Researchers at Google Project Zero discovered that it was possible to hack iPhone devices by visiting specially crafted websites.
Earlier this year, Google Threat Analysis Group (TAG) experts uncovered an iPhone hacking campaign, initially, they spotted a limited number of hacked websites used in
“There was no target discrimination; simply visiting the hacked site was enough for the exploit server to attack your device, and if it was successful, install a monitoring implant. We estimate that these sites receive thousands of visitors per week.”
Threat actors used at least five unique
The chains of exploits were exploiting 14 different vulnerabilities in Apple’s iOS. 7 vulnerabilities were affecting the Safari web browser, 5 vulnerabilities the
The Project Zero researcher Ian Beer explained that only two of the 14 security flaws were
In February researchers at Google revealed that two of the zero-day flaws addressed by Apple with the release of iOS 12.1.4 were exploited in the wild.
Project Zero Team Lead Ben Hawkes revealed that both CVE-2019-7286 and CVE-2019-7287 have been exploited in the wild. Google experts did not reveal technical details on the
Apple iOS 12.1.4 version addressed four vulnerabilities, two issues associated with the FaceTime bug and two memory corruption flaws that could be exploited by attackers to elevate privileges and execute arbitrary code.
The CVE-2019-7287 vulnerability affected the IOKit and it can be exploited by a malicious app to execute arbitrary code with kernel privileges.
The CVE-2019-7286 vulnerability impacted the Foundation component in iOS, it could allow a malicious application to gain elevated privileges.
Now Beer revealed that his team reported the above issues to Apple, giving the tech giant a 7-day deadline to address them.
“We reported these issues to Apple with a 7-day deadline on 1 Feb 2019, which resulted in the out-of-band release of iOS 12.1.4 on 7 Feb 2019. We also shared the complete details with Apple, which were disclosed publicly on 7 Feb 2019,” Beer says.
The spyware implant was also able to steal the database files from popular end-to-end encryption apps like Whatsapp, Telegram, and
The implant used in the attacks was designed to steal private data, including photos and GPS location in real-time, it was also able to access device’s keychain data (i.e. credentials, authentication tokens, and certificates).
“The implant has access to all the database files (on the victim’s phone) used by popular end-to-end encryption apps like Whatsapp, Telegram and
The researchers pointed out that the spyware has no persistence on the infected device, it would be automatically removed upon rebooting leaving no trace of its presence.
Beer published technical details of the exploit chains and of the implant used in the attack: