instanceKlass.cpp 143.1 KB
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/*
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 * Copyright (c) 1997, 2015, Oracle and/or its affiliates. All rights reserved.
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 * 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.
 *
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 * 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.
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 *
 */

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#include "precompiled.hpp"
#include "classfile/javaClasses.hpp"
#include "classfile/systemDictionary.hpp"
#include "classfile/verifier.hpp"
#include "classfile/vmSymbols.hpp"
#include "compiler/compileBroker.hpp"
#include "gc_implementation/shared/markSweep.inline.hpp"
#include "gc_interface/collectedHeap.inline.hpp"
#include "interpreter/oopMapCache.hpp"
#include "interpreter/rewriter.hpp"
#include "jvmtifiles/jvmti.h"
#include "memory/genOopClosures.inline.hpp"
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#include "memory/heapInspection.hpp"
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#include "memory/iterator.inline.hpp"
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#include "memory/metadataFactory.hpp"
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#include "memory/oopFactory.hpp"
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#include "oops/fieldStreams.hpp"
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#include "oops/instanceClassLoaderKlass.hpp"
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#include "oops/instanceKlass.hpp"
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#include "oops/instanceMirrorKlass.hpp"
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#include "oops/instanceOop.hpp"
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#include "oops/klass.inline.hpp"
#include "oops/method.hpp"
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#include "oops/oop.inline.hpp"
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#include "oops/symbol.hpp"
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#include "prims/jvmtiExport.hpp"
#include "prims/jvmtiRedefineClassesTrace.hpp"
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#include "prims/jvmtiRedefineClasses.hpp"
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#include "prims/jvmtiThreadState.hpp"
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#include "prims/methodComparator.hpp"
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#include "runtime/fieldDescriptor.hpp"
#include "runtime/handles.inline.hpp"
#include "runtime/javaCalls.hpp"
#include "runtime/mutexLocker.hpp"
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#include "runtime/orderAccess.inline.hpp"
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#include "runtime/thread.inline.hpp"
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#include "services/classLoadingService.hpp"
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#include "services/threadService.hpp"
#include "utilities/dtrace.hpp"
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#include "utilities/macros.hpp"
#if INCLUDE_ALL_GCS
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#include "gc_implementation/concurrentMarkSweep/cmsOopClosures.inline.hpp"
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#include "gc_implementation/g1/g1CollectedHeap.inline.hpp"
#include "gc_implementation/g1/g1OopClosures.inline.hpp"
#include "gc_implementation/g1/g1RemSet.inline.hpp"
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#include "gc_implementation/g1/heapRegionManager.inline.hpp"
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#include "gc_implementation/parNew/parOopClosures.inline.hpp"
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#include "gc_implementation/parallelScavenge/parallelScavengeHeap.inline.hpp"
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#include "gc_implementation/parallelScavenge/psPromotionManager.inline.hpp"
#include "gc_implementation/parallelScavenge/psScavenge.inline.hpp"
#include "oops/oop.pcgc.inline.hpp"
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#endif // INCLUDE_ALL_GCS
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#ifdef COMPILER1
#include "c1/c1_Compiler.hpp"
#endif
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PRAGMA_FORMAT_MUTE_WARNINGS_FOR_GCC

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#ifdef DTRACE_ENABLED

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#ifndef USDT2

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HS_DTRACE_PROBE_DECL4(hotspot, class__initialization__required,
  char*, intptr_t, oop, intptr_t);
HS_DTRACE_PROBE_DECL5(hotspot, class__initialization__recursive,
  char*, intptr_t, oop, intptr_t, int);
HS_DTRACE_PROBE_DECL5(hotspot, class__initialization__concurrent,
  char*, intptr_t, oop, intptr_t, int);
HS_DTRACE_PROBE_DECL5(hotspot, class__initialization__erroneous,
  char*, intptr_t, oop, intptr_t, int);
HS_DTRACE_PROBE_DECL5(hotspot, class__initialization__super__failed,
  char*, intptr_t, oop, intptr_t, int);
HS_DTRACE_PROBE_DECL5(hotspot, class__initialization__clinit,
  char*, intptr_t, oop, intptr_t, int);
HS_DTRACE_PROBE_DECL5(hotspot, class__initialization__error,
  char*, intptr_t, oop, intptr_t, int);
HS_DTRACE_PROBE_DECL5(hotspot, class__initialization__end,
  char*, intptr_t, oop, intptr_t, int);

#define DTRACE_CLASSINIT_PROBE(type, clss, thread_type)          \
  {                                                              \
    char* data = NULL;                                           \
    int len = 0;                                                 \
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    Symbol* name = (clss)->name();                               \
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    if (name != NULL) {                                          \
      data = (char*)name->bytes();                               \
      len = name->utf8_length();                                 \
    }                                                            \
    HS_DTRACE_PROBE4(hotspot, class__initialization__##type,     \
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      data, len, (void *)(clss)->class_loader(), thread_type);           \
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  }

#define DTRACE_CLASSINIT_PROBE_WAIT(type, clss, thread_type, wait) \
  {                                                              \
    char* data = NULL;                                           \
    int len = 0;                                                 \
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    Symbol* name = (clss)->name();                               \
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    if (name != NULL) {                                          \
      data = (char*)name->bytes();                               \
      len = name->utf8_length();                                 \
    }                                                            \
    HS_DTRACE_PROBE5(hotspot, class__initialization__##type,     \
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      data, len, (void *)(clss)->class_loader(), thread_type, wait);     \
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  }
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#else /* USDT2 */

#define HOTSPOT_CLASS_INITIALIZATION_required HOTSPOT_CLASS_INITIALIZATION_REQUIRED
#define HOTSPOT_CLASS_INITIALIZATION_recursive HOTSPOT_CLASS_INITIALIZATION_RECURSIVE
#define HOTSPOT_CLASS_INITIALIZATION_concurrent HOTSPOT_CLASS_INITIALIZATION_CONCURRENT
#define HOTSPOT_CLASS_INITIALIZATION_erroneous HOTSPOT_CLASS_INITIALIZATION_ERRONEOUS
#define HOTSPOT_CLASS_INITIALIZATION_super__failed HOTSPOT_CLASS_INITIALIZATION_SUPER_FAILED
#define HOTSPOT_CLASS_INITIALIZATION_clinit HOTSPOT_CLASS_INITIALIZATION_CLINIT
#define HOTSPOT_CLASS_INITIALIZATION_error HOTSPOT_CLASS_INITIALIZATION_ERROR
#define HOTSPOT_CLASS_INITIALIZATION_end HOTSPOT_CLASS_INITIALIZATION_END
#define DTRACE_CLASSINIT_PROBE(type, clss, thread_type)          \
  {                                                              \
    char* data = NULL;                                           \
    int len = 0;                                                 \
    Symbol* name = (clss)->name();                               \
    if (name != NULL) {                                          \
      data = (char*)name->bytes();                               \
      len = name->utf8_length();                                 \
    }                                                            \
    HOTSPOT_CLASS_INITIALIZATION_##type(                         \
      data, len, (clss)->class_loader(), thread_type);           \
  }

#define DTRACE_CLASSINIT_PROBE_WAIT(type, clss, thread_type, wait) \
  {                                                              \
    char* data = NULL;                                           \
    int len = 0;                                                 \
    Symbol* name = (clss)->name();                               \
    if (name != NULL) {                                          \
      data = (char*)name->bytes();                               \
      len = name->utf8_length();                                 \
    }                                                            \
    HOTSPOT_CLASS_INITIALIZATION_##type(                         \
      data, len, (clss)->class_loader(), thread_type, wait);     \
  }
#endif /* USDT2 */
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#else //  ndef DTRACE_ENABLED

#define DTRACE_CLASSINIT_PROBE(type, clss, thread_type)
#define DTRACE_CLASSINIT_PROBE_WAIT(type, clss, thread_type, wait)

#endif //  ndef DTRACE_ENABLED

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volatile int InstanceKlass::_total_instanceKlass_count = 0;

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InstanceKlass* InstanceKlass::allocate_instance_klass(
                                              ClassLoaderData* loader_data,
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                                              int vtable_len,
                                              int itable_len,
                                              int static_field_size,
                                              int nonstatic_oop_map_size,
                                              ReferenceType rt,
                                              AccessFlags access_flags,
                                              Symbol* name,
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                                              Klass* super_klass,
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                                              bool is_anonymous,
                                              TRAPS) {
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  int size = InstanceKlass::size(vtable_len, itable_len, nonstatic_oop_map_size,
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                                 access_flags.is_interface(), is_anonymous);
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  // Allocation
  InstanceKlass* ik;
  if (rt == REF_NONE) {
    if (name == vmSymbols::java_lang_Class()) {
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      ik = new (loader_data, size, THREAD) InstanceMirrorKlass(
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        vtable_len, itable_len, static_field_size, nonstatic_oop_map_size, rt,
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        access_flags, is_anonymous);
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    } else if (name == vmSymbols::java_lang_ClassLoader() ||
          (SystemDictionary::ClassLoader_klass_loaded() &&
          super_klass != NULL &&
          super_klass->is_subtype_of(SystemDictionary::ClassLoader_klass()))) {
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      ik = new (loader_data, size, THREAD) InstanceClassLoaderKlass(
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        vtable_len, itable_len, static_field_size, nonstatic_oop_map_size, rt,
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        access_flags, is_anonymous);
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    } else {
      // normal class
      ik = new (loader_data, size, THREAD) InstanceKlass(
        vtable_len, itable_len, static_field_size, nonstatic_oop_map_size, rt,
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        access_flags, is_anonymous);
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    }
  } else {
    // reference klass
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    ik = new (loader_data, size, THREAD) InstanceRefKlass(
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        vtable_len, itable_len, static_field_size, nonstatic_oop_map_size, rt,
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        access_flags, is_anonymous);
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  }

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  // Check for pending exception before adding to the loader data and incrementing
  // class count.  Can get OOM here.
  if (HAS_PENDING_EXCEPTION) {
    return NULL;
  }

  // Add all classes to our internal class loader list here,
  // including classes in the bootstrap (NULL) class loader.
  loader_data->add_class(ik);

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  Atomic::inc(&_total_instanceKlass_count);
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  return ik;
}

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// copy method ordering from resource area to Metaspace
void InstanceKlass::copy_method_ordering(intArray* m, TRAPS) {
  if (m != NULL) {
    // allocate a new array and copy contents (memcpy?)
    _method_ordering = MetadataFactory::new_array<int>(class_loader_data(), m->length(), CHECK);
    for (int i = 0; i < m->length(); i++) {
      _method_ordering->at_put(i, m->at(i));
    }
  } else {
    _method_ordering = Universe::the_empty_int_array();
  }
}

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// create a new array of vtable_indices for default methods
Array<int>* InstanceKlass::create_new_default_vtable_indices(int len, TRAPS) {
  Array<int>* vtable_indices = MetadataFactory::new_array<int>(class_loader_data(), len, CHECK_NULL);
  assert(default_vtable_indices() == NULL, "only create once");
  set_default_vtable_indices(vtable_indices);
  return vtable_indices;
}
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InstanceKlass::InstanceKlass(int vtable_len,
                             int itable_len,
                             int static_field_size,
                             int nonstatic_oop_map_size,
                             ReferenceType rt,
                             AccessFlags access_flags,
                             bool is_anonymous) {
  No_Safepoint_Verifier no_safepoint; // until k becomes parsable

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  int iksize = InstanceKlass::size(vtable_len, itable_len, nonstatic_oop_map_size,
                                   access_flags.is_interface(), is_anonymous);
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  set_vtable_length(vtable_len);
  set_itable_length(itable_len);
  set_static_field_size(static_field_size);
  set_nonstatic_oop_map_size(nonstatic_oop_map_size);
  set_access_flags(access_flags);
  _misc_flags = 0;  // initialize to zero
  set_is_anonymous(is_anonymous);
  assert(size() == iksize, "wrong size for object");

  set_array_klasses(NULL);
  set_methods(NULL);
  set_method_ordering(NULL);
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  set_default_methods(NULL);
  set_default_vtable_indices(NULL);
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  set_local_interfaces(NULL);
  set_transitive_interfaces(NULL);
  init_implementor();
  set_fields(NULL, 0);
  set_constants(NULL);
  set_class_loader_data(NULL);
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  set_source_file_name_index(0);
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  set_source_debug_extension(NULL, 0);
  set_array_name(NULL);
  set_inner_classes(NULL);
  set_static_oop_field_count(0);
  set_nonstatic_field_size(0);
  set_is_marked_dependent(false);
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  set_has_unloaded_dependent(false);
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  set_init_state(InstanceKlass::allocated);
  set_init_thread(NULL);
  set_reference_type(rt);
  set_oop_map_cache(NULL);
  set_jni_ids(NULL);
  set_osr_nmethods_head(NULL);
  set_breakpoints(NULL);
  init_previous_versions();
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  set_generic_signature_index(0);
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  release_set_methods_jmethod_ids(NULL);
  set_annotations(NULL);
  set_jvmti_cached_class_field_map(NULL);
  set_initial_method_idnum(0);
  _dependencies = NULL;
  set_jvmti_cached_class_field_map(NULL);
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  set_cached_class_file(NULL);
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  set_initial_method_idnum(0);
  set_minor_version(0);
  set_major_version(0);
  NOT_PRODUCT(_verify_count = 0;)
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  // initialize the non-header words to zero
  intptr_t* p = (intptr_t*)this;
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  for (int index = InstanceKlass::header_size(); index < iksize; index++) {
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    p[index] = NULL_WORD;
  }

  // Set temporary value until parseClassFile updates it with the real instance
  // size.
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  set_layout_helper(Klass::instance_layout_helper(0, true));
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}


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void InstanceKlass::deallocate_methods(ClassLoaderData* loader_data,
                                       Array<Method*>* methods) {
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  if (methods != NULL && methods != Universe::the_empty_method_array() &&
      !methods->is_shared()) {
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    for (int i = 0; i < methods->length(); i++) {
      Method* method = methods->at(i);
      if (method == NULL) continue;  // maybe null if error processing
      // Only want to delete methods that are not executing for RedefineClasses.
      // The previous version will point to them so they're not totally dangling
      assert (!method->on_stack(), "shouldn't be called with methods on stack");
      MetadataFactory::free_metadata(loader_data, method);
    }
    MetadataFactory::free_array<Method*>(loader_data, methods);
  }
}

void InstanceKlass::deallocate_interfaces(ClassLoaderData* loader_data,
                                          Klass* super_klass,
                                          Array<Klass*>* local_interfaces,
                                          Array<Klass*>* transitive_interfaces) {
  // Only deallocate transitive interfaces if not empty, same as super class
  // or same as local interfaces.  See code in parseClassFile.
  Array<Klass*>* ti = transitive_interfaces;
  if (ti != Universe::the_empty_klass_array() && ti != local_interfaces) {
    // check that the interfaces don't come from super class
    Array<Klass*>* sti = (super_klass == NULL) ? NULL :
                    InstanceKlass::cast(super_klass)->transitive_interfaces();
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    if (ti != sti && ti != NULL && !ti->is_shared()) {
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      MetadataFactory::free_array<Klass*>(loader_data, ti);
    }
  }

  // local interfaces can be empty
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  if (local_interfaces != Universe::the_empty_klass_array() &&
      local_interfaces != NULL && !local_interfaces->is_shared()) {
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    MetadataFactory::free_array<Klass*>(loader_data, local_interfaces);
  }
}

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// This function deallocates the metadata and C heap pointers that the
// InstanceKlass points to.
void InstanceKlass::deallocate_contents(ClassLoaderData* loader_data) {

  // Orphan the mirror first, CMS thinks it's still live.
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  if (java_mirror() != NULL) {
    java_lang_Class::set_klass(java_mirror(), NULL);
  }
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  // Need to take this class off the class loader data list.
  loader_data->remove_class(this);

  // The array_klass for this class is created later, after error handling.
  // For class redefinition, we keep the original class so this scratch class
  // doesn't have an array class.  Either way, assert that there is nothing
  // to deallocate.
  assert(array_klasses() == NULL, "array classes shouldn't be created for this class yet");

  // Release C heap allocated data that this might point to, which includes
  // reference counting symbol names.
  release_C_heap_structures();

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  deallocate_methods(loader_data, methods());
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  set_methods(NULL);

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  if (method_ordering() != NULL &&
      method_ordering() != Universe::the_empty_int_array() &&
      !method_ordering()->is_shared()) {
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    MetadataFactory::free_array<int>(loader_data, method_ordering());
  }
  set_method_ordering(NULL);

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  // default methods can be empty
  if (default_methods() != NULL &&
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      default_methods() != Universe::the_empty_method_array() &&
      !default_methods()->is_shared()) {
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    MetadataFactory::free_array<Method*>(loader_data, default_methods());
  }
  // Do NOT deallocate the default methods, they are owned by superinterfaces.
  set_default_methods(NULL);

  // default methods vtable indices can be empty
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  if (default_vtable_indices() != NULL &&
      !default_vtable_indices()->is_shared()) {
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    MetadataFactory::free_array<int>(loader_data, default_vtable_indices());
  }
  set_default_vtable_indices(NULL);


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  // This array is in Klass, but remove it with the InstanceKlass since
  // this place would be the only caller and it can share memory with transitive
  // interfaces.
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  if (secondary_supers() != NULL &&
      secondary_supers() != Universe::the_empty_klass_array() &&
      secondary_supers() != transitive_interfaces() &&
      !secondary_supers()->is_shared()) {
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    MetadataFactory::free_array<Klass*>(loader_data, secondary_supers());
  }
  set_secondary_supers(NULL);

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  deallocate_interfaces(loader_data, super(), local_interfaces(), transitive_interfaces());
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  set_transitive_interfaces(NULL);
  set_local_interfaces(NULL);

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  if (fields() != NULL && !fields()->is_shared()) {
    MetadataFactory::free_array<jushort>(loader_data, fields());
  }
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  set_fields(NULL, 0);

  // If a method from a redefined class is using this constant pool, don't
  // delete it, yet.  The new class's previous version will point to this.
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  if (constants() != NULL) {
    assert (!constants()->on_stack(), "shouldn't be called if anything is onstack");
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    if (!constants()->is_shared()) {
      MetadataFactory::free_metadata(loader_data, constants());
    }
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    // Delete any cached resolution errors for the constant pool
    SystemDictionary::delete_resolution_error(constants());

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    set_constants(NULL);
  }
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  if (inner_classes() != NULL &&
      inner_classes() != Universe::the_empty_short_array() &&
      !inner_classes()->is_shared()) {
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    MetadataFactory::free_array<jushort>(loader_data, inner_classes());
  }
  set_inner_classes(NULL);

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  // We should deallocate the Annotations instance if it's not in shared spaces.
  if (annotations() != NULL && !annotations()->is_shared()) {
    MetadataFactory::free_metadata(loader_data, annotations());
  }
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  set_annotations(NULL);
}

bool InstanceKlass::should_be_initialized() const {
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  return !is_initialized();
}

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klassVtable* InstanceKlass::vtable() const {
  return new klassVtable(this, start_of_vtable(), vtable_length() / vtableEntry::size());
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}

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klassItable* InstanceKlass::itable() const {
  return new klassItable(instanceKlassHandle(this));
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}

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void InstanceKlass::eager_initialize(Thread *thread) {
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  if (!EagerInitialization) return;

  if (this->is_not_initialized()) {
    // abort if the the class has a class initializer
    if (this->class_initializer() != NULL) return;

    // abort if it is java.lang.Object (initialization is handled in genesis)
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    Klass* super = this->super();
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    if (super == NULL) return;

    // abort if the super class should be initialized
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    if (!InstanceKlass::cast(super)->is_initialized()) return;
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    // call body to expose the this pointer
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    instanceKlassHandle this_oop(thread, this);
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    eager_initialize_impl(this_oop);
  }
}

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// JVMTI spec thinks there are signers and protection domain in the
// instanceKlass.  These accessors pretend these fields are there.
// The hprof specification also thinks these fields are in InstanceKlass.
oop InstanceKlass::protection_domain() const {
  // return the protection_domain from the mirror
  return java_lang_Class::protection_domain(java_mirror());
}

// To remove these from requires an incompatible change and CCC request.
objArrayOop InstanceKlass::signers() const {
  // return the signers from the mirror
  return java_lang_Class::signers(java_mirror());
}

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oop InstanceKlass::init_lock() const {
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  // return the init lock from the mirror
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  oop lock = java_lang_Class::init_lock(java_mirror());
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  // Prevent reordering with any access of initialization state
  OrderAccess::loadload();
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  assert((oop)lock != NULL || !is_not_initialized(), // initialized or in_error state
         "only fully initialized state can have a null lock");
  return lock;
}

// Set the initialization lock to null so the object can be GC'ed.  Any racing
// threads to get this lock will see a null lock and will not lock.
// That's okay because they all check for initialized state after getting
// the lock and return.
void InstanceKlass::fence_and_clear_init_lock() {
  // make sure previous stores are all done, notably the init_state.
  OrderAccess::storestore();
  java_lang_Class::set_init_lock(java_mirror(), NULL);
  assert(!is_not_initialized(), "class must be initialized now");
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}
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void InstanceKlass::eager_initialize_impl(instanceKlassHandle this_oop) {
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  EXCEPTION_MARK;
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  oop init_lock = this_oop->init_lock();
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  ObjectLocker ol(init_lock, THREAD, init_lock != NULL);
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  // abort if someone beat us to the initialization
  if (!this_oop->is_not_initialized()) return;  // note: not equivalent to is_initialized()

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  ClassState old_state = this_oop->init_state();
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  link_class_impl(this_oop, true, THREAD);
  if (HAS_PENDING_EXCEPTION) {
    CLEAR_PENDING_EXCEPTION;
    // Abort if linking the class throws an exception.

