A recent scoop by Reuters revealed that mobile apps for the U.S. Army and the Centers for Disease Control and Prevention (CDC) were integrating software that sends visitor data to a Russian company called Pushwoosh, which claims to be based in the United States. But that story omitted an important historical detail about Pushwoosh: In 2013, one of its developers admitted to authoring the Pincer Trojan, malware designed to surreptitiously intercept and forward text messages from Android mobile devices.
Pushwoosh says it is a U.S. based company that provides code for software developers to profile smartphone app users based on their online activity, allowing them to send tailor-made notifications. But a recent investigation by Reuters raised questions about the company’s real location and truthfulness.
The Army told Reuters it removed an app containing Pushwoosh in March, citing “security concerns.” The Army app was used by soldiers at one of the nation’s main combat training bases.
Reuters said the CDC likewise recently removed Pushwoosh code from its app over security concerns, after reporters informed the agency Pushwoosh was not based in the Washington D.C. area — as the company had represented — but was instead operated from Novosibirsk, Russia.
Pushwoosh’s software also was found in apps for “a wide array of international companies, influential nonprofits and government agencies from global consumer goods company Unilever and the Union of European Football Associations (UEFA) to the politically powerful U.S. gun lobby, the National Rifle Association (NRA), and Britain’s Labour Party.”
The company’s founder Max Konev told Reuters Pushwoosh “has no connection with the Russian government of any kind” and that it stores its data in the United States and Germany.
But Reuters found that while Pushwoosh’s social media and U.S. regulatory filings present it as a U.S. company based variously in California, Maryland and Washington, D.C., the company’s employees are located in Novosibirsk, Russia.
Reuters also learned that the company’s address in California does not exist, and that two LinkedIn accounts for Pushwoosh employees in Washington, D.C. were fake.
“Pushwoosh never mentioned it was Russian-based in eight annual filings in the U.S. state of Delaware, where it is registered, an omission which could violate state law,” Reuters reported.
Pushwoosh admitted the LinkedIn profiles were fake, but said they were created by a marketing firm to drum up business for the company — not misrepresent its location.
Pushwoosh told Reuters it used addresses in the Washington, D.C. area to “receive business correspondence” during the coronavirus pandemic. A review of the Pushwoosh founder’s online presence via Constella Intelligence shows his Pushwoosh email address was tied to a phone number in Washington, D.C. that was also connected to email addresses and account profiles for over a dozen other Pushwoosh employees.
Pushwoosh was incorporated in Novosibirsk, Russia in 2016.
The dust-up over Pushwoosh came in part from data gathered by Zach Edwards, a security researcher who until recently worked for the Internet Safety Labs, a nonprofit organization that funds research into online threats.
Edwards said Pushwoosh began as Arello-Mobile, and for several years the two co-branded — appearing side by side at various technology expos. Around 2016, he said, the two companies both started using the Pushwoosh name.
A search on Pushwoosh’s code base shows that one of the company’s longtime developers is a 41-year-old from Novosibirsk named Yuri Shmakov. In 2013, KrebsOnSecurity interviewed Shmakov for the story, “Who Wrote the Pincer Android Trojan?” wherein Shmakov acknowledged writing the malware as a freelance project.
Shmakov told me that, based on the client’s specifications, he suspected it might ultimately be put to nefarious uses. Even so, he completed the job and signed his work by including his nickname in the app’s code.
“I was working on this app for some months, and I was hoping that it would be really helpful,” Shmakov wrote. “[The] idea of this app is that you can set it up as a spam filter…block some calls and SMS remotely, from a Web service. I hoped that this will be [some kind of] blacklist, with logging about blocked [messages/calls]. But of course, I understood that client [did] not really want this.”
Shmakov did not respond to requests for comment. His LinkedIn profile says he stopped working for Arello Mobile in 2016, and that he currently is employed full-time as the Android team leader at an online betting company.
In a blog post responding to the Reuters story, Pushwoosh said it is a privately held company incorporated under the state laws of Delaware, USA, and that Pushwoosh Inc. was never owned by any company registered in the Russian Federation.
