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/*
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* Copyright 1997-2007 Sun Microsystems, Inc. All Rights Reserved.
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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*
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* This code is free software; you can redistribute it and/or modify it
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* under the terms of the GNU General Public License version 2 only, as
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* published by the Free Software Foundation.
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*
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* This code is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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* version 2 for more details (a copy is included in the LICENSE file that
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* accompanied this code).
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*
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* You should have received a copy of the GNU General Public License version
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* 2 along with this work; if not, write to the Free Software Foundation,
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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*
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* Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
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* CA 95054 USA or visit www.sun.com if you need additional information or
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* have any questions.
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*
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*/
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# include "incls/_precompiled.incl"
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# include "incls/_universe.cpp.incl"
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// Known objects
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klassOop Universe::_boolArrayKlassObj = NULL;
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klassOop Universe::_byteArrayKlassObj = NULL;
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klassOop Universe::_charArrayKlassObj = NULL;
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klassOop Universe::_intArrayKlassObj = NULL;
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klassOop Universe::_shortArrayKlassObj = NULL;
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klassOop Universe::_longArrayKlassObj = NULL;
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klassOop Universe::_singleArrayKlassObj = NULL;
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klassOop Universe::_doubleArrayKlassObj = NULL;
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klassOop Universe::_typeArrayKlassObjs[T_VOID+1] = { NULL /*, NULL...*/ };
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klassOop Universe::_objectArrayKlassObj = NULL;
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klassOop Universe::_symbolKlassObj = NULL;
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klassOop Universe::_methodKlassObj = NULL;
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klassOop Universe::_constMethodKlassObj = NULL;
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klassOop Universe::_methodDataKlassObj = NULL;
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klassOop Universe::_klassKlassObj = NULL;
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klassOop Universe::_arrayKlassKlassObj = NULL;
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klassOop Universe::_objArrayKlassKlassObj = NULL;
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klassOop Universe::_typeArrayKlassKlassObj = NULL;
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klassOop Universe::_instanceKlassKlassObj = NULL;
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klassOop Universe::_constantPoolKlassObj = NULL;
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klassOop Universe::_constantPoolCacheKlassObj = NULL;
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klassOop Universe::_compiledICHolderKlassObj = NULL;
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klassOop Universe::_systemObjArrayKlassObj = NULL;
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oop Universe::_int_mirror = NULL;
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oop Universe::_float_mirror = NULL;
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oop Universe::_double_mirror = NULL;
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oop Universe::_byte_mirror = NULL;
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oop Universe::_bool_mirror = NULL;
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oop Universe::_char_mirror = NULL;
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oop Universe::_long_mirror = NULL;
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oop Universe::_short_mirror = NULL;
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oop Universe::_void_mirror = NULL;
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oop Universe::_mirrors[T_VOID+1] = { NULL /*, NULL...*/ };
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oop Universe::_main_thread_group = NULL;
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oop Universe::_system_thread_group = NULL;
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typeArrayOop Universe::_the_empty_byte_array = NULL;
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typeArrayOop Universe::_the_empty_short_array = NULL;
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typeArrayOop Universe::_the_empty_int_array = NULL;
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objArrayOop Universe::_the_empty_system_obj_array = NULL;
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objArrayOop Universe::_the_empty_class_klass_array = NULL;
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objArrayOop Universe::_the_array_interfaces_array = NULL;
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LatestMethodOopCache* Universe::_finalizer_register_cache = NULL;
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LatestMethodOopCache* Universe::_loader_addClass_cache = NULL;
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ActiveMethodOopsCache* Universe::_reflect_invoke_cache = NULL;
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oop Universe::_out_of_memory_error_java_heap = NULL;
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oop Universe::_out_of_memory_error_perm_gen = NULL;
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oop Universe::_out_of_memory_error_array_size = NULL;
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oop Universe::_out_of_memory_error_gc_overhead_limit = NULL;
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objArrayOop Universe::_preallocated_out_of_memory_error_array = NULL;
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volatile jint Universe::_preallocated_out_of_memory_error_avail_count = 0;
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bool Universe::_verify_in_progress = false;
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oop Universe::_null_ptr_exception_instance = NULL;
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oop Universe::_arithmetic_exception_instance = NULL;
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oop Universe::_virtual_machine_error_instance = NULL;
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oop Universe::_vm_exception = NULL;
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oop Universe::_emptySymbol = NULL;
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// These variables are guarded by FullGCALot_lock.
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debug_only(objArrayOop Universe::_fullgc_alot_dummy_array = NULL;)
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debug_only(int Universe::_fullgc_alot_dummy_next = 0;)
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// Heap
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int Universe::_verify_count = 0;
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int Universe::_base_vtable_size = 0;
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bool Universe::_bootstrapping = false;
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bool Universe::_fully_initialized = false;
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size_t Universe::_heap_capacity_at_last_gc;
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size_t Universe::_heap_used_at_last_gc;
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CollectedHeap* Universe::_collectedHeap = NULL;
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void Universe::basic_type_classes_do(void f(klassOop)) {
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f(boolArrayKlassObj());
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f(byteArrayKlassObj());
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f(charArrayKlassObj());
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f(intArrayKlassObj());
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f(shortArrayKlassObj());
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f(longArrayKlassObj());
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f(singleArrayKlassObj());
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f(doubleArrayKlassObj());
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}
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void Universe::system_classes_do(void f(klassOop)) {
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f(symbolKlassObj());
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f(methodKlassObj());
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f(constMethodKlassObj());
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f(methodDataKlassObj());
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f(klassKlassObj());
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f(arrayKlassKlassObj());
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f(objArrayKlassKlassObj());
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f(typeArrayKlassKlassObj());
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f(instanceKlassKlassObj());
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f(constantPoolKlassObj());
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f(systemObjArrayKlassObj());
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}
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void Universe::oops_do(OopClosure* f, bool do_all) {
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f->do_oop((oop*) &_int_mirror);
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f->do_oop((oop*) &_float_mirror);
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f->do_oop((oop*) &_double_mirror);
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f->do_oop((oop*) &_byte_mirror);
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f->do_oop((oop*) &_bool_mirror);
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f->do_oop((oop*) &_char_mirror);
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f->do_oop((oop*) &_long_mirror);
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f->do_oop((oop*) &_short_mirror);
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f->do_oop((oop*) &_void_mirror);
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// It's important to iterate over these guys even if they are null,
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// since that's how shared heaps are restored.
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for (int i = T_BOOLEAN; i < T_VOID+1; i++) {
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f->do_oop((oop*) &_mirrors[i]);
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}
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assert(_mirrors[0] == NULL && _mirrors[T_BOOLEAN - 1] == NULL, "checking");
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// %%% Consider moving those "shared oops" over here with the others.
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f->do_oop((oop*)&_boolArrayKlassObj);
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f->do_oop((oop*)&_byteArrayKlassObj);
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f->do_oop((oop*)&_charArrayKlassObj);
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f->do_oop((oop*)&_intArrayKlassObj);
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f->do_oop((oop*)&_shortArrayKlassObj);
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f->do_oop((oop*)&_longArrayKlassObj);
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f->do_oop((oop*)&_singleArrayKlassObj);
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f->do_oop((oop*)&_doubleArrayKlassObj);
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f->do_oop((oop*)&_objectArrayKlassObj);
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{
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for (int i = 0; i < T_VOID+1; i++) {
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if (_typeArrayKlassObjs[i] != NULL) {
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assert(i >= T_BOOLEAN, "checking");
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f->do_oop((oop*)&_typeArrayKlassObjs[i]);
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} else if (do_all) {
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f->do_oop((oop*)&_typeArrayKlassObjs[i]);
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}
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}
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}
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f->do_oop((oop*)&_symbolKlassObj);
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f->do_oop((oop*)&_methodKlassObj);
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f->do_oop((oop*)&_constMethodKlassObj);
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f->do_oop((oop*)&_methodDataKlassObj);
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f->do_oop((oop*)&_klassKlassObj);
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f->do_oop((oop*)&_arrayKlassKlassObj);
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f->do_oop((oop*)&_objArrayKlassKlassObj);
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f->do_oop((oop*)&_typeArrayKlassKlassObj);
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f->do_oop((oop*)&_instanceKlassKlassObj);
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f->do_oop((oop*)&_constantPoolKlassObj);
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f->do_oop((oop*)&_constantPoolCacheKlassObj);
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f->do_oop((oop*)&_compiledICHolderKlassObj);
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f->do_oop((oop*)&_systemObjArrayKlassObj);
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f->do_oop((oop*)&_the_empty_byte_array);
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f->do_oop((oop*)&_the_empty_short_array);
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f->do_oop((oop*)&_the_empty_int_array);
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f->do_oop((oop*)&_the_empty_system_obj_array);
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f->do_oop((oop*)&_the_empty_class_klass_array);
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f->do_oop((oop*)&_the_array_interfaces_array);
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_finalizer_register_cache->oops_do(f);
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_loader_addClass_cache->oops_do(f);
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_reflect_invoke_cache->oops_do(f);
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f->do_oop((oop*)&_out_of_memory_error_java_heap);
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f->do_oop((oop*)&_out_of_memory_error_perm_gen);
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f->do_oop((oop*)&_out_of_memory_error_array_size);
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f->do_oop((oop*)&_out_of_memory_error_gc_overhead_limit);
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if (_preallocated_out_of_memory_error_array != (oop)NULL) { // NULL when DumpSharedSpaces
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f->do_oop((oop*)&_preallocated_out_of_memory_error_array);
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}
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f->do_oop((oop*)&_null_ptr_exception_instance);
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f->do_oop((oop*)&_arithmetic_exception_instance);
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f->do_oop((oop*)&_virtual_machine_error_instance);
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f->do_oop((oop*)&_main_thread_group);
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f->do_oop((oop*)&_system_thread_group);
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f->do_oop((oop*)&_vm_exception);
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f->do_oop((oop*)&_emptySymbol);
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debug_only(f->do_oop((oop*)&_fullgc_alot_dummy_array);)
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}
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void Universe::check_alignment(uintx size, uintx alignment, const char* name) {
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if (size < alignment || size % alignment != 0) {
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ResourceMark rm;
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stringStream st;
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st.print("Size of %s (%ld bytes) must be aligned to %ld bytes", name, size, alignment);
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char* error = st.as_string();
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vm_exit_during_initialization(error);
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}
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}
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void Universe::genesis(TRAPS) {
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ResourceMark rm;
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{ FlagSetting fs(_bootstrapping, true);
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{ MutexLocker mc(Compile_lock);
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// determine base vtable size; without that we cannot create the array klasses
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compute_base_vtable_size();
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if (!UseSharedSpaces) {
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_klassKlassObj = klassKlass::create_klass(CHECK);
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_arrayKlassKlassObj = arrayKlassKlass::create_klass(CHECK);
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_objArrayKlassKlassObj = objArrayKlassKlass::create_klass(CHECK);
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_instanceKlassKlassObj = instanceKlassKlass::create_klass(CHECK);
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_typeArrayKlassKlassObj = typeArrayKlassKlass::create_klass(CHECK);
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_symbolKlassObj = symbolKlass::create_klass(CHECK);
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_emptySymbol = oopFactory::new_symbol("", CHECK);
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_boolArrayKlassObj = typeArrayKlass::create_klass(T_BOOLEAN, sizeof(jboolean), CHECK);
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_charArrayKlassObj = typeArrayKlass::create_klass(T_CHAR, sizeof(jchar), CHECK);
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_singleArrayKlassObj = typeArrayKlass::create_klass(T_FLOAT, sizeof(jfloat), CHECK);
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_doubleArrayKlassObj = typeArrayKlass::create_klass(T_DOUBLE, sizeof(jdouble), CHECK);
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_byteArrayKlassObj = typeArrayKlass::create_klass(T_BYTE, sizeof(jbyte), CHECK);
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_shortArrayKlassObj = typeArrayKlass::create_klass(T_SHORT, sizeof(jshort), CHECK);
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_intArrayKlassObj = typeArrayKlass::create_klass(T_INT, sizeof(jint), CHECK);
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_longArrayKlassObj = typeArrayKlass::create_klass(T_LONG, sizeof(jlong), CHECK);
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_typeArrayKlassObjs[T_BOOLEAN] = _boolArrayKlassObj;
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_typeArrayKlassObjs[T_CHAR] = _charArrayKlassObj;
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_typeArrayKlassObjs[T_FLOAT] = _singleArrayKlassObj;
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_typeArrayKlassObjs[T_DOUBLE] = _doubleArrayKlassObj;
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_typeArrayKlassObjs[T_BYTE] = _byteArrayKlassObj;
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_typeArrayKlassObjs[T_SHORT] = _shortArrayKlassObj;
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_typeArrayKlassObjs[T_INT] = _intArrayKlassObj;
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_typeArrayKlassObjs[T_LONG] = _longArrayKlassObj;
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_methodKlassObj = methodKlass::create_klass(CHECK);
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_constMethodKlassObj = constMethodKlass::create_klass(CHECK);
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_methodDataKlassObj = methodDataKlass::create_klass(CHECK);
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_constantPoolKlassObj = constantPoolKlass::create_klass(CHECK);
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_constantPoolCacheKlassObj = constantPoolCacheKlass::create_klass(CHECK);
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_compiledICHolderKlassObj = compiledICHolderKlass::create_klass(CHECK);
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_systemObjArrayKlassObj = objArrayKlassKlass::cast(objArrayKlassKlassObj())->allocate_system_objArray_klass(CHECK);
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_the_empty_byte_array = oopFactory::new_permanent_byteArray(0, CHECK);
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_the_empty_short_array = oopFactory::new_permanent_shortArray(0, CHECK);
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_the_empty_int_array = oopFactory::new_permanent_intArray(0, CHECK);
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_the_empty_system_obj_array = oopFactory::new_system_objArray(0, CHECK);
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_the_array_interfaces_array = oopFactory::new_system_objArray(2, CHECK);
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_vm_exception = oopFactory::new_symbol("vm exception holder", CHECK);
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} else {
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FileMapInfo *mapinfo = FileMapInfo::current_info();
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char* buffer = mapinfo->region_base(CompactingPermGenGen::md);
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void** vtbl_list = (void**)buffer;
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init_self_patching_vtbl_list(vtbl_list,
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CompactingPermGenGen::vtbl_list_size);
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}
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}
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vmSymbols::initialize(CHECK);
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SystemDictionary::initialize(CHECK);
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klassOop ok = SystemDictionary::object_klass();
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if (UseSharedSpaces) {
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// Verify shared interfaces array.
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assert(_the_array_interfaces_array->obj_at(0) ==
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SystemDictionary::cloneable_klass(), "u3");
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assert(_the_array_interfaces_array->obj_at(1) ==
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SystemDictionary::serializable_klass(), "u3");
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// Verify element klass for system obj array klass
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assert(objArrayKlass::cast(_systemObjArrayKlassObj)->element_klass() == ok, "u1");
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assert(objArrayKlass::cast(_systemObjArrayKlassObj)->bottom_klass() == ok, "u2");
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// Verify super class for the classes created above
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assert(Klass::cast(boolArrayKlassObj() )->super() == ok, "u3");
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assert(Klass::cast(charArrayKlassObj() )->super() == ok, "u3");
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assert(Klass::cast(singleArrayKlassObj() )->super() == ok, "u3");
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assert(Klass::cast(doubleArrayKlassObj() )->super() == ok, "u3");
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assert(Klass::cast(byteArrayKlassObj() )->super() == ok, "u3");
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assert(Klass::cast(shortArrayKlassObj() )->super() == ok, "u3");
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assert(Klass::cast(intArrayKlassObj() )->super() == ok, "u3");
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assert(Klass::cast(longArrayKlassObj() )->super() == ok, "u3");
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assert(Klass::cast(constantPoolKlassObj() )->super() == ok, "u3");
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assert(Klass::cast(systemObjArrayKlassObj())->super() == ok, "u3");
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} else {
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// Set up shared interfaces array. (Do this before supers are set up.)
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_the_array_interfaces_array->obj_at_put(0, SystemDictionary::cloneable_klass());
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_the_array_interfaces_array->obj_at_put(1, SystemDictionary::serializable_klass());
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// Set element klass for system obj array klass
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objArrayKlass::cast(_systemObjArrayKlassObj)->set_element_klass(ok);
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objArrayKlass::cast(_systemObjArrayKlassObj)->set_bottom_klass(ok);
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// Set super class for the classes created above
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Klass::cast(boolArrayKlassObj() )->initialize_supers(ok, CHECK);
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Klass::cast(charArrayKlassObj() )->initialize_supers(ok, CHECK);
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Klass::cast(singleArrayKlassObj() )->initialize_supers(ok, CHECK);
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326 |
Klass::cast(doubleArrayKlassObj() )->initialize_supers(ok, CHECK);
|
|
327 |
Klass::cast(byteArrayKlassObj() )->initialize_supers(ok, CHECK);
|
|
328 |
Klass::cast(shortArrayKlassObj() )->initialize_supers(ok, CHECK);
|
|
329 |
Klass::cast(intArrayKlassObj() )->initialize_supers(ok, CHECK);
|
|
330 |
Klass::cast(longArrayKlassObj() )->initialize_supers(ok, CHECK);
|
|
331 |
Klass::cast(constantPoolKlassObj() )->initialize_supers(ok, CHECK);
|
|
332 |
Klass::cast(systemObjArrayKlassObj())->initialize_supers(ok, CHECK);
|
|
333 |
Klass::cast(boolArrayKlassObj() )->set_super(ok);
|
|
334 |
Klass::cast(charArrayKlassObj() )->set_super(ok);
|
|
335 |
Klass::cast(singleArrayKlassObj() )->set_super(ok);
|
|
336 |
Klass::cast(doubleArrayKlassObj() )->set_super(ok);
|
|
337 |
Klass::cast(byteArrayKlassObj() )->set_super(ok);
|
|
338 |
Klass::cast(shortArrayKlassObj() )->set_super(ok);
|
|
339 |
Klass::cast(intArrayKlassObj() )->set_super(ok);
|
|
340 |
Klass::cast(longArrayKlassObj() )->set_super(ok);
|
|
341 |
Klass::cast(constantPoolKlassObj() )->set_super(ok);
|
|
342 |
Klass::cast(systemObjArrayKlassObj())->set_super(ok);
|
|
343 |
}
|
|
344 |
|
|
345 |
Klass::cast(boolArrayKlassObj() )->append_to_sibling_list();
|
|
346 |
Klass::cast(charArrayKlassObj() )->append_to_sibling_list();
|
|
347 |
Klass::cast(singleArrayKlassObj() )->append_to_sibling_list();
|
|
348 |
Klass::cast(doubleArrayKlassObj() )->append_to_sibling_list();
|
|
349 |
Klass::cast(byteArrayKlassObj() )->append_to_sibling_list();
|
|
350 |
Klass::cast(shortArrayKlassObj() )->append_to_sibling_list();
|
|
351 |
Klass::cast(intArrayKlassObj() )->append_to_sibling_list();
|
|
352 |
Klass::cast(longArrayKlassObj() )->append_to_sibling_list();
|
|
353 |
Klass::cast(constantPoolKlassObj() )->append_to_sibling_list();
|
|
354 |
Klass::cast(systemObjArrayKlassObj())->append_to_sibling_list();
|
|
355 |
} // end of core bootstrapping
|
|
356 |
|
|
357 |
// Initialize _objectArrayKlass after core bootstraping to make
|
|
358 |
// sure the super class is set up properly for _objectArrayKlass.
|
|
359 |
_objectArrayKlassObj = instanceKlass::
|
|
360 |
cast(SystemDictionary::object_klass())->array_klass(1, CHECK);
|
|
361 |
// Add the class to the class hierarchy manually to make sure that
|
|
362 |
// its vtable is initialized after core bootstrapping is completed.
|
|
363 |
Klass::cast(_objectArrayKlassObj)->append_to_sibling_list();
|
|
364 |
|
|
365 |
// Compute is_jdk version flags.
|
|
366 |
// Only 1.3 or later has the java.lang.Shutdown class.
|
|
367 |
// Only 1.4 or later has the java.lang.CharSequence interface.
|
|
368 |
// Only 1.5 or later has the java.lang.management.MemoryUsage class.
|
|
369 |
if (JDK_Version::is_pre_jdk16_version()) {
|
|
370 |
klassOop k = SystemDictionary::resolve_or_null(vmSymbolHandles::java_lang_management_MemoryUsage(), THREAD);
|
|
371 |
CLEAR_PENDING_EXCEPTION; // ignore exceptions
|
|
372 |
if (k == NULL) {
|
|
373 |
k = SystemDictionary::resolve_or_null(vmSymbolHandles::java_lang_CharSequence(), THREAD);
|
|
374 |
CLEAR_PENDING_EXCEPTION; // ignore exceptions
|
|
375 |
if (k == NULL) {
|
|
376 |
k = SystemDictionary::resolve_or_null(vmSymbolHandles::java_lang_Shutdown(), THREAD);
|
|
377 |
CLEAR_PENDING_EXCEPTION; // ignore exceptions
|
|
378 |
if (k == NULL) {
|
|
379 |
JDK_Version::set_jdk12x_version();
|
|
380 |
} else {
|
|
381 |
JDK_Version::set_jdk13x_version();
|
|
382 |
}
|
|
383 |
} else {
|
|
384 |
JDK_Version::set_jdk14x_version();
|
|
385 |
}
|
|
386 |
} else {
|
|
387 |
JDK_Version::set_jdk15x_version();
|
|
388 |
}
|
|
389 |
}
|
|
390 |
|
|
391 |
#ifdef ASSERT
|
|
392 |
if (FullGCALot) {
|
|
393 |
// Allocate an array of dummy objects.
|
|
394 |
// We'd like these to be at the bottom of the old generation,
|
|
395 |
// so that when we free one and then collect,
|
|
396 |
// (almost) the whole heap moves
|
|
397 |
// and we find out if we actually update all the oops correctly.
|
|
398 |
// But we can't allocate directly in the old generation,
|
|
399 |
// so we allocate wherever, and hope that the first collection
|
|
400 |
// moves these objects to the bottom of the old generation.
|
|
401 |
// We can allocate directly in the permanent generation, so we do.
|
|
402 |
int size;
|
|
403 |
if (UseConcMarkSweepGC) {
|
|
404 |
warning("Using +FullGCALot with concurrent mark sweep gc "
|
|
405 |
"will not force all objects to relocate");
|
|
406 |
size = FullGCALotDummies;
|
|
407 |
} else {
|
|
408 |
size = FullGCALotDummies * 2;
|
|
409 |
}
|
|
410 |
objArrayOop naked_array = oopFactory::new_system_objArray(size, CHECK);
|
|
411 |
objArrayHandle dummy_array(THREAD, naked_array);
|
|
412 |
int i = 0;
|
|
413 |
while (i < size) {
|
|
414 |
if (!UseConcMarkSweepGC) {
|
|
415 |
// Allocate dummy in old generation
|
|
416 |
oop dummy = instanceKlass::cast(SystemDictionary::object_klass())->allocate_instance(CHECK);
|
|
417 |
dummy_array->obj_at_put(i++, dummy);
|
|
418 |
}
|
|
419 |
// Allocate dummy in permanent generation
|
|
420 |
oop dummy = instanceKlass::cast(SystemDictionary::object_klass())->allocate_permanent_instance(CHECK);
|
|
421 |
dummy_array->obj_at_put(i++, dummy);
|
|
422 |
}
|
|
423 |
{
|
|
424 |
// Only modify the global variable inside the mutex.
|
|
425 |
// If we had a race to here, the other dummy_array instances
|
|
426 |
// and their elements just get dropped on the floor, which is fine.
|
|
427 |
MutexLocker ml(FullGCALot_lock);
|
|
428 |
if (_fullgc_alot_dummy_array == NULL) {
|
|
429 |
_fullgc_alot_dummy_array = dummy_array();
|
|
430 |
}
|
|
431 |
}
|
|
432 |
assert(i == _fullgc_alot_dummy_array->length(), "just checking");
|
|
433 |
}
|
|
434 |
#endif
|
|
435 |
}
|
|
436 |
|
|
437 |
|
|
438 |
static inline void add_vtable(void** list, int* n, Klass* o, int count) {
|
|
439 |
list[(*n)++] = *(void**)&o->vtbl_value();
|
|
440 |
guarantee((*n) <= count, "vtable list too small.");
|
|
441 |
}
|
|
442 |
|
|
443 |
|
|
444 |
void Universe::init_self_patching_vtbl_list(void** list, int count) {
|
|
445 |
int n = 0;
|
|
446 |
{ klassKlass o; add_vtable(list, &n, &o, count); }
|
|
447 |
{ arrayKlassKlass o; add_vtable(list, &n, &o, count); }
|
|
448 |
{ objArrayKlassKlass o; add_vtable(list, &n, &o, count); }
|
|
449 |
{ instanceKlassKlass o; add_vtable(list, &n, &o, count); }
|
|
450 |
{ instanceKlass o; add_vtable(list, &n, &o, count); }
|
|
451 |
{ instanceRefKlass o; add_vtable(list, &n, &o, count); }
|
|
452 |
{ typeArrayKlassKlass o; add_vtable(list, &n, &o, count); }
|
|
453 |
{ symbolKlass o; add_vtable(list, &n, &o, count); }
|
|
454 |
{ typeArrayKlass o; add_vtable(list, &n, &o, count); }
|
|
455 |
{ methodKlass o; add_vtable(list, &n, &o, count); }
|
|
456 |
{ constMethodKlass o; add_vtable(list, &n, &o, count); }
|
|
457 |
{ constantPoolKlass o; add_vtable(list, &n, &o, count); }
|
|
458 |
{ constantPoolCacheKlass o; add_vtable(list, &n, &o, count); }
|
|
459 |
{ objArrayKlass o; add_vtable(list, &n, &o, count); }
|
|
460 |
{ methodDataKlass o; add_vtable(list, &n, &o, count); }
|
|
461 |
{ compiledICHolderKlass o; add_vtable(list, &n, &o, count); }
|
|
462 |
}
|
|
463 |
|
|
464 |
|
|
465 |
class FixupMirrorClosure: public ObjectClosure {
|
|
466 |
public:
|
|
467 |
void do_object(oop obj) {
|
|
468 |
if (obj->is_klass()) {
|
|
469 |
EXCEPTION_MARK;
|
|
470 |
KlassHandle k(THREAD, klassOop(obj));
|
|
471 |
// We will never reach the CATCH below since Exceptions::_throw will cause
|
|
472 |
// the VM to exit if an exception is thrown during initialization
|
|
473 |
java_lang_Class::create_mirror(k, CATCH);
|
|
474 |
// This call unconditionally creates a new mirror for k,
|
|
475 |
// and links in k's component_mirror field if k is an array.
|
|
476 |
// If k is an objArray, k's element type must already have
|
|
477 |
// a mirror. In other words, this closure must process
|
|
478 |
// the component type of an objArray k before it processes k.
|
|
479 |
// This works because the permgen iterator presents arrays
|
|
480 |
// and their component types in order of creation.
|
|
481 |
}
|
|
482 |
}
|
|
483 |
};
|
|
484 |
|
|
485 |
void Universe::initialize_basic_type_mirrors(TRAPS) {
|
|
486 |
if (UseSharedSpaces) {
|
|
487 |
assert(_int_mirror != NULL, "already loaded");
|
|
488 |
assert(_void_mirror == _mirrors[T_VOID], "consistently loaded");
|
|
489 |
} else {
|
|
490 |
|
|
491 |
assert(_int_mirror==NULL, "basic type mirrors already initialized");
|
|
492 |
_int_mirror =
|
|
493 |
java_lang_Class::create_basic_type_mirror("int", T_INT, CHECK);
|
|
494 |
_float_mirror =
|
|
495 |
java_lang_Class::create_basic_type_mirror("float", T_FLOAT, CHECK);
|
|
496 |
_double_mirror =
|
|
497 |
java_lang_Class::create_basic_type_mirror("double", T_DOUBLE, CHECK);
|
|
498 |
_byte_mirror =
|
|
499 |
java_lang_Class::create_basic_type_mirror("byte", T_BYTE, CHECK);
|
|
500 |
_bool_mirror =
|
|
501 |
java_lang_Class::create_basic_type_mirror("boolean",T_BOOLEAN, CHECK);
|
|
502 |
_char_mirror =
|
|
503 |
java_lang_Class::create_basic_type_mirror("char", T_CHAR, CHECK);
|
|
504 |
_long_mirror =
|
|
505 |
java_lang_Class::create_basic_type_mirror("long", T_LONG, CHECK);
|
|
506 |
_short_mirror =
|
|
507 |
java_lang_Class::create_basic_type_mirror("short", T_SHORT, CHECK);
|
|
508 |
_void_mirror =
|
|
509 |
java_lang_Class::create_basic_type_mirror("void", T_VOID, CHECK);
|
|
510 |
|
|
511 |
_mirrors[T_INT] = _int_mirror;
|
|
512 |
_mirrors[T_FLOAT] = _float_mirror;
|
|
513 |
_mirrors[T_DOUBLE] = _double_mirror;
|
|
514 |
_mirrors[T_BYTE] = _byte_mirror;
|
|
515 |
_mirrors[T_BOOLEAN] = _bool_mirror;
|
|
516 |
_mirrors[T_CHAR] = _char_mirror;
|
|
517 |
_mirrors[T_LONG] = _long_mirror;
|
|
518 |
_mirrors[T_SHORT] = _short_mirror;
|
|
519 |
_mirrors[T_VOID] = _void_mirror;
|
|
520 |
//_mirrors[T_OBJECT] = instanceKlass::cast(_object_klass)->java_mirror();
|
|
521 |
//_mirrors[T_ARRAY] = instanceKlass::cast(_object_klass)->java_mirror();
|
|
522 |
}
|
|
523 |
}
|
|
524 |
|
|
525 |
void Universe::fixup_mirrors(TRAPS) {
|
|
526 |
// Bootstrap problem: all classes gets a mirror (java.lang.Class instance) assigned eagerly,
|
|
527 |
// but we cannot do that for classes created before java.lang.Class is loaded. Here we simply
|
|
528 |
// walk over permanent objects created so far (mostly classes) and fixup their mirrors. Note
|
|
529 |
// that the number of objects allocated at this point is very small.