    // Use a test to avoid redundantly resetting the state if there's
    // no change.  Set_init_state() asserts that state changes make
    // progress, whereas here we might just be spinning in place.
    if( old_state != this_oop->_init_state )
      this_oop->set_init_state (old_state);
  } else {
    // linking successfull, mark class as initialized
    this_oop->set_init_state (fully_initialized);
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    this_oop->fence_and_clear_init_lock();
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    // trace
    if (TraceClassInitialization) {
      ResourceMark rm(THREAD);
      tty->print_cr("[Initialized %s without side effects]", this_oop->external_name());
    }
  }
}


// See "The Virtual Machine Specification" section 2.16.5 for a detailed explanation of the class initialization
// process. The step comments refers to the procedure described in that section.
// Note: implementation moved to static method to expose the this pointer.
564
void InstanceKlass::initialize(TRAPS) {
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  if (this->should_be_initialized()) {
    HandleMark hm(THREAD);
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    instanceKlassHandle this_oop(THREAD, this);
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    initialize_impl(this_oop, CHECK);
    // Note: at this point the class may be initialized
    //       OR it may be in the state of being initialized
    //       in case of recursive initialization!
  } else {
    assert(is_initialized(), "sanity check");
  }
}


578
bool InstanceKlass::verify_code(
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    instanceKlassHandle this_oop, bool throw_verifyerror, TRAPS) {
  // 1) Verify the bytecodes
  Verifier::Mode mode =
    throw_verifyerror ? Verifier::ThrowException : Verifier::NoException;
583
  return Verifier::verify(this_oop, mode, this_oop->should_verify_class(), CHECK_false);
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}


// Used exclusively by the shared spaces dump mechanism to prevent
// classes mapped into the shared regions in new VMs from appearing linked.

590
void InstanceKlass::unlink_class() {
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  assert(is_linked(), "must be linked");
  _init_state = loaded;
}

595
void InstanceKlass::link_class(TRAPS) {
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  assert(is_loaded(), "must be loaded");
  if (!is_linked()) {
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    HandleMark hm(THREAD);
    instanceKlassHandle this_oop(THREAD, this);
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    link_class_impl(this_oop, true, CHECK);
  }
}

// Called to verify that a class can link during initialization, without
// throwing a VerifyError.
606
bool InstanceKlass::link_class_or_fail(TRAPS) {
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  assert(is_loaded(), "must be loaded");
  if (!is_linked()) {
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    HandleMark hm(THREAD);
    instanceKlassHandle this_oop(THREAD, this);
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    link_class_impl(this_oop, false, CHECK_false);
  }
  return is_linked();
}

616
bool InstanceKlass::link_class_impl(
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    instanceKlassHandle this_oop, bool throw_verifyerror, TRAPS) {
  // check for error state
  if (this_oop->is_in_error_state()) {
    ResourceMark rm(THREAD);
    THROW_MSG_(vmSymbols::java_lang_NoClassDefFoundError(),
               this_oop->external_name(), false);
  }
  // return if already verified
  if (this_oop->is_linked()) {
    return true;
  }

  // Timing
  // timer handles recursion
  assert(THREAD->is_Java_thread(), "non-JavaThread in link_class_impl");
  JavaThread* jt = (JavaThread*)THREAD;

  // link super class before linking this class
  instanceKlassHandle super(THREAD, this_oop->super());
  if (super.not_null()) {
    if (super->is_interface()) {  // check if super class is an interface
      ResourceMark rm(THREAD);
      Exceptions::fthrow(
        THREAD_AND_LOCATION,
641
        vmSymbols::java_lang_IncompatibleClassChangeError(),
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        "class %s has interface %s as super class",
        this_oop->external_name(),
        super->external_name()
      );
      return false;
    }

    link_class_impl(super, throw_verifyerror, CHECK_false);
  }

  // link all interfaces implemented by this class before linking this class
653
  Array<Klass*>* interfaces = this_oop->local_interfaces();
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  int num_interfaces = interfaces->length();
  for (int index = 0; index < num_interfaces; index++) {
    HandleMark hm(THREAD);
657
    instanceKlassHandle ih(THREAD, interfaces->at(index));
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    link_class_impl(ih, throw_verifyerror, CHECK_false);
  }

  // in case the class is linked in the process of linking its superclasses
  if (this_oop->is_linked()) {
    return true;
  }

666 667 668 669 670 671 672 673 674
  // trace only the link time for this klass that includes
  // the verification time
  PerfClassTraceTime vmtimer(ClassLoader::perf_class_link_time(),
                             ClassLoader::perf_class_link_selftime(),
                             ClassLoader::perf_classes_linked(),
                             jt->get_thread_stat()->perf_recursion_counts_addr(),
                             jt->get_thread_stat()->perf_timers_addr(),
                             PerfClassTraceTime::CLASS_LINK);

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  // verification & rewriting
  {
677
    oop init_lock = this_oop->init_lock();
678
    ObjectLocker ol(init_lock, THREAD, init_lock != NULL);
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    // rewritten will have been set if loader constraint error found
    // on an earlier link attempt
    // don't verify or rewrite if already rewritten
682

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    if (!this_oop->is_linked()) {
      if (!this_oop->is_rewritten()) {
        {
          // Timer includes any side effects of class verification (resolution,
          // etc), but not recursive entry into verify_code().
688 689 690 691 692 693
          PerfClassTraceTime timer(ClassLoader::perf_class_verify_time(),
                                   ClassLoader::perf_class_verify_selftime(),
                                   ClassLoader::perf_classes_verified(),
                                   jt->get_thread_stat()->perf_recursion_counts_addr(),
                                   jt->get_thread_stat()->perf_timers_addr(),
                                   PerfClassTraceTime::CLASS_VERIFY);
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          bool verify_ok = verify_code(this_oop, throw_verifyerror, THREAD);
          if (!verify_ok) {
            return false;
          }
        }

        // Just in case a side-effect of verify linked this class already
        // (which can sometimes happen since the verifier loads classes
        // using custom class loaders, which are free to initialize things)
        if (this_oop->is_linked()) {
          return true;
        }

        // also sets rewritten
        this_oop->rewrite_class(CHECK_false);
      }

711
      // relocate jsrs and link methods after they are all rewritten
712
      this_oop->link_methods(CHECK_false);
713

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      // Initialize the vtable and interface table after
      // methods have been rewritten since rewrite may
716
      // fabricate new Method*s.
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      // also does loader constraint checking
      if (!this_oop()->is_shared()) {
        ResourceMark rm(THREAD);
        this_oop->vtable()->initialize_vtable(true, CHECK_false);
        this_oop->itable()->initialize_itable(true, CHECK_false);
      }
#ifdef ASSERT
      else {
        ResourceMark rm(THREAD);
        this_oop->vtable()->verify(tty, true);
        // In case itable verification is ever added.
        // this_oop->itable()->verify(tty, true);
      }
#endif
      this_oop->set_init_state(linked);
      if (JvmtiExport::should_post_class_prepare()) {
        Thread *thread = THREAD;
        assert(thread->is_Java_thread(), "thread->is_Java_thread()");
        JvmtiExport::post_class_prepare((JavaThread *) thread, this_oop());
      }
    }
  }
  return true;
}


// Rewrite the byte codes of all of the methods of a class.
// The rewriter must be called exactly once. Rewriting must happen after
// verification but before the first method of the class is executed.
746
void InstanceKlass::rewrite_class(TRAPS) {
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  assert(is_loaded(), "must be loaded");
748
  instanceKlassHandle this_oop(THREAD, this);
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  if (this_oop->is_rewritten()) {
    assert(this_oop()->is_shared(), "rewriting an unshared class?");
    return;
  }
753
  Rewriter::rewrite(this_oop, CHECK);
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  this_oop->set_rewritten();
}

757 758 759
// Now relocate and link method entry points after class is rewritten.
// This is outside is_rewritten flag. In case of an exception, it can be
// executed more than once.
760 761 762 763 764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 781 782 783 784
void InstanceKlass::link_methods(TRAPS) {
  int len = methods()->length();
  for (int i = len-1; i >= 0; i--) {
    methodHandle m(THREAD, methods()->at(i));

    // Set up method entry points for compiler and interpreter    .
    m->link_method(m, CHECK);

    // This is for JVMTI and unrelated to relocator but the last thing we do
#ifdef ASSERT
    if (StressMethodComparator) {
      ResourceMark rm(THREAD);
      static int nmc = 0;
      for (int j = i; j >= 0 && j >= i-4; j--) {
        if ((++nmc % 1000) == 0)  tty->print_cr("Have run MethodComparator %d times...", nmc);
        bool z = MethodComparator::methods_EMCP(m(),
                   methods()->at(j));
        if (j == i && !z) {
          tty->print("MethodComparator FAIL: "); m->print(); m->print_codes();
          assert(z, "method must compare equal to itself");
        }
      }
    }
#endif //ASSERT
  }
785 786
}

787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821
// Eagerly initialize superinterfaces that declare default methods (concrete instance: any access)
void InstanceKlass::initialize_super_interfaces(instanceKlassHandle this_oop, TRAPS) {
  if (this_oop->has_default_methods()) {
    for (int i = 0; i < this_oop->local_interfaces()->length(); ++i) {
      Klass* iface = this_oop->local_interfaces()->at(i);
      InstanceKlass* ik = InstanceKlass::cast(iface);
      if (ik->should_be_initialized()) {
        if (ik->has_default_methods()) {
          ik->initialize_super_interfaces(ik, THREAD);
        }
        // Only initialize() interfaces that "declare" concrete methods.
        // has_default_methods drives searching superinterfaces since it
        // means has_default_methods in its superinterface hierarchy
        if (!HAS_PENDING_EXCEPTION && ik->declares_default_methods()) {
          ik->initialize(THREAD);
        }
        if (HAS_PENDING_EXCEPTION) {
          Handle e(THREAD, PENDING_EXCEPTION);
          CLEAR_PENDING_EXCEPTION;
          {
            EXCEPTION_MARK;
            // Locks object, set state, and notify all waiting threads
            this_oop->set_initialization_state_and_notify(
                initialization_error, THREAD);

            // ignore any exception thrown, superclass initialization error is
            // thrown below
            CLEAR_PENDING_EXCEPTION;
          }
          THROW_OOP(e());
        }
      }
    }
  }
}
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823
void InstanceKlass::initialize_impl(instanceKlassHandle this_oop, TRAPS) {
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  // Make sure klass is linked (verified) before initialization
  // A class could already be verified, since it has been reflected upon.
  this_oop->link_class(CHECK);

828
  DTRACE_CLASSINIT_PROBE(required, InstanceKlass::cast(this_oop()), -1);
829 830 831

  bool wait = false;

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  // refer to the JVM book page 47 for description of steps
  // Step 1
834
  {
835
    oop init_lock = this_oop->init_lock();
836
    ObjectLocker ol(init_lock, THREAD, init_lock != NULL);
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    Thread *self = THREAD; // it's passed the current thread

    // Step 2
    // If we were to use wait() instead of waitInterruptibly() then
    // we might end up throwing IE from link/symbol resolution sites
    // that aren't expected to throw.  This would wreak havoc.  See 6320309.
    while(this_oop->is_being_initialized() && !this_oop->is_reentrant_initialization(self)) {
845
        wait = true;
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      ol.waitUninterruptibly(CHECK);
    }

    // Step 3
850
    if (this_oop->is_being_initialized() && this_oop->is_reentrant_initialization(self)) {
851
      DTRACE_CLASSINIT_PROBE_WAIT(recursive, InstanceKlass::cast(this_oop()), -1,wait);
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      return;
853
    }
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    // Step 4
856
    if (this_oop->is_initialized()) {
857
      DTRACE_CLASSINIT_PROBE_WAIT(concurrent, InstanceKlass::cast(this_oop()), -1,wait);
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      return;
859
    }
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    // Step 5
    if (this_oop->is_in_error_state()) {
863
      DTRACE_CLASSINIT_PROBE_WAIT(erroneous, InstanceKlass::cast(this_oop()), -1,wait);
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      ResourceMark rm(THREAD);
      const char* desc = "Could not initialize class ";
      const char* className = this_oop->external_name();
      size_t msglen = strlen(desc) + strlen(className) + 1;
868
      char* message = NEW_RESOURCE_ARRAY(char, msglen);
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      if (NULL == message) {
        // Out of memory: can't create detailed error message
        THROW_MSG(vmSymbols::java_lang_NoClassDefFoundError(), className);
      } else {
        jio_snprintf(message, msglen, "%s%s", desc, className);
        THROW_MSG(vmSymbols::java_lang_NoClassDefFoundError(), message);
      }
    }

    // Step 6
    this_oop->set_init_state(being_initialized);
    this_oop->set_init_thread(self);
  }

  // Step 7
884
  Klass* super_klass = this_oop->super();
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  if (super_klass != NULL && !this_oop->is_interface() && super_klass->should_be_initialized()) {
    super_klass->initialize(THREAD);
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    if (HAS_PENDING_EXCEPTION) {
      Handle e(THREAD, PENDING_EXCEPTION);
      CLEAR_PENDING_EXCEPTION;
      {
        EXCEPTION_MARK;
        this_oop->set_initialization_state_and_notify(initialization_error, THREAD); // Locks object, set state, and notify all waiting threads
        CLEAR_PENDING_EXCEPTION;   // ignore any exception thrown, superclass initialization error is thrown below
      }
896
      DTRACE_CLASSINIT_PROBE_WAIT(super__failed, InstanceKlass::cast(this_oop()), -1,wait);
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      THROW_OOP(e());
    }
  }

901 902 903
  // Recursively initialize any superinterfaces that declare default methods
  // Only need to recurse if has_default_methods which includes declaring and
  // inheriting default methods
904
  if (this_oop->has_default_methods()) {
905
    this_oop->initialize_super_interfaces(this_oop, CHECK);
906 907
  }

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  // Step 8
  {
    assert(THREAD->is_Java_thread(), "non-JavaThread in initialize_impl");
    JavaThread* jt = (JavaThread*)THREAD;
912
    DTRACE_CLASSINIT_PROBE_WAIT(clinit, InstanceKlass::cast(this_oop()), -1,wait);
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    // Timer includes any side effects of class initialization (resolution,
    // etc), but not recursive entry into call_class_initializer().
915 916 917 918 919 920
    PerfClassTraceTime timer(ClassLoader::perf_class_init_time(),
                             ClassLoader::perf_class_init_selftime(),
                             ClassLoader::perf_classes_inited(),
                             jt->get_thread_stat()->perf_recursion_counts_addr(),
                             jt->get_thread_stat()->perf_timers_addr(),
                             PerfClassTraceTime::CLASS_CLINIT);
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    this_oop->call_class_initializer(THREAD);
  }

  // Step 9
  if (!HAS_PENDING_EXCEPTION) {
    this_oop->set_initialization_state_and_notify(fully_initialized, CHECK);
    { ResourceMark rm(THREAD);
      debug_only(this_oop->vtable()->verify(tty, true);)
    }
  }
  else {
    // Step 10 and 11
    Handle e(THREAD, PENDING_EXCEPTION);
    CLEAR_PENDING_EXCEPTION;
935 936 937
    // JVMTI has already reported the pending exception
    // JVMTI internal flag reset is needed in order to report ExceptionInInitializerError
    JvmtiExport::clear_detected_exception((JavaThread*)THREAD);
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    {
      EXCEPTION_MARK;
      this_oop->set_initialization_state_and_notify(initialization_error, THREAD);
      CLEAR_PENDING_EXCEPTION;   // ignore any exception thrown, class initialization error is thrown below
942 943 944
      // JVMTI has already reported the pending exception
      // JVMTI internal flag reset is needed in order to report ExceptionInInitializerError
      JvmtiExport::clear_detected_exception((JavaThread*)THREAD);
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    }
946
    DTRACE_CLASSINIT_PROBE_WAIT(error, InstanceKlass::cast(this_oop()), -1,wait);
947
    if (e->is_a(SystemDictionary::Error_klass())) {
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      THROW_OOP(e());
    } else {
      JavaCallArguments args(e);
951 952
      THROW_ARG(vmSymbols::java_lang_ExceptionInInitializerError(),
                vmSymbols::throwable_void_signature(),
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                &args);
    }
  }
956
  DTRACE_CLASSINIT_PROBE_WAIT(end, InstanceKlass::cast(this_oop()), -1,wait);
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}


// Note: implementation moved to static method to expose the this pointer.
961 962
void InstanceKlass::set_initialization_state_and_notify(ClassState state, TRAPS) {
  instanceKlassHandle kh(THREAD, this);
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  set_initialization_state_and_notify_impl(kh, state, CHECK);
}

966
void InstanceKlass::set_initialization_state_and_notify_impl(instanceKlassHandle this_oop, ClassState state, TRAPS) {
967
  oop init_lock = this_oop->init_lock();
968
  ObjectLocker ol(init_lock, THREAD, init_lock != NULL);
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  this_oop->set_init_state(state);
970
  this_oop->fence_and_clear_init_lock();
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  ol.notify_all(CHECK);
}

974 975
// The embedded _implementor field can only record one implementor.
// When there are more than one implementors, the _implementor field
976
// is set to the interface Klass* itself. Following are the possible
977 978
// values for the _implementor field:
//   NULL                  - no implementor
979
//   implementor Klass*    - one implementor
980 981 982
//   self                  - more than one implementor
//
// The _implementor field only exists for interfaces.
983
void InstanceKlass::add_implementor(Klass* k) {
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  assert(Compile_lock->owned_by_self(), "");
985
  assert(is_interface(), "not interface");
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  // Filter out my subinterfaces.
  // (Note: Interfaces are never on the subklass list.)
988
  if (InstanceKlass::cast(k)->is_interface()) return;
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  // Filter out subclasses whose supers already implement me.
  // (Note: CHA must walk subclasses of direct implementors
  // in order to locate indirect implementors.)
993 994
  Klass* sk = InstanceKlass::cast(k)->super();
  if (sk != NULL && InstanceKlass::cast(sk)->implements_interface(this))
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    // We only need to check one immediate superclass, since the
    // implements_interface query looks at transitive_interfaces.
    // Any supers of the super have the same (or fewer) transitive_interfaces.
    return;

1000
  Klass* ik = implementor();
1001 1002
  if (ik == NULL) {
    set_implementor(k);
1003
  } else if (ik != this) {
1004 1005
    // There is already an implementor. Use itself as an indicator of
    // more than one implementors.
1006
    set_implementor(this);
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  }

  // The implementor also implements the transitive_interfaces
  for (int index = 0; index < local_interfaces()->length(); index++) {
1011
    InstanceKlass::cast(local_interfaces()->at(index))->add_implementor(k);
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  }
}

1015
void InstanceKlass::init_implementor() {
1016 1017 1018
  if (is_interface()) {
    set_implementor(NULL);
  }
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}


1022
void InstanceKlass::process_interfaces(Thread *thread) {
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  // link this class into the implementors list of every interface it implements
1024
  Klass* this_as_klass_oop = this;
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  for (int i = local_interfaces()->length() - 1; i >= 0; i--) {
1026 1027
    assert(local_interfaces()->at(i)->is_klass(), "must be a klass");
    InstanceKlass* interf = InstanceKlass::cast(local_interfaces()->at(i));
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    assert(interf->is_interface(), "expected interface");
1029
    interf->add_implementor(this_as_klass_oop);
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  }
}

1033
bool InstanceKlass::can_be_primary_super_slow() const {
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  if (is_interface())
    return false;
  else
    return Klass::can_be_primary_super_slow();
}

1040
GrowableArray<Klass*>* InstanceKlass::compute_secondary_supers(int num_extra_slots) {
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  // The secondaries are the implemented interfaces.
1042 1043
  InstanceKlass* ik = InstanceKlass::cast(this);
  Array<Klass*>* interfaces = ik->transitive_interfaces();
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  int num_secondaries = num_extra_slots + interfaces->length();
  if (num_secondaries == 0) {
1046 1047 1048
    // Must share this for correct bootstrapping!
    set_secondary_supers(Universe::the_empty_klass_array());
    return NULL;
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  } else if (num_extra_slots == 0) {
1050 1051 1052 1053
    // The secondary super list is exactly the same as the transitive interfaces.
    // Redefine classes has to be careful not to delete this!
    set_secondary_supers(interfaces);
    return NULL;
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  } else {
1055 1056 1057
    // Copy transitive interfaces to a temporary growable array to be constructed
    // into the secondary super list with extra slots.
    GrowableArray<Klass*>* secondaries = new GrowableArray<Klass*>(interfaces->length());
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    for (int i = 0; i < interfaces->length(); i++) {
1059
      secondaries->push(interfaces->at(i));
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    }
    return secondaries;
  }
}

1065
bool InstanceKlass::compute_is_subtype_of(Klass* k) {
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  if (k->is_interface()) {
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    return implements_interface(k);
  } else {
    return Klass::compute_is_subtype_of(k);
  }
}

1073 1074
bool InstanceKlass::implements_interface(Klass* k) const {
  if (this == k) return true;
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  assert(k->is_interface(), "should be an interface class");
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  for (int i = 0; i < transitive_interfaces()->length(); i++) {
1077
    if (transitive_interfaces()->at(i) == k) {
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      return true;
    }
  }
  return false;
}

1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1094 1095
bool InstanceKlass::is_same_or_direct_interface(Klass *k) const {
  // Verify direct super interface
  if (this == k) return true;
  assert(k->is_interface(), "should be an interface class");
  for (int i = 0; i < local_interfaces()->length(); i++) {
    if (local_interfaces()->at(i) == k) {
      return true;
    }
  }
  return false;
}

1096
objArrayOop InstanceKlass::allocate_objArray(int n, int length, TRAPS) {
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  if (length < 0) THROW_0(vmSymbols::java_lang_NegativeArraySizeException());
  if (length > arrayOopDesc::max_array_length(T_OBJECT)) {
1099
    report_java_out_of_memory("Requested array size exceeds VM limit");
1100
    JvmtiExport::post_array_size_exhausted();
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    THROW_OOP_0(Universe::out_of_memory_error_array_size());
  }
  int size = objArrayOopDesc::object_size(length);
1104
  Klass* ak = array_klass(n, CHECK_NULL);
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  KlassHandle h_ak (THREAD, ak);
  objArrayOop o =
    (objArrayOop)CollectedHeap::array_allocate(h_ak, size, length, CHECK_NULL);
  return o;
}

1111
instanceOop InstanceKlass::register_finalizer(instanceOop i, TRAPS) {
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  if (TraceFinalizerRegistration) {
    tty->print("Registered ");
    i->print_value_on(tty);
    tty->print_cr(" (" INTPTR_FORMAT ") as finalizable", (address)i);
  }
  instanceHandle h_i(THREAD, i);
  // Pass the handle as argument, JavaCalls::call expects oop as jobjects
  JavaValue result(T_VOID);
  JavaCallArguments args(h_i);
  methodHandle mh (THREAD, Universe::finalizer_register_method());
  JavaCalls::call(&result, mh, &args, CHECK_NULL);
  return h_i();
}

1126
instanceOop InstanceKlass::allocate_instance(TRAPS) {
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  bool has_finalizer_flag = has_finalizer(); // Query before possible GC
  int size = size_helper();  // Query before forming handle.

1130
  KlassHandle h_k(THREAD, this);
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  instanceOop i;

  i = (instanceOop)CollectedHeap::obj_allocate(h_k, size, CHECK_NULL);
  if (has_finalizer_flag && !RegisterFinalizersAtInit) {
    i = register_finalizer(i, CHECK_NULL);
  }
  return i;
}

1141
void InstanceKlass::check_valid_for_instantiation(bool throwError, TRAPS) {
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  if (is_interface() || is_abstract()) {
    ResourceMark rm(THREAD);
    THROW_MSG(throwError ? vmSymbols::java_lang_InstantiationError()
              : vmSymbols::java_lang_InstantiationException(), external_name());
  }
1147
  if (this == SystemDictionary::Class_klass()) {
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    ResourceMark rm(THREAD);
    THROW_MSG(throwError ? vmSymbols::java_lang_IllegalAccessError()
              : vmSymbols::java_lang_IllegalAccessException(), external_name());
  }
}

1154 1155
Klass* InstanceKlass::array_klass_impl(bool or_null, int n, TRAPS) {
  instanceKlassHandle this_oop(THREAD, this);
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  return array_klass_impl(this_oop, or_null, n, THREAD);
}

1159
Klass* InstanceKlass::array_klass_impl(instanceKlassHandle this_oop, bool or_null, int n, TRAPS) {
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  if (this_oop->array_klasses() == NULL) {
    if (or_null) return NULL;

    ResourceMark rm;
    JavaThread *jt = (JavaThread *)THREAD;
    {
      // Atomic creation of array_klasses
      MutexLocker mc(Compile_lock, THREAD);   // for vtables
      MutexLocker ma(MultiArray_lock, THREAD);

      // Check if update has already taken place
      if (this_oop->array_klasses() == NULL) {
1172
        Klass*    k = ObjArrayKlass::allocate_objArray_klass(this_oop->class_loader_data(), 1, this_oop, CHECK_NULL);
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        this_oop->set_array_klasses(k);
      }
    }
  }
  // _this will always be set at this point
1178
  ObjArrayKlass* oak = (ObjArrayKlass*)this_oop->array_klasses();
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  if (or_null) {
    return oak->array_klass_or_null(n);
  }
  return oak->array_klass(n, CHECK_NULL);
}

1185
Klass* InstanceKlass::array_klass_impl(bool or_null, TRAPS) {
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  return array_klass_impl(or_null, 1, THREAD);
}

1189 1190
void InstanceKlass::call_class_initializer(TRAPS) {
  instanceKlassHandle ik (THREAD, this);
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  call_class_initializer_impl(ik, THREAD);
}

static int call_class_initializer_impl_counter = 0;   // for debugging

1196 1197
Method* InstanceKlass::class_initializer() {
  Method* clinit = find_method(
1198 1199 1200 1201 1202
      vmSymbols::class_initializer_name(), vmSymbols::void_method_signature());
  if (clinit != NULL && clinit->has_valid_initializer_flags()) {
    return clinit;
  }
  return NULL;
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}

1205
void InstanceKlass::call_class_initializer_impl(instanceKlassHandle this_oop, TRAPS) {
1206 1207 1208 1209 1210 1211 1212
  if (ReplayCompiles &&
      (ReplaySuppressInitializers == 1 ||
       ReplaySuppressInitializers >= 2 && this_oop->class_loader() != NULL)) {
    // Hide the existence of the initializer for the purpose of replaying the compile
    return;
  }

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  methodHandle h_method(THREAD, this_oop->class_initializer());
  assert(!this_oop->is_initialized(), "we cannot initialize twice");
  if (TraceClassInitialization) {
    tty->print("%d Initializing ", call_class_initializer_impl_counter++);
    this_oop->name()->print_value();
    tty->print_cr("%s (" INTPTR_FORMAT ")", h_method() == NULL ? "(no method)" : "", (address)this_oop());
  }
  if (h_method() != NULL) {
    JavaCallArguments args; // No arguments
    JavaValue result(T_VOID);
    JavaCalls::call(&result, h_method, &args, CHECK); // Static call (no args)
  }
}


1228
void InstanceKlass::mask_for(methodHandle method, int bci,
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  InterpreterOopMap* entry_for) {
  // Dirty read, then double-check under a lock.
  if (_oop_map_cache == NULL) {
    // Otherwise, allocate a new one.
    MutexLocker x(OopMapCacheAlloc_lock);
    // First time use. Allocate a cache in C heap
    if (_oop_map_cache == NULL) {
1236 1237 1238 1239 1240
      // Release stores from OopMapCache constructor before assignment
      // to _oop_map_cache. C++ compilers on ppc do not emit the
      // required memory barrier only because of the volatile
      // qualifier of _oop_map_cache.
      OrderAccess::release_store_ptr(&_oop_map_cache, new OopMapCache());
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    }
  }
  // _oop_map_cache is constant after init; lookup below does is own locking.
  _oop_map_cache->lookup(method, bci, entry_for);
}


1248 1249
bool InstanceKlass::find_local_field(Symbol* name, Symbol* sig, fieldDescriptor* fd) const {
  for (JavaFieldStream fs(this); !fs.done(); fs.next()) {
1250 1251
    Symbol* f_name = fs.name();
    Symbol* f_sig  = fs.signature();
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    if (f_name == name && f_sig == sig) {
1253
      fd->reinitialize(const_cast<InstanceKlass*>(this), fs.index());
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      return true;
    }
  }
  return false;
}


1261
Klass* InstanceKlass::find_interface_field(Symbol* name, Symbol* sig, fieldDescriptor* fd) const {
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  const int n = local_interfaces()->length();
  for (int i = 0; i < n; i++) {
1264
    Klass* intf1 = local_interfaces()->at(i);
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    assert(intf1->is_interface(), "just checking type");
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    // search for field in current interface
1267
    if (InstanceKlass::cast(intf1)->find_local_field(name, sig, fd)) {
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      assert(fd->is_static(), "interface field must be static");
      return intf1;
    }
    // search for field in direct superinterfaces
1272
    Klass* intf2 = InstanceKlass::cast(intf1)->find_interface_field(name, sig, fd);
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    if (intf2 != NULL) return intf2;
  }
  // otherwise field lookup fails
  return NULL;
}


1280
Klass* InstanceKlass::find_field(Symbol* name, Symbol* sig, fieldDescriptor* fd) const {
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  // search order according to newest JVM spec (5.4.3.2, p.167).
  // 1) search for field in current klass
  if (find_local_field(name, sig, fd)) {
1284
    return const_cast<InstanceKlass*>(this);
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  }
  // 2) search for field recursively in direct superinterfaces
1287
  { Klass* intf = find_interface_field(name, sig, fd);
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    if (intf != NULL) return intf;
  }
  // 3) apply field lookup recursively if superclass exists
1291 1292
  { Klass* supr = super();
    if (supr != NULL) return InstanceKlass::cast(supr)->find_field(name, sig, fd);
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  }
  // 4) otherwise field lookup fails
  return NULL;
}


1299
Klass* InstanceKlass::find_field(Symbol* name, Symbol* sig, bool is_static, fieldDescriptor* fd) const {
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  // search order according to newest JVM spec (5.4.3.2, p.167).
  // 1) search for field in current klass
  if (find_local_field(name, sig, fd)) {
1303
    if (fd->is_static() == is_static) return const_cast<InstanceKlass*>(this);
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  }
  // 2) search for field recursively in direct superinterfaces
  if (is_static) {
1307
    Klass* intf = find_interface_field(name, sig, fd);
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    if (intf != NULL) return intf;
  }
  // 3) apply field lookup recursively if superclass exists
1311 1312
  { Klass* supr = super();
    if (supr != NULL) return InstanceKlass::cast(supr)->find_field(name, sig, is_static, fd);
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  }
  // 4) otherwise field lookup fails
  return NULL;
}


1319 1320
bool InstanceKlass::find_local_field_from_offset(int offset, bool is_static, fieldDescriptor* fd) const {
  for (JavaFieldStream fs(this); !fs.done(); fs.next()) {
1321
    if (fs.offset() == offset) {
1322
      fd->reinitialize(const_cast<InstanceKlass*>(this), fs.index());
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      if (fd->is_static() == is_static) return true;
    }
  }
  return false;
}


1330 1331
bool InstanceKlass::find_field_from_offset(int offset, bool is_static, fieldDescriptor* fd) const {
  Klass* klass = const_cast<InstanceKlass*>(this);
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  while (klass != NULL) {
1333
    if (InstanceKlass::cast(klass)->find_local_field_from_offset(offset, is_static, fd)) {
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1334 1335
      return true;
    }
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    klass = klass->super();
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  }
  return false;
}


1342
void InstanceKlass::methods_do(void f(Method* method)) {
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1343 1344
  int len = methods()->length();
  for (int index = 0; index < len; index++) {
1345
    Method* m = methods()->at(index);
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    assert(m->is_method(), "must be method");
    f(m);
  }
}

1351

1352
void InstanceKlass::do_local_static_fields(FieldClosure* cl) {
1353 1354
  for (JavaFieldStream fs(this); !fs.done(); fs.next()) {
    if (fs.access_flags().is_static()) {
1355
      fieldDescriptor& fd = fs.field_descriptor();
1356 1357
      cl->do_field(&fd);
    }
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  }
}


1362
void InstanceKlass::do_local_static_fields(void f(fieldDescriptor*, Handle, TRAPS), Handle mirror, TRAPS) {
1363
  instanceKlassHandle h_this(THREAD, this);
1364
  do_local_static_fields_impl(h_this, f, mirror, CHECK);
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}


1368 1369 1370
void InstanceKlass::do_local_static_fields_impl(instanceKlassHandle this_k,
                             void f(fieldDescriptor* fd, Handle mirror, TRAPS), Handle mirror, TRAPS) {
  for (JavaFieldStream fs(this_k()); !fs.done(); fs.next()) {
1371
    if (fs.access_flags().is_static()) {
1372
      fieldDescriptor& fd = fs.field_descriptor();
1373
      f(&fd, mirror, CHECK);
1374
    }
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1375 1376 1377 1378
  }
}


1379 1380 1381 1382
static int compare_fields_by_offset(int* a, int* b) {
  return a[0] - b[0];
}

1383 1384
void InstanceKlass::do_nonstatic_fields(FieldClosure* cl) {
  InstanceKlass* super = superklass();
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1385 1386 1387
  if (super != NULL) {
    super->do_nonstatic_fields(cl);
  }
1388
  fieldDescriptor fd;
1389
  int length = java_fields_count();
1390
  // In DebugInfo nonstatic fields are sorted by offset.
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1391
  int* fields_sorted = NEW_C_HEAP_ARRAY(int, 2*(length+1), mtClass);
1392
  int j = 0;
1393
  for (int i = 0; i < length; i += 1) {
1394
    fd.reinitialize(this, i);
1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405
    if (!fd.is_static()) {
      fields_sorted[j + 0] = fd.offset();
      fields_sorted[j + 1] = i;
      j += 2;
    }
  }
  if (j > 0) {
    length = j;
    // _sort_Fn is defined in growableArray.hpp.
    qsort(fields_sorted, length/2, 2*sizeof(int), (_sort_Fn)compare_fields_by_offset);
    for (int i = 0; i < length; i += 2) {
1406
      fd.reinitialize(this, fields_sorted[i + 1]);
1407 1408 1409
      assert(!fd.is_static() && fd.offset() == fields_sorted[i], "only nonstatic fields");
      cl->do_field(&fd);
    }
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1410
  }
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1411
  FREE_C_HEAP_ARRAY(int, fields_sorted, mtClass);
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1412 1413 1414
}


1415 1416
void InstanceKlass::array_klasses_do(void f(Klass* k, TRAPS), TRAPS) {
  if (array_klasses() != NULL)
1417
    ArrayKlass::cast(array_klasses())->array_klasses_do(f, THREAD);
1418 1419 1420
}

void InstanceKlass::array_klasses_do(void f(Klass* k)) {
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  if (array_klasses() != NULL)
1422
    ArrayKlass::cast(array_klasses())->array_klasses_do(f);
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1423 1424 1425
}

#ifdef ASSERT
1426
static int linear_search(Array<Method*>* methods, Symbol* name, Symbol* signature) {
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1427 1428
  int len = methods->length();
  for (int index = 0; index < len; index++) {
1429
    Method* m = methods->at(index);
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1430 1431 1432 1433 1434 1435 1436 1437 1438
    assert(m->is_method(), "must be method");
    if (m->signature() == signature && m->name() == name) {
       return index;
    }
  }
  return -1;
}
#endif

1439
static int binary_search(Array<Method*>* methods, Symbol* name) {
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1440 1441 1442 1443 1444 1445
  int len = methods->length();
  // methods are sorted, so do binary search
  int l = 0;
  int h = len - 1;
  while (l <= h) {
    int mid = (l + h) >> 1;
1446
    Method* m = methods->at(mid);
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1447 1448 1449
    assert(m->is_method(), "must be method");
    int res = m->name()->fast_compare(name);
    if (res == 0) {
1450 1451 1452 1453 1454 1455 1456 1457 1458 1459
      return mid;
    } else if (res < 0) {
      l = mid + 1;
    } else {
      h = mid - 1;
    }
  }
  return -1;
}

1460
// find_method looks up the name/signature in the local methods array
1461
Method* InstanceKlass::find_method(Symbol* name, Symbol* signature) const {
1462 1463 1464 1465
  return find_method_impl(name, signature, false);
}

Method* InstanceKlass::find_method_impl(Symbol* name, Symbol* signature, bool skipping_overpass) const {
1466
  return InstanceKlass::find_method_impl(methods(), name, signature, skipping_overpass, false);
1467 1468
}

1469 1470 1471 1472
// find_instance_method looks up the name/signature in the local methods array
// and skips over static methods
Method* InstanceKlass::find_instance_method(
    Array<Method*>* methods, Symbol* name, Symbol* signature) {
1473
  Method* meth = InstanceKlass::find_method_impl(methods, name, signature, false, true);
1474 1475 1476
  return meth;
}

1477 1478 1479 1480 1481 1482
// find_instance_method looks up the name/signature in the local methods array
// and skips over static methods
Method* InstanceKlass::find_instance_method(Symbol* name, Symbol* signature) {
    return InstanceKlass::find_instance_method(methods(), name, signature);
}

1483
// find_method looks up the name/signature in the local methods array
1484 1485
Method* InstanceKlass::find_method(
    Array<Method*>* methods, Symbol* name, Symbol* signature) {
1486
  return InstanceKlass::find_method_impl(methods, name, signature, false, false);
1487 1488 1489
}

Method* InstanceKlass::find_method_impl(
1490 1491
    Array<Method*>* methods, Symbol* name, Symbol* signature, bool skipping_overpass, bool skipping_static) {
  int hit = find_method_index(methods, name, signature, skipping_overpass, skipping_static);
1492 1493 1494
  return hit >= 0 ? methods->at(hit): NULL;
}

1495 1496 1497 1498 1499 1500
bool InstanceKlass::method_matches(Method* m, Symbol* signature, bool skipping_overpass, bool skipping_static) {
    return (m->signature() == signature) &&
            (!skipping_overpass || !m->is_overpass()) &&
            (!skipping_static || !m->is_static());
}

1501 1502 1503
// Used directly for default_methods to find the index into the
// default_vtable_indices, and indirectly by find_method
// find_method_index looks in the local methods array to return the index
1504 1505 1506 1507
// of the matching name/signature. If, overpass methods are being ignored,
// the search continues to find a potential non-overpass match.  This capability
// is important during method resolution to prefer a static method, for example,
// over an overpass method.
1508
int InstanceKlass::find_method_index(
1509
    Array<Method*>* methods, Symbol* name, Symbol* signature, bool skipping_overpass, bool skipping_static) {
1510 1511 1512
  int hit = binary_search(methods, name);
  if (hit != -1) {
    Method* m = methods->at(hit);
1513

1514
    // Do linear search to find matching signature.  First, quick check
1515
    // for common case, ignoring overpasses if requested.
1516
    if (method_matches(m, signature, skipping_overpass, skipping_static)) return hit;
1517

1518 1519 1520
    // search downwards through overloaded methods
    int i;
    for (i = hit - 1; i >= 0; --i) {
1521
        Method* m = methods->at(i);
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1522 1523
        assert(m->is_method(), "must be method");
        if (m->name() != name) break;
1524
        if (method_matches(m, signature, skipping_overpass, skipping_static)) return i;
1525 1526 1527
    }
    // search upwards
    for (i = hit + 1; i < methods->length(); ++i) {
1528
        Method* m = methods->at(i);
D
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1529 1530
        assert(m->is_method(), "must be method");
        if (m->name() != name) break;
1531
        if (method_matches(m, signature, skipping_overpass, skipping_static)) return i;
D
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1532
    }
1533
    // not found
D
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1534
#ifdef ASSERT
1535
    int index = skipping_overpass || skipping_static ? -1 : linear_search(methods, name, signature);
1536
    assert(index == -1, err_msg("binary search should have found entry %d", index));
D
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1537
#endif
1538
  }
1539
  return -1;
D
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1540
}
1541 1542 1543 1544 1545 1546 1547 1548 1549 1550 1551 1552 1553 1554 1555 1556 1557 1558
int InstanceKlass::find_method_by_name(Symbol* name, int* end) {
  return find_method_by_name(methods(), name, end);
}

int InstanceKlass::find_method_by_name(
    Array<Method*>* methods, Symbol* name, int* end_ptr) {
  assert(end_ptr != NULL, "just checking");
  int start = binary_search(methods, name);
  int end = start + 1;
  if (start != -1) {
    while (start - 1 >= 0 && (methods->at(start - 1))->name() == name) --start;
    while (end < methods->length() && (methods->at(end))->name() == name) ++end;
    *end_ptr = end;
    return start;
  }
  return -1;
}

1559 1560
// uncached_lookup_method searches both the local class methods array and all
// superclasses methods arrays, skipping any overpass methods in superclasses.
1561 1562
Method* InstanceKlass::uncached_lookup_method(Symbol* name, Symbol* signature, MethodLookupMode mode) const {
  MethodLookupMode lookup_mode = mode;
1563
  Klass* klass = const_cast<InstanceKlass*>(this);
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  while (klass != NULL) {
1565 1566
    Method* method = InstanceKlass::cast(klass)->find_method_impl(name, signature, (lookup_mode == skip_overpass));
    if (method != NULL) {
1567 1568
      return method;
    }
1569
    klass = InstanceKlass::cast(klass)->super();
1570
    lookup_mode = skip_overpass;   // Always ignore overpass methods in superclasses
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  }
  return NULL;
}

1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585 1586 1587 1588 1589
#ifdef ASSERT
// search through class hierarchy and return true if this class or
// one of the superclasses was redefined
bool InstanceKlass::has_redefined_this_or_super() const {
  const InstanceKlass* klass = this;
  while (klass != NULL) {
    if (klass->has_been_redefined()) {
      return true;
    }
    klass = InstanceKlass::cast(klass->super());
  }
  return false;
}
#endif

1590 1591 1592 1593
// lookup a method in the default methods list then in all transitive interfaces
// Do NOT return private or static methods
Method* InstanceKlass::lookup_method_in_ordered_interfaces(Symbol* name,
                                                         Symbol* signature) const {
1594
  Method* m = NULL;
1595 1596 1597 1598 1599
  if (default_methods() != NULL) {
    m = find_method(default_methods(), name, signature);
  }
  // Look up interfaces
  if (m == NULL) {
1600
    m = lookup_method_in_all_interfaces(name, signature, normal);
1601 1602 1603 1604
  }
  return m;
}

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// lookup a method in all the interfaces that this class implements
1606 1607
// Do NOT return private or static methods, new in JDK8 which are not externally visible
// They should only be found in the initial InterfaceMethodRef
1608
Method* InstanceKlass::lookup_method_in_all_interfaces(Symbol* name,
1609
                                                       Symbol* signature,
1610
                                                       MethodLookupMode mode) const {
1611
  Array<Klass*>* all_ifs = transitive_interfaces();
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  int num_ifs = all_ifs->length();
1613
  InstanceKlass *ik = NULL;
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  for (int i = 0; i < num_ifs; i++) {
1615 1616
    ik = InstanceKlass::cast(all_ifs->at(i));
    Method* m = ik->lookup_method(name, signature);
1617
    if (m != NULL && m->is_public() && !m->is_static() &&
1618
        ((mode != skip_defaults) || !m->is_default_method())) {
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      return m;
    }
  }
  return NULL;
}

/* jni_id_for_impl for jfieldIds only */
1626
JNIid* InstanceKlass::jni_id_for_impl(instanceKlassHandle this_oop, int offset) {
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  MutexLocker ml(JfieldIdCreation_lock);
  // Retry lookup after we got the lock
  JNIid* probe = this_oop->jni_ids() == NULL ? NULL : this_oop->jni_ids()->find(offset);
  if (probe == NULL) {
    // Slow case, allocate new static field identifier
1632
    probe = new JNIid(this_oop(), offset, this_oop->jni_ids());
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    this_oop->set_jni_ids(probe);
  }
  return probe;
}


/* jni_id_for for jfieldIds only */
1640
JNIid* InstanceKlass::jni_id_for(int offset) {
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  JNIid* probe = jni_ids() == NULL ? NULL : jni_ids()->find(offset);
  if (probe == NULL) {
1643
    probe = jni_id_for_impl(this, offset);
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  }
  return probe;
}

1648 1649
u2 InstanceKlass::enclosing_method_data(int offset) {
  Array<jushort>* inner_class_list = inner_classes();
1650 1651 1652 1653 1654 1655 1656 1657 1658
  if (inner_class_list == NULL) {
    return 0;
  }
  int length = inner_class_list->length();
  if (length % inner_class_next_offset == 0) {
    return 0;
  } else {
    int index = length - enclosing_method_attribute_size;
    assert(offset < enclosing_method_attribute_size, "invalid offset");
1659
    return inner_class_list->at(index + offset);
1660 1661 1662
  }
}

1663
void InstanceKlass::set_enclosing_method_indices(u2 class_index,
1664
                                                 u2 method_index) {
1665
  Array<jushort>* inner_class_list = inner_classes();
1666 1667 1668 1669
  assert (inner_class_list != NULL, "_inner_classes list is not set up");
  int length = inner_class_list->length();
  if (length % inner_class_next_offset == enclosing_method_attribute_size) {
    int index = length - enclosing_method_attribute_size;
1670
    inner_class_list->at_put(
1671
      index + enclosing_method_class_index_offset, class_index);
1672
    inner_class_list->at_put(
1673 1674 1675
      index + enclosing_method_method_index_offset, method_index);
  }
}
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// Lookup or create a jmethodID.
1678 1679 1680 1681
// This code is called by the VMThread and JavaThreads so the
// locking has to be done very carefully to avoid deadlocks
// and/or other cache consistency problems.
//
1682
jmethodID InstanceKlass::get_jmethod_id(instanceKlassHandle ik_h, methodHandle method_h) {
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  size_t idnum = (size_t)method_h->method_idnum();
  jmethodID* jmeths = ik_h->methods_jmethod_ids_acquire();
  size_t length = 0;
  jmethodID id = NULL;

1688 1689 1690 1691 1692 1693 1694 1695 1696 1697 1698 1699 1700 1701 1702 1703 1704 1705 1706 1707 1708 1709 1710 1711 1712 1713 1714 1715 1716 1717 1718 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728
  // We use a double-check locking idiom here because this cache is
  // performance sensitive. In the normal system, this cache only
  // transitions from NULL to non-NULL which is safe because we use
  // release_set_methods_jmethod_ids() to advertise the new cache.
  // A partially constructed cache should never be seen by a racing
  // thread. We also use release_store_ptr() to save a new jmethodID
  // in the cache so a partially constructed jmethodID should never be
  // seen either. Cache reads of existing jmethodIDs proceed without a
  // lock, but cache writes of a new jmethodID requires uniqueness and
  // creation of the cache itself requires no leaks so a lock is
  // generally acquired in those two cases.
  //
  // If the RedefineClasses() API has been used, then this cache can
  // grow and we'll have transitions from non-NULL to bigger non-NULL.
  // Cache creation requires no leaks and we require safety between all
  // cache accesses and freeing of the old cache so a lock is generally
  // acquired when the RedefineClasses() API has been used.

  if (jmeths != NULL) {
    // the cache already exists
    if (!ik_h->idnum_can_increment()) {
      // the cache can't grow so we can just get the current values
      get_jmethod_id_length_value(jmeths, idnum, &length, &id);
    } else {
      // cache can grow so we have to be more careful
      if (Threads::number_of_threads() == 0 ||
          SafepointSynchronize::is_at_safepoint()) {
        // we're single threaded or at a safepoint - no locking needed
        get_jmethod_id_length_value(jmeths, idnum, &length, &id);
      } else {
        MutexLocker ml(JmethodIdCreation_lock);
        get_jmethod_id_length_value(jmeths, idnum, &length, &id);
      }
    }
  }
  // implied else:
  // we need to allocate a cache so default length and id values are good

  if (jmeths == NULL ||   // no cache yet
      length <= idnum ||  // cache is too short
      id == NULL) {       // cache doesn't contain entry
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1730 1731 1732 1733 1734 1735 1736 1737 1738
    // This function can be called by the VMThread so we have to do all
    // things that might block on a safepoint before grabbing the lock.
    // Otherwise, we can deadlock with the VMThread or have a cache
    // consistency issue. These vars keep track of what we might have
    // to free after the lock is dropped.
    jmethodID  to_dealloc_id     = NULL;
    jmethodID* to_dealloc_jmeths = NULL;

    // may not allocate new_jmeths or use it if we allocate it
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    jmethodID* new_jmeths = NULL;
    if (length <= idnum) {
1741
      // allocate a new cache that might be used
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      size_t size = MAX2(idnum+1, (size_t)ik_h->idnum_allocated_count());
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      new_jmeths = NEW_C_HEAP_ARRAY(jmethodID, size+1, mtClass);
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      memset(new_jmeths, 0, (size+1)*sizeof(jmethodID));
1745 1746
      // cache size is stored in element[0], other elements offset by one
      new_jmeths[0] = (jmethodID)size;
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    }

1749
    // allocate a new jmethodID that might be used
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    jmethodID new_id = NULL;
    if (method_h->is_old() && !method_h->is_obsolete()) {
      // The method passed in is old (but not obsolete), we need to use the current version
1753
      Method* current_method = ik_h->method_with_idnum((int)idnum);
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      assert(current_method != NULL, "old and but not obsolete, so should exist");
1755
      new_id = Method::make_jmethod_id(ik_h->class_loader_data(), current_method);
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    } else {
      // It is the current version of the method or an obsolete method,
      // use the version passed in
1759
      new_id = Method::make_jmethod_id(ik_h->class_loader_data(), method_h());
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    }

1762 1763 1764 1765 1766
    if (Threads::number_of_threads() == 0 ||
        SafepointSynchronize::is_at_safepoint()) {
      // we're single threaded or at a safepoint - no locking needed
      id = get_jmethod_id_fetch_or_update(ik_h, idnum, new_id, new_jmeths,
                                          &to_dealloc_id, &to_dealloc_jmeths);
1767
    } else {
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      MutexLocker ml(JmethodIdCreation_lock);
1769 1770 1771 1772 1773 1774 1775 1776 1777 1778 1779
      id = get_jmethod_id_fetch_or_update(ik_h, idnum, new_id, new_jmeths,
                                          &to_dealloc_id, &to_dealloc_jmeths);
    }

    // The lock has been dropped so we can free resources.
    // Free up either the old cache or the new cache if we allocated one.
    if (to_dealloc_jmeths != NULL) {
      FreeHeap(to_dealloc_jmeths);
    }
    // free up the new ID since it wasn't needed
    if (to_dealloc_id != NULL) {
1780
      Method::destroy_jmethod_id(ik_h->class_loader_data(), to_dealloc_id);
1781 1782 1783 1784
    }
  }
  return id;
}
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1787 1788 1789 1790 1791
// Common code to fetch the jmethodID from the cache or update the
// cache with the new jmethodID. This function should never do anything
// that causes the caller to go to a safepoint or we can deadlock with
// the VMThread or have cache consistency issues.
//
1792
jmethodID InstanceKlass::get_jmethod_id_fetch_or_update(
1793 1794 1795 1796 1797 1798 1799 1800 1801 1802 1803
            instanceKlassHandle ik_h, size_t idnum, jmethodID new_id,
            jmethodID* new_jmeths, jmethodID* to_dealloc_id_p,
            jmethodID** to_dealloc_jmeths_p) {
  assert(new_id != NULL, "sanity check");
  assert(to_dealloc_id_p != NULL, "sanity check");
  assert(to_dealloc_jmeths_p != NULL, "sanity check");
  assert(Threads::number_of_threads() == 0 ||
         SafepointSynchronize::is_at_safepoint() ||
         JmethodIdCreation_lock->owned_by_self(), "sanity check");

  // reacquire the cache - we are locked, single threaded or at a safepoint
1804
  jmethodID* jmeths = ik_h->methods_jmethod_ids_acquire();
1805 1806
  jmethodID  id     = NULL;
  size_t     length = 0;
1807

1808 1809
  if (jmeths == NULL ||                         // no cache yet
      (length = (size_t)jmeths[0]) <= idnum) {  // cache is too short
1810
    if (jmeths != NULL) {
1811
      // copy any existing entries from the old cache
1812 1813
      for (size_t index = 0; index < length; index++) {
        new_jmeths[index+1] = jmeths[index+1];
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      }
1815
      *to_dealloc_jmeths_p = jmeths;  // save old cache for later delete
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    }
1817 1818
    ik_h->release_set_methods_jmethod_ids(jmeths = new_jmeths);
  } else {
1819
    // fetch jmethodID (if any) from the existing cache
1820
    id = jmeths[idnum+1];
1821
    *to_dealloc_jmeths_p = new_jmeths;  // save new cache for later delete
1822 1823
  }
  if (id == NULL) {
1824 1825 1826 1827
    // No matching jmethodID in the existing cache or we have a new
    // cache or we just grew the cache. This cache write is done here
    // by the first thread to win the foot race because a jmethodID
    // needs to be unique once it is generally available.
1828
    id = new_id;
1829 1830 1831 1832 1833

    // The jmethodID cache can be read while unlocked so we have to
    // make sure the new jmethodID is complete before installing it
    // in the cache.
    OrderAccess::release_store_ptr(&jmeths[idnum+1], id);
1834
  } else {
1835
    *to_dealloc_id_p = new_id; // save new id for later delete
1836
  }
1837 1838
  return id;
}
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1840 1841 1842 1843

// Common code to get the jmethodID cache length and the jmethodID
// value at index idnum if there is one.
//
1844
void InstanceKlass::get_jmethod_id_length_value(jmethodID* cache,
1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855
       size_t idnum, size_t *length_p, jmethodID* id_p) {
  assert(cache != NULL, "sanity check");
  assert(length_p != NULL, "sanity check");
  assert(id_p != NULL, "sanity check");

  // cache size is stored in element[0], other elements offset by one
  *length_p = (size_t)cache[0];
  if (*length_p <= idnum) {  // cache is too short
    *id_p = NULL;
  } else {
    *id_p = cache[idnum+1];  // fetch jmethodID (if any)
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  }
}


// Lookup a jmethodID, NULL if not found.  Do no blocking, no allocations, no handles
1861
jmethodID InstanceKlass::jmethod_id_or_null(Method* method) {
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  size_t idnum = (size_t)method->method_idnum();
  jmethodID* jmeths = methods_jmethod_ids_acquire();
  size_t length;                                // length assigned as debugging crumb
  jmethodID id = NULL;
1866
  if (jmeths != NULL &&                         // If there is a cache
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      (length = (size_t)jmeths[0]) > idnum) {   // and if it is long enough,
    id = jmeths[idnum+1];                       // Look up the id (may be NULL)
  }
  return id;
}

1873 1874 1875
int nmethodBucket::decrement() {
  return Atomic::add(-1, (volatile int *)&_count);
}
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//
// Walk the list of dependent nmethods searching for nmethods which
1879
// are dependent on the changes that were passed in and mark them for
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// deoptimization.  Returns the number of nmethods found.
//
1882
int InstanceKlass::mark_dependent_nmethods(DepChange& changes) {
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  assert_locked_or_safepoint(CodeCache_lock);
  int found = 0;
  nmethodBucket* b = _dependencies;
  while (b != NULL) {
    nmethod* nm = b->get_nmethod();
    // since dependencies aren't removed until an nmethod becomes a zombie,
    // the dependency list may contain nmethods which aren't alive.
1890
    if (b->count() > 0 && nm->is_alive() && !nm->is_marked_for_deoptimization() && nm->check_dependency_on(changes)) {
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      if (TraceDependencies) {
        ResourceMark rm;
        tty->print_cr("Marked for deoptimization");
        tty->print_cr("  context = %s", this->external_name());
        changes.print();
        nm->print();
        nm->print_dependencies();
      }
      nm->mark_for_deoptimization();
      found++;
    }
    b = b->next();
  }
  return found;
}

1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920 1921 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 1936 1937 1938 1939 1940 1941 1942 1943
void InstanceKlass::clean_dependent_nmethods() {
  assert_locked_or_safepoint(CodeCache_lock);

  if (has_unloaded_dependent()) {
    nmethodBucket* b = _dependencies;
    nmethodBucket* last = NULL;
    while (b != NULL) {
      assert(b->count() >= 0, err_msg("bucket count: %d", b->count()));

      nmethodBucket* next = b->next();

      if (b->count() == 0) {
        if (last == NULL) {
          _dependencies = next;
        } else {
          last->set_next(next);
        }
        delete b;
        // last stays the same.
      } else {
        last = b;
      }

      b = next;
    }
    set_has_unloaded_dependent(false);
  }
#ifdef ASSERT
  else {
    // Verification
    for (nmethodBucket* b = _dependencies; b != NULL; b = b->next()) {
      assert(b->count() >= 0, err_msg("bucket count: %d", b->count()));
      assert(b->count() != 0, "empty buckets need to be cleaned");
    }
  }
#endif
}
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//
// Add an nmethodBucket to the list of dependencies for this nmethod.
// It's possible that an nmethod has multiple dependencies on this klass
// so a count is kept for each bucket to guarantee that creation and
// deletion of dependencies is consistent.
//
1951
void InstanceKlass::add_dependent_nmethod(nmethod* nm) {
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  assert_locked_or_safepoint(CodeCache_lock);
  nmethodBucket* b = _dependencies;
  nmethodBucket* last = NULL;
  while (b != NULL) {
    if (nm == b->get_nmethod()) {
      b->increment();
      return;
    }
    b = b->next();
  }
  _dependencies = new nmethodBucket(nm, _dependencies);
}


//
// Decrement count of the nmethod in the dependency list and remove
// the bucket competely when the count goes to 0.  This method must
// find a corresponding bucket otherwise there's a bug in the
// recording of dependecies.
//
1972
void InstanceKlass::remove_dependent_nmethod(nmethod* nm) {
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  assert_locked_or_safepoint(CodeCache_lock);
  nmethodBucket* b = _dependencies;
  nmethodBucket* last = NULL;
  while (b != NULL) {
    if (nm == b->get_nmethod()) {
1978 1979 1980 1981
      int val = b->decrement();
      guarantee(val >= 0, err_msg("Underflow: %d", val));
      if (val == 0) {
        set_has_unloaded_dependent(true);
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      }
      return;
    }
    last = b;
    b = b->next();
  }
#ifdef ASSERT
  tty->print_cr("### %s can't find dependent nmethod:", this->external_name());
  nm->print();
#endif // ASSERT
  ShouldNotReachHere();
}


#ifndef PRODUCT
1997
void InstanceKlass::print_dependent_nmethods(bool verbose) {
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  nmethodBucket* b = _dependencies;
  int idx = 0;
  while (b != NULL) {
    nmethod* nm = b->get_nmethod();
    tty->print("[%d] count=%d { ", idx++, b->count());
    if (!verbose) {
      nm->print_on(tty, "nmethod");
      tty->print_cr(" } ");
    } else {
      nm->print();
      nm->print_dependencies();
      tty->print_cr("--- } ");
    }
    b = b->next();
  }
}


2016
bool InstanceKlass::is_dependent_nmethod(nmethod* nm) {
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  nmethodBucket* b = _dependencies;
  while (b != NULL) {
    if (nm == b->get_nmethod()) {
2020 2021
#ifdef ASSERT
      int count = b->count();
2022
      assert(count >= 0, err_msg("count shouldn't be negative: %d", count));
2023
#endif
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      return true;
    }
    b = b->next();
  }
  return false;
}
#endif //PRODUCT


2033 2034
// Garbage collection

2035 2036 2037 2038 2039 2040
#ifdef ASSERT
template <class T> void assert_is_in(T *p) {
  T heap_oop = oopDesc::load_heap_oop(p);
  if (!oopDesc::is_null(heap_oop)) {
    oop o = oopDesc::decode_heap_oop_not_null(heap_oop);
    assert(Universe::heap()->is_in(o), "should be in heap");
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  }
}
2043 2044 2045 2046
template <class T> void assert_is_in_closed_subset(T *p) {
  T heap_oop = oopDesc::load_heap_oop(p);
  if (!oopDesc::is_null(heap_oop)) {
    oop o = oopDesc::decode_heap_oop_not_null(heap_oop);
2047 2048
    assert(Universe::heap()->is_in_closed_subset(o),
           err_msg("should be in closed *p " INTPTR_FORMAT " " INTPTR_FORMAT, (address)p, (address)o));
2049 2050 2051 2052 2053 2054 2055 2056 2057 2058 2059 2060 2061 2062 2063 2064 2065 2066 2067 2068 2069 2070 2071 2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084 2085 2086 2087 2088 2089 2090 2091 2092 2093 2094 2095 2096 2097 2098 2099 2100 2101 2102 2103 2104 2105 2106 2107 2108 2109 2110 2111 2112 2113 2114 2115 2116 2117 2118 2119 2120 2121 2122 2123 2124 2125 2126 2127 2128 2129 2130 2131 2132 2133 2134
  }
}
template <class T> void assert_is_in_reserved(T *p) {
  T heap_oop = oopDesc::load_heap_oop(p);
  if (!oopDesc::is_null(heap_oop)) {
    oop o = oopDesc::decode_heap_oop_not_null(heap_oop);
    assert(Universe::heap()->is_in_reserved(o), "should be in reserved");
  }
}
template <class T> void assert_nothing(T *p) {}

#else
template <class T> void assert_is_in(T *p) {}
template <class T> void assert_is_in_closed_subset(T *p) {}
template <class T> void assert_is_in_reserved(T *p) {}
template <class T> void assert_nothing(T *p) {}
#endif // ASSERT

//
// Macros that iterate over areas of oops which are specialized on type of
// oop pointer either narrow or wide, depending on UseCompressedOops
//
// Parameters are:
//   T         - type of oop to point to (either oop or narrowOop)
//   start_p   - starting pointer for region to iterate over
//   count     - number of oops or narrowOops to iterate over
//   do_oop    - action to perform on each oop (it's arbitrary C code which
//               makes it more efficient to put in a macro rather than making
//               it a template function)
//   assert_fn - assert function which is template function because performance
//               doesn't matter when enabled.
#define InstanceKlass_SPECIALIZED_OOP_ITERATE( \
  T, start_p, count, do_oop,                \
  assert_fn)                                \
{                                           \
  T* p         = (T*)(start_p);             \
  T* const end = p + (count);               \
  while (p < end) {                         \
    (assert_fn)(p);                         \
    do_oop;                                 \
    ++p;                                    \
  }                                         \
}

#define InstanceKlass_SPECIALIZED_OOP_REVERSE_ITERATE( \
  T, start_p, count, do_oop,                \
  assert_fn)                                \
{                                           \
  T* const start = (T*)(start_p);           \
  T*       p     = start + (count);         \
  while (start < p) {                       \
    --p;                                    \
    (assert_fn)(p);                         \
    do_oop;                                 \
  }                                         \
}

#define InstanceKlass_SPECIALIZED_BOUNDED_OOP_ITERATE( \
  T, start_p, count, low, high,             \
  do_oop, assert_fn)                        \
{                                           \
  T* const l = (T*)(low);                   \
  T* const h = (T*)(high);                  \
  assert(mask_bits((intptr_t)l, sizeof(T)-1) == 0 && \
         mask_bits((intptr_t)h, sizeof(T)-1) == 0,   \
         "bounded region must be properly aligned"); \
  T* p       = (T*)(start_p);               \
  T* end     = p + (count);                 \
  if (p < l) p = l;                         \
  if (end > h) end = h;                     \
  while (p < end) {                         \
    (assert_fn)(p);                         \
    do_oop;                                 \
    ++p;                                    \
  }                                         \
}


// The following macros call specialized macros, passing either oop or
// narrowOop as the specialization type.  These test the UseCompressedOops
// flag.
#define InstanceKlass_OOP_MAP_ITERATE(obj, do_oop, assert_fn)            \
{                                                                        \
  /* Compute oopmap block range. The common case                         \
     is nonstatic_oop_map_size == 1. */                                  \
  OopMapBlock* map           = start_of_nonstatic_oop_maps();            \
2135
  OopMapBlock* const end_map = map + nonstatic_oop_map_count();          \
2136 2137 2138
  if (UseCompressedOops) {                                               \
    while (map < end_map) {                                              \
      InstanceKlass_SPECIALIZED_OOP_ITERATE(narrowOop,                   \
2139
        obj->obj_field_addr<narrowOop>(map->offset()), map->count(),     \
2140 2141 2142 2143 2144 2145
        do_oop, assert_fn)                                               \
      ++map;                                                             \
    }                                                                    \
  } else {                                                               \
    while (map < end_map) {                                              \
      InstanceKlass_SPECIALIZED_OOP_ITERATE(oop,                         \
2146
        obj->obj_field_addr<oop>(map->offset()), map->count(),           \
2147 2148 2149 2150 2151 2152 2153 2154 2155
        do_oop, assert_fn)                                               \
      ++map;                                                             \
    }                                                                    \
  }                                                                      \
}

#define InstanceKlass_OOP_MAP_REVERSE_ITERATE(obj, do_oop, assert_fn)    \
{                                                                        \
  OopMapBlock* const start_map = start_of_nonstatic_oop_maps();          \
2156
  OopMapBlock* map             = start_map + nonstatic_oop_map_count();  \
2157 2158 2159 2160
  if (UseCompressedOops) {                                               \
    while (start_map < map) {                                            \
      --map;                                                             \
      InstanceKlass_SPECIALIZED_OOP_REVERSE_ITERATE(narrowOop,           \
2161
        obj->obj_field_addr<narrowOop>(map->offset()), map->count(),     \
2162 2163 2164 2165 2166 2167
        do_oop, assert_fn)                                               \
    }                                                                    \
  } else {                                                               \
    while (start_map < map) {                                            \
      --map;                                                             \
      InstanceKlass_SPECIALIZED_OOP_REVERSE_ITERATE(oop,                 \
2168
        obj->obj_field_addr<oop>(map->offset()), map->count(),           \
2169 2170 2171 2172 2173 2174 2175 2176 2177 2178 2179 2180 2181
        do_oop, assert_fn)                                               \
    }                                                                    \
  }                                                                      \
}

#define InstanceKlass_BOUNDED_OOP_MAP_ITERATE(obj, low, high, do_oop,    \
                                              assert_fn)                 \
{                                                                        \
  /* Compute oopmap block range. The common case is                      \
     nonstatic_oop_map_size == 1, so we accept the                       \
     usually non-existent extra overhead of examining                    \
     all the maps. */                                                    \
  OopMapBlock* map           = start_of_nonstatic_oop_maps();            \
2182
  OopMapBlock* const end_map = map + nonstatic_oop_map_count();          \
2183 2184 2185
  if (UseCompressedOops) {                                               \
    while (map < end_map) {                                              \
      InstanceKlass_SPECIALIZED_BOUNDED_OOP_ITERATE(narrowOop,           \
2186
        obj->obj_field_addr<narrowOop>(map->offset()), map->count(),     \
2187 2188 2189 2190 2191 2192 2193
        low, high,                                                       \
        do_oop, assert_fn)                                               \
      ++map;                                                             \
    }                                                                    \
  } else {                                                               \
    while (map < end_map) {                                              \
      InstanceKlass_SPECIALIZED_BOUNDED_OOP_ITERATE(oop,                 \
2194
        obj->obj_field_addr<oop>(map->offset()), map->count(),           \
2195 2196 2197 2198 2199 2200 2201
        low, high,                                                       \
        do_oop, assert_fn)                                               \
      ++map;                                                             \
    }                                                                    \
  }                                                                      \
}

2202
void InstanceKlass::oop_follow_contents(oop obj) {
2203
  assert(obj != NULL, "can't follow the content of NULL object");
2204
  MarkSweep::follow_klass(obj->klass());
2205 2206 2207 2208
  InstanceKlass_OOP_MAP_ITERATE( \
    obj, \
    MarkSweep::mark_and_push(p), \
    assert_is_in_closed_subset)
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}

2211
#if INCLUDE_ALL_GCS
2212
void InstanceKlass::oop_follow_contents(ParCompactionManager* cm,
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                                        oop obj) {
2214
  assert(obj != NULL, "can't follow the content of NULL object");
2215 2216 2217
  PSParallelCompact::follow_klass(cm, obj->klass());
  // Only mark the header and let the scan of the meta-data mark
  // everything else.
2218 2219 2220 2221
  InstanceKlass_OOP_MAP_ITERATE( \
    obj, \
    PSParallelCompact::mark_and_push(cm, p), \
    assert_is_in)
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}
2223
#endif // INCLUDE_ALL_GCS
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2225
// closure's do_metadata() method dictates whether the given closure should be
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// applied to the klass ptr in the object header.

2228 2229
#define InstanceKlass_OOP_OOP_ITERATE_DEFN(OopClosureType, nv_suffix)        \
                                                                             \
2230
int InstanceKlass::oop_oop_iterate##nv_suffix(oop obj, OopClosureType* closure) { \
2231 2232
  SpecializationStats::record_iterate_call##nv_suffix(SpecializationStats::ik);\
  /* header */                                                          \
2233 2234
  if_do_metadata_checked(closure, nv_suffix) {                          \
    closure->do_klass##nv_suffix(obj->klass());                         \
2235 2236 2237 2238 2239 2240 2241 2242 2243 2244
  }                                                                     \
  InstanceKlass_OOP_MAP_ITERATE(                                        \
    obj,                                                                \
    SpecializationStats::                                               \
      record_do_oop_call##nv_suffix(SpecializationStats::ik);           \
    (closure)->do_oop##nv_suffix(p),                                    \
    assert_is_in_closed_subset)                                         \
  return size_helper();                                                 \
}

2245
#if INCLUDE_ALL_GCS
2246 2247
#define InstanceKlass_OOP_OOP_ITERATE_BACKWARDS_DEFN(OopClosureType, nv_suffix) \
                                                                                \
2248
int InstanceKlass::oop_oop_iterate_backwards##nv_suffix(oop obj,                \
2249 2250
                                              OopClosureType* closure) {        \
  SpecializationStats::record_iterate_call##nv_suffix(SpecializationStats::ik); \
2251 2252 2253
                                                                                \
  assert_should_ignore_metadata(closure, nv_suffix);                            \
                                                                                \
2254 2255 2256 2257 2258 2259 2260 2261
  /* instance variables */                                                      \
  InstanceKlass_OOP_MAP_REVERSE_ITERATE(                                        \
    obj,                                                                        \
    SpecializationStats::record_do_oop_call##nv_suffix(SpecializationStats::ik);\
    (closure)->do_oop##nv_suffix(p),                                            \
    assert_is_in_closed_subset)                                                 \
   return size_helper();                                                        \
}
2262
#endif // INCLUDE_ALL_GCS
2263

2264 2265
#define InstanceKlass_OOP_OOP_ITERATE_DEFN_m(OopClosureType, nv_suffix) \
                                                                        \
2266
int InstanceKlass::oop_oop_iterate##nv_suffix##_m(oop obj,              \
2267 2268 2269
                                                  OopClosureType* closure, \
                                                  MemRegion mr) {          \
  SpecializationStats::record_iterate_call##nv_suffix(SpecializationStats::ik);\
2270 2271 2272 2273
  if_do_metadata_checked(closure, nv_suffix) {                           \
    if (mr.contains(obj)) {                                              \
      closure->do_klass##nv_suffix(obj->klass());                        \
    }                                                                    \
2274 2275 2276 2277 2278 2279
  }                                                                      \
  InstanceKlass_BOUNDED_OOP_MAP_ITERATE(                                 \
    obj, mr.start(), mr.end(),                                           \
    (closure)->do_oop##nv_suffix(p),                                     \
    assert_is_in_closed_subset)                                          \
  return size_helper();                                                  \
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}

ALL_OOP_OOP_ITERATE_CLOSURES_1(InstanceKlass_OOP_OOP_ITERATE_DEFN)
2283
ALL_OOP_OOP_ITERATE_CLOSURES_2(InstanceKlass_OOP_OOP_ITERATE_DEFN)
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ALL_OOP_OOP_ITERATE_CLOSURES_1(InstanceKlass_OOP_OOP_ITERATE_DEFN_m)
2285
ALL_OOP_OOP_ITERATE_CLOSURES_2(InstanceKlass_OOP_OOP_ITERATE_DEFN_m)
2286
#if INCLUDE_ALL_GCS
2287 2288
ALL_OOP_OOP_ITERATE_CLOSURES_1(InstanceKlass_OOP_OOP_ITERATE_BACKWARDS_DEFN)
ALL_OOP_OOP_ITERATE_CLOSURES_2(InstanceKlass_OOP_OOP_ITERATE_BACKWARDS_DEFN)
2289
#endif // INCLUDE_ALL_GCS
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2291
int InstanceKlass::oop_adjust_pointers(oop obj) {
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  int size = size_helper();
2293 2294 2295 2296
  InstanceKlass_OOP_MAP_ITERATE( \
    obj, \
    MarkSweep::adjust_pointer(p), \
    assert_is_in)
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  return size;
}

2300
#if INCLUDE_ALL_GCS
2301
void InstanceKlass::oop_push_contents(PSPromotionManager* pm, oop obj) {
2302 2303 2304 2305 2306 2307
  InstanceKlass_OOP_MAP_REVERSE_ITERATE( \
    obj, \
    if (PSScavenge::should_scavenge(p)) { \
      pm->claim_or_forward_depth(p); \
    }, \
    assert_nothing )
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}

2310 2311
int InstanceKlass::oop_update_pointers(ParCompactionManager* cm, oop obj) {
  int size = size_helper();
2312 2313 2314
  InstanceKlass_OOP_MAP_ITERATE( \
    obj, \
    PSParallelCompact::adjust_pointer(p), \
2315 2316
    assert_is_in)
  return size;
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}

2319
#endif // INCLUDE_ALL_GCS
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2321
void InstanceKlass::clean_implementors_list(BoolObjectClosure* is_alive) {
2322
  assert(class_loader_data()->is_alive(is_alive), "this klass should be live");
2323 2324
  if (is_interface()) {
    if (ClassUnloading) {
2325
      Klass* impl = implementor();
2326
      if (impl != NULL) {
2327
        if (!impl->is_loader_alive(is_alive)) {
2328
          // remove this guy
2329 2330 2331 2332 2333
          Klass** klass = adr_implementor();
          assert(klass != NULL, "null klass");
          if (klass != NULL) {
            *klass = NULL;
          }
2334
        }
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      }
    }
  }
2338
}
2339

