RFR(XL): 8185640: Thread-local handshakes

[Robbin Ehn]

Here is the third incremental change:
http://cr.openjdk.java.net/~rehn/8185640/v2/Coleen-n-Test-Cleanup-4/webrev/
Goes on top of Atomic-Update-Rebase-3.

Let me know if anyone want to see some other kind of webrevs.

Thanks, Robbin

On 2017-10-18 11:15, Robbin Ehn wrote:
> Hi all,
> 
> Update after re-base with new atomic implementation:
> http://cr.openjdk.java.net/~rehn/8185640/v1/Atomic-Update-Rebase-3/
> This goes on top of the Handshakes-2.
> 
> Let me know if you want some other kinds of webrevs.
> 
> I would like to point out that Mikael Gerdin and Erik Österlund also are contributors of this changeset.
> 
> Thanks, Robbin
> 
> On 2017-10-11 15:37, Robbin Ehn wrote:
>> Hi all,
>>
>> Starting the review of the code while JEP work is still not completed.
>>
>> JEP: https://bugs.openjdk.java.net/browse/JDK-8185640
>>
>> This JEP introduces a way to execute a callback on threads without performing a global VM safepoint. It makes it both possible and cheap to stop individual threads and not just all threads or none.
>>
>> Entire changeset:
>> http://cr.openjdk.java.net/~rehn/8185640/v0/flat/
>>
>> Divided into 3-parts,
>> SafepointMechanism abstraction:
>> http://cr.openjdk.java.net/~rehn/8185640/v0/SafepointMechanism-0/
>> Consolidating polling page allocation:
>> http://cr.openjdk.java.net/~rehn/8185640/v0/PollingPage-1/
>> Handshakes:
>> http://cr.openjdk.java.net/~rehn/8185640/v0/Handshakes-2/
>>
>> A handshake operation is a callback that is executed for each JavaThread while that thread is in a safepoint safe state. The callback is executed either by the thread itself or by the VM thread while keeping the thread in a blocked state. The big difference between safepointing and handshaking is that the per thread operation will be performed on all threads as soon as possible and they will continue to execute as soon as it’s own operation is completed. If a JavaThread is known to be running, then a handshake can be performed with that single JavaThread as well.
>>
>> The current safepointing scheme is modified to perform an indirection through a per-thread pointer which will allow a single thread's execution to be forced to trap on the guard page. In order to force a thread to yield the VM updates the per-thread pointer for the corresponding thread to point to the guarded page.
>>
>> Example of potential use-cases:
>> -Biased lock revocation
>> -External requests for stack traces
>> -Deoptimization
>> -Async exception delivery
>> -External suspension
>> -Eliding memory barriers
>>
>> All of these will benefit the VM moving towards becoming more low-latency friendly by reducing the number of global safepoints.
>> Platforms that do not yet implement the per JavaThread poll, a fallback to normal safepoint is in place. HandshakeOneThread will then be a normal safepoint. The supported platforms are Linux x64 and Solaris SPARC.
>>
>> Tested heavily with various test suits and comes with a few new tests.
>>
>> Performance testing using standardized benchmark show no signification changes, the latest number was -0.7% on Linux x64 and +1.5% Solaris SPARC (not statistically ensured). A minor regression for the load vs load load on x64 is expected and a slight increase on SPARC due to the cost of ‘materializing’ the page vs load load.
>> The time to trigger a safepoint was measured on a large machine to not be an issue. The looping over threads and arming the polling page will benefit from the work on JavaThread life-cycle (8167108 - SMR and JavaThread Lifecycle: http://mail.openjdk.java.net/pipermail/hotspot-runtime-dev/2017-October/024773.html) which puts all JavaThreads in an array instead of a linked list.
>>
>> Thanks, Robbin