Samsung Galaxy S9, iPhone X Hacked at Pwn2Own Tokyo
14.11.2018 securityweek Congress
Apple iPhone X, Samsung Galaxy S9 and Xiaomi Mi 6 smartphones have all been hacked on the first day of the Pwn2Own Tokyo 2018 contest taking place these days alongside the PacSec security conference in Tokyo, Japan.
First, a team made up of Amat Cama and Richard Zhu, calling themselves “fluoroacetate,” hacked the Xiaomi Mi 6 using an NFC exploit. According to the Zero Day Initiative (ZDI), the organizer of Pwn2Own, they leveraged an out-of-bounds write bug affecting WebAssembly to achieve code execution via NFC. The researchers earned $30,000 for this hack.
It also took the MWR Labs team two tries to demonstrate an exploit on the Samsung Galaxy S9. The white hats hacked a captive portal with no user interaction, and leveraged unsafe redirect and unsafe application loading bugs to execute code on the phone, which earned them another $30,000.
The Fluoroacetate team also demonstrated a code execution exploit against a Samsung Galaxy S9. The exploit involved a heap overflow in the device’s baseband component and it earned the researchers $50,000.
The same team hacked an iPhone X over Wi-Fi using a Just-In-Time (JIT) bug and an out-of-bounds write flaw. This attempt earned them $60,000.
Pwn2Own Tokyo 2018 participants earned a total of $225,000 on the first day of the event.
On the second day, Fluoroacetate and MWR Labs will make several attempts to hack the iPhone X and the Xiaomi Mi 6.
This is the first Pwn2Own competition that also covers IoT devices, such as Apple Watch, Amazon Echo, Google Home, Amazon Cloud Cam, and Nest Cam IQ Indoor. The prizes for these products range between $40,000 and $60,000, but apparently no exploits will be presented. Other devices not targeted this year are the Huawei P20 and the Google Pixel 2.
Participants earned more than half a million dollars at last year’s Mobile Pwn2Own competition after hacking the Galaxy S8, iPhone 7 and Huawei Mate 9 Pro.
UPDATE. ZDI has published a blog post with additional information on each of the exploits.