RFR: 8132510: Replace ThreadLocalStorage with compiler/language-based thread-local variables

Bertrand Delsart bertrand.delsart at oracle.com
Mon Nov 23 13:58:45 UTC 2015

On 23/11/2015 13:38, David Holmes wrote:
> On 23/11/2015 10:27 PM, David Holmes wrote:
>> Hi Bertrand,
>> On 23/11/2015 8:14 PM, Bertrand Delsart wrote:
>>> Hi David,
>>> Overall looks good.
>>> Thanks for the #ifndef USE_LIBRARY_BASED_TLS_ONLY :-)
>>> One doubt, in case this has not been discussed before.
>>> I'm still catching up on x86_64 (after years of ARM assembly :-)) but it
>>> seems that there are some stack alignment constraints on runtime calls,
>>> at least for some x86_64 ABIs.
>>> Some of the x86 MacroAssembler::get_thread implementations had code to
>>> align the stack before calling pthread_getspecific. See for instance
>>> http://cr.openjdk.java.net/~dholmes/8132510/webrev.v6/src/os_cpu/linux_x86/vm/assembler_linux_x86.cpp.udiff.html
>> Sorry I'm not that familiar with the MacroAssembler - is it this odd
>> fragment:
>> -   push(r10);
>> -   // XXX
>> -   mov(r10, rsp);
>> -   andq(rsp, -16);
>> -   push(r10);
>> I'm not at all clear what that is doing - and if it somehow changes the
>> alignment wouldn't something need to be fixed up when popping the
>> previous values ??
>> To be honest I'm not even sure what an "unaligned stack" means.
> Maybe I know more than I thought - or not :). The original code calls
> pthread_getspecific directly and has to pass the key/index as a
> parameter - that has to be properly aligned. The new code does not pass
> any parameters, but just calls Thread::current.

The index was passed in a register (rdi for linux and bsd)

Are you sure the alignment is needed only when there are arguments ?

Checking quickly the ABI, my understanding is that arguments can add 
extra constraints (in particular if we pass __m256 values) but that by 
default the x86_64 ABI requires 16 bytes alignment (independently of 
whether there are arguments or not).

Bad alignments may not trigger bugs in your tests (depending on how 
Thread::current() is implemented) but this looks like a useless risk.


> David
> -----
>>> This alignment is no longer performed in the new (shared) implementation
>>> http://cr.openjdk.java.net/~dholmes/8132510/webrev.v6/src/cpu/x86/vm/macroAssembler_x86.cpp.udiff.html
>>> Now, Solaris was not performing the alignment and Windows has a separate
>>> path for x86_64. Did we really need the alignment for linux x86_64 and
>>> bsd_x86_64 ? Might it be needed for other ports ?
>>> IMHO, it might be safer to align the stack by default, knowing it should
>>> not be expensive since we call get_thread rarely for x86_64 (result is
>>> cached in r15). I'll let you see whether it is worth adding an ifdef so
>>> as to explicitly deactivate the alignment on some platforms
>>> (solaris_x86_64 ?)
>> I don't have enough knowledge to even begin to comment on this. I will
>> have to rely on our x86_64 macroassembler experts to explain the old
>> code and what the requirements are.
>> Thanks,
>> David
>>> Regards,
>>> Bertrand.
>>> On 23/11/2015 08:03, David Holmes wrote:
>>>> After all the preliminary discussions here are final proposed changes:
>>>> bug: https://bugs.openjdk.java.net/browse/JDK-8132510
>>>> Open webrev: http://cr.openjdk.java.net/~dholmes/8132510/webrev.v6/
>>>> A simple (in principle) but wide-ranging change which should appeal to
>>>> our Code Deletion Engineer's. We implement Thread::current() using a
>>>> compiler/language-based thread-local variable eg:
>>>>   static __thread Thread *_thr_current;
>>>>   inline Thread* Thread::current() {
>>>>     return _thr_current;
>>>>   }
>>>> with an appropriate setter of course. By doing this we can completely
>>>> remove the os_cpu-specific ThreadLocalStorage implementations, and the
>>>> associated os::thread_local_storage* calls.
>>>> As __thread is not async-signal-safe (either in theory or practice) we
>>>> need a fallback library-based solution as used today. For this we use a
>>>> very simple ThreadLocalStorage class and an implementation thereof for
>>>> POSIX (covers AIX, BSD, Linux, OSX and Solaris) using
>>>> pthread_get/setspecific; and one for Windows using its TLS library.
>>>> While these library routines are not guaranteed async-signal-safe, they
>>>> seem to be in practice and are what we have been using all along.
>>>> We also allow for use of only the library-based TLS for platforms where
>>>> compiler-based thread locals are not supported (as will be needed in
>>>> the
>>>> Mobile project). This is enabled at build time by defining
>>>> Thanks to Andrew Haley for providing the Aarch64 code; and for Thomas
>>>> Stuefe for testing PPC and AIX.
>>>> Testing:
>>>>   - JPRT (core platforms)
>>>>   - Jtreg tests (linux & solaris)
>>>>   - vm.runtime (core platforms)
>>>> Performance:
>>>>   - still TBD - this is proving to be extremely difficult. If anyone
>>>> has
>>>> any simple to run microbenchmarks to suggest I'd give them a try as a
>>>> sanity check. But I lack access to hardware for running serious
>>>> benchmarking.
>>>> Footprint:
>>>> - varies by platform and the VM (server, client, minimal)
>>>> - worst-case: ~1% increase for server VM and minimal VM
>>>> - best-case:  0.4% decrease for client VM
>>>> Thanks,
>>>> David

Bertrand Delsart,                     Grenoble Engineering Center
Oracle,         180 av. de l'Europe,          ZIRST de Montbonnot
38330 Montbonnot Saint Martin,                             FRANCE
bertrand.delsart at oracle.com             Phone : +33 4 76 18 81 23

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