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UMI
AI technology Apple CyberCrime Cyberhackers Cybermedia Cybersecurity CyberThreat iOS iPhone Users Privacy reboot Software Updates UMI

Reboot Revolution Protecting iPhone Users

 


Researchers at the University of Michigan (UMI) believe that Apple's new iPhone software has a novel security feature. It presents that the feature may automatically reboot the phone if it has been unlocked for 72 hours without being unlocked. 

As 404 Media reported later, a new technology called "inactivity reboot" was introduced in iOS 18.1, which forces devices to restart if their inactivity continues for more than a given period.  Aside from the Inactivity Reboot feature, Apple continues to enhance its security framework with additional features as part of its ongoing security enhancements. Stolen Data Protection is one of the features introduced in iOS 17.3. It allows the device to be protected against theft by requiring biometric authentication (Face ID or Touch ID) before allowing it to change key settings. 

There are various methods to ensure that a stolen device is unable to be reconfigured easily, including this extra layer of security. With the upcoming iOS 18.2 update, Apple intends to take advantage of a feature called Stolen Data Protection, which is set to be turned off by default to avoid confusing users. However, Apple plans to encourage users to enable it when setting up their devices or after a factory reset to maintain an optimal user experience. 

As a result, users will be able to have more control over the way their personal information is protected. Apple has quietly introduced a new feature to its latest iPhone update that makes it even harder for anyone to unlock a device without consent—whether they are thieves or law enforcement officers. With this inactivity reboot feature, Apple has made unlocking even more difficult for anyone. When an iPhone has been asleep or in lock mode for an extended period, a new feature is introduced with iOS 18.1 will automatically reboot it in addition to turning it off. 

A common problem with iPhones is that once they have been rebooted, they become more difficult to crack since either a passcode or biometric signature is required to unlock them. According to the terms of the agreement, the primary objective of this measure is to prevent thieves (or police officers) from hacking into smartphones and potentially accessing data on them. There is a new "inactivity reboot" feature included in iOS 18 that, according to experts who spoke to 404 Media, will restart the device after approximately four days of dormancy if no activity is made.

A confirmation of this statement was provided by Magnet Forensics' Christopher Vance in a law enforcement group chat as described in Magnet Forensics' Christopher Vance, who wrote that iOS 18.1 has a timer which runs out after a set amount of time, and the device then reboots, moving from an AFU (After First Unlock) state to a BFU (Before First Unlock) state at the end of this timer. According to 404 Media, it seems that the issue was discovered after officers from the Detroit Police Department found the feature while investigating a crime scene in Detroit, Michigan.

When officers were working on iPhones for forensic purposes in the course of their investigation, they noticed that they automatically rebooted themselves frequently, which made it more difficult for them to unlock and access the devices. As soon as the devices were disconnected from a cellular network for some time, the working theory was that the phones would reboot when they were no longer connected to the network.  

However, there are actually much simpler explanations that can be provided for this situation. The feature, which AppleInsider refers to as an inactivity reboot, is not based on the current network connection or the state of the battery on the phone, which are factors that may affect the reboot timer. The reboot typically occurs after a certain amount of time has elapsed -- somewhere around 96 hours in most cases.  Essentially, the function of this timer is identical to the Mac's hibernation mode, which is intended to put the computer to sleep as a precaution in case there is a power outage or the battery is suddenly discharged. 

During the BFU state of the iPhone, all data on the iPhone belongs to the user and is fully encrypted, and is nearly impossible for anyone to access, except a person who knows the user's passcode to be able to get into the device. However, when the phone is in a state known as "AFU", certain data can be extracted by some device forensic tools, even if the phone is locked, since it is unencrypted and is thus easier to access and extract.  

According to Tihmstar, an iPhone security researcher on TechCrunch, the iPhones in these two states are also known as "hot" devices or "cold" devices depending on their temperature.  As a result, Tihmstar was making a point to emphasize that the majority of forensic firms are focusing on "hot" devices in an AFU state as they can verify that the user entered the correct passcode in the iPhone's secure enclave at some point. A "cold" device, on the other hand, is considerably more difficult to compromise because its memory can not be easily accessed once the device restarts, so there is no easy way to compromise it.

The law enforcement community has consistently opposed and argued against new technology that Apple has implemented to enhance security, arguing that this is making their job more difficult. According to reports, in 2016, the FBI filed a lawsuit against Apple in an attempt to force the company to install a backdoor that would enable it to open a phone owned by a mass shooter. Azimuth Security, an Australian startup, ultimately assisted the FBI in gaining access to the phone through hacking. 

These developments highlight Apple’s ongoing commitment to prioritizing user privacy and data security, even as such measures draw criticism from law enforcement agencies. By introducing features like Inactivity Reboot and Stolen Data Protection, Apple continues to establish itself as a leader in safeguarding personal information against unauthorized access. 