“Pushwoosh Inc. used to outsource development parts of the product to the Russian company in Novosibirsk, mentioned in the article,” the company said. “However, in February 2022, Pushwoosh Inc. terminated the contract.”
However, Edwards noted that dozens of developer subdomains on Pushwoosh’s main domain still point to JSC Avantel, an Internet provider based in Novosibirsk, Russia.
Edwards said the U.S. Army’s app had a custom Pushwoosh configuration that did not appear on any other customer implementation.
“It had an extremely custom setup that existed nowhere else,” Edwards said. “Originally, it was an in-app Web browser, where it integrated a Pushwoosh javascript so that any time a user clicked on links, data went out to Pushwoosh and they could push back whatever they wanted through the in-app browser.”
An Army Times article published the day after the Reuters story ran said at least 1,000 people downloaded the app, which “delivered updates for troops at the National Training Center on Fort Irwin, Calif., a critical waypoint for deploying units to test their battlefield prowess before heading overseas.”
In April 2022, roughly 4,500 Army personnel converged on the National Training Center for a war games exercise on how to use lessons learned from Russia’s war against Ukraine to prepare for future fights against a major adversary such as Russia or China.
Edwards said despite Pushwoosh’s many prevarications, the company’s software doesn’t appear to have done anything untoward to its customers or users.
“Nothing they did has been seen to be malicious,” he said. “Other than completely lying about where they are, where their data is being hosted, and where they have infrastructure.”
Edwards also found Pushwoosh’s technology embedded in nearly two dozen mobile apps that were sold to cities and towns across Illinois as a way to help citizens access general information about their local communities and officials.
The Illinois apps that bundled Pushwoosh’s technology were produced by a company called Government 311, which is owned by Bill McCarty, the current director of the Springfield Office of Budget and Management. A 2014 story in The State Journal-Register said Gov 311’s pricing was based on population, and that the app would cost around $2,500 per year for a city with approximately 25,000 people.
McCarty told KrebsOnSecurity that his company stopped using Pushwoosh “years ago,” and that it now relies on its own technology to provide push notifications through its 311 apps.
But Edwards found some of the 311 apps still try to phone home to Pushwoosh, such as the 311 app for Riverton, Ill.
“Riverton ceased being a client several years ago, which [is] probably why their app was never updated to change out Pushwoosh,” McCarty explained. “We are in the process of updating all client apps and a website refresh. As part of that, old unused apps like Riverton 311 will be deleted.”
Edwards said it’s far from clear how many other state and local government apps and Web sites rely on technology that sends user data to U.S. adversaries overseas. In July, Congress introduced an amended version of the Intelligence Authorization Act for 2023, which included a new section focusing on data drawn from online ad auctions that could be used to geolocate individuals or gain other information about them.
Business Insider reports that if this section makes it into the final version — which the Senate also has to pass — the Office for the Director of National Intelligence (ODNI) will have 60 days after the Act becomes law to produce a risk assessment. The assessment will look into “the counterintelligence risks of, and the exposure of intelligence community personnel to, tracking by foreign adversaries through advertising technology data,” the Act states.
Edwards says he’s hoping those changes pass, because what he found with Pushwoosh is likely just a drop in a bucket.
“I’m hoping that Congress acts on that,” he said. “If they were to put a requirement that there’s an annual audit of risks from foreign ad tech, that would at least force people to identify and document those connections.”
A financial cybercrime group calling itself the Disneyland Team has been making liberal use of visually confusing phishing domains that spoof popular bank brands using Punycode, an Internet standard that allows web browsers to render domain names with non-Latin alphabets like Cyrillic.
The Disneyland Team’s Web interface, which allows them to interact with malware victims in real time to phish their login credentials using phony bank websites.
The Disneyland Team uses common misspellings for top bank brands in its domains. For example, one domain the gang has used since March 2022 is ushank[.]com — which was created to phish U.S. Bank customers.
But this group also usually makes use of Punycode to make their phony bank domains look more legit. The U.S. financial services firm Ameriprise uses the domain ameriprise.com; the Disneyland Team’s domain for Ameriprise customers is https://www.xn--meripris-mx0doj[.]com [brackets added to defang the domain], which displays in the browser URL bar as ạmeriprisẹ[.]com.
