RFR 8191890: Biased locking still uses the inferior stop the world safepoint for revocation

[Patricio Chilano]

Hi Coleen,

On 6/14/19 7:08 PM, coleen.phillimore at oracle.com wrote:
>
> Sorry for being late to the party.
>
> http://cr.openjdk.java.net/~pchilanomate/8191890/v02/webrev/src/hotspot/share/runtime/biasedLocking.cpp.frames.html 
>
>
> 586 if (_biased_locker == mark->biased_locker()) {
> 587 if (mark->bias_epoch() == prototype->bias_epoch()) {
>
> Can you add a comment what this means?   The object's biased locker 
> matches what we thought it was, and the epoch being the same means?
> The epoch being equal means that this biaser actually might have this 
> lock?   A comment would be good here.
Yes, if the epoch is still valid it means the biaser could be currently 
synchronized on this object. If that's the case then we must walk its 
stack and change those monitor records into thin locks. Added comment.


> 785 mark = res_mark; // Refresh mark with the latest value.
>
>
> I don't see what this does either. I had to download your patch. 
> 'mark' isn't used outside the loop and it is reloaded at the top of 
> the loop.
If the CAS fails, the mark needs to be updated with the new value so 
that when we get the current biaser (HR_SINGLE_REVOKE case) we actually 
get the updated biaser and not the old one. If we don't do that we could 
be handshaking the wrong thread, or worst we could hit an assert in 
walk_stack_and_revoke() for the "blt == THREAD", since the old thread 
could be ourselves.


> 796 obj->cas_set_mark(prototype_header->set_age(mark->age()), mark);
>
>
> As an later enhancement, there should be some inline function in 
> markOop that returns the prototype header preserving the age of the 
> object, but I'll leave it to you to name.
Ok, sounds good. That particular line was preexistent but I did added in 
some places "markOopDesc::prototype()->set_age(mark->age())", which is 
doing the same thing.


> 555 RevokeOneBias(Handle* obj, JavaThread* requesting_thread, 
> JavaThread* biased_locker) ... 565 oop o = (*_obj)();
>
>
> This was pre-existing your change, but passing Handle* is not 
> generally done, and is suspicious when it is because it must be 
> allocated with the thread calling the function.  Can you change this 
> to Handle (not pointer)?  I can't think why this would be done this way.
Fixed.


> 870 // All objects in objs should be locked by biaser
> 871 void BiasedLocking::revoke(GrowableArray<Handle>* objs, JavaThread 
> *biaser) {
>
>
> I don't see why BiasedLocking::revoke() and 
> BiasedLocking::revoke_at_safepoint() are so different.
>
> The name "revoke" should be something more descriptive of the 
> situation though, like revoke_for_current_thread() or something like 
> that (revoke_at_safepoint's objects are from the stack too for the 
> current thread...)  I keep thinking "revoke" should be a leaf function 
> in biasedLocking.
Yes, nice observation. Method revoke_at_safepoint(GrowableArray<Handle>* 
objs) could be removed and we could just use 
BiasedLocking::revoke(GrowableArray<Handle>* objs ...) instead, since 
it's called from deoptimization.cpp where all the objects in the array 
belong to the same JavaThread. The difference is that we don't do 
update_heuristics() for the non-safepoint case since it might trigger a 
bulk operation. For the safepoint case it doesn't matter because we are 
already at one, we don't have the overhead of requesting it. But I could 
combine them into one method and do the update_heuristics() only if we 
are at a safepoint, what do you think?

> The change looks really good to me and I look forward to further 
> cleanups so maybe it'll make sense someday!
Thanks for looking at this Coleen!