|
|
530 |
assert(SystemDictionary::class_klass_loaded(), "java.lang.Class should be loaded");
|
|
531 |
FixupMirrorClosure blk;
|
|
532 |
Universe::heap()->permanent_object_iterate(&blk);
|
|
533 |
}
|
|
534 |
|
|
535 |
|
|
536 |
static bool has_run_finalizers_on_exit = false;
|
|
537 |
|
|
538 |
void Universe::run_finalizers_on_exit() {
|
|
539 |
if (has_run_finalizers_on_exit) return;
|
|
540 |
has_run_finalizers_on_exit = true;
|
|
541 |
|
|
542 |
// Called on VM exit. This ought to be run in a separate thread.
|
|
543 |
if (TraceReferenceGC) tty->print_cr("Callback to run finalizers on exit");
|
|
544 |
{
|
|
545 |
PRESERVE_EXCEPTION_MARK;
|
|
546 |
KlassHandle finalizer_klass(THREAD, SystemDictionary::finalizer_klass());
|
|
547 |
JavaValue result(T_VOID);
|
|
548 |
JavaCalls::call_static(
|
|
549 |
&result,
|
|
550 |
finalizer_klass,
|
|
551 |
vmSymbolHandles::run_finalizers_on_exit_name(),
|
|
552 |
vmSymbolHandles::void_method_signature(),
|
|
553 |
THREAD
|
|
554 |
);
|
|
555 |
// Ignore any pending exceptions
|
|
556 |
CLEAR_PENDING_EXCEPTION;
|
|
557 |
}
|
|
558 |
}
|
|
559 |
|
|
560 |
|
|
561 |
// initialize_vtable could cause gc if
|
|
562 |
// 1) we specified true to initialize_vtable and
|
|
563 |
// 2) this ran after gc was enabled
|
|
564 |
// In case those ever change we use handles for oops
|
|
565 |
void Universe::reinitialize_vtable_of(KlassHandle k_h, TRAPS) {
|
|
566 |
// init vtable of k and all subclasses
|
|
567 |
Klass* ko = k_h()->klass_part();
|
|
568 |
klassVtable* vt = ko->vtable();
|
|
569 |
if (vt) vt->initialize_vtable(false, CHECK);
|
|
570 |
if (ko->oop_is_instance()) {
|
|
571 |
instanceKlass* ik = (instanceKlass*)ko;
|
|
572 |
for (KlassHandle s_h(THREAD, ik->subklass()); s_h() != NULL; s_h = (THREAD, s_h()->klass_part()->next_sibling())) {
|
|
573 |
reinitialize_vtable_of(s_h, CHECK);
|
|
574 |
}
|
|
575 |
}
|
|
576 |
}
|
|
577 |
|
|
578 |
|
|
579 |
void initialize_itable_for_klass(klassOop k, TRAPS) {
|
|
580 |
instanceKlass::cast(k)->itable()->initialize_itable(false, CHECK);
|
|
581 |
}
|
|
582 |
|
|
583 |
|
|
584 |
void Universe::reinitialize_itables(TRAPS) {
|
|
585 |
SystemDictionary::classes_do(initialize_itable_for_klass, CHECK);
|
|
586 |
|
|
587 |
}
|
|
588 |
|
|
589 |
|
|
590 |
bool Universe::on_page_boundary(void* addr) {
|
|
591 |
return ((uintptr_t) addr) % os::vm_page_size() == 0;
|
|
592 |
}
|
|
593 |
|
|
594 |
|
|
595 |
bool Universe::should_fill_in_stack_trace(Handle throwable) {
|
|
596 |
// never attempt to fill in the stack trace of preallocated errors that do not have
|
|
597 |
// backtrace. These errors are kept alive forever and may be "re-used" when all
|
|
598 |
// preallocated errors with backtrace have been consumed. Also need to avoid
|
|
599 |
// a potential loop which could happen if an out of memory occurs when attempting
|
|
600 |
// to allocate the backtrace.
|
|
601 |
return ((throwable() != Universe::_out_of_memory_error_java_heap) &&
|
|
602 |
(throwable() != Universe::_out_of_memory_error_perm_gen) &&
|
|
603 |
(throwable() != Universe::_out_of_memory_error_array_size) &&
|
|
604 |
(throwable() != Universe::_out_of_memory_error_gc_overhead_limit));
|
|
605 |
}
|
|
606 |
|
|
607 |
|
|
608 |
oop Universe::gen_out_of_memory_error(oop default_err) {
|
|
609 |
// generate an out of memory error:
|
|
610 |
// - if there is a preallocated error with backtrace available then return it wth
|
|
611 |
// a filled in stack trace.
|
|
612 |
// - if there are no preallocated errors with backtrace available then return
|
|
613 |
// an error without backtrace.
|
|
614 |
int next;
|
|
615 |
if (_preallocated_out_of_memory_error_avail_count > 0) {
|
|
616 |
next = (int)Atomic::add(-1, &_preallocated_out_of_memory_error_avail_count);
|
|
617 |
assert(next < (int)PreallocatedOutOfMemoryErrorCount, "avail count is corrupt");
|
|
618 |
} else {
|
|
619 |
next = -1;
|
|
620 |
}
|
|
621 |
if (next < 0) {
|
|
622 |
// all preallocated errors have been used.
|
|
623 |
// return default
|
|
624 |
return default_err;
|
|
625 |
} else {
|
|
626 |
// get the error object at the slot and set set it to NULL so that the
|
|
627 |
// array isn't keeping it alive anymore.
|
|
628 |
oop exc = preallocated_out_of_memory_errors()->obj_at(next);
|
|
629 |
assert(exc != NULL, "slot has been used already");
|
|
630 |
preallocated_out_of_memory_errors()->obj_at_put(next, NULL);
|
|
631 |
|
|
632 |
// use the message from the default error
|
|
633 |
oop msg = java_lang_Throwable::message(default_err);
|
|
634 |
assert(msg != NULL, "no message");
|
|
635 |
java_lang_Throwable::set_message(exc, msg);
|
|
636 |
|
|
637 |
// populate the stack trace and return it.
|
|
638 |
java_lang_Throwable::fill_in_stack_trace_of_preallocated_backtrace(exc);
|
|
639 |
return exc;
|
|
640 |
}
|
|
641 |
}
|
|
642 |
|
|
643 |
static intptr_t non_oop_bits = 0;
|
|
644 |
|
|
645 |
void* Universe::non_oop_word() {
|
|
646 |
// Neither the high bits nor the low bits of this value is allowed
|
|
647 |
// to look like (respectively) the high or low bits of a real oop.
|
|
648 |
//
|
|
649 |
// High and low are CPU-specific notions, but low always includes
|
|
650 |
// the low-order bit. Since oops are always aligned at least mod 4,
|
|
651 |
// setting the low-order bit will ensure that the low half of the
|
|
652 |
// word will never look like that of a real oop.
|
|
653 |
//
|
|
654 |
// Using the OS-supplied non-memory-address word (usually 0 or -1)
|
|
655 |
// will take care of the high bits, however many there are.
|
|
656 |
|
|
657 |
if (non_oop_bits == 0) {
|
|
658 |
non_oop_bits = (intptr_t)os::non_memory_address_word() | 1;
|
|
659 |
}
|
|
660 |
|
|
661 |
return (void*)non_oop_bits;
|
|
662 |
}
|
|
663 |
|
|
664 |
jint universe_init() {
|
|
665 |
assert(!Universe::_fully_initialized, "called after initialize_vtables");
|
|
666 |
guarantee(1 << LogHeapWordSize == sizeof(HeapWord),
|
|
667 |
"LogHeapWordSize is incorrect.");
|
|
668 |
guarantee(sizeof(oop) >= sizeof(HeapWord), "HeapWord larger than oop?");
|
|
669 |
guarantee(sizeof(oop) % sizeof(HeapWord) == 0,
|
|
670 |
"oop size is not not a multiple of HeapWord size");
|
|
671 |
TraceTime timer("Genesis", TraceStartupTime);
|
|
672 |
GC_locker::lock(); // do not allow gc during bootstrapping
|
|
673 |
JavaClasses::compute_hard_coded_offsets();
|
|
674 |
|
|
675 |
// Get map info from shared archive file.
