/* * Copyright (c) 2013, 2020, Red Hat, Inc. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #include "precompiled.hpp" #include "gc/shenandoah/shenandoahAsserts.hpp" #include "gc/shenandoah/shenandoahBarrierSet.hpp" #include "gc/shenandoah/shenandoahBarrierSetClone.inline.hpp" #include "gc/shenandoah/shenandoahBarrierSetAssembler.hpp" #include "gc/shenandoah/shenandoahBarrierSetNMethod.hpp" #include "gc/shenandoah/shenandoahCollectorPolicy.hpp" #include "gc/shenandoah/shenandoahConcurrentRoots.hpp" #include "gc/shenandoah/shenandoahHeap.inline.hpp" #include "gc/shenandoah/shenandoahHeuristics.hpp" #include "memory/iterator.inline.hpp" #include "runtime/interfaceSupport.inline.hpp" #ifdef COMPILER1 #include "gc/shenandoah/c1/shenandoahBarrierSetC1.hpp" #endif #ifdef COMPILER2 #include "gc/shenandoah/c2/shenandoahBarrierSetC2.hpp" #endif class ShenandoahBarrierSetC1; class ShenandoahBarrierSetC2; static BarrierSetNMethod* make_barrier_set_nmethod(ShenandoahHeap* heap) { // NMethod barriers are only used when concurrent nmethod unloading is enabled if (!ShenandoahConcurrentRoots::can_do_concurrent_class_unloading()) { return NULL; } return new ShenandoahBarrierSetNMethod(heap); } ShenandoahBarrierSet::ShenandoahBarrierSet(ShenandoahHeap* heap) : BarrierSet(make_barrier_set_assembler(), make_barrier_set_c1(), make_barrier_set_c2(), make_barrier_set_nmethod(heap), BarrierSet::FakeRtti(BarrierSet::ShenandoahBarrierSet)), _heap(heap), _satb_mark_queue_buffer_allocator("SATB Buffer Allocator", ShenandoahSATBBufferSize), _satb_mark_queue_set(&_satb_mark_queue_buffer_allocator) { } ShenandoahBarrierSetAssembler* ShenandoahBarrierSet::assembler() { BarrierSetAssembler* const bsa = BarrierSet::barrier_set()->barrier_set_assembler(); return reinterpret_cast(bsa); } void ShenandoahBarrierSet::print_on(outputStream* st) const { st->print("ShenandoahBarrierSet"); } bool ShenandoahBarrierSet::is_a(BarrierSet::Name bsn) { return bsn == BarrierSet::ShenandoahBarrierSet; } bool ShenandoahBarrierSet::is_aligned(HeapWord* hw) { return true; } bool ShenandoahBarrierSet::need_load_reference_barrier(DecoratorSet decorators, BasicType type) { if (!ShenandoahLoadRefBarrier) return false; // Only needed for references return is_reference_type(type); } bool ShenandoahBarrierSet::use_load_reference_barrier_native(DecoratorSet decorators, BasicType type) { assert(need_load_reference_barrier(decorators, type), "Should be subset of LRB"); assert(is_reference_type(type), "Why we here?"); // Native load reference barrier is only needed for concurrent root processing if (!ShenandoahConcurrentRoots::can_do_concurrent_roots()) { return false; } return (decorators & IN_NATIVE) != 0; } bool ShenandoahBarrierSet::need_keep_alive_barrier(DecoratorSet decorators,BasicType type) { if (!ShenandoahSATBBarrier) return false; // Only needed for references if (!is_reference_type(type)) return false; bool keep_alive = (decorators & AS_NO_KEEPALIVE) == 0; bool unknown = (decorators & ON_UNKNOWN_OOP_REF) != 0; bool on_weak_ref = (decorators & (ON_WEAK_OOP_REF | ON_PHANTOM_OOP_REF)) != 0; return (on_weak_ref || unknown) && keep_alive; } oop ShenandoahBarrierSet::load_reference_barrier_not_null(oop obj) { if (ShenandoahLoadRefBarrier && _heap->has_forwarded_objects()) { return load_reference_barrier_impl(obj); } else { return obj; } } oop ShenandoahBarrierSet::load_reference_barrier(oop obj) { if (obj != NULL) { return load_reference_barrier_not_null(obj); } else { return obj; } } oop ShenandoahBarrierSet::load_reference_barrier_mutator(oop