These innovations underscore the broader debate between privacy advocates and authorities over the balance between individual rights and security imperatives in an increasingly digitized world.
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User Privacy
Credential Phishing iPhone Users Mobile Security Phishing Campaign User Privacy

Novel Darcula Phishing Campaign is Targeting iPhone Users

 

Darcula is a new phishing-as-a-service (PhaaS) that targets Android and iPhone consumers in more than 100 countries by using 20,000 domains to impersonate brands and collect login credentials.

With more than 200 templates available to fraudsters, Darcula has been used against a wide range of services and organisations, including the postal, financial, government, tax, and utility sectors as well as telcos and airlines.

One feature that distinguishes the service is that it contacts the targets over the Rich Communication Services (RCS) protocol for Google Messages and iMessage rather than SMS for sending phishing messages.

Darcula's phishing service

Darcula was first discovered by security researcher Oshri Kalfon last summer, but according to Netcraft researchers, the platform is becoming increasingly popular in the cybercrime sphere, having lately been employed across numerous high-profile incidents. 

Darcula, unlike previous phishing approaches, uses modern technologies such as JavaScript, React, Docker, and Harbour, allowing for continual updates and new feature additions without requiring users to reinstall the phishing kit. 

The phishing kit includes 200 phishing templates that spoof businesses and organisations from over 100 countries. The landing pages are high-quality, with proper local language, logos, and information. 

The fraudsters choose a brand to spoof and then run a setup script that installs the phishing site and management dashboard right into a Docker environment. The Docker image is hosted via the open-source container registry Harbour, and the phishing sites are built with React.

According to the researchers, the Darcula service commonly uses ".top" and ".com" top-level domains to host purpose-registered domains for phishing attacks, with Cloudflare supporting nearly a third of those. Netcraft has mapped 20,000 Darcula domains to 11,000 IP addresses, with 120 new domains added everyday. 

Abandoning SMS 

Darcula breaks away from standard SMS-based methods, instead using RCS (Android) and iMessage (iOS) to send victims texts with links to the phishing URL. The benefit is that victims are more likely to perceive the communication as trusting the additional safeguards that aren’t available in SMS. Furthermore, because RCS and iMessage use end-to-end encryption, it is impossible to intercept and block phishing messages based on their content.

According to Netcraft, recent global legislative initiatives to combat SMS-based crimes by restricting suspicious communications are likely encouraging PhaaS providers to use other protocols such as RCS and iMessage

Any incoming communication asking the recipient to click on a URL should be viewed with caution, especially if the sender is unknown. Phishing threat actors will never stop trying with novel delivery techniques, regardless of the platform or app.

Researchers at Netcraft also advise keeping an eye out for misspellings, grammatical errors, unduly tempting offers, and calls to action.
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User Privacy
Banking Trojan Data Safety iPhone Users malware User Privacy

Beware, iPhone Users: iOS GoldDigger Trojan can Steal Face ID and Banking Details

 

Numerous people pick iPhones over Android phones because they believe iPhones are more secure. However, this may no longer be the case due to the emergence of a new banking trojan designed explicitly to target iPhone users.

According to a detailed report by the cybersecurity firm Group-IB, the Android trojan GoldDigger has now been successfully repurposed to target iPhone and iPad users. The company claims that this is the first malware designed for iOS, posing a huge threat by collecting facial recognition data, ID documents, and even SMS. 

The malware, discovered for the first time last October, now has a new version dubbed GoldPickaxe that is optimised for iOS and Android devices. When installed on an iPhone or Android phone, GoldPickaxe can collect facial recognition data, ID documents, and intercepted text messages, all with the goal of making it easier to withdraw funds from banks and other financial apps. To make matters worse, this biometric data is utilised to create AI deepfakes, which allow attackers to mimic victims and gain access to their bank accounts. 

It is vital to note that the GoldPickaxe malware is now targeting victims in Vietnam and Thailand. However, as with other malware schemes, if this one succeeds, the cybercriminals behind it may expand their reach to target iPhone and Android users in the United States, Europe, and the rest of the world. 

Android banking trojans are typically propagated via malicious apps and phishing campaigns. It is more difficult to install a trojan on an iPhone since Apple's ecosystem is more locked off than Google's. However, as hackers often do,they've figured out a way. 

Initially, the malware was disseminated via Apple's TestFlight program, which allows developers to deploy beta app versions without going through the App Store's authorization process. However, after Apple removed it from TestFlight, the hackers shifted to a more complicated way employing a Mobile Device Management (MDM) profile, which is generally used to manage enterprise devices. 

Given how successful a banking trojan like GoldDigger or GoldPickaxe can be, especially since it can target both iPhones and Android phones, this is unlikely to be the last time we hear about this spyware or the hackers behind it. As of now, even the most latest versions of iOS and iPadOS appear to be vulnerable to this Trojan. Group-IB has contacted Apple about the flaw, so a solution is likely in the works.
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