|
|
676 |
if (DumpSharedSpaces)
|
|
677 |
UseSharedSpaces = false;
|
|
678 |
|
|
679 |
FileMapInfo* mapinfo = NULL;
|
|
680 |
if (UseSharedSpaces) {
|
|
681 |
mapinfo = NEW_C_HEAP_OBJ(FileMapInfo);
|
|
682 |
memset(mapinfo, 0, sizeof(FileMapInfo));
|
|
683 |
|
|
684 |
// Open the shared archive file, read and validate the header. If
|
|
685 |
// initialization files, shared spaces [UseSharedSpaces] are
|
|
686 |
// disabled and the file is closed.
|
|
687 |
|
|
688 |
if (mapinfo->initialize()) {
|
|
689 |
FileMapInfo::set_current_info(mapinfo);
|
|
690 |
} else {
|
|
691 |
assert(!mapinfo->is_open() && !UseSharedSpaces,
|
|
692 |
"archive file not closed or shared spaces not disabled.");
|
|
693 |
}
|
|
694 |
}
|
|
695 |
|
|
696 |
jint status = Universe::initialize_heap();
|
|
697 |
if (status != JNI_OK) {
|
|
698 |
return status;
|
|
699 |
}
|
|
700 |
|
|
701 |
// We have a heap so create the methodOop caches before
|
|
702 |
// CompactingPermGenGen::initialize_oops() tries to populate them.
|
|
703 |
Universe::_finalizer_register_cache = new LatestMethodOopCache();
|
|
704 |
Universe::_loader_addClass_cache = new LatestMethodOopCache();
|
|
705 |
Universe::_reflect_invoke_cache = new ActiveMethodOopsCache();
|
|
706 |
|
|
707 |
if (UseSharedSpaces) {
|
|
708 |
|
|
709 |
// Read the data structures supporting the shared spaces (shared
|
|
710 |
// system dictionary, symbol table, etc.). After that, access to
|
|
711 |
// the file (other than the mapped regions) is no longer needed, and
|
|
712 |
// the file is closed. Closing the file does not affect the
|
|
713 |
// currently mapped regions.
|
|
714 |
|
|
715 |
CompactingPermGenGen::initialize_oops();
|
|
716 |
mapinfo->close();
|
|
717 |
|
|
718 |
} else {
|
|
719 |
SymbolTable::create_table();
|
|
720 |
StringTable::create_table();
|
|
721 |
ClassLoader::create_package_info_table();
|
|
722 |
}
|
|
723 |
|
|
724 |
return JNI_OK;
|
|
725 |
}
|
|
726 |
|
|
727 |
jint Universe::initialize_heap() {
|
|
728 |
|
|
729 |
if (UseParallelGC) {
|
|
730 |
#ifndef SERIALGC
|
|
731 |
Universe::_collectedHeap = new ParallelScavengeHeap();
|
|
732 |
#else // SERIALGC
|
|
733 |
fatal("UseParallelGC not supported in java kernel vm.");
|
|
734 |
#endif // SERIALGC
|
|
735 |
|
|
736 |
} else {
|
|
737 |
GenCollectorPolicy *gc_policy;
|
|
738 |
|
|
739 |
if (UseSerialGC) {
|
|
740 |
gc_policy = new MarkSweepPolicy();
|
|
741 |
} else if (UseConcMarkSweepGC) {
|
|
742 |
#ifndef SERIALGC
|
|
743 |
if (UseAdaptiveSizePolicy) {
|
|
744 |
gc_policy = new ASConcurrentMarkSweepPolicy();
|
|
745 |
} else {
|
|
746 |
gc_policy = new ConcurrentMarkSweepPolicy();
|
|
747 |
}
|
|
748 |
#else // SERIALGC
|
|
749 |
fatal("UseConcMarkSweepGC not supported in java kernel vm.");
|
|
750 |
#endif // SERIALGC
|
|
751 |
} else { // default old generation
|
|
752 |
gc_policy = new MarkSweepPolicy();
|
|
753 |
}
|
|
754 |
|
|
755 |
Universe::_collectedHeap = new GenCollectedHeap(gc_policy);
|
|
756 |
}
|
|
757 |
|
|
758 |
jint status = Universe::heap()->initialize();
|
|
759 |
if (status != JNI_OK) {
|
|
760 |
return status;
|
|
761 |
}
|
|
762 |
|
|
763 |
// We will never reach the CATCH below since Exceptions::_throw will cause
|
|
764 |
// the VM to exit if an exception is thrown during initialization
|
|
765 |
|
|
766 |
if (UseTLAB) {
|
|
767 |
assert(Universe::heap()->supports_tlab_allocation(),
|
|
768 |
"Should support thread-local allocation buffers");
|
|
769 |
ThreadLocalAllocBuffer::startup_initialization();
|
|
770 |
}
|
|
771 |
return JNI_OK;
|
|
772 |
}
|
|
773 |
|
|
774 |
// It's the caller's repsonsibility to ensure glitch-freedom
|
|
775 |
// (if required).
|
|
776 |
void Universe::update_heap_info_at_gc() {
|
|
777 |
_heap_capacity_at_last_gc = heap()->capacity();
|
|
778 |
_heap_used_at_last_gc = heap()->used();
|
|
779 |
}
|
|
780 |
|
|
781 |
|
|
782 |
|
|
783 |
void universe2_init() {
|
|
784 |
EXCEPTION_MARK;
|
|
785 |
Universe::genesis(CATCH);
|
|
786 |
// Although we'd like to verify here that the state of the heap
|
|
787 |
// is good, we can't because the main thread has not yet added
|
|
788 |
// itself to the threads list (so, using current interfaces
|
|
789 |
// we can't "fill" its TLAB), unless TLABs are disabled.
|
|
790 |
if (VerifyBeforeGC && !UseTLAB &&
|
|
791 |
Universe::heap()->total_collections() >= VerifyGCStartAt) {
|
|
792 |
Universe::heap()->prepare_for_verify();
|
|
793 |
Universe::verify(); // make sure we're starting with a clean slate
|
|
794 |
}
|
|
795 |
}
|
|
796 |
|
|
797 |
|
|
798 |
// This function is defined in JVM.cpp
|
|
799 |
extern void initialize_converter_functions();
|
|
800 |
|
|
801 |
bool universe_post_init() {
|
|
802 |
Universe::_fully_initialized = true;
|
|
803 |
EXCEPTION_MARK;
|
|
804 |
{ ResourceMark rm;
|
|
805 |
Interpreter::initialize(); // needed for interpreter entry points
|
|
806 |
if (!UseSharedSpaces) {
|
|
807 |
KlassHandle ok_h(THREAD, SystemDictionary::object_klass());
|
|
808 |
Universe::reinitialize_vtable_of(ok_h, CHECK_false);
|
|
809 |
Universe::reinitialize_itables(CHECK_false);
|
|
810 |
}
|
|
811 |
}
|
|
812 |
|
|
813 |
klassOop k;
|
|
814 |
instanceKlassHandle k_h;
|
|
815 |
if (!UseSharedSpaces) {
|
|
816 |
// Setup preallocated empty java.lang.Class array
|
|
817 |
Universe::_the_empty_class_klass_array = oopFactory::new_objArray(SystemDictionary::class_klass(), 0, CHECK_false);
|
|
818 |
// Setup preallocated OutOfMemoryError errors
|
|
819 |
k = SystemDictionary::resolve_or_fail(vmSymbolHandles::java_lang_OutOfMemoryError(), true, CHECK_false);
|
|
820 |
k_h = instanceKlassHandle(THREAD, k);
|
|
821 |
Universe::_out_of_memory_error_java_heap = k_h->allocate_permanent_instance(CHECK_false);
|
|
822 |
Universe::_out_of_memory_error_perm_gen = k_h->allocate_permanent_instance(CHECK_false);
|
|
823 |
Universe::_out_of_memory_error_array_size = k_h->allocate_permanent_instance(CHECK_false);
|
|
824 |
Universe::_out_of_memory_error_gc_overhead_limit =
|
|
825 |
k_h->allocate_permanent_instance(CHECK_false);
|
|
826 |
|
|
827 |
// Setup preallocated NullPointerException
|
|
828 |
// (this is currently used for a cheap & dirty solution in compiler exception handling)
|
|
829 |
k = SystemDictionary::resolve_or_fail(vmSymbolHandles::java_lang_NullPointerException(), true, CHECK_false);
|
|
830 |
Universe::_null_ptr_exception_instance = instanceKlass::cast(k)->allocate_permanent_instance(CHECK_false);
|
|
831 |
// Setup preallocated ArithmeticException
|
|
832 |
// (this is currently used for a cheap & dirty solution in compiler exception handling)
|
|
833 |
k = SystemDictionary::resolve_or_fail(vmSymbolHandles::java_lang_ArithmeticException(), true, CHECK_false);
|
|
834 |
Universe::_arithmetic_exception_instance = instanceKlass::cast(k)->allocate_permanent_instance(CHECK_false);
|
|
835 |
// Virtual Machine Error for when we get into a situation we can't resolve
|
|
836 |
k = SystemDictionary::resolve_or_fail(
|
|
837 |
vmSymbolHandles::java_lang_VirtualMachineError(), true, CHECK_false);
|
|
838 |
bool linked = instanceKlass::cast(k)->link_class_or_fail(CHECK_false);
|
|
839 |
if (!linked) {
|
|
840 |
tty->print_cr("Unable to link/verify VirtualMachineError class");
|
|
841 |
return false; // initialization failed
|
|
842 |
}
|
|
843 |
Universe::_virtual_machine_error_instance =
|
|
844 |
instanceKlass::cast(k)->allocate_permanent_instance(CHECK_false);
|
|
845 |
}
|
|
846 |
if (!DumpSharedSpaces) {
|
|
847 |
// These are the only Java fields that are currently set during shared space dumping.
|
|
848 |
// We prefer to not handle this generally, so we always reinitialize these detail messages.