Look carefully, and you’ll notice small dots beneath the “a” and the second “e”. You could be forgiven if you mistook one or both of those dots for a spec of dust on your computer screen or mobile device.
This candid view inside the Disneyland Team comes from Alex Holden, founder of the Milwaukee-based cybersecurity consulting firm Hold Security. Holden’s analysts gained access to a Web-based control panel the crime group has been using to keep track of victim credentials (see screenshot above). The panel reveals the gang has been operating dozens of Punycode-based phishing domains for the better part of 2022.
Have a look at the Punycode in this Disneyland Team phishing domain: https://login2.xn--mirtesnbd-276drj[.]com, which shows up in the browser URL bar as login2.ẹmirạtesnbd[.]com, a domain targeting users of Emirates NBD Bank in Dubai.
Here’s another domain registered this year by the Disneyland Team: https://xn--clientchwb-zxd5678f[.]com, which spoofs the login page of financial advisor Charles Schwab with the landing page of cliẹntșchwab[.]com. Again, notice the dots under the letters “e” and “s”. Another Punycode domain of theirs sends would-be victims to cliẹrtschwạb[.]com, which combines a brand misspelling with Punycode.
We see the same dynamic with the Disneyland Team Punycode domain https://singlepoint.xn--bamk-pxb5435b[.]com, which translates to singlepoint.ụșbamk[.]com — again phishing U.S. Bank customers.
What’s going on here? Holden says the Disneyland Team is Russian-speaking — if not also based in Russia — but it is not a phishing gang per se. Rather, this group uses the phony bank domains in conjunction with malicious software that is already secretly installed on a victim’s computer.
Holden said the Disneyland Team domains were made to help the group steal money from victims infected with a powerful strain of Microsoft Windows-based banking malware known as Gozi 2.0/Ursnif. Gozi specializes in collecting credentials, and is mainly used for attacks on client-side online banking to facilitate fraudulent bank transfers. Gozi also allows the attackers to connect to a bank’s website using the victim’s computer.
In years past, crooks like these would use custom-made “web injects” to manipulate what Gozi victims see in their Web browser when they visit their bank’s site. These web injects allowed malware to rewrite the bank’s HTML code on the fly, and copy and/or intercept any data users would enter into a web-based form, such as a username and password.
Most Web browser makers, however, have spent years adding security protections to block such nefarious activity. As a result, the Disneyland Team simply tries to make their domains look as much like the real thing as possible, and then funnel victims toward interacting with those imposter sites.
“The reason that it is infeasible for them to use in-browser injects include browser and OS protection measures, and difficulties manipulating dynamic pages for banks that require multi-factor authentication,” Holden said.
In reality, the fake bank website overlaid by the Disneyland Team’s malware relays the victim’s browser activity through to the real bank website, while allowing the attackers to forward any secondary login requests from the bank, such as secret questions or multi-factor authentication challenges.
The Disneyland Team included instructions for its users, noting that when the victim enters their login credentials, he sees a 10-second spinning wheel, and then the message, “Awaiting back office approval for your request. Please don’t close this window.”
A fake PNC website overlay or “web inject” displaying a message intended to temporarily prevent the user from accessing their account.
The “SKIP” button in the screenshot above sends the user to the real bank login page, “in case the account is not interesting to us,” the manual explains. “Also, this redirect works if none of our operators are working at the time.”
The “TAKE” button in the Disneyland Team control panel allows users or affiliates to claim ownership over a specific infected machine or bot, which then excludes other users from interacting with that victim.
In the event that it somehow takes a long time to get the victim (bot) connected to the Disneyland Team control panel, or if it is necessary to delay a transaction, users can push a button that prompts the following message to appear on the victim’s screen:
“Your case ID number is 875472. An online banking support representative will get in touch shortly. Please provide your case ID number, and DO NOT close this page.”
The Disneyland user manual explains that the panel can be used to force the victim to log in again if they transmit invalid credentials. It also has other options for stalling victims whilst their accounts are drained. Another fake prompt the panel can produce shows the victim a message saying, “We are currently working on updating our security system. You should be able to log in once the countdown timer expires.”
