<i18n dev> RFR: 8273790: Potential cyclic dependencies between Gregorian and CalendarSystem
rriggs at openjdk.java.net
Fri Sep 24 18:19:52 UTC 2021
On Fri, 24 Sep 2021 14:36:07 GMT, Jaikiran Pai <jpai at openjdk.org> wrote:
> Can I please get a review for this change which proposes to fix the issue reported in https://bugs.openjdk.java.net/browse/JDK-8273790?
> As noted in that issue, trying to class load `sun.util.calendar.CalendarSystem` and `sun.util.calendar.Gregorian` concurrently in separate threads can lead to a deadlock because of the cyclic nature of the code in their static initialization. More specifically, consider this case:
> - Thread T1 initiates a classload on the `sun.util.calendar.CalendarSystem`.
> - This gives T1 the implicit class init lock on `CalendarSystem`.
> - Consider thread T2 which at the same time initiates a classload on `sun.util.calendar.Gregorian` class.
> - This gives T2 a implicit class init lock on `Gregorian`.
> - T1, still holding a lock on `CalendarSystem` attempts to load `Gregorian` since it wants to create a (singleton) instance of `Gregorian` and assign it to the `static final GREGORIAN_INSTANCE` member. Since T2 is holding a class init lock on `Gregorian`, T1 ends up waiting
> - T2 on the other hand is still loading the `Gregorian` class. `Gregorian` itself "is a" `CalendarSystem`, so during this loading of `Gregorian` class, T2 starts travelling up the class hierarchy and asks for a lock on `CalendarSystem`. However T1 is holding this lock and as a result T2 ends up waiting on T1 which is waiting on T2. That triggers this deadlock.
> The linked JBS issue has a thread dump which shows this in action.
> The commit here delays the instance creation of `Gregorian` by moving that instance creation logic from the static initialization of the `CalendarSystem` class, to the first call to `CalendarSystem#getGregorianCalendar()`. This prevents the `CalendarSystem` from needing a lock on `Gregorian` during its static init (of course, unless some code in this static init flow calls `CalendarSystem#getGregorianCalendar()`, in which case it is back to square one. I have verified, both manually and through the jtreg test, that the code in question doesn't have such calls)
> A new jtreg test has been introduced to reproduce the issue and verify the fix. The test in addition to loading these 2 classes in question, also additionally loads a few other classes concurrently. These classes have specific static initialization which leads the calls to `CalendarSystem#getGregorianCalendar()` or `CalendarSystem#forName()`. Including these classes in the tests ensures that this deadlock hasn't "moved" to a different location. I have run multiple runs (approximately 25) of this test with the fix and I haven't seen it deadlock anymore.
As an alternative, can the Gregorian Instance be moved to a nested (static) class.
That will delay initialization until it is needed. This "holder" pattern is used elsewhere to defer initialization and break cycles.
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