|
|
849 |
Handle msg = java_lang_String::create_from_str("Java heap space", CHECK_false);
|
|
850 |
java_lang_Throwable::set_message(Universe::_out_of_memory_error_java_heap, msg());
|
|
851 |
|
|
852 |
msg = java_lang_String::create_from_str("PermGen space", CHECK_false);
|
|
853 |
java_lang_Throwable::set_message(Universe::_out_of_memory_error_perm_gen, msg());
|
|
854 |
|
|
855 |
msg = java_lang_String::create_from_str("Requested array size exceeds VM limit", CHECK_false);
|
|
856 |
java_lang_Throwable::set_message(Universe::_out_of_memory_error_array_size, msg());
|
|
857 |
|
|
858 |
msg = java_lang_String::create_from_str("GC overhead limit exceeded", CHECK_false);
|
|
859 |
java_lang_Throwable::set_message(Universe::_out_of_memory_error_gc_overhead_limit, msg());
|
|
860 |
|
|
861 |
msg = java_lang_String::create_from_str("/ by zero", CHECK_false);
|
|
862 |
java_lang_Throwable::set_message(Universe::_arithmetic_exception_instance, msg());
|
|
863 |
|
|
864 |
// Setup the array of errors that have preallocated backtrace
|
|
865 |
k = Universe::_out_of_memory_error_java_heap->klass();
|
|
866 |
assert(k->klass_part()->name() == vmSymbols::java_lang_OutOfMemoryError(), "should be out of memory error");
|
|
867 |
k_h = instanceKlassHandle(THREAD, k);
|
|
868 |
|
|
869 |
int len = (StackTraceInThrowable) ? (int)PreallocatedOutOfMemoryErrorCount : 0;
|
|
870 |
Universe::_preallocated_out_of_memory_error_array = oopFactory::new_objArray(k_h(), len, CHECK_false);
|
|
871 |
for (int i=0; i<len; i++) {
|
|
872 |
oop err = k_h->allocate_permanent_instance(CHECK_false);
|
|
873 |
Handle err_h = Handle(THREAD, err);
|
|
874 |
java_lang_Throwable::allocate_backtrace(err_h, CHECK_false);
|
|
875 |
Universe::preallocated_out_of_memory_errors()->obj_at_put(i, err_h());
|
|
876 |
}
|
|
877 |
Universe::_preallocated_out_of_memory_error_avail_count = (jint)len;
|
|
878 |
}
|
|
879 |
|
|
880 |
|
|
881 |
// Setup static method for registering finalizers
|
|
882 |
// The finalizer klass must be linked before looking up the method, in
|
|
883 |
// case it needs to get rewritten.
|
|
884 |
instanceKlass::cast(SystemDictionary::finalizer_klass())->link_class(CHECK_false);
|
|
885 |
methodOop m = instanceKlass::cast(SystemDictionary::finalizer_klass())->find_method(
|
|
886 |
vmSymbols::register_method_name(),
|
|
887 |
vmSymbols::register_method_signature());
|
|
888 |
if (m == NULL || !m->is_static()) {
|
|
889 |
THROW_MSG_(vmSymbols::java_lang_NoSuchMethodException(),
|
|
890 |
"java.lang.ref.Finalizer.register", false);
|
|
891 |
}
|
|
892 |
Universe::_finalizer_register_cache->init(
|
|
893 |
SystemDictionary::finalizer_klass(), m, CHECK_false);
|
|
894 |
|
|
895 |
// Resolve on first use and initialize class.
|
|
896 |
// Note: No race-condition here, since a resolve will always return the same result
|
|
897 |
|
|
898 |
// Setup method for security checks
|
|
899 |
k = SystemDictionary::resolve_or_fail(vmSymbolHandles::java_lang_reflect_Method(), true, CHECK_false);
|
|
900 |
k_h = instanceKlassHandle(THREAD, k);
|
|
901 |
k_h->link_class(CHECK_false);
|
|
902 |
m = k_h->find_method(vmSymbols::invoke_name(), vmSymbols::object_array_object_object_signature());
|
|
903 |
if (m == NULL || m->is_static()) {
|
|
904 |
THROW_MSG_(vmSymbols::java_lang_NoSuchMethodException(),
|
|
905 |
"java.lang.reflect.Method.invoke", false);
|
|
906 |
}
|
|
907 |
Universe::_reflect_invoke_cache->init(k_h(), m, CHECK_false);
|
|
908 |
|
|
909 |
// Setup method for registering loaded classes in class loader vector
|
|
910 |
instanceKlass::cast(SystemDictionary::classloader_klass())->link_class(CHECK_false);
|
|
911 |
m = instanceKlass::cast(SystemDictionary::classloader_klass())->find_method(vmSymbols::addClass_name(), vmSymbols::class_void_signature());
|
|
912 |
if (m == NULL || m->is_static()) {
|
|
913 |
THROW_MSG_(vmSymbols::java_lang_NoSuchMethodException(),
|
|
914 |
"java.lang.ClassLoader.addClass", false);
|
|
915 |
}
|
|
916 |
Universe::_loader_addClass_cache->init(
|
|
917 |
SystemDictionary::classloader_klass(), m, CHECK_false);
|
|
918 |
|
|
919 |
// The folowing is initializing converter functions for serialization in
|
|
920 |
// JVM.cpp. If we clean up the StrictMath code above we may want to find
|
|
921 |
// a better solution for this as well.
|
|
922 |
initialize_converter_functions();
|
|
923 |
|
|
924 |
// This needs to be done before the first scavenge/gc, since
|
|
925 |
// it's an input to soft ref clearing policy.
|
|
926 |
Universe::update_heap_info_at_gc();
|
|
927 |
|
|
928 |
// ("weak") refs processing infrastructure initialization
|
|
929 |
Universe::heap()->post_initialize();
|
|
930 |
|
|
931 |
GC_locker::unlock(); // allow gc after bootstrapping
|
|
932 |
|
|
933 |
MemoryService::set_universe_heap(Universe::_collectedHeap);
|
|
934 |
return true;
|
|
935 |
}
|
|
936 |
|
|
937 |
|
|
938 |
void Universe::compute_base_vtable_size() {
|
|
939 |
_base_vtable_size = ClassLoader::compute_Object_vtable();
|
|
940 |
}
|
|
941 |
|
|
942 |
|
|
943 |
// %%% The Universe::flush_foo methods belong in CodeCache.
|
|
944 |
|
|
945 |
// Flushes compiled methods dependent on dependee.
|
|
946 |
void Universe::flush_dependents_on(instanceKlassHandle dependee) {
|
|
947 |
assert_lock_strong(Compile_lock);
|
|
948 |
|
|
949 |
if (CodeCache::number_of_nmethods_with_dependencies() == 0) return;
|
|
950 |
|
|
951 |
// CodeCache can only be updated by a thread_in_VM and they will all be
|
|
952 |
// stopped dring the safepoint so CodeCache will be safe to update without
|
|
953 |
// holding the CodeCache_lock.
|
|
954 |
|
|
955 |
DepChange changes(dependee);
|
|
956 |
|
|
957 |
// Compute the dependent nmethods
|
|
958 |
if (CodeCache::mark_for_deoptimization(changes) > 0) {
|
|
959 |
// At least one nmethod has been marked for deoptimization
|
|
960 |
VM_Deoptimize op;
|
|
961 |
VMThread::execute(&op);
|
|
962 |
}
|
|
963 |
}
|
|
964 |
|
|
965 |
#ifdef HOTSWAP
|
|
966 |
// Flushes compiled methods dependent on dependee in the evolutionary sense
|
|
967 |
void Universe::flush_evol_dependents_on(instanceKlassHandle ev_k_h) {
|
|
968 |
// --- Compile_lock is not held. However we are at a safepoint.
|
|
969 |
assert_locked_or_safepoint(Compile_lock);
|
|
970 |
if (CodeCache::number_of_nmethods_with_dependencies() == 0) return;
|
|
971 |
|
|
972 |
// CodeCache can only be updated by a thread_in_VM and they will all be
|
|
973 |
// stopped dring the safepoint so CodeCache will be safe to update without
|
|
974 |
// holding the CodeCache_lock.
|
|
975 |
|
|
976 |
// Compute the dependent nmethods
|
|
977 |
if (CodeCache::mark_for_evol_deoptimization(ev_k_h) > 0) {
|
|
978 |
// At least one nmethod has been marked for deoptimization
|
|
979 |
|
|
980 |
// All this already happens inside a VM_Operation, so we'll do all the work here.
|
|
981 |
// Stuff copied from VM_Deoptimize and modified slightly.
|
|
982 |
|
|
983 |
// We do not want any GCs to happen while we are in the middle of this VM operation
|
|
984 |
ResourceMark rm;
|
|
985 |
DeoptimizationMarker dm;
|
|
986 |
|
|
987 |
// Deoptimize all activations depending on marked nmethods
|
|
988 |
Deoptimization::deoptimize_dependents();
|
|
989 |
|
|
990 |
// Make the dependent methods not entrant (in VM_Deoptimize they are made zombies)
|
|
991 |
CodeCache::make_marked_nmethods_not_entrant();
|
|
992 |
}
|
|
993 |
}
|
|
994 |
#endif // HOTSWAP
|
|
995 |
|
|
996 |
|
|
997 |
// Flushes compiled methods dependent on dependee
|
|
998 |
void Universe::flush_dependents_on_method(methodHandle m_h) {
|
|
999 |
// --- Compile_lock is not held. However we are at a safepoint.
|
|
1000 |
assert_locked_or_safepoint(Compile_lock);
|
|
1001 |
|
|
1002 |
// CodeCache can only be updated by a thread_in_VM and they will all be
|
|
1003 |
// stopped dring the safepoint so CodeCache will be safe to update without
|
|
1004 |
// holding the CodeCache_lock.
