Android Devices Can Be Fatally Hacked By Malicious Wi-Fi Networks (arstechnica.com)
An anonymous reader quotes a report from Ars Technica: A broad array of Android phones is vulnerable to attacks that use booby-trapped Wi-Fi signals to achieve full device takeover, a researcher has demonstrated. The vulnerability resides in a widely used Wi-Fi chipset manufactured by Broadcom and used in both iOS and Android devices. Apple patched the vulnerability with Monday's release of iOS 10.3.1. "An attacker within range may be able to execute arbitrary code on the Wi-Fi chip," Apple's accompanying advisory warned. In a highly detailed blog post published Tuesday, the Google Project Zero researcher who discovered the flaw said it allowed the execution of malicious code on a fully updated 6P "by Wi-Fi proximity alone, requiring no user interaction." Google is in the process of releasing an update in its April security bulletin. The fix is available only to a select number of device models, and even then it can take two weeks or more to be available as an over-the-air update to those who are eligible. Company representatives didn't respond to an e-mail seeking comment for this post. The proof-of-concept exploit developed by Project Zero researcher Gal Beniamini uses Wi-Fi frames that contain irregular values. The values, in turn, cause the firmware running on Broadcom's wireless system-on-chip to overflow its stack. By using the frames to target timers responsible for carrying out regularly occurring events such as performing scans for adjacent networks, Beniamini managed to overwrite specific regions of device memory with arbitrary shellcode. Beniamini's code does nothing more than write a benign value to a specific memory address. Attackers could obviously exploit the same series of flaws to surreptitiously execute malicious code on vulnerable devices within range of a rogue access point.
Wonder what kind of remote attack vector is hidden in Intel Wireless Display/Anti-Theft.
The goal of this report is to make the existence of Intel CPU backdoors a common knowledge and provide information on backdoor removal.
What we know about Intel CPU backdoors so far:
TL;DR version
Your Intel CPU and Chipset is running a backdoor as we speak.
The backdoor hardware is inside the CPU/Bridge and the backdoor firmware (Intel Management Engine) is in the chipset flash memory.
30C3 Intel ME live hack:
@21m43s, keystrokes leaked from Intel ME above the OS, wireshark failed to detect packets.
[Video Link] 30C3: Persistent, Stealthy, Remote-controlled Dedicated Hardware Malware
[Quotes] Vortrag:
"DAGGER exploits Intel's Manageability Engine (ME), that executes firmware code such as Intel's Active Management Technology (iAMT), as well as its OOB network channel."
"the ME provides a perfect environment for undetectable sensitive data leakage on behalf of the attacker. Our presentation consists of three parts. The first part addresses how to find valuable data in the main memory of the host. The second part exploits the ME's OOB network channel to exfiltrate captured data to an external platform and to inject new attack code to target other interesting data structures available in the host runtime memory. The last part deals with the implementation of a covert network channel based on JitterBug."
"We have recently improved DAGGER's capabilites to include support for 64-bit operating systems and a stealthy update mechanism to download new attack code."
"To be more precise, we show how to conduct a DMA attack using Intel's Manageability Engine (ME)."
"We can permanently monitor the keyboard buffer on both operating system targets."
Backdoor removal:
The backdoor firmware can be removed by following this guide using the me_cleaner script.
Removal requires a Raspberry Pi (with GPIO pins) and a SOIC clip.
Decoding Intel backdoors:
The situation is out of control and the Libreboot/Coreboot community is looking for BIOS/Firmware experts to help with the Intel ME decoding effort.
If you are skilled in these areas, download Intel ME firmwares from this collection and have a go at them, beware Intel is using a lot of counter measures to prevent their backdoors from being decoded (explained below).
Useful links:
The Intel ME subsystem can take over your machine, can't be audited
REcon 2014 - Intel Management Engine Secrets
Untrusting the CPU (33c3)
Towards (reasonably) trustworthy x86 laptops
30C3 To Protect And Infect - The militarization of the Internet
30c3: To Protect And Infect Part 2 - Mass Surveillance Tools & Software
1. Introduction, what is Intel ME
Short version, from Intel staff:
Re: What Intel CPUs lack Intel ME secondary processor?
Amy_Intel Feb 8, 2016 9:27 AM
The Management Engine (ME) is an isolated and protected