2340 2341 2342 2343
void InstanceKlass::clean_method_data(BoolObjectClosure* is_alive) {
  for (int m = 0; m < methods()->length(); m++) {
    MethodData* mdo = methods()->at(m)->method_data();
    if (mdo != NULL) {
2344
      mdo->clean_method_data(is_alive);
2345 2346
    }
  }
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}

2349 2350 2351 2352 2353 2354 2355

static void remove_unshareable_in_class(Klass* k) {
  // remove klass's unshareable info
  k->remove_unshareable_info();
}

void InstanceKlass::remove_unshareable_info() {
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  Klass::remove_unshareable_info();
2357 2358 2359 2360
  // Unlink the class
  if (is_linked()) {
    unlink_class();
  }
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  init_implementor();
2362 2363 2364 2365 2366 2367 2368 2369 2370 2371 2372 2373

  constants()->remove_unshareable_info();

  for (int i = 0; i < methods()->length(); i++) {
    Method* m = methods()->at(i);
    m->remove_unshareable_info();
  }

  // do array classes also.
  array_klasses_do(remove_unshareable_in_class);
}

2374 2375 2376 2377
static void restore_unshareable_in_class(Klass* k, TRAPS) {
  // Array classes have null protection domain.
  // --> see ArrayKlass::complete_create_array_klass()
  k->restore_unshareable_info(ClassLoaderData::the_null_class_loader_data(), Handle(), CHECK);
2378 2379
}

2380 2381
void InstanceKlass::restore_unshareable_info(ClassLoaderData* loader_data, Handle protection_domain, TRAPS) {
  Klass::restore_unshareable_info(loader_data, protection_domain, CHECK);
2382 2383 2384 2385 2386 2387
  instanceKlassHandle ik(THREAD, this);

  Array<Method*>* methods = ik->methods();
  int num_methods = methods->length();
  for (int index2 = 0; index2 < num_methods; ++index2) {
    methodHandle m(THREAD, methods->at(index2));
2388
    m->restore_unshareable_info(CHECK);
2389 2390 2391 2392 2393 2394 2395 2396 2397 2398 2399 2400 2401 2402 2403 2404
  }
  if (JvmtiExport::has_redefined_a_class()) {
    // Reinitialize vtable because RedefineClasses may have changed some
    // entries in this vtable for super classes so the CDS vtable might
    // point to old or obsolete entries.  RedefineClasses doesn't fix up
    // vtables in the shared system dictionary, only the main one.
    // It also redefines the itable too so fix that too.
    ResourceMark rm(THREAD);
    ik->vtable()->initialize_vtable(false, CHECK);
    ik->itable()->initialize_itable(false, CHECK);
  }

  // restore constant pool resolved references
  ik->constants()->restore_unshareable_info(CHECK);

  ik->array_klasses_do(restore_unshareable_in_class, CHECK);
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}

2407 2408 2409 2410 2411 2412 2413 2414 2415 2416 2417 2418 2419 2420 2421 2422 2423 2424 2425 2426 2427 2428 2429 2430 2431 2432 2433 2434 2435 2436 2437 2438
// returns true IFF is_in_error_state() has been changed as a result of this call.
bool InstanceKlass::check_sharing_error_state() {
  assert(DumpSharedSpaces, "should only be called during dumping");
  bool old_state = is_in_error_state();

  if (!is_in_error_state()) {
    bool bad = false;
    for (InstanceKlass* sup = java_super(); sup; sup = sup->java_super()) {
      if (sup->is_in_error_state()) {
        bad = true;
        break;
      }
    }
    if (!bad) {
      Array<Klass*>* interfaces = transitive_interfaces();
      for (int i = 0; i < interfaces->length(); i++) {
        Klass* iface = interfaces->at(i);
        if (InstanceKlass::cast(iface)->is_in_error_state()) {
          bad = true;
          break;
        }
      }
    }

    if (bad) {
      set_in_error_state();
    }
  }

  return (old_state != is_in_error_state());
}

2439
static void clear_all_breakpoints(Method* m) {
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  m->clear_all_breakpoints();
}

2443 2444 2445 2446 2447 2448 2449 2450 2451 2452 2453 2454 2455 2456 2457 2458 2459

void InstanceKlass::notify_unload_class(InstanceKlass* ik) {
  // notify the debugger
  if (JvmtiExport::should_post_class_unload()) {
    JvmtiExport::post_class_unload(ik);
  }

  // notify ClassLoadingService of class unload
  ClassLoadingService::notify_class_unloaded(ik);
}

void InstanceKlass::release_C_heap_structures(InstanceKlass* ik) {
  // Clean up C heap
  ik->release_C_heap_structures();
  ik->constants()->release_C_heap_structures();
}

2460
void InstanceKlass::release_C_heap_structures() {
2461 2462 2463 2464 2465

  // Can't release the constant pool here because the constant pool can be
  // deallocated separately from the InstanceKlass for default methods and
  // redefine classes.

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  // Deallocate oop map cache
  if (_oop_map_cache != NULL) {
    delete _oop_map_cache;
    _oop_map_cache = NULL;
  }

  // Deallocate JNI identifiers for jfieldIDs
  JNIid::deallocate(jni_ids());
  set_jni_ids(NULL);

  jmethodID* jmeths = methods_jmethod_ids_acquire();
  if (jmeths != (jmethodID*)NULL) {
    release_set_methods_jmethod_ids(NULL);
    FreeHeap(jmeths);
  }

2482 2483 2484 2485 2486 2487 2488 2489 2490
  // Deallocate MemberNameTable
  {
    Mutex* lock_or_null = SafepointSynchronize::is_at_safepoint() ? NULL : MemberNameTable_lock;
    MutexLockerEx ml(lock_or_null, Mutex::_no_safepoint_check_flag);
    MemberNameTable* mnt = member_names();
    if (mnt != NULL) {
      delete mnt;
      set_member_names(NULL);
    }
2491 2492
  }

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  // release dependencies
  nmethodBucket* b = _dependencies;
  _dependencies = NULL;
  while (b != NULL) {
    nmethodBucket* next = b->next();
    delete b;
    b = next;
  }

  // Deallocate breakpoint records
  if (breakpoints() != 0x0) {
    methods_do(clear_all_breakpoints);
    assert(breakpoints() == 0x0, "should have cleared breakpoints");
  }

  // deallocate information about previous versions
  if (_previous_versions != NULL) {
    for (int i = _previous_versions->length() - 1; i >= 0; i--) {
      PreviousVersionNode * pv_node = _previous_versions->at(i);
      delete pv_node;
    }
    delete _previous_versions;
    _previous_versions = NULL;
  }

  // deallocate the cached class file
2519 2520 2521
  if (_cached_class_file != NULL) {
    os::free(_cached_class_file, mtClass);
    _cached_class_file = NULL;
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  }
2523 2524 2525 2526 2527 2528

  // Decrement symbol reference counts associated with the unloaded class.
  if (_name != NULL) _name->decrement_refcount();
  // unreference array name derived from this class name (arrays of an unloaded
  // class can't be referenced anymore).
  if (_array_name != NULL)  _array_name->decrement_refcount();
2529
  if (_source_debug_extension != NULL) FREE_C_HEAP_ARRAY(char, _source_debug_extension, mtClass);
2530 2531 2532

  assert(_total_instanceKlass_count >= 1, "Sanity check");
  Atomic::dec(&_total_instanceKlass_count);
2533 2534
}

2535
void InstanceKlass::set_source_debug_extension(char* array, int length) {
2536 2537 2538 2539 2540 2541 2542 2543 2544 2545 2546 2547 2548 2549 2550
  if (array == NULL) {
    _source_debug_extension = NULL;
  } else {
    // Adding one to the attribute length in order to store a null terminator
    // character could cause an overflow because the attribute length is
    // already coded with an u4 in the classfile, but in practice, it's
    // unlikely to happen.
    assert((length+1) > length, "Overflow checking");
    char* sde = NEW_C_HEAP_ARRAY(char, (length + 1), mtClass);
    for (int i = 0; i < length; i++) {
      sde[i] = array[i];
    }
    sde[length] = '\0';
    _source_debug_extension = sde;
  }
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}

2553
address InstanceKlass::static_field_addr(int offset) {
2554
  return (address)(offset + InstanceMirrorKlass::offset_of_static_fields() + cast_from_oop<intptr_t>(java_mirror()));
2555 2556 2557
}


2558
const char* InstanceKlass::signature_name() const {
2559 2560 2561 2562 2563 2564 2565 2566 2567 2568 2569 2570
  int hash_len = 0;
  char hash_buf[40];

  // If this is an anonymous class, append a hash to make the name unique
  if (is_anonymous()) {
    assert(EnableInvokeDynamic, "EnableInvokeDynamic was not set.");
    intptr_t hash = (java_mirror() != NULL) ? java_mirror()->identity_hash() : 0;
    sprintf(hash_buf, "/" UINTX_FORMAT, (uintx)hash);
    hash_len = (int)strlen(hash_buf);
  }

  // Get the internal name as a c string
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  const char* src = (const char*) (name()->as_C_string());
  const int src_length = (int)strlen(src);
2573 2574 2575 2576

  char* dest = NEW_RESOURCE_ARRAY(char, src_length + hash_len + 3);

  // Add L as type indicator
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  int dest_index = 0;
  dest[dest_index++] = 'L';
2579 2580 2581

  // Add the actual class name
  for (int src_index = 0; src_index < src_length; ) {
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    dest[dest_index++] = src[src_index++];
  }
2584 2585 2586 2587 2588 2589 2590

  // If we have a hash, append it
  for (int hash_index = 0; hash_index < hash_len; ) {
    dest[dest_index++] = hash_buf[hash_index++];
  }

  // Add the semicolon and the NULL
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  dest[dest_index++] = ';';
  dest[dest_index] = '\0';
  return dest;
}

// different verisons of is_same_class_package
2597 2598 2599
bool InstanceKlass::is_same_class_package(Klass* class2) {
  Klass* class1 = this;
  oop classloader1 = InstanceKlass::cast(class1)->class_loader();
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  Symbol* classname1 = class1->name();
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  if (class2->oop_is_objArray()) {
2603
    class2 = ObjArrayKlass::cast(class2)->bottom_klass();
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2604 2605
  }
  oop classloader2;
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  if (class2->oop_is_instance()) {
2607
    classloader2 = InstanceKlass::cast(class2)->class_loader();
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  } else {
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2609
    assert(class2->oop_is_typeArray(), "should be type array");
D
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2610 2611
    classloader2 = NULL;
  }
H
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2612
  Symbol* classname2 = class2->name();
D
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2613

2614
  return InstanceKlass::is_same_class_package(classloader1, classname1,
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2615 2616 2617
                                              classloader2, classname2);
}

2618 2619 2620
bool InstanceKlass::is_same_class_package(oop classloader2, Symbol* classname2) {
  Klass* class1 = this;
  oop classloader1 = InstanceKlass::cast(class1)->class_loader();
H
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2621
  Symbol* classname1 = class1->name();
D
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2622

2623
  return InstanceKlass::is_same_class_package(classloader1, classname1,
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2624 2625 2626 2627 2628
                                              classloader2, classname2);
}

// return true if two classes are in the same package, classloader
// and classname information is enough to determine a class's package
2629
bool InstanceKlass::is_same_class_package(oop class_loader1, Symbol* class_name1,
2630
                                          oop class_loader2, Symbol* class_name2) {
D
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2631 2632
  if (class_loader1 != class_loader2) {
    return false;
2633 2634
  } else if (class_name1 == class_name2) {
    return true;                // skip painful bytewise comparison
D
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2635 2636 2637
  } else {
    ResourceMark rm;

2638
    // The Symbol*'s are in UTF8 encoding. Since we only need to check explicitly
D
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2639 2640
    // for ASCII characters ('/', 'L', '['), we can keep them in UTF8 encoding.
    // Otherwise, we just compare jbyte values between the strings.
2641 2642
    const jbyte *name1 = class_name1->base();
    const jbyte *name2 = class_name2->base();
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2643

2644 2645
    const jbyte *last_slash1 = UTF8::strrchr(name1, class_name1->utf8_length(), '/');
    const jbyte *last_slash2 = UTF8::strrchr(name2, class_name2->utf8_length(), '/');
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2646 2647 2648 2649 2650 2651 2652 2653 2654 2655 2656 2657 2658 2659 2660 2661 2662 2663 2664 2665 2666 2667 2668 2669 2670 2671 2672 2673 2674 2675 2676 2677 2678 2679 2680

    if ((last_slash1 == NULL) || (last_slash2 == NULL)) {
      // One of the two doesn't have a package.  Only return true
      // if the other one also doesn't have a package.
      return last_slash1 == last_slash2;
    } else {
      // Skip over '['s
      if (*name1 == '[') {
        do {
          name1++;
        } while (*name1 == '[');
        if (*name1 != 'L') {
          // Something is terribly wrong.  Shouldn't be here.
          return false;
        }
      }
      if (*name2 == '[') {
        do {
          name2++;
        } while (*name2 == '[');
        if (*name2 != 'L') {
          // Something is terribly wrong.  Shouldn't be here.
          return false;
        }
      }

      // Check that package part is identical
      int length1 = last_slash1 - name1;
      int length2 = last_slash2 - name2;

      return UTF8::equal(name1, length1, name2, length2);
    }
  }
}

2681 2682 2683
// Returns true iff super_method can be overridden by a method in targetclassname
// See JSL 3rd edition 8.4.6.1
// Assumes name-signature match
2684 2685 2686
// "this" is InstanceKlass of super_method which must exist
// note that the InstanceKlass of the method in the targetclassname has not always been created yet
bool InstanceKlass::is_override(methodHandle super_method, Handle targetclassloader, Symbol* targetclassname, TRAPS) {
2687 2688 2689 2690 2691 2692 2693 2694 2695 2696 2697
   // Private methods can not be overridden
   if (super_method->is_private()) {
     return false;
   }
   // If super method is accessible, then override
   if ((super_method->is_protected()) ||
       (super_method->is_public())) {
     return true;
   }
   // Package-private methods are not inherited outside of package
   assert(super_method->is_package_private(), "must be package private");
2698
   return(is_same_class_package(targetclassloader(), targetclassname));
2699
}
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2700

2701
/* defined for now in jvm.cpp, for historical reasons *--
2702
Klass* InstanceKlass::compute_enclosing_class_impl(instanceKlassHandle self,
2703
                                                     Symbol*& simple_name_result, TRAPS) {
2704 2705 2706 2707 2708
  ...
}
*/

// tell if two classes have the same enclosing class (at package level)
2709 2710 2711
bool InstanceKlass::is_same_package_member_impl(instanceKlassHandle class1,
                                                Klass* class2_oop, TRAPS) {
  if (class2_oop == class1())                       return true;
H
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2712
  if (!class2_oop->oop_is_instance())  return false;
2713 2714 2715 2716 2717 2718 2719 2720 2721 2722 2723 2724 2725
  instanceKlassHandle class2(THREAD, class2_oop);

  // must be in same package before we try anything else
  if (!class1->is_same_class_package(class2->class_loader(), class2->name()))
    return false;

  // As long as there is an outer1.getEnclosingClass,
  // shift the search outward.
  instanceKlassHandle outer1 = class1;
  for (;;) {
    // As we walk along, look for equalities between outer1 and class2.
    // Eventually, the walks will terminate as outer1 stops
    // at the top-level class around the original class.
2726
    bool ignore_inner_is_member;
2727
    Klass* next = outer1->compute_enclosing_class(&ignore_inner_is_member,
2728
                                                    CHECK_false);
2729 2730 2731 2732 2733 2734 2735 2736
    if (next == NULL)  break;
    if (next == class2())  return true;
    outer1 = instanceKlassHandle(THREAD, next);
  }

  // Now do the same for class2.
  instanceKlassHandle outer2 = class2;
  for (;;) {
2737
    bool ignore_inner_is_member;
2738
    Klass* next = outer2->compute_enclosing_class(&ignore_inner_is_member,
2739
                                                    CHECK_false);
2740 2741 2742 2743 2744 2745 2746 2747 2748 2749 2750 2751
    if (next == NULL)  break;
    // Might as well check the new outer against all available values.
    if (next == class1())  return true;
    if (next == outer1())  return true;
    outer2 = instanceKlassHandle(THREAD, next);
  }

  // If by this point we have not found an equality between the
  // two classes, we know they are in separate package members.
  return false;
}

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2752

2753
jint InstanceKlass::compute_modifier_flags(TRAPS) const {
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2754 2755 2756
  jint access = access_flags().as_int();

  // But check if it happens to be member class.
2757
  instanceKlassHandle ik(THREAD, this);
2758 2759 2760 2761 2762 2763 2764 2765 2766 2767 2768 2769 2770 2771
  InnerClassesIterator iter(ik);
  for (; !iter.done(); iter.next()) {
    int ioff = iter.inner_class_info_index();
    // Inner class attribute can be zero, skip it.
    // Strange but true:  JVM spec. allows null inner class refs.
    if (ioff == 0) continue;

    // only look at classes that are already loaded
    // since we are looking for the flags for our self.
    Symbol* inner_name = ik->constants()->klass_name_at(ioff);
    if ((ik->name() == inner_name)) {
      // This is really a member class.
      access = iter.inner_access_flags();
      break;
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2772 2773 2774 2775 2776 2777
    }
  }
  // Remember to strip ACC_SUPER bit
  return (access & (~JVM_ACC_SUPER)) & JVM_ACC_WRITTEN_FLAGS;
}

2778
jint InstanceKlass::jvmti_class_status() const {
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2779 2780 2781 2782 2783 2784 2785 2786 2787 2788 2789 2790 2791 2792 2793 2794
  jint result = 0;

  if (is_linked()) {
    result |= JVMTI_CLASS_STATUS_VERIFIED | JVMTI_CLASS_STATUS_PREPARED;
  }

  if (is_initialized()) {
    assert(is_linked(), "Class status is not consistent");
    result |= JVMTI_CLASS_STATUS_INITIALIZED;
  }
  if (is_in_error_state()) {
    result |= JVMTI_CLASS_STATUS_ERROR;
  }
  return result;
}

2795
Method* InstanceKlass::method_at_itable(Klass* holder, int index, TRAPS) {
D
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2796 2797 2798 2799 2800 2801
  itableOffsetEntry* ioe = (itableOffsetEntry*)start_of_itable();
  int method_table_offset_in_words = ioe->offset()/wordSize;
  int nof_interfaces = (method_table_offset_in_words - itable_offset_in_words())
                       / itableOffsetEntry::size();

  for (int cnt = 0 ; ; cnt ++, ioe ++) {
T
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2802
    // If the interface isn't implemented by the receiver class,
D
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2803 2804
    // the VM should throw IncompatibleClassChangeError.
    if (cnt >= nof_interfaces) {
2805
      THROW_NULL(vmSymbols::java_lang_IncompatibleClassChangeError());
D
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2806 2807
    }

2808
    Klass* ik = ioe->interface_klass();
D
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2809 2810 2811
    if (ik == holder) break;
  }

2812 2813
  itableMethodEntry* ime = ioe->first_method_entry(this);
  Method* m = ime[index].method();
D
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2814
  if (m == NULL) {
2815
    THROW_NULL(vmSymbols::java_lang_AbstractMethodError());
D
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2816 2817 2818 2819
  }
  return m;
}

2820 2821 2822 2823 2824 2825

#if INCLUDE_JVMTI
// update default_methods for redefineclasses for methods that are
// not yet in the vtable due to concurrent subclass define and superinterface
// redefinition
// Note: those in the vtable, should have been updated via adjust_method_entries
2826
void InstanceKlass::adjust_default_methods(InstanceKlass* holder, bool* trace_name_printed) {
2827 2828
  // search the default_methods for uses of either obsolete or EMCP methods
  if (default_methods() != NULL) {
2829 2830 2831 2832 2833 2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844 2845 2846 2847 2848
    for (int index = 0; index < default_methods()->length(); index ++) {
      Method* old_method = default_methods()->at(index);
      if (old_method == NULL || old_method->method_holder() != holder || !old_method->is_old()) {
        continue; // skip uninteresting entries
      }
      assert(!old_method->is_deleted(), "default methods may not be deleted");

      Method* new_method = holder->method_with_idnum(old_method->orig_method_idnum());

      assert(new_method != NULL, "method_with_idnum() should not be NULL");
      assert(old_method != new_method, "sanity check");

      default_methods()->at_put(index, new_method);
      if (RC_TRACE_IN_RANGE(0x00100000, 0x00400000)) {
        if (!(*trace_name_printed)) {
          // RC_TRACE_MESG macro has an embedded ResourceMark
          RC_TRACE_MESG(("adjust: klassname=%s default methods from name=%s",
                         external_name(),
                         old_method->method_holder()->external_name()));
          *trace_name_printed = true;
2849
        }
2850 2851 2852
        RC_TRACE(0x00100000, ("default method update: %s(%s) ",
                              new_method->name()->as_C_string(),
                              new_method->signature()->as_C_string()));
2853 2854 2855 2856 2857 2858
      }
    }
  }
}
#endif // INCLUDE_JVMTI

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2859
// On-stack replacement stuff
2860
void InstanceKlass::add_osr_nmethod(nmethod* n) {
D
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2861 2862 2863 2864 2865
  // only one compilation can be active
  NEEDS_CLEANUP
  // This is a short non-blocking critical region, so the no safepoint check is ok.
  OsrList_lock->lock_without_safepoint_check();
  assert(n->is_osr_method(), "wrong kind of nmethod");
2866
  n->set_osr_link(osr_nmethods_head());
D
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2867
  set_osr_nmethods_head(n);
I
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2868 2869
  // Raise the highest osr level if necessary
  if (TieredCompilation) {
2870
    Method* m = n->method();
I
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2871 2872
    m->set_highest_osr_comp_level(MAX2(m->highest_osr_comp_level(), n->comp_level()));
  }
D
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2873 2874
  // Remember to unlock again
  OsrList_lock->unlock();
I
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2875 2876 2877 2878 2879 2880 2881 2882 2883 2884

  // Get rid of the osr methods for the same bci that have lower levels.
  if (TieredCompilation) {
    for (int l = CompLevel_limited_profile; l < n->comp_level(); l++) {
      nmethod *inv = lookup_osr_nmethod(n->method(), n->osr_entry_bci(), l, true);
      if (inv != NULL && inv->is_in_use()) {
        inv->make_not_entrant();
      }
    }
  }
D
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2885 2886 2887
}


2888
void InstanceKlass::remove_osr_nmethod(nmethod* n) {
D
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2889 2890 2891 2892 2893
  // This is a short non-blocking critical region, so the no safepoint check is ok.
  OsrList_lock->lock_without_safepoint_check();
  assert(n->is_osr_method(), "wrong kind of nmethod");
  nmethod* last = NULL;
  nmethod* cur  = osr_nmethods_head();
I
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2894
  int max_level = CompLevel_none;  // Find the max comp level excluding n
2895
  Method* m = n->method();
D
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2896 2897
  // Search for match
  while(cur != NULL && cur != n) {
2898
    if (TieredCompilation && m == cur->method()) {
I
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2899 2900 2901
      // Find max level before n
      max_level = MAX2(max_level, cur->comp_level());
    }
D
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2902
    last = cur;
2903
    cur = cur->osr_link();
D
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2904
  }
I
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2905
  nmethod* next = NULL;
D
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2906
  if (cur == n) {
I
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2907
    next = cur->osr_link();
D
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2908 2909
    if (last == NULL) {
      // Remove first element
I
iveresov 已提交
2910
      set_osr_nmethods_head(next);
D
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2911
    } else {
I
iveresov 已提交
2912
      last->set_osr_link(next);
D
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2913 2914
    }
  }
2915
  n->set_osr_link(NULL);
I
iveresov 已提交
2916 2917 2918 2919
  if (TieredCompilation) {
    cur = next;
    while (cur != NULL) {
      // Find max level after n
2920 2921 2922
      if (m == cur->method()) {
        max_level = MAX2(max_level, cur->comp_level());
      }
I
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2923 2924 2925 2926
      cur = cur->osr_link();
    }
    m->set_highest_osr_comp_level(max_level);
  }
D
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2927 2928 2929 2930
  // Remember to unlock again
  OsrList_lock->unlock();
}

2931 2932 2933 2934 2935 2936 2937 2938 2939 2940 2941 2942 2943 2944 2945 2946
int InstanceKlass::mark_osr_nmethods(const Method* m) {
  // This is a short non-blocking critical region, so the no safepoint check is ok.
  MutexLockerEx ml(OsrList_lock, Mutex::_no_safepoint_check_flag);
  nmethod* osr = osr_nmethods_head();
  int found = 0;
  while (osr != NULL) {
    assert(osr->is_osr_method(), "wrong kind of nmethod found in chain");
    if (osr->method() == m) {
      osr->mark_for_deoptimization();
      found++;
    }
    osr = osr->osr_link();
  }
  return found;
}

2947
nmethod* InstanceKlass::lookup_osr_nmethod(const Method* m, int bci, int comp_level, bool match_level) const {
D
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2948 2949 2950
  // This is a short non-blocking critical region, so the no safepoint check is ok.
  OsrList_lock->lock_without_safepoint_check();
  nmethod* osr = osr_nmethods_head();
I
iveresov 已提交
2951
  nmethod* best = NULL;
D
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2952 2953
  while (osr != NULL) {
    assert(osr->is_osr_method(), "wrong kind of nmethod found in chain");
I
iveresov 已提交
2954 2955 2956 2957 2958 2959
    // There can be a time when a c1 osr method exists but we are waiting
    // for a c2 version. When c2 completes its osr nmethod we will trash
    // the c1 version and only be able to find the c2 version. However
    // while we overflow in the c1 code at back branches we don't want to
    // try and switch to the same code as we are already running

D
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2960 2961
    if (osr->method() == m &&
        (bci == InvocationEntryBci || osr->osr_entry_bci() == bci)) {
I
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2962 2963 2964 2965 2966 2967 2968 2969 2970 2971 2972 2973 2974 2975 2976 2977
      if (match_level) {
        if (osr->comp_level() == comp_level) {
          // Found a match - return it.
          OsrList_lock->unlock();
          return osr;
        }
      } else {
        if (best == NULL || (osr->comp_level() > best->comp_level())) {
          if (osr->comp_level() == CompLevel_highest_tier) {
            // Found the best possible - return it.
            OsrList_lock->unlock();
            return osr;
          }
          best = osr;
        }
      }
D
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2978
    }
2979
    osr = osr->osr_link();
D
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2980 2981
  }
  OsrList_lock->unlock();
I
iveresov 已提交
2982 2983 2984
  if (best != NULL && best->comp_level() >= comp_level && match_level == false) {
    return best;
  }
D
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2985 2986 2987
  return NULL;
}

2988
bool InstanceKlass::add_member_name(Handle mem_name) {
2989 2990 2991 2992
  jweak mem_name_wref = JNIHandles::make_weak_global(mem_name);
  MutexLocker ml(MemberNameTable_lock);
  DEBUG_ONLY(No_Safepoint_Verifier nsv);

2993 2994 2995 2996 2997 2998 2999 3000 3001
  // Check if method has been redefined while taking out MemberNameTable_lock, if so
  // return false.  We cannot cache obsolete methods. They will crash when the function
  // is called!
  Method* method = (Method*)java_lang_invoke_MemberName::vmtarget(mem_name());
  if (method->is_obsolete()) {
    return false;
  } else if (method->is_old()) {
    // Replace method with redefined version
    java_lang_invoke_MemberName::set_vmtarget(mem_name(), method_with_idnum(method->method_idnum()));
3002
  }
3003 3004

  if (_member_names == NULL) {
3005
    _member_names = new (ResourceObj::C_HEAP, mtClass) MemberNameTable(idnum_allocated_count());
3006
  }
3007 3008
  _member_names->add_member_name(mem_name_wref);
  return true;
3009 3010
}

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3011 3012 3013
// -----------------------------------------------------------------------------------------------------
// Printing

3014 3015
#ifndef PRODUCT

3016 3017
#define BULLET  " - "

3018 3019 3020 3021
static const char* state_names[] = {
  "allocated", "loaded", "linked", "being_initialized", "fully_initialized", "initialization_error"
};

3022 3023 3024 3025 3026 3027 3028 3029 3030 3031 3032 3033
static void print_vtable(intptr_t* start, int len, outputStream* st) {
  for (int i = 0; i < len; i++) {
    intptr_t e = start[i];
    st->print("%d : " INTPTR_FORMAT, i, e);
    if (e != 0 && ((Metadata*)e)->is_metaspace_object()) {
      st->print(" ");
      ((Metadata*)e)->print_value_on(st);
    }
    st->cr();
  }
}

3034 3035 3036 3037 3038 3039 3040
void InstanceKlass::print_on(outputStream* st) const {
  assert(is_klass(), "must be klass");
  Klass::print_on(st);

  st->print(BULLET"instance size:     %d", size_helper());                        st->cr();
  st->print(BULLET"klass size:        %d", size());                               st->cr();
  st->print(BULLET"access:            "); access_flags().print_on(st);            st->cr();
3041
  st->print(BULLET"state:             "); st->print_cr("%s", state_names[_init_state]);
3042 3043 3044 3045 3046 3047 3048 3049 3050 3051 3052 3053 3054 3055 3056 3057 3058 3059 3060 3061 3062 3063 3064 3065 3066 3067
  st->print(BULLET"name:              "); name()->print_value_on(st);             st->cr();
  st->print(BULLET"super:             "); super()->print_value_on_maybe_null(st); st->cr();
  st->print(BULLET"sub:               ");
  Klass* sub = subklass();
  int n;
  for (n = 0; sub != NULL; n++, sub = sub->next_sibling()) {
    if (n < MaxSubklassPrintSize) {
      sub->print_value_on(st);
      st->print("   ");
    }
  }
  if (n >= MaxSubklassPrintSize) st->print("(%d more klasses...)", n - MaxSubklassPrintSize);
  st->cr();

  if (is_interface()) {
    st->print_cr(BULLET"nof implementors:  %d", nof_implementors());
    if (nof_implementors() == 1) {
      st->print_cr(BULLET"implementor:    ");
      st->print("   ");
      implementor()->print_value_on(st);
      st->cr();
    }
  }

  st->print(BULLET"arrays:            "); array_klasses()->print_value_on_maybe_null(st); st->cr();
  st->print(BULLET"methods:           "); methods()->print_value_on(st);                  st->cr();
3068
  if (Verbose || WizardMode) {
3069
    Array<Method*>* method_array = methods();
3070
    for (int i = 0; i < method_array->length(); i++) {
3071 3072 3073
      st->print("%d : ", i); method_array->at(i)->print_value(); st->cr();
    }
  }
3074 3075 3076 3077 3078 3079 3080 3081 3082 3083 3084
  st->print(BULLET"method ordering:   "); method_ordering()->print_value_on(st);      st->cr();
  st->print(BULLET"default_methods:   "); default_methods()->print_value_on(st);      st->cr();
  if (Verbose && default_methods() != NULL) {
    Array<Method*>* method_array = default_methods();
    for (int i = 0; i < method_array->length(); i++) {
      st->print("%d : ", i); method_array->at(i)->print_value(); st->cr();
    }
  }
  if (default_vtable_indices() != NULL) {
    st->print(BULLET"default vtable indices:   "); default_vtable_indices()->print_value_on(st);       st->cr();
  }
3085 3086 3087 3088 3089 3090 3091 3092 3093 3094 3095 3096 3097 3098 3099 3100 3101 3102 3103
  st->print(BULLET"local interfaces:  "); local_interfaces()->print_value_on(st);      st->cr();
  st->print(BULLET"trans. interfaces: "); transitive_interfaces()->print_value_on(st); st->cr();
  st->print(BULLET"constants:         "); constants()->print_value_on(st);         st->cr();
  if (class_loader_data() != NULL) {
    st->print(BULLET"class loader data:  ");
    class_loader_data()->print_value_on(st);
    st->cr();
  }
  st->print(BULLET"host class:        "); host_klass()->print_value_on_maybe_null(st); st->cr();
  if (source_file_name() != NULL) {
    st->print(BULLET"source file:       ");
    source_file_name()->print_value_on(st);
    st->cr();
  }
  if (source_debug_extension() != NULL) {
    st->print(BULLET"source debug extension:       ");
    st->print("%s", source_debug_extension());
    st->cr();
  }
C
coleenp 已提交
3104 3105 3106 3107
  st->print(BULLET"class annotations:       "); class_annotations()->print_value_on(st); st->cr();
  st->print(BULLET"class type annotations:  "); class_type_annotations()->print_value_on(st); st->cr();
  st->print(BULLET"field annotations:       "); fields_annotations()->print_value_on(st); st->cr();
  st->print(BULLET"field type annotations:  "); fields_type_annotations()->print_value_on(st); st->cr();
3108
  {
3109 3110 3111 3112 3113 3114 3115 3116 3117 3118 3119
    bool have_pv = false;
    PreviousVersionWalker pvw(Thread::current(), (InstanceKlass*)this);
    for (PreviousVersionNode * pv_node = pvw.next_previous_version();
         pv_node != NULL; pv_node = pvw.next_previous_version()) {
      if (!have_pv)
        st->print(BULLET"previous version:  ");
      have_pv = true;
      pv_node->prev_constant_pool()->print_value_on(st);
    }
    if (have_pv) st->cr();
  } // pvw is cleaned up
3120 3121 3122 3123 3124 3125 3126 3127 3128

  if (generic_signature() != NULL) {
    st->print(BULLET"generic signature: ");
    generic_signature()->print_value_on(st);
    st->cr();
  }
  st->print(BULLET"inner classes:     "); inner_classes()->print_value_on(st);     st->cr();
  st->print(BULLET"java mirror:       "); java_mirror()->print_value_on(st);       st->cr();
  st->print(BULLET"vtable length      %d  (start addr: " INTPTR_FORMAT ")", vtable_length(), start_of_vtable());  st->cr();
3129
  if (vtable_length() > 0 && (Verbose || WizardMode))  print_vtable(start_of_vtable(), vtable_length(), st);
3130
  st->print(BULLET"itable length      %d (start addr: " INTPTR_FORMAT ")", itable_length(), start_of_itable()); st->cr();
3131
  if (itable_length() > 0 && (Verbose || WizardMode))  print_vtable(start_of_itable(), itable_length(), st);
3132 3133 3134 3135 3136 3137 3138 3139 3140 3141 3142 3143 3144 3145 3146 3147 3148 3149 3150 3151 3152
  st->print_cr(BULLET"---- static fields (%d words):", static_field_size());
  FieldPrinter print_static_field(st);
  ((InstanceKlass*)this)->do_local_static_fields(&print_static_field);
  st->print_cr(BULLET"---- non-static fields (%d words):", nonstatic_field_size());
  FieldPrinter print_nonstatic_field(st);
  ((InstanceKlass*)this)->do_nonstatic_fields(&print_nonstatic_field);

  st->print(BULLET"non-static oop maps: ");
  OopMapBlock* map     = start_of_nonstatic_oop_maps();
  OopMapBlock* end_map = map + nonstatic_oop_map_count();
  while (map < end_map) {
    st->print("%d-%d ", map->offset(), map->offset() + heapOopSize*(map->count() - 1));
    map++;
  }
  st->cr();
}

#endif //PRODUCT

void InstanceKlass::print_value_on(outputStream* st) const {
  assert(is_klass(), "must be klass");
3153
  if (Verbose || WizardMode)  access_flags().print_on(st);
3154 3155 3156 3157 3158
  name()->print_value_on(st);
}

#ifndef PRODUCT

D
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3159
void FieldPrinter::do_field(fieldDescriptor* fd) {
3160
  _st->print(BULLET);
3161
   if (_obj == NULL) {
D
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3162 3163 3164 3165 3166 3167 3168 3169 3170
     fd->print_on(_st);
     _st->cr();
   } else {
     fd->print_on_for(_st, _obj);
     _st->cr();
   }
}


3171
void InstanceKlass::oop_print_on(oop obj, outputStream* st) {
D
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3172 3173
  Klass::oop_print_on(obj, st);

3174
  if (this == SystemDictionary::String_klass()) {
D
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3175 3176 3177 3178 3179 3180 3181
    typeArrayOop value  = java_lang_String::value(obj);
    juint        offset = java_lang_String::offset(obj);
    juint        length = java_lang_String::length(obj);
    if (value != NULL &&
        value->is_typeArray() &&
        offset          <= (juint) value->length() &&
        offset + length <= (juint) value->length()) {
3182
      st->print(BULLET"string: ");
3183
      java_lang_String::print(obj, st);
D
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3184 3185 3186 3187 3188
      st->cr();
      if (!WizardMode)  return;  // that is enough
    }
  }

3189
  st->print_cr(BULLET"---- fields (total size %d words):", oop_size(obj));
3190 3191
  FieldPrinter print_field(st, obj);
  do_nonstatic_fields(&print_field);
D
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3192

3193
  if (this == SystemDictionary::Class_klass()) {
3194 3195 3196
    st->print(BULLET"signature: ");
    java_lang_Class::print_signature(obj, st);
    st->cr();
3197
    Klass* mirrored_klass = java_lang_Class::as_Klass(obj);
3198
    st->print(BULLET"fake entry for mirror: ");
3199
    mirrored_klass->print_value_on_maybe_null(st);
D
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3200
    st->cr();
3201
    Klass* array_klass = java_lang_Class::array_klass(obj);
3202
    st->print(BULLET"fake entry for array: ");
3203
    array_klass->print_value_on_maybe_null(st);
D
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3204
    st->cr();
3205 3206
    st->print_cr(BULLET"fake entry for oop_size: %d", java_lang_Class::oop_size(obj));
    st->print_cr(BULLET"fake entry for static_oop_field_count: %d", java_lang_Class::static_oop_field_count(obj));
3207 3208 3209
    Klass* real_klass = java_lang_Class::as_Klass(obj);
    if (real_klass != NULL && real_klass->oop_is_instance()) {
      InstanceKlass::cast(real_klass)->do_local_static_fields(&print_field);
3210
    }
3211
  } else if (this == SystemDictionary::MethodType_klass()) {
3212
    st->print(BULLET"signature: ");
3213
    java_lang_invoke_MethodType::print_signature(obj, st);
3214
    st->cr();
D
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3215 3216 3217
  }
}

