any communications, data, or information transiting or stored on DoD information system(s) – except to the extent that the information is directly related to a vulnerability and the access is necessary to prove that the vulnerability exists.
  3. You do not exfiltrate any data under any circumstances.
  4. You do not intentionally compromise the privacy or safety of DoD personnel (e.g. civilian employees or military members), or any third parties.
  5. You do not intentionally compromise the intellectual property or other commercial or financial interests of any DoD personnel or entities, or any third parties.
  6. You do not publicly disclose any details of the vulnerability, indicator of vulnerability, or the content of information rendered available by a vulnerability, except upon receiving explicit written authorization from DoD.
  7. You do not conduct denial of service testing.
  8. You do not conduct social engineering, including spear phishing, of DoD personnel or contractors.
  9. You do not submit a high-volume of low-quality reports.
  10. If at any point you are uncertain whether to continue testing, please engage with our team.

In return, the DoD said it commits to acknowledging receipt of a report within three business days, and that it will work to confirm the existence of the vulnerability to the researcher and keep the researcher informed of any remediation underway. There are some restrictions, however. For example, researchers who report vulnerabilities will be expected to refrain from publicly disclosing their findings unless and until the DoD provides written consent that it’s okay to do so.

“We want researchers to be recognized publicly for their contributions, if that is the researcher’s desire,” the DoD stated. “We will seek to allow researchers to be publicly recognized whenever possible. However, public disclosure of vulnerabilities will only be authorized at the express written consent of DoD.”

The DoD said if it couldn’t immediately fix or publicly acknowledge reported vulnerabilities, it might be because doing so could have life-or-death consequences for service members.

“Many DoD technologies are deployed in combat zones and, to varying degrees, support ongoing military operations; the proper functioning of DoD systems and applications can have a life-or-death impact on Service members and international allies and partners of the United States,” the agency observed. “DoD must take extra care while investigating the impact of vulnerabilities and providing a fix, so we ask your patience during this period.”

HACK THE ARMY

The Defense Department made the announcement via Hackerone.com, a company that helps organizations build and manage vulnerability reporting policies. HackerOne also helps customers build out “bug bounty” programs that remunerate and recognize researchers who report security flaws.

HackerOne currently is coordinating an upcoming bug bounty program called “Hack the Army,” in which some 500 qualifying contestants can earn cash rewards for finding and reporting cybersecurity weaknesses in the Army’s various online properties (incidentally, Hack the Army runs from Nov. 30 through Dec. 21, 2016, and interested/eligible hackers have until Nov. 28, at 17:00 EST to apply for a shot at one of those 500 spots). Continue reading