ARM and Lock-Free Programming

I was inspired by the release of Apple’s M1 ARM processor to tweet about the perils of lock-free programming which led to some robust discussion. The discussion went pretty well given the inanity of trying to discuss something as complicated as CPU memory models in the constraints of tweets, but it still left me wanting to expand slightly on the topic in blog form.

This is intended to be a casual introduction to the perils of lock-free programming (which I last wrote about some fifteen years ago), but also some explanation of why ARM’s weak memory model breaks some code, and why that code was probably broken already. I also want to explain why C++11 made the lock-free situation strictly better (objections to the contrary notwithstanding).

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Floating Point in the Browser, Part 3: When x+y=x (y != 0)

A few years ago I did a lot of thinking and writing about floating-point math. It was good fun, and I learned a lot in the process, but sometimes I go a long time without actually using that hard-earned knowledge. So, I am always inordinately pleased when I end up working on a bug which requires some of that specialized knowledge. Here then is the third of (at least) three tales of floating-point bugs that I have investigated in Chromium (part one is here, part two is here). It’s another variant on precision problems when pushing the limits – maybe I just keep encountering the same floating-point bug?

In this post I’ll also cover some debugging techniques you can apply if you ever want to explore the Chromium source code or investigate a crash.

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Floating Point in the Browser, Part 2: Bad Epsilon

A few years ago I did a lot of thinking and writing about floating-point math. It was good fun, and I learned a lot in the process, but sometimes I go a long time without actually using that hard-earned knowledge. So, I am always inordinately pleased when I end up working on a bug which requires some of that specialized knowledge. Here then is the second of (at least) three tales of floating-point bugs that I have investigated in Chromium (part one is here, part three is here). And this time I actually fixed the bug, both in Chromium, and then in googletest so that future generations will be spared some confusion.

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Windows Timer Resolution: The Great Rule Change

The behavior of the Windows scheduler changed significantly in Windows 10 2004, in a way that will break a few applications, and there appears to have been no announcement, and the documentation has not been updated. This isn’t the first time this has happened, but this change seems bigger than last time.

The short version is that calls to timeBeginPeriod from one process now affect other processes less than they used to, but there is still an effect, and thread delays from Sleep and other functions may be less consistent than they used to be (see [updated] section below).

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Floating Point in the Browser, Part 1: Impossible Expectations

A few years ago I did a lot of thinking and writing about floating-point math. It was good fun, and I learned a lot in the process, but sometimes I go a long time without actually using that hard-earned knowledge. So, I am always inordinately pleased when I end up working on a bug which requires some of that specialized knowledge. Here then is the first of (at least) three tales of floating-point bugs that I have investigated in Chromium (part two is here, part three is here). This is a short one.

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The Easy Ones – Three Bugs Hiding in the Open

I write a lot about investigations into tricky bugs – CPU defects, kernel bugs, transient 4-GB memory allocations – but most bugs are not that esoteric. Sometimes tracking down a bug is as simple as paying attention to server dashboards, spending a few minutes in a profiler, or looking at compiler warnings.

Here then are three significant bugs which I found and fixed which were sitting in the open, just waiting for somebody to notice.

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GDI leaks and the importance of luck

In May 2019 I was asked to look at a potentially serious Chrome bug. I initially misdiagnosed it as unimportant, thus wasting two valuable weeks, and when I rejoined the investigation it was the number one browser-process crash in Chrome’s beta channel. Oops.

On June 6th, the same day I realized I had misinterpreted the crash data, the bug was marked as ReleaseBlock-Stable meaning that we couldn’t ship our new Chrome version to most of our users until we figured out what was going on.

The crash was happening because we were running out of GDI (Graphics Device Interface) objects, but we didn’t know what type of GDI objects, our crash data gave us no clues as to where the problem was happening, and we couldn’t reproduce the problem.

Several of us worked hard on the bug on June 6th and 7th, testing out theories but not making any clear progress. Then, on June 8th I went to check my email and Chrome immediately crashed. It was the crash.

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What Outranks Thread Priority?

This investigation started, as so many of mine do, with me minding my own business, not looking for trouble. In this case all I was doing was opening my laptop lid and trying to log on.

The first few times that this resulted in a twenty-second delay I ignored the problem, hoping that it would go away. The next few times I thought about investigating, but performance problems that occur before you have even logged on are trickier to solve, and I was feeling lazy.

When I noticed that I was avoiding closing my laptop because I dreaded the all-too-frequent delays when opening it I realized it was time to get serious.

Luckily I had recently fixed UIforETW’s circular-buffer tracing to make it reliable, so I started it running and waited for the next occurrence. It didn’t take long.

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Big Project Build Times–Chromium

A twitter discussion on build times and source-file sizes got me interested in doing some analysis of Chromium build times. I had some ideas about what I would find (lots of small source files causing much of the build time) but I inevitably found some other quirks as well, and I’m landing some improvements. I learned how to use d3.js to create pretty pictures and animations, and I have some great new tools.

As always, this blog is mine and I do not speak for Google. These are my opinions. I am grateful to my many brilliant coworkers for creating everything which made this possible.

The Chromium build tools make it fairly easy to do these investigations (much easier than my last build-times post), and since it’s open source anybody can replicate them. My test builds took up to 6.2 hours on my four-core laptop but I only had to do that a few times and could then just analyze the results.

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Creating a Public Symbol Server, Easily

I’ve been a big fan of symbol servers for years. They are a part of the Microsoft/Windows ecosystem that is far better than anything I have seen for other operating systems. With Microsoft’s and Chrome’s symbol servers configured I can download a user’s Chrome crash and start analyzing it immediately – with code bytes and symbols – without knowing or caring what OS or Chrome version that user was running. Since Chrome’s symbols are source-indexed I will even get source-code popping up automatically, and all of this is available to anyone who is interested – no special Google privileges required.

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