|
|
1005 |
|
|
1006 |
// Compute the dependent nmethods
|
|
1007 |
if (CodeCache::mark_for_deoptimization(m_h()) > 0) {
|
|
1008 |
// At least one nmethod has been marked for deoptimization
|
|
1009 |
|
|
1010 |
// All this already happens inside a VM_Operation, so we'll do all the work here.
|
|
1011 |
// Stuff copied from VM_Deoptimize and modified slightly.
|
|
1012 |
|
|
1013 |
// We do not want any GCs to happen while we are in the middle of this VM operation
|
|
1014 |
ResourceMark rm;
|
|
1015 |
DeoptimizationMarker dm;
|
|
1016 |
|
|
1017 |
// Deoptimize all activations depending on marked nmethods
|
|
1018 |
Deoptimization::deoptimize_dependents();
|
|
1019 |
|
|
1020 |
// Make the dependent methods not entrant (in VM_Deoptimize they are made zombies)
|
|
1021 |
CodeCache::make_marked_nmethods_not_entrant();
|
|
1022 |
}
|
|
1023 |
}
|
|
1024 |
|
|
1025 |
void Universe::print() { print_on(gclog_or_tty); }
|
|
1026 |
|
|
1027 |
void Universe::print_on(outputStream* st) {
|
|
1028 |
st->print_cr("Heap");
|
|
1029 |
heap()->print_on(st);
|
|
1030 |
}
|
|
1031 |
|
|
1032 |
void Universe::print_heap_at_SIGBREAK() {
|
|
1033 |
if (PrintHeapAtSIGBREAK) {
|
|
1034 |
MutexLocker hl(Heap_lock);
|
|
1035 |
print_on(tty);
|
|
1036 |
tty->cr();
|
|
1037 |
tty->flush();
|
|
1038 |
}
|
|
1039 |
}
|
|
1040 |
|
|
1041 |
void Universe::print_heap_before_gc(outputStream* st) {
|
|
1042 |
st->print_cr("{Heap before GC invocations=%u (full %u):",
|
|
1043 |
heap()->total_collections(),
|
|
1044 |
heap()->total_full_collections());
|
|
1045 |
heap()->print_on(st);
|
|
1046 |
}
|
|
1047 |
|
|
1048 |
void Universe::print_heap_after_gc(outputStream* st) {
|
|
1049 |
st->print_cr("Heap after GC invocations=%u (full %u):",
|
|
1050 |
heap()->total_collections(),
|
|
1051 |
heap()->total_full_collections());
|
|
1052 |
heap()->print_on(st);
|
|
1053 |
st->print_cr("}");
|
|
1054 |
}
|
|
1055 |
|
|
1056 |
void Universe::verify(bool allow_dirty, bool silent) {
|
|
1057 |
if (SharedSkipVerify) {
|
|
1058 |
return;
|
|
1059 |
}
|
|
1060 |
|
|
1061 |
// The use of _verify_in_progress is a temporary work around for
|
|
1062 |
// 6320749. Don't bother with a creating a class to set and clear
|
|
1063 |
// it since it is only used in this method and the control flow is
|
|
1064 |
// straight forward.
|
|
1065 |
_verify_in_progress = true;
|
|
1066 |
|
|
1067 |
COMPILER2_PRESENT(
|
|
1068 |
assert(!DerivedPointerTable::is_active(),
|
|
1069 |
"DPT should not be active during verification "
|
|
1070 |
"(of thread stacks below)");
|
|
1071 |
)
|
|
1072 |
|
|
1073 |
ResourceMark rm;
|
|
1074 |
HandleMark hm; // Handles created during verification can be zapped
|
|
1075 |
_verify_count++;
|
|
1076 |
|
|
1077 |
if (!silent) gclog_or_tty->print("[Verifying ");
|
|
1078 |
if (!silent) gclog_or_tty->print("threads ");
|
|
1079 |
Threads::verify();
|
|
1080 |
heap()->verify(allow_dirty, silent);
|
|
1081 |
|
|
1082 |
if (!silent) gclog_or_tty->print("syms ");
|
|
1083 |
SymbolTable::verify();
|
|
1084 |
if (!silent) gclog_or_tty->print("strs ");
|
|
1085 |
StringTable::verify();
|
|
1086 |
{
|
|
1087 |
MutexLockerEx mu(CodeCache_lock, Mutex::_no_safepoint_check_flag);
|
|
1088 |
if (!silent) gclog_or_tty->print("zone ");
|
|
1089 |
CodeCache::verify();
|
|
1090 |
}
|
|
1091 |
if (!silent) gclog_or_tty->print("dict ");
|
|
1092 |
SystemDictionary::verify();
|
|
1093 |
if (!silent) gclog_or_tty->print("hand ");
|
|
1094 |
JNIHandles::verify();
|
|
1095 |
if (!silent) gclog_or_tty->print("C-heap ");
|
|
1096 |
os::check_heap();
|
|
1097 |
if (!silent) gclog_or_tty->print_cr("]");
|
|
1098 |
|
|
1099 |
_verify_in_progress = false;
|
|
1100 |
}
|
|
1101 |
|
|
1102 |
// Oop verification (see MacroAssembler::verify_oop)
|
|
1103 |
|
|
1104 |
static uintptr_t _verify_oop_data[2] = {0, (uintptr_t)-1};
|
|
1105 |
static uintptr_t _verify_klass_data[2] = {0, (uintptr_t)-1};
|
|
1106 |
|
|
1107 |
|
|
1108 |
static void calculate_verify_data(uintptr_t verify_data[2],
|
|
1109 |
HeapWord* low_boundary,
|
|
1110 |
HeapWord* high_boundary) {
|
|
1111 |
assert(low_boundary < high_boundary, "bad interval");
|
|
1112 |
|
|
1113 |
// decide which low-order bits we require to be clear:
|
|
1114 |
size_t alignSize = MinObjAlignmentInBytes;
|
|
1115 |
size_t min_object_size = oopDesc::header_size();
|
|
1116 |
|
|
1117 |
// make an inclusive limit:
|
|
1118 |
uintptr_t max = (uintptr_t)high_boundary - min_object_size*wordSize;
|
|
1119 |
uintptr_t min = (uintptr_t)low_boundary;
|
|
1120 |
assert(min < max, "bad interval");
|
|
1121 |
uintptr_t diff = max ^ min;
|
|
1122 |
|
|
1123 |
// throw away enough low-order bits to make the diff vanish
|
|
1124 |
uintptr_t mask = (uintptr_t)(-1);
|
|
1125 |
while ((mask & diff) != 0)
|
|
1126 |
mask <<= 1;
|
|
1127 |
uintptr_t bits = (min & mask);
|
|
1128 |
assert(bits == (max & mask), "correct mask");
|
|
1129 |
// check an intermediate value between min and max, just to make sure:
|
|
1130 |
assert(bits == ((min + (max-min)/2) & mask), "correct mask");
|
|
1131 |
|
|
1132 |
// require address alignment, too:
|
|
1133 |
mask |= (alignSize - 1);
|
|
1134 |
|
|
1135 |
if (!(verify_data[0] == 0 && verify_data[1] == (uintptr_t)-1)) {
|
|
1136 |
assert(verify_data[0] == mask && verify_data[1] == bits, "mask stability");
|
|
1137 |
}
|
|
1138 |
verify_data[0] = mask;
|
|
1139 |
verify_data[1] = bits;
|
|
1140 |
}
|
|
1141 |
|
|
1142 |
|
|
1143 |
// Oop verification (see MacroAssembler::verify_oop)
|
|
1144 |
#ifndef PRODUCT
|
|
1145 |
|
|
1146 |
uintptr_t Universe::verify_oop_mask() {
|
|
1147 |
MemRegion m = heap()->reserved_region();
|
|
1148 |
calculate_verify_data(_verify_oop_data,
|
|
1149 |
m.start(),
|
|
1150 |
m.end());
|
|
1151 |
return _verify_oop_data[0];
|
|
1152 |
}
|
|
1153 |
|
|
1154 |
|
|
1155 |
|
|
1156 |
uintptr_t Universe::verify_oop_bits() {
|
|
1157 |
verify_oop_mask();
|
|
1158 |
return _verify_oop_data[1];
|
|
1159 |
}
|
|
1160 |
|
|
1161 |
|
|
1162 |
uintptr_t Universe::verify_klass_mask() {
|
|
1163 |
/* $$$
|
|
1164 |
// A klass can never live in the new space. Since the new and old
|
|
1165 |
// spaces can change size, we must settle for bounds-checking against
|
|
1166 |
// the bottom of the world, plus the smallest possible new and old
|
|
1167 |
// space sizes that may arise during execution.
|
|
1168 |
size_t min_new_size = Universe::new_size(); // in bytes
|
|
1169 |
size_t min_old_size = Universe::old_size(); // in bytes
|
|
1170 |
calculate_verify_data(_verify_klass_data,
|
|
1171 |
(HeapWord*)((uintptr_t)_new_gen->low_boundary + min_new_size + min_old_size),
|
|
1172 |
_perm_gen->high_boundary);
|
|
1173 |
*/
|
|
1174 |
// Why doesn't the above just say that klass's always live in the perm
|
|
1175 |
// gen? I'll see if that seems to work...
|
|
1176 |
MemRegion permanent_reserved;
|
|
1177 |
switch (Universe::heap()->kind()) {
|
|
1178 |
default:
|
|
1179 |
// ???: What if a CollectedHeap doesn't have a permanent generation?
