Exercises in Emulation: Xbox 360’s FMA Instruction

Years ago I worked in the Xbox 360 group at Microsoft. We were thinking about releasing a new console, and we thought it would be nice if that console could run the games of the previous console.

Emulation is always hard, but it is made more challenging when your corporate masters keep changing CPU types. The Xbox one – sorry, the original Xbox – used an x86 CPU. The Xbox two – sorry, the Xbox 360 – used a PowerPC CPU. The Xbox three – sorry, the Xbox One – used an x86/x64 CPU. These ISA flip-flops did not make life easy.

I made some contributions to the team that taught the Xbox 360 how to emulate a lot of the original Xbox games – emulating x86 on PowerPC – and was given the job title Emulation Ninja for that work*. Then I was asked to help investigate what it would take to emulate the Xbox 360’s PowerPC CPU with an x64 CPU. To set expectations, I’ll mention up front that I didn’t find a satisfactory solution.

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When Your Profiler Lies

Last week I wrote about the performance consequences of inadvertently loading gdi32.dll into processes that are created and destroyed at very high rates. This week I want to share some techniques for digging deeper into this behavior, and the odd things that I found when trying to use them.

When I first wrote UIforETW I noticed that an inordinate amount of the size of the traces it recorded was coming from the Microsoft-Windows-Win32k provider. This provider records useful information about UI hangs and which window is active, but some less useful events were filling the trace buffers and crowding out the interesting ones. The most verbose events were the ExclusiveUserCrit, ReleaseUserCrit, and SharedUserCrit events and they were routinely generating 75% of the Microsoft-Windows-Win32k event traffic. So I stopped recording those events and forgot about them until quite recently. And that’s funny because those events record exactly the information that is needed for investigating all of these UI hangs – theoretically.

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A Not-Called Function Can Cause a 5X Slowdown

Subtitle: Making Windows Slower Part 3: Process Destruction

In the summer of 2017 I wrestled with a Windows performance problem. Process destruction was slow, serialized, and was blocking the system input queue, leading to repeated short mouse-movement hangs when building Chrome. The root cause was that Windows was wasting a lot of time looking up GDI objects during process destruction, and it did this while holding the system-global user32 critical section. I shared the details in this blog post: 24-core CPU and I can’t move my mouse.

Microsoft fixed the bug, and I moved on with my life, but then it appeared to have come back. I heard complaints that the LLVM test suite was running slowly, with frequent input hangs.

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Making Windows Slower Part 2: Process Creation

Windows has long had a reputation for slow file operations and slow process creation. Have you ever wanted to make these operations even slower? This weeks’ blog post covers a technique you can use to make process creation on Windows grow slower over time (with no limit), in a way that will be untraceable for most users!

And, of course, this post will also cover how to detect and avoid this problem.

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Commute Challenge 2018

I’ll bet I had more fun commuting during September 2018 than you did.

In April 2017 I gave myself the challenge of commuting to work using a different method every workday for a month – twenty ways in twenty days! The write up and video are here. It was great fun and it also served as a joyous celebration of the many ways to make commuting more fun than sitting alone in traffic.

In September 2018 I did the same thing, with nineteen new methods. It was a lot of work but a huge amount of fun, and I’ve got the videos to prove it. I got assistance from friends, coworkers, and strangers in ways that I would not have thought possible, and the second commute challenge actually worked.

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24-core CPU and I can’t type an email (part two)

In my last post I promised to give more details about some rabbit holes that I went down during the investigation, including page tables, locks, WMI, and a vmmap bug. Those details are here, along with updated code samples. But first, a really quick summary of the original issue:

In the last post I talked about how every time a CFG-enabled process allocates executable memory some Control Flow Guard (CFG) memory is allocated as well. Windows never frees the CFG memory so if you keep allocating and freeing executable memory at different addresses then your process can accumulate an arbitrary amount of CFG memory. Chrome was doing this and that was leading to an essentially unbounded waste of memory, and hangs on some machines.

And, I have to say, hangs are hard to avoid if VirtualAlloc starts running more than a million times slower than normal.

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24-core CPU and I can’t type an email (part one)

I wasn’t looking for trouble. I wasn’t trying to compile a huge project in the background (24-core CPU and I can’t move my mouse), I was just engaging in that most mundane of 21st century tasks, writing an email at 10:30 am. And suddenly gmail hung. I kept typing but for several seconds but no characters were appearing on screen. Then, suddenly gmail caught up and I resumed my very important email. Then it happened again, only this time gmail went unresponsive for even longer. Well that’s funny…

I have trouble resisting a good performance mystery but in this case the draw was particularly strong. I work at Google, making Chrome, for Windows, focused on performance. Investigating this hang was actually my job. And after a lot of false starts and some hard work I figured out how Chrome, gmail, Windows, and our IT department were working together to prevent me from typing an email, and in the process I found a way to save a significant amount of memory for some web pages in Chrome.

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