/* * Copyright (c) 2017, 2019, Oracle and/or its affiliates. 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 "code/relocInfo.hpp" #include "code/nmethod.hpp" #include "code/icBuffer.hpp" #include "gc/shared/barrierSet.hpp" #include "gc/shared/barrierSetNMethod.hpp" #include "gc/z/zGlobals.hpp" #include "gc/z/zLock.inline.hpp" #include "gc/z/zNMethod.hpp" #include "gc/z/zNMethodData.hpp" #include "gc/z/zNMethodTable.hpp" #include "gc/z/zOopClosures.inline.hpp" #include "gc/z/zTask.hpp" #include "gc/z/zWorkers.hpp" #include "logging/log.hpp" #include "memory/allocation.inline.hpp" #include "memory/iterator.hpp" #include "memory/resourceArea.hpp" #include "memory/universe.hpp" #include "runtime/atomic.hpp" #include "runtime/orderAccess.hpp" #include "utilities/debug.hpp" static ZNMethodData* gc_data(const nmethod* nm) { return nm->gc_data(); } static void set_gc_data(nmethod* nm, ZNMethodData* data) { return nm->set_gc_data(data); } void ZNMethod::attach_gc_data(nmethod* nm) { GrowableArray immediate_oops; bool non_immediate_oops = false; // Find all oops relocations RelocIterator iter(nm); while (iter.next()) { if (iter.type() != relocInfo::oop_type) { // Not an oop continue; } oop_Relocation* r = iter.oop_reloc(); if (!r->oop_is_immediate()) { // Non-immediate oop found non_immediate_oops = true; continue; } if (r->oop_value() != NULL) { // Non-NULL immediate oop found. NULL oops can safely be // ignored since the method will be re-registered if they // are later patched to be non-NULL. immediate_oops.push(r->oop_addr()); } } // Attach GC data to nmethod ZNMethodData* data = gc_data(nm); if (data == NULL) { data = new ZNMethodData(); set_gc_data(nm, data); } // Attach oops in GC data ZNMethodDataOops* const new_oops = ZNMethodDataOops::create(immediate_oops, non_immediate_oops); ZNMethodDataOops* const old_oops = data->swap_oops(new_oops); ZNMethodDataOops::destroy(old_oops); } ZReentrantLock* ZNMethod::lock_for_nmethod(nmethod* nm) { return gc_data(nm)->lock(); } void ZNMethod::log_register(const nmethod* nm) { LogTarget(Trace, gc, nmethod) log; if (!log.is_enabled()) { return; } const ZNMethodDataOops* const oops = gc_data(nm)->oops(); log.print("Register NMethod: %s.%s (" PTR_FORMAT "), " "Compiler: %s, Oops: %d, ImmediateOops: " SIZE_FORMAT ", NonImmediateOops: %s", nm->method()->method_holder()->external_name(), nm->method()->name()->as_C_string(), p2i(nm), nm->compiler_name(), nm->oops_count() - 1, oops->immediates_count(), oops->has_non_immediates() ? "Yes" : "No"); LogTarget(Trace, gc, nmethod, oops) log_oops; if (!log_oops.is_enabled()) { return; } // Print nmethod oops table { oop* const begin = nm->oops_begin(); oop* const end = nm->oops_end(); for (oop* p = begin; p < end; p++) { log_oops.print(" Oop[" SIZE_FORMAT "] " PTR_FORMAT " (%s)", (p - begin), p2i(*p), (*p)->klass()->external_name()); } } // Print nmethod immediate oops { oop** const begin = oops->immediates_begin(); oop** const end = oops->immediates_end(); for (oop** p = begin; p < end; p++) { log_oops.print(" ImmediateOop[" SIZE_FORMAT "] " PTR_FORMAT " @ " PTR_FORMAT " (%s)", (p - begin), p2i(**p), p2i(*p), (**p)->klass()->external_name()); } } } void ZNMethod::log_unregister(const nmethod* nm) { LogTarget(Debug, gc, nmethod) log; if (!log.is_enabled()) { return; } log.print("Unregister NMethod: %s.%s (" PTR_FORMAT ")", nm->method()->method_holder()->external_name(), nm->method()->name()->as_C_string(), p2i(nm)); } void ZNMethod::register_nmethod(nmethod* nm) { ResourceMark rm; // Create and attach gc data attach_gc_data(nm); log_register(nm); ZNMethodTable::register_nmethod(nm); // Disarm nmethod entry barrier disarm_nmethod(nm); } void ZNMethod::unregister_nmethod(nmethod* nm) { assert(CodeCache_lock->owned_by_self(), "Lock must be held"); if (Thread::current()->is_Code_cache_sweeper_thread()) { // The sweeper must wait for any ongoing iteration to complete // before it can unregister an nmethod. ZNMethodTable::wait_until_iteration_done(); } ResourceMark rm; log_unregister(nm); ZNMethodTable::unregister_nmethod(nm); } void ZNMethod::flush_nmethod(nmethod* nm) { // Destroy GC data delete gc_data(nm); } void ZNMethod::disarm_nmethod(nmethod* nm) { BarrierSetNMethod* const bs = BarrierSet::barrier_set()->barrier_set_nmethod(); if (bs != NULL) { bs->disarm(nm); } } void ZNMethod::nmethod_oops_do(nmethod* nm, OopClosure* cl) { // Process oops table { oop* const begin = nm->oops_begin(); oop* const end = nm->oops_end(); for (oop* p = begin; p < end; p++) { if (*p != Universe::non_oop_word()) { cl->do_oop(p); } } } ZNMethodDataOops* const oops = gc_data(nm)->oops(); // Process immediate oops { oop** const begin = oops->immediates_begin(); oop** const end = oops->immediates_end(); for (oop** p = begin; p < end; p++) { if (**p != Universe::non_oop_word()) { cl->do_oop(*p); } } } // Process non-immediate oops if (oops->has_non_immediates()) { nm->fix_oop_relocations(); } } class ZNMethodToOopsDoClosure : public NMethodClosure { private: OopClosure* _cl; public: ZNMethodToOopsDoClosure(OopClosure* cl) : _cl(cl) {} virtual void do_nmethod(nmethod* nm) { ZNMethod::nmethod_oops_do(nm, _cl); } }; void ZNMethod::oops_do_begin() { ZNMethodTable::nmethods_do_begin(); } void ZNMethod::oops_do_end() { ZNMethodTable::nmethods_do_end(); } void ZNMethod::oops_do(OopClosure* cl) { ZNMethodToOopsDoClosure nmethod_cl(cl); ZNMethodTable::nmethods_do(&nmethod_cl); } class ZNMethodUnlinkClosure : public NMethodClosure { private: bool _unloading_occurred; volatile bool _failed; void set_failed() { Atomic::store(true, &_failed); } void unlink(nmethod* nm) { // Unlinking of the dependencies must happen before the // handshake separating unlink and purge. nm->flush_dependencies(false /* delete_immediately */); // unlink_from_method will take the CompiledMethod_lock. // In this case we don't strictly need it when unlinking nmethods from // the Method, because it is only concurrently unlinked by // the entry barrier, which acquires the per nmethod lock. nm->unlink_from_method(); if (nm->is_osr_method()) { // Invalidate the osr nmethod before the handshake. The nmethod // will be made unloaded after the handshake. Then invalidate_osr_method() // will be called again, which will be a no-op. nm->invalidate_osr_method(); } } public: ZNMethodUnlinkClosure(bool unloading_occurred) : _unloading_occurred(unloading_occurred), _failed(false) {} virtual void do_nmethod(nmethod* nm) { if (failed()) { return; } if (!nm->is_alive()) { return; } ZLocker locker(ZNMethod::lock_for_nmethod(nm)); if (nm->is_unloading()) { unlink(nm); return; } // Heal oops and disarm ZNMethodOopClosure cl; ZNMethod::nmethod_oops_do(nm, &cl); ZNMethod::disarm_nmethod(nm); // Clear compiled ICs and exception caches if (!nm->unload_nmethod_caches(_unloading_occurred)) { set_failed(); } } bool failed() const { return Atomic::load(&_failed); } }; class ZNMethodUnlinkTask : public ZTask { private: ZNMethodUnlinkClosure _cl; ICRefillVerifier* _verifier; public: ZNMethodUnlinkTask(bool unloading_occurred, ICRefillVerifier* verifier) : ZTask("ZNMethodUnlinkTask"), _cl(unloading_occurred), _verifier(verifier) { ZNMethodTable::nmethods_do_begin(); } ~ZNMethodUnlinkTask() { ZNMethodTable::nmethods_do_end(); } virtual void work() { ICRefillVerifierMark mark(_verifier); ZNMethodTable::nmethods_do(&_cl); } bool success() const { return !_cl.failed(); } }; void ZNMethod::unlink(ZWorkers* workers, bool unloading_occurred) { for (;;) { ICRefillVerifier verifier; { ZNMethodUnlinkTask task(unloading_occurred, &verifier); workers->run_concurrent(&task); if (task.success()) { return; } } // Cleaning failed because we ran out of transitional IC stubs, // so we have to refill and try again. Refilling requires taking // a safepoint, so we temporarily leave the suspendible thread set. SuspendibleThreadSetLeaver sts; InlineCacheBuffer::refill_ic_stubs(); } } class ZNMethodPurgeClosure : public NMethodClosure { public: virtual void do_nmethod(nmethod* nm) { if (nm->is_alive() && nm->is_unloading()) { nm->make_unloaded(); } } }; class ZNMethodPurgeTask : public ZTask { private: ZNMethodPurgeClosure _cl; public: ZNMethodPurgeTask() : ZTask("ZNMethodPurgeTask"), _cl() { ZNMethodTable::nmethods_do_begin(); } ~ZNMethodPurgeTask() { ZNMethodTable::nmethods_do_end(); } virtual void work() { ZNMethodTable::nmethods_do(&_cl); } }; void ZNMethod::purge(ZWorkers* workers) { ZNMethodPurgeTask task; workers->run_concurrent(&task); }