Specifically, a malicious website could use the flaw to access the contents of files stored on the device's SD card as well as "a limited range of other data and files stored on the phone," Cannon explained.
A video included with Cannon's post demonstrates the exploit in action using the Android emulator with Android 2.2, or Froyo, but Cannon has found it on an HTC Desire with Android 2.2 as well. Heise Security was able to reproduce the exploit on both a Google Nexus One and a Samsung Galaxy Tab, both running Android 2.2, according to a report on The H.
For the demo, Cannon first created a file on the SD card of the Android device. Next, he visited a malicious page and watched as it grabbed the file and automatically uploaded it to a server.
The Android Security Team responded within 20 minutes of Cannon's notification about the flaw and is planning a fix that will go into a Gingerbread maintenance release after that version becomes available, he said. An initial patch has already been developed and is now being evaluated.
In the meantime, since not all gadget manufacturers provide timely Android updates, Cannon suggests a few steps users can take to protect themselves, including:
* Watching for suspicious automatic downloads, which should be flagged in the notification area. "It shouldn't happen completely silently," Cannon notes.
* Using a browser such as Opera Mobile, which prompts the user before downloading files.
* Unmounting the SD card.
The Android Advantage
Though it is clearly a vulnerability that needs to be addressed, there is good news in Cannon's discovery as well.
First, "it is not a root exploit, meaning it runs within the Android sandbox and cannot grab all files on the system," Cannon pointed out. Rather, it exposes only files on the SD card and "a limited number of others." System directories, in other words, remain protected.
Second, "you have to know the name and path of the file you want to steal," he added.
In other words, Android's Linux roots serve to protect the user from anything more than local damage, and that damage is limited to files whose names and paths are predictable, such as pictures taken with the device's camera.