8221540: ZGC: Reduce width of zForwardingEntry::from_index field
Reviewed-by: stefank, eosterlund
/*
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* 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.
*
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* 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).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#include "precompiled.hpp"
#include "gc/z/zBarrier.inline.hpp"
#include "gc/z/zHeap.inline.hpp"
#include "gc/z/zOop.inline.hpp"
#include "gc/z/zOopClosures.inline.hpp"
#include "memory/iterator.inline.hpp"
#include "oops/oop.inline.hpp"
#include "runtime/safepoint.hpp"
#include "utilities/debug.hpp"
bool ZBarrier::during_mark() {
return ZGlobalPhase == ZPhaseMark;
}
bool ZBarrier::during_relocate() {
return ZGlobalPhase == ZPhaseRelocate;
}
template <bool finalizable>
bool ZBarrier::should_mark_through(uintptr_t addr) {
// Finalizable marked oops can still exists on the heap after marking
// has completed, in which case we just want to convert this into a
// good oop and not push it on the mark stack.
if (!during_mark()) {
assert(ZAddress::is_marked(addr), "Should be marked");
assert(ZAddress::is_finalizable(addr), "Should be finalizable");
return false;
}
// During marking, we mark through already marked oops to avoid having
// some large part of the object graph hidden behind a pushed, but not
// yet flushed, entry on a mutator mark stack. Always marking through
// allows the GC workers to proceed through the object graph even if a
// mutator touched an oop first, which in turn will reduce the risk of
// having to flush mark stacks multiple times to terminate marking.
//
// However, when doing finalizable marking we don't always want to mark
// through. First, marking through an already strongly marked oop would
// be wasteful, since we will then proceed to do finalizable marking on
// an object which is, or will be, marked strongly. Second, marking
// through an already finalizable marked oop would also be wasteful,
// since such oops can never end up on a mutator mark stack and can
// therefore not hide some part of the object graph from GC workers.
if (finalizable) {
return !ZAddress::is_marked(addr);
}
// Mark through
return true;
}
template <bool finalizable, bool publish>
uintptr_t ZBarrier::mark(uintptr_t addr) {
uintptr_t good_addr;
if (ZAddress::is_marked(addr)) {
// Already marked, but try to mark though anyway
good_addr = ZAddress::good(addr);
} else if (ZAddress::is_remapped(addr)) {
// Already remapped, but also needs to be marked
good_addr = ZAddress::good(addr);
} else {
// Needs to be both remapped and marked
good_addr = remap(addr);
}
// Mark
if (should_mark_through<finalizable>(addr)) {
ZHeap::heap()->mark_object<finalizable, publish>(good_addr);
}
return good_addr;
}
uintptr_t ZBarrier::remap(uintptr_t addr) {
assert(!ZAddress::is_good(addr), "Should not be good");
assert(!ZAddress::is_weak_good(addr), "Should not be weak good");
return ZHeap::heap()->remap_object(addr);
}
uintptr_t ZBarrier::relocate(uintptr_t addr) {
assert(!ZAddress::is_good(addr), "Should not be good");
assert(!ZAddress::is_weak_good(addr), "Should not be weak good");
return ZHeap::heap()->relocate_object(addr);
}
uintptr_t ZBarrier::relocate_or_mark(uintptr_t addr) {
return during_relocate() ? relocate(addr) : mark<Strong, Publish>(addr);
}
uintptr_t ZBarrier::relocate_or_remap(uintptr_t addr) {
return during_relocate() ? relocate(addr) : remap(addr);
}
//
// Load barrier
//
uintptr_t ZBarrier::load_barrier_on_oop_slow_path(uintptr_t addr) {
return relocate_or_mark(addr);
}
void ZBarrier::load_barrier_on_oop_fields(oop o) {
assert(ZOop::is_good(o), "Should be good");
ZLoadBarrierOopClosure cl;