Patricio
> Thanks!
> Coleen
>
> On 6/7/19 12:56 AM, Patricio Chilano wrote:
>> Hi all,
>>
>> Here is v02 addressing comments made by Dan and David.
>>
>> Full webrev:
>> http://cr.openjdk.java.net/~pchilanomate/8191890/v02/webrev/ 
>> <http://cr.openjdk.java.net/%7Epchilanomate/8191890/v02/webrev/>
>> Inc webrev:
>> http://cr.openjdk.java.net/~pchilanomate/8191890/v02/inc/webrev/ 
>> <http://cr.openjdk.java.net/%7Epchilanomate/8191890/v02/inc/>
>>
>> Thanks!
>>
>> Patricio
>>
>> On 6/6/19 7:37 PM, David Holmes wrote:
>>> Hi Patricio,
>>>
>>> On 7/06/2019 9:19 am, Patricio Chilano wrote:
>>>> Hi David,
>>>>
>>>>
>>>> On 6/6/19 3:37 AM, David Holmes wrote:
>>>>> Hi Patricio,
>>>>>
>>>>> First thanks for taking this on!
>>>>>
>>>>> I have some higher-level general discussion around this before 
>>>>> deep diving into the actual code review (not that I have much 
>>>>> there either :)).
>>>>>
>>>>> First to clarify how biased-locking works. I'm unclear when an 
>>>>> object can be rebiased after having its bias revoked? This 
>>>>> particularly relates to some of your assertions (as Markus has 
>>>>> queried) after the CAS to update the mark so that the bias is 
>>>>> revoked, and you then re-read the mark and assert the bias has 
>>>>> been revoked - what stops another thread from rebiasing the object 
>>>>> in between those two statements? Is it that rebiasing cannot 
>>>>> happen, or that it could only happen if there were an intervening 
>>>>> safepoint which in turn cannot happen?
>>>> Once the bias of the object is revoked it will stay like that 
>>>> forever, it cannot happen that it goes back to having the 0x5 pattern.
>>>> Also, once the bias pattern in the prototype header for a class is 
>>>> revoked during a bulk revocation operation, if there is an object 
>>>> of that class that still has the bias pattern, a JavaThread that 
>>>> wants to synchronize on that object will always revoke the bias 
>>>> first. This is why I don't check if the CAS succeeded if the 
>>>> prototype of the class does not has the bias pattern, I just assert 
>>>> that the object is not biased anymore.
>>>>
>>>> Below I describe the cases where an object can be rebiased.
>>>>
>>>> Once a JavaThread biases an object for the first time, there are 
>>>> two cases that allows for that object to be rebiased:
>>>> 1) If the epoch in the markword becomes invalid. For this to happen 
>>>> a bulk rebias operation is needed. This is why I do check if the 
>>>> CAS succeeded or not for these cases, since some other JavaThread 
>>>> could have rebiased it.
>>>> 2) During a full GC, objects that are biased ( some JavaThread is 
>>>> set in the biaser bits) could have their markword be reset to 0x5. 
>>>> This means they will become anonymously biased again and so will 
>>>> look as if they were not biased yet. As to how this logic works: At 
>>>> the beginning of the full GC, BiasedLocking::preserve_marks() saves 
>>>> all the markwords for those objects that are currently locked and 
>>>> have a bias pattern. After that, 
>>>> markOopDesc::must_be_preserved_with_bias() will be called to decide 
>>>> if the markword of an object should be preserved or not. If the 
>>>> markword contains the bias pattern it is never preserved. At the 
>>>> end BiasedLocking::restore_marks() is called to restore the marks 
>>>> for those objects that we saved before. So this means that even if 
>>>> an object has a valid biaser, with valid epoch, if the object is 
>>>> not currently locked it could be reset during the GC. I'm not sure 
>>>> though if whenever markOopDesc::must_be_preserved_with_bias() 
>>>> returns false the garbage collector always does the reset or it 
>>>> just means it could reset it if it wants to. In any case I've seen 
>>>> that reset happening when doing handshakes. In fact, this is one of 
>>>> the reasons why the handshake could return that the bias was not 
>>>> revoked, since I don't check for the anonymously biased case in 
>>>> RevokeOneBias.
>>>
>>> Thanks for that very detailed set of descriptions. I won't pretend 
>>> to fully grok all the details as I'm not completely clear on the 
>>> role of the "epoch" or being anonymously biased, but I'm convinced 
>>> you have a full understanding of such things. :) In 
>>> revoke_and_rebias it was always a struggle for me to figure out 
>>> exactly when the "rebias" part could come into play.
>>>
>>>>
>>>>> The main concern with a change like this (as with all the 