obj, oop* load_addr) { return load_reference_barrier_mutator_work(obj, load_addr); } oop ShenandoahBarrierSet::load_reference_barrier_mutator(oop obj, narrowOop* load_addr) { return load_reference_barrier_mutator_work(obj, load_addr); } template oop ShenandoahBarrierSet::load_reference_barrier_mutator_work(oop obj, T* load_addr) { assert(ShenandoahLoadRefBarrier, "should be enabled"); shenandoah_assert_in_cset(load_addr, obj); oop fwd = resolve_forwarded_not_null_mutator(obj); if (obj == fwd) { assert(_heap->is_evacuation_in_progress(), "evac should be in progress"); ShenandoahEvacOOMScope scope; fwd = _heap->evacuate_object(obj, Thread::current()); } if (load_addr != NULL && fwd != obj) { // Since we are here and we know the load address, update the reference. ShenandoahHeap::cas_oop(fwd, load_addr, obj); } return fwd; } oop ShenandoahBarrierSet::load_reference_barrier_impl(oop obj) { assert(ShenandoahLoadRefBarrier, "should be enabled"); if (!CompressedOops::is_null(obj)) { bool evac_in_progress = _heap->is_evacuation_in_progress(); oop fwd = resolve_forwarded_not_null(obj); if (evac_in_progress && _heap->in_collection_set(obj) && obj == fwd) { Thread *t = Thread::current(); ShenandoahEvacOOMScope oom_evac_scope; return _heap->evacuate_object(obj, t); } else { return fwd; } } else { return obj; } } void ShenandoahBarrierSet::on_thread_create(Thread* thread) { // Create thread local data ShenandoahThreadLocalData::create(thread); } void ShenandoahBarrierSet::on_thread_destroy(Thread* thread) { // Destroy thread local data ShenandoahThreadLocalData::destroy(thread); } void ShenandoahBarrierSet::on_thread_attach(Thread *thread) { assert(!thread->is_Java_thread() || !SafepointSynchronize::is_at_safepoint(), "We should not be at a safepoint"); SATBMarkQueue& queue = ShenandoahThreadLocalData::satb_mark_queue(thread); assert(!queue.is_active(), "SATB queue should not be active"); assert( queue.is_empty(), "SATB queue should be empty"); queue.set_active(_satb_mark_queue_set.is_active()); if (thread->is_Java_thread()) { ShenandoahThreadLocalData::set_gc_state(thread, _heap->gc_state()); ShenandoahThreadLocalData::initialize_gclab(thread); } } void ShenandoahBarrierSet::on_thread_detach(Thread *thread) { SATBMarkQueue& queue = ShenandoahThreadLocalData::satb_mark_queue(thread); queue.flush(); if (thread->is_Java_thread()) { PLAB* gclab = ShenandoahThreadLocalData::gclab(thread); if (gclab != NULL) { gclab->retire(); } } } oop ShenandoahBarrierSet::load_reference_barrier_native(oop obj, oop* load_addr) { return load_reference_barrier_native_impl(obj, load_addr); } oop ShenandoahBarrierSet::load_reference_barrier_native(oop obj, narrowOop* load_addr) { return load_reference_barrier_native_impl(obj, load_addr); } template oop ShenandoahBarrierSet::load_reference_barrier_native_impl(oop obj, T* load_addr) { if (CompressedOops::is_null(obj)) { return NULL; } ShenandoahMarkingContext* const marking_context = _heap->marking_context(); if (_heap->is_concurrent_root_in_progress() && !marking_context->is_marked(obj)) { Thread* thr = Thread::current(); if (thr->is_Java_thread()) { return NULL; } else { return obj; } } oop fwd = load_reference_barrier_not_null(obj); if (load_addr != NULL && fwd != obj) { // Since we are here and we know the load address, update the reference. ShenandoahHeap::cas_oop(fwd, load_addr, obj); } return fwd; } void ShenandoahBarrierSet::clone_barrier_runtime(oop src) { if (_heap->has_forwarded_objects() || (ShenandoahStoreValEnqueueBarrier && _heap->is_concurrent_mark_in_progress())) { clone_barrier(src); } }