The user manual says this option blocks the user from accessing their account for two hours. “It is possible to block for an hour with this button, in this case they get less frustrated, within the hours ddos will kill their network.”
Cybercrime groups will sometimes launch distributed denial-of-service (DDoS) attacks on the servers of the companies they’re trying to rob — which is usually intended to distract victims from their fleecing, although Holden said it’s unclear if the Disneyland Team employs this tactic as well.
For many years, KrebsOnSecurity tracked the day-to-day activities of a similar malware crew that used web injects and bots to steal tens of millions of dollars from small- to mid-sized businesses across the United States.
At the end of each story, I would close with a recommendation that anyone concerned about malware snarfing their banking information should strongly consider doing their online banking from a dedicated, security-hardened system which is only used for that purpose. Of course, the dedicated system approach works only if you always use that dedicated system for managing your account online.
Those stories also observed that since the vast majority of the malicious software used in cyberheists is designed to run only on Microsoft Windows computers, it made sense to pick a non-Windows computer for that dedicated banking system, such as a Mac or even a version of Linux. I still stand by this advice.
In case anyone is interested, here (PDF) is a list of all phishing domains currently and previously used by the Disneyland Team.
How do hackers hack phones? Several ways. Just as there are several ways you can prevent it from happening to you.
The thing is that our phones are like little treasure chests. They’re loaded with plenty of personal data, and we use them to shop, bank, and take care of other personal and financial matters—all of which are of high value to identity thieves.
However, you can protect yourself and your phone by knowing what to look out for and by taking a few simple steps. Let’s break it down by first taking a look at some of the more common attacks.
Whether hackers sneak it onto your phone by physically accessing your phone or by tricking you into installing it via a phony app, a sketchy website, or a phishing attack, hacking software can create problems for you in a couple of ways:
Some possible signs of hacking software on your phone include:
In all, hacking software can eat up system resources, create conflicts with other apps, and use your data or internet connection to pass along your personal information into the hands of hackers—all of which can lead to some of the symptoms listed above.
These are a classic form of attack. In fact, hackers have leveled them at our computers for years now too. Phishing is where hackers impersonate a company or trusted individual to get access to your accounts or personal info or both. And these attacks take many forms, like emails, texts, instant messages, and so forth, some of which can look really legitimate. Common to them are links to bogus sites that attempt to trick you into handing over that info or that install malware to wreak havoc on your device or likewise steal information. Learning how to spot a phishing attack is one way to keep yourself from falling victim to one.
Professional hackers can use dedicated technologies that search for vulnerable mobile devices with an open Bluetooth connection. Hackers can pull off these attacks when they are range of your phone, up to 30 feet away, usually in a populated area. When hackers make a Bluetooth connection to your phone, they can possibly access your data and info, yet that data and info must be downloaded while the phone is within range. As you probably gathered, this is a more sophisticated attack given the effort and technology involved.
In August of 2019, the CEO of Twitter had his SIM card hacked by SIM card swapping scam. SIM card swapping occurs when a hacker contacts your phone provider, pretends to be you, and then asks for a replacement SIM card. Once the provider sends the new SIM to the hacker, the old SIM card will be deactivated, and your phone number will be effectively stolen. This means the hacker has taken control of your phone calls, messages, and so forth. This method of hacking requires the seemingly not-so-easy task of impersonating someone else, yet clearly, it happened to the CEO of a major tech company. Protecting your personal info and identity online can help prevent hackers from impersonating you to pull off this and other crimes.
While there are several ways a hacker can get into your phone and steal personal and critical information, here are a few tips to keep that from happening:
The post How Do Hackers Hack Phones and How Can I Prevent It? appeared first on McAfee Blog.
Smartphones have become such an integral part of our lives that it’s hard to imagine a time when we didn’t have them. We carry so much of our lives on our devices, from our social media accounts and photos of our pets to our banking information and home addresses. Whether it be just for fun or for occupational purposes, so much of our time and attention is spent on our smartphones.