>>>>> handshake changes) is what new races this may allow and whether 
>>>>> they have all been accounted for. IIUC the handshake will still be 
>>>>> conducted by the VMThread so that still ensures serialization wrt. 
>>>>> safepoints (which makes it simpler to reason about things). I've 
>>>>> looked at some of the races you anticipated (like the 
>>>>> "resurrected" thread) and they seem to be handled correctly. I'm 
>>>>> unable to construct other races that might be problematic (but 
>>>>> that isn't saying a lot :) ).
>>>> I agree that since we are now doing the revocation outside 
>>>> safepoints there is potential for additional races. But also one 
>>>> thing to note is that RevokeOneBias, which contains the logic of 
>>>> the handshake and is now replacing what we used to do at a 
>>>> safepoint, is not really different from the initial code in 
>>>> revoke_and_rebias() which is done outside safepoints. The handshake 
>>>> logic is like executing that initial part but with the right 
>>>> JavaThread so that if the object has a valid biaser, then that 
>>>> biaser is either ourselves or we are the VMThread while the biaser 
>>>> is blocked, so that we can execute revoke_own_lock(). In fact I was 
>>>> thinking at some point to combine them in some method (maybe 
>>>> try_fast_revoke()). The attempt_rebias flag and the 
>>>> update_heuristics() in revoke_and_rebias() complicated things so I 
>>>> kept them separate.
>>>> I have also tried to think on all possible racy scenarios and 
>>>> couldn't find additional problems beside the "resurrected thread" 
>>>> one (although it's also not a guarantee of anything). But that's 
>>>> why I was thinking to check this in 14, so that if there are any 
>>>> problems we have plenty of testing time to detect them.
>>>
>>> Yes that is a good idea. No need to rush this into 13.
>>>
>>>>
>>>>> src/hotspot/share/jfr/metadata/metadata.xml
>>>>>
>>>>> Is it the case that this event is now never generated from a 
>>>>> safepoint? Or have you just deleted the safepoint_id from the 
>>>>> event because it might not be at a safepoint? If the latter can't 
>>>>> we keep it and use 0 to indicate "not at a safepoint"? I think the 
>>>>> JFR folk need to comment on this part of the change anyway.
>>>> This event will be created and commited only from 
>>>> BiasedLocking::single_revoke_with_handshake(). Now, the actual 
>>>> handshake that revoked the bias could be executed at a safepoint 
>>>> only if ThreadLocalHandshakes is false. But I understand that this 
>>>> is true for all platforms so the handshake should always be 
>>>> executed outside safepoints.
>>>
>>> Ok.
>>>
>>>> It would be great if JFR folks review this part.
>>>
>>> Try to grab Markus :)
>>>
>>>>
>>>>> src/hotspot/share/runtime/biasedLocking.cpp
>>>>>
>>>>> I second Dan's comment about combining cleanup and code motion in 
>>>>> a big change like this - it does make it much harder to spot the 
>>>>> real difference.
>>>> Ok, already two objections on this so I'll revert moving the 
>>>> heuristics part. I think I also moved 
>>>> clean_up_cached_monitor_info() and I will double check any other 
>>>> movements.
>>>>
>>>>
>>>>> I note Dan picked up on the lack of p2i and other stuff related to 
>>>>> the logging statements, and that you indicated they were fixed. I 
>>>>> note that all that stuff is pre-existing so I'm unclear now 
>>>>> whether you have fixed all the logging in the file or only the 
>>>>> statements in the code you have changed or added? Again such 
>>>>> cleanup may be best done separately.
>>>> I haven't fixed the existing log statements, only the ones Dan 
>>>> mentioned which are in single_revoke_with_handshake(), 
>>>> revoke_own_lock(), and in VM_HandshakeOneThread(). Ok, I can fix 
>>>> the other ones in a cleanup later along with code movement and the 
>>>> removal of the attemp_rebias flag which we are not using.
>>>
>>> Okay. To be clear I don't expect you to fix all the existing uses I 
>>> just wanted to clarify which ones you had fixed.
>>>
>>>>
>>>>> 640 void BiasedLocking::revoke_own_lock(oop obj, JavaThread* 
>>>>> biased_locker) {
>>>>> 641   assert(!SafepointSynchronize::is_at_safepoint() || 
>>>>> !ThreadLocalHandshakes,
>>>>> 642          "if ThreadLocalHandshakes is enabled this should 
>>>>> always be executed outside safepoints");
>>>>> 643   assert(Thread::current() == biased_locker || 
