On Thu, 7 Apr 2022 18:28:42 GMT, Roman Kennke <rken...@openjdk.org> wrote:
>> JVMTI heap walking marks objects in order to track which have been visited >> already. In order to do that, it uses bits in the object header. Those are >> the same bits that are also used by some GCs to mark objects (the lowest two >> bits, also used by locking code). Some GCs also use the bits in order to >> indicate 'forwarded' objects, where the upper bits of the header represent >> the forward-pointer. In the case of Shenandoah, it's even more problematic >> because this happens concurrently, even while JVMTI heap walks can >> intercept. So far we carefully worked around that problem, but it becomes >> very problematic in Lilliput, where accesses to the Klass* also requires to >> decode the header, and figure out what bits means what. >> >> In addition to that, marking objects in their header requires that the >> original header gets saved and restored. We only do that for 'interesting' >> headers, that is headers that have a stack-lock, monitor or hash-code. All >> other headers are reset to their default value. This means we are losing >> object's GC age. This is not catastrophic, but nontheless interferes with >> GC. >> >> JFR already has a datastructure called BitSet to support object marking >> without messing with object's headers. We can use that in JVMTI too. >> >> Testing: >> - [x] tier1 >> - [x] tier2 >> - [x] tier3 >> - [x] serviceability/jvmti >> - [x] vmTestbase/nsk/jvmti > > Roman Kennke has updated the pull request incrementally with one additional > commit since the last revision: > > Move JFRBitSet typedef into its own header; Make _bitset a direct member, > not dynamically allocated Third alternative would be not to derive from CHeapObj at all, since we don't new it anywhere if I see correctly. ------------- PR: https://git.openjdk.java.net/jdk/pull/7964