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I'm creating a concurrent memory reclamation algorithm in C++. Periodically, the stacks of executing mutator threads need to be inspected, so that I can see what references the threads are currently holding. In the process of doing this, I need to also check the registers of the mutator thread to check any references that might be in there.

Clearly many JVM's and C# vm's have no problem doing this as part of their garbage collection cycles. However, I haven't been able to find a definitive solution to this issue.

I can't quite tease apart what is going on in the Bohem garbage collector in order to inspect the root set, if you can (or know how its done), I'd really like to know.

Ideally I would be able to cause the mutator thread to be interrupted, and execute a piece of handler code which would report it's PC and also flush any register-based references into the stack, and then perhaps help finish the collection cycle. I believe that most compilers in most systems will automatically flush the registers when interrupt or signal handlers are called, but I'm not clear on the specifics, or how to access that data. It seems that separate stacks might be used for interrupt and signal handlers. Additionally, I can't find any information about how to target a particular thread, or how to send a signal. Windows does not seem to support this form of signaling anyway, and I would like my system to run on both Linux and Windows on x86-64 processors.

Edit: SuspendThread() is used in some situations, although safepoints seem to be preferred. Any ideas on why? Is there any way to deal with long-lasting I/O waits or other waits for kernel code to return?

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No flushing is used, the collector simply checks the registers for object references. Easy to do in Windows with GetThreadContext(). – Hans Passant Jan 10 '12 at 4:58
    
Well, GetThreadContext doesn't read registers at all. It reads the memory the registers were saved to the last time a context switch inactivated that particular thread. – Ben Voigt Jan 10 '12 at 6:25
    
@coolkid: Compilers don't flush registers when interrupts occur (nor do they emit code to do so), that's a feature of the CPU itself. – Ben Voigt Jan 10 '12 at 6:26
    
I don't think flushing registers to the stack will work from outside the thread (without @josh-haberman's safepoints), because the compiler can use a register for a variable, without allocating any stack space for it. Instead, you should get the register values and check them as well as the stack. – ugoren Jan 10 '12 at 8:34
up vote 3 down vote accepted

I thought this was a very interesting question, so I dug into it a bit. It turns out that the Hotspot JVM uses a mechanism called "safepoints" which cause the threads of the JVM to cooperatively all stop themselves so that the GC can begin. In other words, the thread initiating GC doesn't forcibly stop the other threads, the other threads voluntarily suspend themselves by various clever mechanisms.

I don't believe the JVM scans registers, because a safepoint is defined such that all roots are known (I presume this means in memory).

For more information see:

In regards to your desire to "interrupt" all threads, according to the slide deck I referenced above, thread suspension is "unreliable on Solaris and Linux, e.g., spurious signals." I'm not sure what mechanism even exists for thread suspension that the slides would be referring to.

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Hmm.. If this is the case, then how do you deal with the fact that a thread might not get scheduled for some time if it is waiting for IO or the OS simply has many competing processes? I would hate to have to stall for that. – coolkid Jan 10 '12 at 6:28
    
If you check out the link to safepoint.cpp above, the comments say that any threads that are currently blocked will not be allowed to continue until the safepoint operation is complete (so it's like they're already at a safepoint). I'm guessing that all runnable threads have to get scheduled before the GC can begin so they can pause in a known state, probably no way around that. – Josh Haberman Jan 10 '12 at 7:02
    
Yikes! That could be a long time if one of them is waiting for IO or is sleeping waiting for a lock to be released. Anyone know for sure if this is really the case? – coolkid Jan 10 '12 at 7:05
    
This post about .NET's GC talks about .NET trying to use safepoints for about 1s, and then giving up and using a SuspendThread() call. Very interesting. – coolkid Jan 10 '12 at 7:36
1  
For threads waiting for I/O, I don't think you have to wait for them to get scheduled. They are put into a "safe" state before blocking for I/O, so you can start GC while they are blocked (they are prevented from continuing if the I/O completes while the GC is active). – Josh Haberman Jan 10 '12 at 17:30

On windows you should be able to get this done use SuspendThread (and ResumeThread) along with GetThreadContext (as Hans mentioned). All of these functions take handles to the specific thread you intend to target.

To get a list of all threads in the current process, see this(toolhlp32 works on x64, despite its bad naming scheme...).

As a point of interest, one way to flush registers to the stack on x86 is to use the PUSHAD assembly instruction.

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The "usual" way to flush registers to the stack is via interrupt. – Ben Voigt Jan 10 '12 at 6:17
    
@BenVoigt: afaiak windows doesn't provide that outside of kernel mode (I could be wrong). – Necrolis Jan 10 '12 at 6:19
    
That's the traditional way of accessing kernel services from user-mode, is with a software interrupt. x86 now has the sysenter instruction, which streamlines things somewhat, but I believe it still performs the same register saving. But really, I was just commenting on your statement that PUSHAD is the only way to save registers to the stack, since it isn't. BTW, context switches are caused by interrupts (either I/O or timer) and that's how the thread state ends up in memory for GetThreadContext to access. – Ben Voigt Jan 10 '12 at 6:21
    
@BenVoigt: fixed my text up then. – Necrolis Jan 10 '12 at 6:24
    
So, to use GetThreadContext, what has to happen to the thread I am inspecting? Does it have to sleep itself first, or can I just call GetThreadContext on it and it will interrupt the thread and store the registers? – coolkid Jan 10 '12 at 6:38

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