Because our mobile devices carry so much valuable information, it’s important that we stay educated on the latest cyber schemes so we can be prepared to combat them and keep our data safe. According to Bleeping Computer, researchers have developed a trojan proof of concept tool that fakes a shutdown or reboot of iPhones, preventing malware from being removed and allowing hackers to secretly snoop on microphones and cameras.
Let’s dive into the details of this technique.
Typically, when an iOS device is infected with malware, the solution is as simple as just restarting the device. However, with this new technique researchers are calling “NoReboot,” ridding a device of malware is not quite as simple.
“NoReboot” blocks the shutdown and reboot process from being carried out, preventing the device from actually restarting. Without a proper shutdown and reboot, a malware infection on an iOS device can continue to exist. Because the device appears to be shut off with a dark screen, muted notifications, and a lack of response, it is easy to assume that the device has shut down properly and the problem has been solved. However, the “NoReboot” technique has only simulated a reboot, allowing a hacker to access the device and its functions, such as its camera and microphone. If a hacker has access to these functions, they could record the user without their knowledge and potentially capture private information.
This attack is not one that Apple can fix, as it relies on human-level deception rather than exploiting flaws found on iOS. That’s why it’s important that we know how to use our devices safely and stay protected.
As previously mentioned, smartphone usage takes up a big chunk of our time and attention. Since we are so often on these devices, it is usually fairly easy to tell when something isn’t working quite like it is supposed to. While these things could very well just be technical issues, sometimes they are much more than that, such as malware being downloaded onto your smartphone.
Malware can eat up the system resources or conflict with other apps on your device, causing it to act oddly.
Some possible signs that your device has been hacked include:
A slower device, webpages taking way too long to load, or a battery that never keeps a charge are all things that can be attributed to a device reaching its retirement. However, these things may also be signs that malware has compromised your phone.
Malware running in the background of a device may burn extra computing power, causing your phone to feel hot and overheated. If your device is quick to heat up, it may be due to malicious activity.
If apps you haven’t downloaded suddenly appear on your screen, or if outgoing calls you don’t remember making pop up on your phone bill, that is a definite red flag and a potential sign that your device has been hacked.
Malware may also be the cause of odd or frequent pop-ups, as well as changes made to your home screen. If you are getting an influx of spammy ads or your app organization is suddenly out of order, there is a big possibility that your device has been hacked.
To avoid the hassle of having a hacked phone in the first place, here are some tips that may help.
Promptly updating your phone and apps is a primary way to keep your device safe. Updates often fix bugs and vulnerabilities that hackers rely on to download malware for their attacks.
Apple’s App Store and Google Play have protections in place to help ensure that apps being downloaded are safe. Third-party sites may not have those same protections or may even be purposely hosting malicious apps to scam users. Avoiding these sites altogether can prevent these apps from allowing hackers into your device.
Hackers may use public Wi-Fi to gain access to your device and the information you have inside of it. Using a VPN to ensure that your network is private and only you can access it is a great way to stay protected on the go.
Turning off your Wi-Fi and Bluetooth when you are not actively using them is a simple way to prevent skilled hackers from working their way into your devices.
Some hackers have been known to install malware into public charging stations and hack into devices while they are being charged. Investing in your own personal portable charging packs is an easy way to avoid this type of hack.
Encrypting your phone can protect your calls, messages, and information, while also protecting you from being hacked. iPhone users can check their encryption status by going into Touch ID & Passcode, scrolling to the bottom, and seeing if data protection is enabled.
Although researchers agree that you can never trust a device to be fully off, there are some techniques that can help you determine whether your device was rebooted correctly.2 If you do suspect that your phone was hacked or notice some suspicious activity, restart your device. To do this, press and hold the power button and either volume button until you are prompted to slide the button on the screen to power off. After the device shuts down and restarts, notice if you are prompted to enter your passcode to unlock the device. If not, this is an indicator that a fake reboot just occurred. If this happens, you can wait for the device to run out of battery, although researchers have not verified that this will completely remove the threat.
If you are worried that your device has been hacked, follow these steps:
The post How iOS Malware May Snoop on Our Devices appeared first on McAfee Blog.