|
|
1180 |
ShouldNotReachHere();
|
|
1181 |
break;
|
|
1182 |
case CollectedHeap::GenCollectedHeap: {
|
|
1183 |
GenCollectedHeap* gch = (GenCollectedHeap*) Universe::heap();
|
|
1184 |
permanent_reserved = gch->perm_gen()->reserved();
|
|
1185 |
break;
|
|
1186 |
}
|
|
1187 |
#ifndef SERIALGC
|
|
1188 |
case CollectedHeap::ParallelScavengeHeap: {
|
|
1189 |
ParallelScavengeHeap* psh = (ParallelScavengeHeap*) Universe::heap();
|
|
1190 |
permanent_reserved = psh->perm_gen()->reserved();
|
|
1191 |
break;
|
|
1192 |
}
|
|
1193 |
#endif // SERIALGC
|
|
1194 |
}
|
|
1195 |
calculate_verify_data(_verify_klass_data,
|
|
1196 |
permanent_reserved.start(),
|
|
1197 |
permanent_reserved.end());
|
|
1198 |
|
|
1199 |
return _verify_klass_data[0];
|
|
1200 |
}
|
|
1201 |
|
|
1202 |
|
|
1203 |
|
|
1204 |
uintptr_t Universe::verify_klass_bits() {
|
|
1205 |
verify_klass_mask();
|
|
1206 |
return _verify_klass_data[1];
|
|
1207 |
}
|
|
1208 |
|
|
1209 |
|
|
1210 |
uintptr_t Universe::verify_mark_mask() {
|
|
1211 |
return markOopDesc::lock_mask_in_place;
|
|
1212 |
}
|
|
1213 |
|
|
1214 |
|
|
1215 |
|
|
1216 |
uintptr_t Universe::verify_mark_bits() {
|
|
1217 |
intptr_t mask = verify_mark_mask();
|
|
1218 |
intptr_t bits = (intptr_t)markOopDesc::prototype();
|
|
1219 |
assert((bits & ~mask) == 0, "no stray header bits");
|
|
1220 |
return bits;
|
|
1221 |
}
|
|
1222 |
#endif // PRODUCT
|
|
1223 |
|
|
1224 |
|
|
1225 |
void Universe::compute_verify_oop_data() {
|
|
1226 |
verify_oop_mask();
|
|
1227 |
verify_oop_bits();
|
|
1228 |
verify_mark_mask();
|
|
1229 |
verify_mark_bits();
|
|
1230 |
verify_klass_mask();
|
|
1231 |
verify_klass_bits();
|
|
1232 |
}
|
|
1233 |
|
|
1234 |
|
|
1235 |
void CommonMethodOopCache::init(klassOop k, methodOop m, TRAPS) {
|
|
1236 |
if (!UseSharedSpaces) {
|
|
1237 |
_klass = k;
|
|
1238 |
}
|
|
1239 |
#ifndef PRODUCT
|
|
1240 |
else {
|
|
1241 |
// sharing initilization should have already set up _klass
|
|
1242 |
assert(_klass != NULL, "just checking");
|
|
1243 |
}
|
|
1244 |
#endif
|
|
1245 |
|
|
1246 |
_method_idnum = m->method_idnum();
|
|
1247 |
assert(_method_idnum >= 0, "sanity check");
|
|
1248 |
}
|
|
1249 |
|
|
1250 |
|
|
1251 |
ActiveMethodOopsCache::~ActiveMethodOopsCache() {
|
|
1252 |
if (_prev_methods != NULL) {
|
|
1253 |
for (int i = _prev_methods->length() - 1; i >= 0; i--) {
|
|
1254 |
jweak method_ref = _prev_methods->at(i);
|
|
1255 |
if (method_ref != NULL) {
|
|
1256 |
JNIHandles::destroy_weak_global(method_ref);
|
|
1257 |
}
|
|
1258 |
}
|
|
1259 |
delete _prev_methods;
|
|
1260 |
_prev_methods = NULL;
|
|
1261 |
}
|
|
1262 |
}
|
|
1263 |
|
|
1264 |
|
|
1265 |
void ActiveMethodOopsCache::add_previous_version(const methodOop method) {
|
|
1266 |
assert(Thread::current()->is_VM_thread(),
|
|
1267 |
"only VMThread can add previous versions");
|
|
1268 |
|
|
1269 |
if (_prev_methods == NULL) {
|
|
1270 |
// This is the first previous version so make some space.
|
|
1271 |
// Start with 2 elements under the assumption that the class
|
|
1272 |
// won't be redefined much.
|
|
1273 |
_prev_methods = new (ResourceObj::C_HEAP) GrowableArray<jweak>(2, true);
|
|
1274 |
}
|
|
1275 |
|
|
1276 |
// RC_TRACE macro has an embedded ResourceMark
|
|
1277 |
RC_TRACE(0x00000100,
|
|
1278 |
("add: %s(%s): adding prev version ref for cached method @%d",
|
|
1279 |
method->name()->as_C_string(), method->signature()->as_C_string(),
|
|
1280 |
_prev_methods->length()));
|
|
1281 |
|
|
1282 |
methodHandle method_h(method);
|
|
1283 |
jweak method_ref = JNIHandles::make_weak_global(method_h);
|
|
1284 |
_prev_methods->append(method_ref);
|
|
1285 |
|
|
1286 |
// Using weak references allows previous versions of the cached
|
|
1287 |
// method to be GC'ed when they are no longer needed. Since the
|
|
1288 |
// caller is the VMThread and we are at a safepoint, this is a good
|
|
1289 |
// time to clear out unused weak references.
|
|
1290 |
|
|
1291 |
for (int i = _prev_methods->length() - 1; i >= 0; i--) {
|
|
1292 |
jweak method_ref = _prev_methods->at(i);
|
|
1293 |
assert(method_ref != NULL, "weak method ref was unexpectedly cleared");
|
|
1294 |
if (method_ref == NULL) {
|
|
1295 |
_prev_methods->remove_at(i);
|
|
1296 |
// Since we are traversing the array backwards, we don't have to
|
|
1297 |
// do anything special with the index.
|
|
1298 |
continue; // robustness
|
|
1299 |
}
|
|
1300 |
|
|
1301 |
methodOop m = (methodOop)JNIHandles::resolve(method_ref);
|
|
1302 |
if (m == NULL) {
|
|
1303 |
// this method entry has been GC'ed so remove it
|
|
1304 |
JNIHandles::destroy_weak_global(method_ref);
|
|
1305 |
_prev_methods->remove_at(i);
|
|
1306 |
} else {
|
|
1307 |
// RC_TRACE macro has an embedded ResourceMark
|
|
1308 |
RC_TRACE(0x00000400, ("add: %s(%s): previous cached method @%d is alive",
|
|
1309 |
m->name()->as_C_string(), m->signature()->as_C_string(), i));
|
|
1310 |
}
|
|
1311 |
}
|
|
1312 |
} // end add_previous_version()
|
|
1313 |
|
|
1314 |
|
|
1315 |
bool ActiveMethodOopsCache::is_same_method(const methodOop method) const {
|
|
1316 |
instanceKlass* ik = instanceKlass::cast(klass());
|
|
1317 |
methodOop check_method = ik->method_with_idnum(method_idnum());
|
|
1318 |
assert(check_method != NULL, "sanity check");
|
|
1319 |
if (check_method == method) {
|
|
1320 |
// done with the easy case
|
|
1321 |
return true;
|
|
1322 |
}
|
|
1323 |
|
|
1324 |
if (_prev_methods != NULL) {
|
|
1325 |
// The cached method has been redefined at least once so search
|
|
1326 |
// the previous versions for a match.
|
|
1327 |
for (int i = 0; i < _prev_methods->length(); i++) {
|
|
1328 |
jweak method_ref = _prev_methods->at(i);
|
|
1329 |
assert(method_ref != NULL, "weak method ref was unexpectedly cleared");
|
|
1330 |
if (method_ref == NULL) {
|
|
1331 |
continue; // robustness
|
|
1332 |
}
|
|
1333 |
|
|
1334 |
check_method = (methodOop)JNIHandles::resolve(method_ref);
|
|
1335 |
if (check_method == method) {
|
|
1336 |
// a previous version matches
|
|
1337 |
return true;
|
|
1338 |
}
|
|
1339 |
}
|
|
1340 |
}
|
|
1341 |
|
|
1342 |
// either no previous versions or no previous version matched
|
|
1343 |
return false;
|
|
1344 |
}
|
|
1345 |
|
|
1346 |
|
|
1347 |
methodOop LatestMethodOopCache::get_methodOop() {
|
|
1348 |
instanceKlass* ik = instanceKlass::cast(klass());
|
|
1349 |
methodOop m = ik->method_with_idnum(method_idnum());
|
|
1350 |
assert(m != NULL, "sanity check");
|
|
1351 |
return m;
|
|
1352 |
}
|
|
1353 |
|
|
1354 |
|
|
1355 |
#ifdef ASSERT
|
|
1356 |
// Release dummy object(s) at bottom of heap
|
|
1357 |
bool Universe::release_fullgc_alot_dummy() {
|
|
1358 |
MutexLocker ml(FullGCALot_lock);
|
|
1359 |
if (_fullgc_alot_dummy_array != NULL) {
|
|
1360 |
if (_fullgc_alot_dummy_next >= _fullgc_alot_dummy_array->length()) {
|
|
1361 |
// No more dummies to release, release entire array instead
|
|
1362 |
_fullgc_alot_dummy_array = NULL;
|
|
1363 |
return false;
|
|
1364 |
}
|
|
1365 |
if (!UseConcMarkSweepGC) {
|
|
1366 |
// Release dummy at bottom of old generation
|
|
1367 |
_fullgc_alot_dummy_array->obj_at_put(_fullgc_alot_dummy_next++, NULL);
|
|
1368 |
}
|
|
1369 |
// Release dummy at bottom of permanent generation
|
|
1370 |
_fullgc_alot_dummy_array->obj_at_put(_fullgc_alot_dummy_next++, NULL);
|
|
1371 |
}
|
|
1372 |
return true;
|
|
1373 |
}
|
|
1374 |
|
|
1375 |
#endif // ASSERT
|