RFR: 8334060: Implementation of Late Barrier Expansion for G1 [v6]

[Martin Doerr]

On Mon, 12 Aug 2024 08:46:16 GMT, Roberto Castañeda Lozano <rcastanedalo at openjdk.org> wrote:

>> This changeset implements JEP 475 (Late Barrier Expansion for G1), including support for the x64 and aarch64 platforms. See the [JEP description](https://openjdk.org/jeps/475) for further detail.
>> 
>> We aim to integrate this work in JDK 24. The purpose of this pull request is double-fold:
>> 
>> - to allow maintainers of the arm (32-bit), ppc, riscv, s390, and x86 (32-bit) ports to contribute a port of these platforms in time for JDK 24; and
>> - to allow reviewers to review the platform-independent, x64 and aarch64, and test changes in parallel with the porting work.
>> 
>> ## Summary of the Changes
>> 
>> ### Platform-Independent Changes (`src/hotspot/share`)
>> 
>> These consist mainly of:
>> 
>> - a complete rewrite of `G1BarrierSetC2`, to instruct C2 to expand G1 barriers late instead of early;
>> - a few minor changes to C2 itself, to support removal of redundant decompression operations and to address an OopMap construction issue triggered by this JEP's increased usage of ADL `TEMP` operands; and
>> - temporary support for porting the JEP to the remaining platforms.
>> 
>> The temporary support code (guarded by the pre-processor flag `G1_LATE_BARRIER_MIGRATION_SUPPORT`) will **not** be part of the final pull request, and hence does not need to be reviewed.
>> 
>> ### Platform-Dependent Changes (`src/hotspot/cpu`)
>> 
>> These include changes to the ADL instruction definitions and the `G1BarrierSetAssembler` class of the x64 and aarch64 platforms.
>> 
>> #### ADL Changes
>> 
>> The changeset uses ADL predicates to force C2 to implement memory accesses tagged with barrier information using G1-specific, barrier-aware instruction versions (e.g. `g1StoreP` instead of the GC-agnostic `storeP`). These new instruction versions generate machine code accordingly to the corresponding tagged barrier information, relying on the G1 barrier implementations provided by the `G1BarrierSetAssembler` class. In the aarch64 platform, the bulk of the ADL code is generated from a higher-level version using m4, to reduce redundancy.
>> 
>> #### `G1BarrierSetAssembler` Changes
>> 
>> Both platforms basically reuse the barrier implementation for the bytecode interpreter, with the different barrier tests and operations refactored into dedicated functions. Besides this, `G1BarrierSetAssembler` is extended with assembly-stub routines that implement the out-of-line, slow path of the barriers. These routines include calls from the barrier into the JVM, which require support for saving and restoring live ...
>
> Roberto Castañeda Lozano has updated the pull request incrementally with one additional commit since the last revision:
> 
>   Further motivate the choice of internal store address materialization in x64

src/hotspot/cpu/x86/gc/g1/g1BarrierSetAssembler_x86.cpp line 203:

> 201:   // Do we need to load the previous value?
> 202:   if (obj != noreg) {
> 203:     __ load_heap_oop(pre_val, Address(obj, 0), noreg, noreg, AS_RAW);

How do we handle implicit null checks for which `obj` is null? Note that we may expect the store instruction to trigger SIGSEGV. Does it work correctly if we trigger the SIGSEGV, here in the pre barrier?

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PR Review Comment: https://git.openjdk.org/jdk/pull/19746#discussion_r1713842991