Late last week, our Slackware Linux distro announced an update to follow the scheduled-and-expected Firefox 100 release, which came out at the start of the month.
The new version is 100.0.1and we’re running it happily…
… But when we clicked on What’s new two days later, to see what was new, we were still being told [2022-05-15T19:00Z] to “check back later”:
Similarly, checking for updates via the About dialog in a Firefox version that we had installed directly from Firefox.com informed us that we were currently up-to-date at version 100.0.
Visiting Firefox.com directly did not help either, with the 100.0 version shown there as the latest-and-greatest download, too.
Nevertheless, 100.0.1 is available officially from Mozilla’s FTP archive server (though you do not access it via FTP any more, of course).
According to Ghacks.comthe most significant change in 100.0.1 is that the point release “Improves Firefox’s security sandbox on Windows devices.”
The blog article, entitled Improved Process Isolation in Firefox 100actually came out the day before the 100.0.1 release was uploaded to the FTP server, as though the changes were already accomplished in the 100.0 release.
As far as we can tell, however, this long-in-gestation security code was ultimately not enabled (or at least was not fully enabled) in 100.0, because the Mozilla change logs include a fix for Bug 1767999dated shortly after the 100.0 release came out, entitled Re-enable Win32k Lockdown by Default.
(We’ll explain below how this security sandbox code came to be called Win32k Lockdown.)
What’s new in the sandbox?
The Improved Process Isolation report describes a long-running series of changes in Firefox that aim to take advantage of a Windows security setting known long-windedly as PROCESS_MITIGATION_SYSTEM_CALL_DISABLE_POLICY.
This is not a new security feature – it arrived in Windows 8 – but it’s not a mitigation that you can trivially apply to visual, interactive, graphics-rendering products such as browsers.
Greatly simplified, the SYSTEM_CALL_DISABLE setting allows a process to relinquish the right to make certain risky system calls, notably those Windows API functions that are implemented directly in the kernel for performance reasons.
Firefox already splits itself into many separate processes, so that if the browser goes haywire in one tab, the compromised code does not immediately have access to the same memory space as all the other tabs.
Generally speaking, this boosted performance, because moving data around inside one big process is much easier and faster (albeit more error prone) than transmitting it between separate processes.
But it meant that exploit code triggered in one browser tab could lead directly to attackers sniffing out passwords, cookies and other confidential content from any other browser tab or window open at the time.
Divide and conquer
Splitting up the browser into multiple co-operating but separate processes means that each has its own memory area that the others cannot see.
Separate processes also allow different parts of the browser to run with different access rights, in accordance with the principle of least privilege (never give yourself more power than you really need, if only to protect you from yourself).
You’d think, therefore, that implementing SYSTEM_CALL_DISABLE would be an obvious and easy change to make to a browser’s web content rendering processes, given that their job is to decode, wrangle, process and display content based on untrusted data received from outside.
After all, a bug or a crash in the kernel is much more dangerous than a crash in userland, given that it’s the kernel itself that is supposed to clamp down on misbehavior in userland code.
If you are looking for a dramatic metaphor, you can think of an exploit in userland as tampering with a witness in a court case, but you can think of an exploit in kernel-land as bypassing the witnesses and subverting the judge and jury instead.
Unfortunately, as the Mozilla coders have had a long time to reflect, the Windows API functions that Microsoft decided to shift from userland to kernel-land…
… Were those functions that affected real-time performance the most, and were therefore the most obvious to (and the most complained-about by) users, such as writing to the screen, displaying graphics, and even, as Mozilla discovered, deciding on where to add line breaks into formatted text in languages with complex text-formatting rules.
In other words, any browser rendering process that wants to wrap itself in the added safety of SYSTEM_CALL_DISABLE needs to be able to call on yet another special-purpose process that is itself allowed to call Windows kernel-level API functions in a well-controlled way .
If the helper processes that act as “insulators” between the rendering processes and the kernel miss out any functions that the browser ultimately relies upon (even if they’re only needed occasionally, like those special-case line-break rules), then some websites will simply stop working, or will work incorrectly.
O! What a tangled web we weave, when first we practice to relinquish certain access rights on purpose, and to separate our complex applications into lots of co-operating parts such that each gives up as many risky privileges as it can!
Mozilla refers to its use of the SYSTEM_CALL_DISABLE option as Win32k Lockdownafter the name of the Windows driver (
win32k.sys) that implements the various kernel-accelerated Windows API calls.
Given that the code was a long time in the making, and apparently nearly-but-not quite ready to be turned on by default in Firefox 100…
… Why rush to enable it in an out-and-band 100.0.1 update instead of simply waiting for a future scheduled release?
One guess is hinted at in the summary of the latest Mozilla Channels Meetingwhich says, Reminder: pwn2own is next week (Wed-Fri) and we expect to ship chemspills [Mozilla’s curious metaphor for security-driven rapid release updates] in response… We’ll know the exact schedule closer to the start of the event. ”
Pwn2Own, of course, is a famous big-money hacking contest in which products such as browsers, teleconferencing apps and automotive software (where this year’s biggest individual prizes are on offer, topping out at $ 500,000) are deliberately attacked.
Competitors each get a 30-minute slot on a freshly-imaged computer with the latest operating system and application updates installed to demonstrate a working exploit live in front of the judges.
Lots are drawn to determine the order in which the entrants compete, and the first to “pwn” a product wins the prize.
This means, of course, that only the first exploit that works properly gets disclosed.
The other competitors do not get the money, but they do get to keep their attacks under their hats, so no one knows whether they found a different type of exploit, or whether it would have worked if they’d drawn an earlier hacking slot .
Was the urgency to get 100.0.1 out because of the proximity of Pwn2Own, in the hope that at least some of the exploits that competitors might bring along would be thwarted by the new Win32k Lockdown protection?
What to do?
You do not need to do anything, though we sympathize if you were confused by seeing reports that Firefox 100.0.1 was officially available, only to find that it will not show up as an official update until Monday 2022-05-16 at the earliest.
If you want to update ahead of the majority, you can download 100.0.1 from Mozilla’s FTP server and deploy it yourself, instead of waiting until Firefox’s internal update mechanism decides it’s time.