o->oop_iterate(&cl);
}
//
// Weak load barrier
//
uintptr_t ZBarrier::weak_load_barrier_on_oop_slow_path(uintptr_t addr) {
return ZAddress::is_weak_good(addr) ? ZAddress::good(addr) : relocate_or_remap(addr);
}
uintptr_t ZBarrier::weak_load_barrier_on_weak_oop_slow_path(uintptr_t addr) {
const uintptr_t good_addr = weak_load_barrier_on_oop_slow_path(addr);
if (ZHeap::heap()->is_object_strongly_live(good_addr)) {
return good_addr;
}
// Not strongly live
return 0;
}
uintptr_t ZBarrier::weak_load_barrier_on_phantom_oop_slow_path(uintptr_t addr) {
const uintptr_t good_addr = weak_load_barrier_on_oop_slow_path(addr);
if (ZHeap::heap()->is_object_live(good_addr)) {
return good_addr;
}
// Not live
return 0;
}
//
// Keep alive barrier
//
uintptr_t ZBarrier::keep_alive_barrier_on_weak_oop_slow_path(uintptr_t addr) {
const uintptr_t good_addr = weak_load_barrier_on_oop_slow_path(addr);
assert(ZHeap::heap()->is_object_strongly_live(good_addr), "Should be live");
return good_addr;
}
uintptr_t ZBarrier::keep_alive_barrier_on_phantom_oop_slow_path(uintptr_t addr) {
const uintptr_t good_addr = weak_load_barrier_on_oop_slow_path(addr);
assert(ZHeap::heap()->is_object_live(good_addr), "Should be live");
return good_addr;
}
//
// Mark barrier
//
uintptr_t ZBarrier::mark_barrier_on_oop_slow_path(uintptr_t addr) {
return mark<Strong, Overflow>(addr);
}
uintptr_t ZBarrier::mark_barrier_on_finalizable_oop_slow_path(uintptr_t addr) {
const uintptr_t good_addr = mark<Finalizable, Overflow>(addr);
if (ZAddress::is_good(addr)) {
// If the oop was already strongly marked/good, then we do
// not want to downgrade it to finalizable marked/good.
return good_addr;
}
// Make the oop finalizable marked/good, instead of normal marked/good.
// This is needed because an object might first becomes finalizable
// marked by the GC, and then loaded by a mutator thread. In this case,
// the mutator thread must be able to tell that the object needs to be
// strongly marked. The finalizable bit in the oop exists to make sure
// that a load of a finalizable marked oop will fall into the barrier
// slow path so that we can mark the object as strongly reachable.
return ZAddress::finalizable_good(good_addr);
}
uintptr_t ZBarrier::mark_barrier_on_root_oop_slow_path(uintptr_t addr) {
assert(SafepointSynchronize::is_at_safepoint(), "Should be at safepoint");
assert(during_mark(), "Invalid phase");
// Mark
return mark<Strong, Publish>(addr);
}
//
// Relocate barrier
//
uintptr_t ZBarrier::relocate_barrier_on_root_oop_slow_path(uintptr_t addr) {
assert(SafepointSynchronize::is_at_safepoint(), "Should be at safepoint");
assert(during_relocate(), "Invalid phase");
// Relocate
return relocate(addr);
}
//
// Narrow oop variants, never used.
//
oop ZBarrier::load_barrier_on_oop_field(volatile narrowOop* p) {
ShouldNotReachHere();
return NULL;
}
oop ZBarrier::load_barrier_on_oop_field_preloaded(volatile narrowOop* p, oop o) {
ShouldNotReachHere();
return NULL;
}
void ZBarrier::load_barrier_on_oop_array(volatile narrowOop* p, size_t length) {
ShouldNotReachHere();
}
oop ZBarrier::load_barrier_on_weak_oop_field_preloaded(volatile narrowOop* p, oop o) {
ShouldNotReachHere();
return NULL;
}
oop ZBarrier::load_barrier_on_phantom_oop_field_preloaded(volatile narrowOop* p, oop o) {
ShouldNotReachHere();
return NULL;
}
oop ZBarrier::weak_load_barrier_on_oop_field_preloaded(volatile narrowOop* p, oop o) {
ShouldNotReachHere();
return NULL;
}
oop ZBarrier::weak_load_barrier_on_weak_oop_field_preloaded(volatile narrowOop* p, oop o) {
ShouldNotReachHere();
return NULL;
}
oop ZBarrier::weak_load_barrier_on_phantom_oop_field_preloaded(volatile narrowOop* p, oop o) {
ShouldNotReachHere();
return NULL;
}