>>>>> Thread::current()->is_VM_thread(), "wrong thread");
>>>>> 644
>>>>>
>>>>> This is called "revoke_own_lock" but it can also be executed by 
>>>>> the VMThread - so its not its own lock. Also we don't revoke 
>>>>> anything related to a "lock" - we revoke a bias from the markword 
>>>>> of an oop. I think a better name is needed.
>>>> Yes, I didn't really like it either. How about 
>>>> walk_stack_and_revoke() ?
>>>
>>> That sounds good to me. Roll on v2 :)
>>>
>>> Thanks,
>>> David
>>> -----
>>>
>>>>
>>>>> src/hotspot/share/runtime/handshake.cpp
>>>>>
>>>>>  125       log_trace(handshake)("JavaThread " INTPTR_FORMAT " is 
>>>>> not alive", (intptr_t)_target);
>>>>>
>>>>> Use p2i(_target) rather than cast to intptr_t.
>>>> Fixed.
>>>>
>>>>
>>>>> That's all from me.
>>>> Thanks for looking into this David! If you are okay with the 
>>>> "walk_stack_and_revoke()" name then I can send v2.
>>>>
>>>>
>>>> Thanks!
>>>>
>>>>
>>>> Patricio
>>>>
>>>>> Thanks,
>>>>> David
>>>>> -----
>>>>>
>>>>>
>>>>> On 30/05/2019 2:29 am, Patricio Chilano wrote:
>>>>>> Hi all,
>>>>>>
>>>>>> Could you review this patch that uses thread local handshakes 
>>>>>> instead of safepoints to revoke the biases of locked objects?
>>>>>>
>>>>>> Webrev:
>>>>>> http://cr.openjdk.java.net/~pchilanomate/8191890/v01/webrev/
>>>>>> Bug:
>>>>>> https://bugs.openjdk.java.net/browse/JDK-8191890
>>>>>>
>>>>>>
>>>>>> Today whenever a JavaThread needs to revoke the bias of an object 
>>>>>> that has been biased by another JavaThread (and where the epoch 
>>>>>> is still valid and the prototype header of the class still has 
>>>>>> the bias pattern) it needs to request a safepoint operation. The 
>>>>>> VMThread inside the safepoint walks the stack of the biaser 
>>>>>> looking for lock records associated with the biased object, and 
>>>>>> converts them to thin locks if any are found.
>>>>>> This patch uses thread local handshakes instead, since we 
>>>>>> actually only need to be able to safely walk the stack of the 
>>>>>> JavaThread that biased the object and not other JavaThreads.
>>>>>>
>>>>>> Some notes about the patch:
>>>>>>
>>>>>> - Thanks to Robbin for initial work on this patch and for advice 
>>>>>> and feedback!
>>>>>> - We still execute bulk rebias and bulk revoke operations inside 
>>>>>> safepoints, since in those cases all the JavaThread's stacks need 
>>>>>> to be walked to potentially update lock records.
>>>>>> - The method revoke_bias() was renamed to 
>>>>>> single_revoke_at_safepoint(). This method is still kept because 
>>>>>> there are places where we check whether we are already at 
>>>>>> safepoint when trying to revoke. In those cases, if we are 
>>>>>> already at a safepoint we simply end up calling this method.
>>>>>> - Handshakes are executed as VMOperations so the VMThread is 
>>>>>> still involved in the revocation. This means we cannot have 
>>>>>> different revocations being executed in parallel (same as with 
>>>>>> safepoints). Ideally we would like to execute thread local 
>>>>>> handshakes without needing for the VMThread to participate. 
>>>>>> However, now other JavaThreads that do not participate in the 
>>>>>> revocation are allow to continue making progress.
>>>>>>
>>>>>> Run several benchmarks and mostly performance seems unaffected. 
>>>>>> Measured the average time it takes for revoking bias with a 
>>>>>> handshake and with a safepoint and numbers are pretty similar 
>>>>>> varying between benchmarks. Some numbers are shown below:
>>>>>>
>>>>>> specjbb2015
>>>>>>                       Handshakes      Safepoints
>>>>>> Linux                        4ms            4.6ms
>>>>>> Windows                 11ms             19ms
>>>>>>
>>>>>> startup benchmarks
>>>>>>                      Handshakes      Safepoints
>>>>>> Linux                    159us             248us
>>>>>> Windows               150us             111us
>>>>>>
>>>>>> Overall the variation is not enough to show significant 
>>>>>> difference in performance, considering also that revocations of a 
>>>>>> valid biaser are usually a fraction of the overall running time 
>>>>>> of a benchmark (specially jbb2015). In any case using handshakes 
>>>>>> allows other JavaThreads to make progress during that time, 
>>>>>> minimizing STW operations.
>>>>>>
>>>>>> In terms of testing, the patch passed several runs of tiers1-6 in 
>>>>>> mach5 on Windows, Linux, MacOS and Solaris.
>>>>>>
>>>>>> Thanks!
>>>>>>
>>>>>> Patricio
>>>>>>
>>>>
>>
>