3218 3219
#endif //PRODUCT

3220
void InstanceKlass::oop_print_value_on(oop obj, outputStream* st) {
D
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3221 3222 3223
  st->print("a ");
  name()->print_value_on(st);
  obj->print_address_on(st);
3224
  if (this == SystemDictionary::String_klass()
3225 3226 3227 3228 3229 3230 3231 3232
      && java_lang_String::value(obj) != NULL) {
    ResourceMark rm;
    int len = java_lang_String::length(obj);
    int plen = (len < 24 ? len : 12);
    char* str = java_lang_String::as_utf8_string(obj, 0, plen);
    st->print(" = \"%s\"", str);
    if (len > plen)
      st->print("...[%d]", len);
3233 3234
  } else if (this == SystemDictionary::Class_klass()) {
    Klass* k = java_lang_Class::as_Klass(obj);
3235 3236 3237 3238 3239 3240 3241
    st->print(" = ");
    if (k != NULL) {
      k->print_value_on(st);
    } else {
      const char* tname = type2name(java_lang_Class::primitive_type(obj));
      st->print("%s", tname ? tname : "type?");
    }
3242
  } else if (this == SystemDictionary::MethodType_klass()) {
3243
    st->print(" = ");
3244
    java_lang_invoke_MethodType::print_signature(obj, st);
3245 3246 3247
  } else if (java_lang_boxing_object::is_instance(obj)) {
    st->print(" = ");
    java_lang_boxing_object::print(obj, st);
3248
  } else if (this == SystemDictionary::LambdaForm_klass()) {
3249 3250 3251 3252 3253
    oop vmentry = java_lang_invoke_LambdaForm::vmentry(obj);
    if (vmentry != NULL) {
      st->print(" => ");
      vmentry->print_value_on(st);
    }
3254 3255
  } else if (this == SystemDictionary::MemberName_klass()) {
    Metadata* vmtarget = java_lang_invoke_MemberName::vmtarget(obj);
3256 3257 3258 3259 3260 3261 3262 3263
    if (vmtarget != NULL) {
      st->print(" = ");
      vmtarget->print_value_on(st);
    } else {
      java_lang_invoke_MemberName::clazz(obj)->print_value_on(st);
      st->print(".");
      java_lang_invoke_MemberName::name(obj)->print_value_on(st);
    }
3264
  }
D
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3265 3266
}

3267
const char* InstanceKlass::internal_name() const {
D
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3268 3269 3270
  return external_name();
}

3271 3272 3273 3274 3275 3276 3277 3278 3279 3280 3281 3282 3283 3284 3285 3286 3287 3288 3289 3290 3291 3292 3293 3294 3295 3296 3297 3298 3299 3300 3301 3302 3303 3304 3305 3306 3307 3308 3309 3310 3311 3312 3313 3314 3315
#if INCLUDE_SERVICES
// Size Statistics
void InstanceKlass::collect_statistics(KlassSizeStats *sz) const {
  Klass::collect_statistics(sz);

  sz->_inst_size  = HeapWordSize * size_helper();
  sz->_vtab_bytes = HeapWordSize * align_object_offset(vtable_length());
  sz->_itab_bytes = HeapWordSize * align_object_offset(itable_length());
  sz->_nonstatic_oopmap_bytes = HeapWordSize *
        ((is_interface() || is_anonymous()) ?
         align_object_offset(nonstatic_oop_map_size()) :
         nonstatic_oop_map_size());

  int n = 0;
  n += (sz->_methods_array_bytes         = sz->count_array(methods()));
  n += (sz->_method_ordering_bytes       = sz->count_array(method_ordering()));
  n += (sz->_local_interfaces_bytes      = sz->count_array(local_interfaces()));
  n += (sz->_transitive_interfaces_bytes = sz->count_array(transitive_interfaces()));
  n += (sz->_fields_bytes                = sz->count_array(fields()));
  n += (sz->_inner_classes_bytes         = sz->count_array(inner_classes()));
  sz->_ro_bytes += n;

  const ConstantPool* cp = constants();
  if (cp) {
    cp->collect_statistics(sz);
  }

  const Annotations* anno = annotations();
  if (anno) {
    anno->collect_statistics(sz);
  }

  const Array<Method*>* methods_array = methods();
  if (methods()) {
    for (int i = 0; i < methods_array->length(); i++) {
      Method* method = methods_array->at(i);
      if (method) {
        sz->_method_count ++;
        method->collect_statistics(sz);
      }
    }
  }
}
#endif // INCLUDE_SERVICES

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3316 3317 3318
// Verification

class VerifyFieldClosure: public OopClosure {
3319 3320 3321 3322 3323
 protected:
  template <class T> void do_oop_work(T* p) {
    oop obj = oopDesc::load_decode_heap_oop(p);
    if (!obj->is_oop_or_null()) {
      tty->print_cr("Failed: " PTR_FORMAT " -> " PTR_FORMAT, p, (address)obj);
D
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3324 3325 3326 3327
      Universe::print();
      guarantee(false, "boom");
    }
  }
3328 3329 3330
 public:
  virtual void do_oop(oop* p)       { VerifyFieldClosure::do_oop_work(p); }
  virtual void do_oop(narrowOop* p) { VerifyFieldClosure::do_oop_work(p); }
D
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3331 3332
};

3333
void InstanceKlass::verify_on(outputStream* st) {
3334
#ifndef PRODUCT
3335
  // Avoid redundant verifies, this really should be in product.
3336 3337 3338
  if (_verify_count == Universe::verify_count()) return;
  _verify_count = Universe::verify_count();
#endif
3339 3340

  // Verify Klass
3341
  Klass::verify_on(st);
3342

3343 3344 3345
  // Verify that klass is present in ClassLoaderData
  guarantee(class_loader_data()->contains_klass(this),
            "this class isn't found in class loader data");
3346 3347 3348

  // Verify vtables
  if (is_linked()) {
3349
    ResourceMark rm;
3350 3351 3352 3353 3354 3355 3356 3357 3358 3359 3360 3361 3362 3363 3364 3365 3366 3367 3368 3369 3370 3371 3372 3373 3374 3375 3376
    // $$$ This used to be done only for m/s collections.  Doing it
    // always seemed a valid generalization.  (DLD -- 6/00)
    vtable()->verify(st);
  }

  // Verify first subklass
  if (subklass_oop() != NULL) {
    guarantee(subklass_oop()->is_klass(), "should be klass");
  }

  // Verify siblings
  Klass* super = this->super();
  Klass* sib = next_sibling();
  if (sib != NULL) {
    if (sib == this) {
      fatal(err_msg("subclass points to itself " PTR_FORMAT, sib));
    }

    guarantee(sib->is_klass(), "should be klass");
    guarantee(sib->super() == super, "siblings should have same superklass");
  }

  // Verify implementor fields
  Klass* im = implementor();
  if (im != NULL) {
    guarantee(is_interface(), "only interfaces should have implementor set");
    guarantee(im->is_klass(), "should be klass");
H
hseigel 已提交
3377
    guarantee(!im->is_interface() || im == this,
3378 3379 3380 3381 3382 3383 3384 3385
      "implementors cannot be interfaces");
  }

  // Verify local interfaces
  if (local_interfaces()) {
    Array<Klass*>* local_interfaces = this->local_interfaces();
    for (int j = 0; j < local_interfaces->length(); j++) {
      Klass* e = local_interfaces->at(j);
H
hseigel 已提交
3386
      guarantee(e->is_klass() && e->is_interface(), "invalid local interface");
3387 3388 3389 3390 3391 3392 3393 3394
    }
  }

  // Verify transitive interfaces
  if (transitive_interfaces() != NULL) {
    Array<Klass*>* transitive_interfaces = this->transitive_interfaces();
    for (int j = 0; j < transitive_interfaces->length(); j++) {
      Klass* e = transitive_interfaces->at(j);
H
hseigel 已提交
3395
      guarantee(e->is_klass() && e->is_interface(), "invalid transitive interface");
3396 3397 3398 3399 3400 3401 3402 3403 3404 3405 3406 3407 3408 3409 3410 3411 3412 3413 3414 3415 3416
    }
  }

  // Verify methods
  if (methods() != NULL) {
    Array<Method*>* methods = this->methods();
    for (int j = 0; j < methods->length(); j++) {
      guarantee(methods->at(j)->is_method(), "non-method in methods array");
    }
    for (int j = 0; j < methods->length() - 1; j++) {
      Method* m1 = methods->at(j);
      Method* m2 = methods->at(j + 1);
      guarantee(m1->name()->fast_compare(m2->name()) <= 0, "methods not sorted correctly");
    }
  }

  // Verify method ordering
  if (method_ordering() != NULL) {
    Array<int>* method_ordering = this->method_ordering();
    int length = method_ordering->length();
    if (JvmtiExport::can_maintain_original_method_order() ||
3417
        ((UseSharedSpaces || DumpSharedSpaces) && length != 0)) {
3418 3419 3420 3421 3422 3423 3424 3425 3426 3427 3428 3429 3430 3431 3432
      guarantee(length == methods()->length(), "invalid method ordering length");
      jlong sum = 0;
      for (int j = 0; j < length; j++) {
        int original_index = method_ordering->at(j);
        guarantee(original_index >= 0, "invalid method ordering index");
        guarantee(original_index < length, "invalid method ordering index");
        sum += original_index;
      }
      // Verify sum of indices 0,1,...,length-1
      guarantee(sum == ((jlong)length*(length-1))/2, "invalid method ordering sum");
    } else {
      guarantee(length == 0, "invalid method ordering length");
    }
  }

3433 3434 3435 3436 3437 3438 3439 3440 3441 3442 3443 3444 3445
  // Verify default methods
  if (default_methods() != NULL) {
    Array<Method*>* methods = this->default_methods();
    for (int j = 0; j < methods->length(); j++) {
      guarantee(methods->at(j)->is_method(), "non-method in methods array");
    }
    for (int j = 0; j < methods->length() - 1; j++) {
      Method* m1 = methods->at(j);
      Method* m2 = methods->at(j + 1);
      guarantee(m1->name()->fast_compare(m2->name()) <= 0, "methods not sorted correctly");
    }
  }

3446 3447 3448 3449 3450 3451 3452 3453 3454 3455 3456 3457
  // Verify JNI static field identifiers
  if (jni_ids() != NULL) {
    jni_ids()->verify(this);
  }

  // Verify other fields
  if (array_klasses() != NULL) {
    guarantee(array_klasses()->is_klass(), "should be klass");
  }
  if (constants() != NULL) {
    guarantee(constants()->is_constantPool(), "should be constant pool");
  }
3458 3459 3460
  const Klass* host = host_klass();
  if (host != NULL) {
    guarantee(host->is_klass(), "should be klass");
3461 3462 3463 3464
  }
}

void InstanceKlass::oop_verify_on(oop obj, outputStream* st) {
D
duke 已提交
3465 3466
  Klass::oop_verify_on(obj, st);
  VerifyFieldClosure blk;
3467
  obj->oop_iterate_no_header(&blk);
D
duke 已提交
3468 3469
}

3470

3471 3472 3473 3474
// JNIid class for jfieldIDs only
// Note to reviewers:
// These JNI functions are just moved over to column 1 and not changed
// in the compressed oops workspace.
3475
JNIid::JNIid(Klass* holder, int offset, JNIid* next) {
3476 3477 3478 3479 3480
  _holder = holder;
  _offset = offset;
  _next = next;
  debug_only(_is_static_field_id = false;)
}
D
duke 已提交
3481 3482


3483 3484 3485 3486 3487 3488 3489 3490
JNIid* JNIid::find(int offset) {
  JNIid* current = this;
  while (current != NULL) {
    if (current->offset() == offset) return current;
    current = current->next();
  }
  return NULL;
}
D
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3491 3492

void JNIid::deallocate(JNIid* current) {
3493 3494 3495 3496 3497 3498 3499
  while (current != NULL) {
    JNIid* next = current->next();
    delete current;
    current = next;
  }
}

D
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3500

3501
void JNIid::verify(Klass* holder) {
3502
  int first_field_offset  = InstanceMirrorKlass::offset_of_static_fields();
3503
  int end_field_offset;
3504
  end_field_offset = first_field_offset + (InstanceKlass::cast(holder)->static_field_size() * wordSize);
D
duke 已提交
3505

3506 3507 3508
  JNIid* current = this;
  while (current != NULL) {
    guarantee(current->holder() == holder, "Invalid klass in JNIid");
D
duke 已提交
3509
#ifdef ASSERT
3510 3511 3512 3513 3514 3515
    int o = current->offset();
    if (current->is_static_field_id()) {
      guarantee(o >= first_field_offset  && o < end_field_offset,  "Invalid static field offset in JNIid");
    }
#endif
    current = current->next();
D
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3516
  }
3517 3518 3519 3520
}


#ifdef ASSERT
3521 3522
void InstanceKlass::set_init_state(ClassState state) {
  bool good_state = is_shared() ? (_init_state <= state)
3523 3524
                                               : (_init_state < state);
  assert(good_state || state == allocated, "illegal state transition");
3525
  _init_state = (u1)state;
3526
}
D
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3527 3528 3529 3530 3531
#endif


// RedefineClasses() support for previous versions:

3532 3533 3534 3535 3536 3537 3538 3539 3540 3541 3542 3543 3544 3545 3546 3547 3548 3549 3550 3551 3552 3553 3554 3555 3556 3557 3558 3559 3560 3561 3562 3563 3564 3565 3566 3567 3568 3569 3570 3571 3572 3573 3574 3575 3576 3577 3578 3579 3580 3581 3582 3583 3584 3585 3586 3587 3588 3589 3590 3591 3592 3593 3594 3595 3596 3597 3598 3599 3600 3601 3602 3603 3604 3605 3606 3607 3608 3609 3610 3611 3612 3613 3614 3615 3616 3617 3618 3619 3620 3621 3622 3623
// Purge previous versions
static void purge_previous_versions_internal(InstanceKlass* ik, int emcp_method_count) {
  if (ik->previous_versions() != NULL) {
    // This klass has previous versions so see what we can cleanup
    // while it is safe to do so.

    int deleted_count = 0;    // leave debugging breadcrumbs
    int live_count = 0;
    ClassLoaderData* loader_data = ik->class_loader_data() == NULL ?
                       ClassLoaderData::the_null_class_loader_data() :
                       ik->class_loader_data();

    // RC_TRACE macro has an embedded ResourceMark
    RC_TRACE(0x00000200, ("purge: %s: previous version length=%d",
      ik->external_name(), ik->previous_versions()->length()));

    for (int i = ik->previous_versions()->length() - 1; i >= 0; i--) {
      // check the previous versions array
      PreviousVersionNode * pv_node = ik->previous_versions()->at(i);
      ConstantPool* cp_ref = pv_node->prev_constant_pool();
      assert(cp_ref != NULL, "cp ref was unexpectedly cleared");

      ConstantPool* pvcp = cp_ref;
      if (!pvcp->on_stack()) {
        // If the constant pool isn't on stack, none of the methods
        // are executing.  Delete all the methods, the constant pool and
        // and this previous version node.
        GrowableArray<Method*>* method_refs = pv_node->prev_EMCP_methods();
        if (method_refs != NULL) {
          for (int j = method_refs->length() - 1; j >= 0; j--) {
            Method* method = method_refs->at(j);
            assert(method != NULL, "method ref was unexpectedly cleared");
            method_refs->remove_at(j);
            // method will be freed with associated class.
          }
        }
        // Remove the constant pool
        delete pv_node;
        // Since we are traversing the array backwards, we don't have to
        // do anything special with the index.
        ik->previous_versions()->remove_at(i);
        deleted_count++;
        continue;
      } else {
        RC_TRACE(0x00000200, ("purge: previous version @%d is alive", i));
        assert(pvcp->pool_holder() != NULL, "Constant pool with no holder");
        guarantee (!loader_data->is_unloading(), "unloaded classes can't be on the stack");
        live_count++;
      }

      // At least one method is live in this previous version, clean out
      // the others or mark them as obsolete.
      GrowableArray<Method*>* method_refs = pv_node->prev_EMCP_methods();
      if (method_refs != NULL) {
        RC_TRACE(0x00000200, ("purge: previous methods length=%d",
          method_refs->length()));
        for (int j = method_refs->length() - 1; j >= 0; j--) {
          Method* method = method_refs->at(j);
          assert(method != NULL, "method ref was unexpectedly cleared");

          // Remove the emcp method if it's not executing
          // If it's been made obsolete by a redefinition of a non-emcp
          // method, mark it as obsolete but leave it to clean up later.
          if (!method->on_stack()) {
            method_refs->remove_at(j);
          } else if (emcp_method_count == 0) {
            method->set_is_obsolete();
          } else {
            // RC_TRACE macro has an embedded ResourceMark
            RC_TRACE(0x00000200,
              ("purge: %s(%s): prev method @%d in version @%d is alive",
              method->name()->as_C_string(),
              method->signature()->as_C_string(), j, i));
          }
        }
      }
    }
    assert(ik->previous_versions()->length() == live_count, "sanity check");
    RC_TRACE(0x00000200,
      ("purge: previous version stats: live=%d, deleted=%d", live_count,
      deleted_count));
  }
}

// External interface for use during class unloading.
void InstanceKlass::purge_previous_versions(InstanceKlass* ik) {
  // Call with >0 emcp methods since they are not currently being redefined.
  purge_previous_versions_internal(ik, 1);
}


// Potentially add an information node that contains pointers to the
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// interesting parts of the previous version of the_class.
3625
// This is also where we clean out any unused references.
3626 3627 3628 3629
// Note that while we delete nodes from the _previous_versions
// array, we never delete the array itself until the klass is
// unloaded. The has_been_redefined() query depends on that fact.
//
3630
void InstanceKlass::add_previous_version(instanceKlassHandle ikh,
3631
       BitMap* emcp_methods, int emcp_method_count) {
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  assert(Thread::current()->is_VM_thread(),
3633
         "only VMThread can add previous versions");
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  if (_previous_versions == NULL) {
    // This is the first previous version so make some space.
    // Start with 2 elements under the assumption that the class
    // won't be redefined much.
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    _previous_versions =  new (ResourceObj::C_HEAP, mtClass)
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                            GrowableArray<PreviousVersionNode *>(2, true);
  }

3643 3644
  ConstantPool* cp_ref = ikh->constants();

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  // RC_TRACE macro has an embedded ResourceMark
3646 3647 3648 3649 3650 3651 3652 3653 3654 3655 3656 3657 3658
  RC_TRACE(0x00000400, ("adding previous version ref for %s @%d, EMCP_cnt=%d "
                        "on_stack=%d",
    ikh->external_name(), _previous_versions->length(), emcp_method_count,
    cp_ref->on_stack()));

  // If the constant pool for this previous version of the class
  // is not marked as being on the stack, then none of the methods
  // in this previous version of the class are on the stack so
  // we don't need to create a new PreviousVersionNode. However,
  // we still need to examine older previous versions below.
  Array<Method*>* old_methods = ikh->methods();

  if (cp_ref->on_stack()) {
3659 3660
    PreviousVersionNode * pv_node = NULL;
    if (emcp_method_count == 0) {
3661
      // non-shared ConstantPool gets a reference
3662 3663 3664 3665 3666
      pv_node = new PreviousVersionNode(cp_ref, NULL);
      RC_TRACE(0x00000400,
          ("add: all methods are obsolete; flushing any EMCP refs"));
    } else {
      int local_count = 0;
3667
      GrowableArray<Method*>* method_refs = new (ResourceObj::C_HEAP, mtClass)
3668 3669 3670 3671 3672 3673 3674 3675 3676 3677 3678
          GrowableArray<Method*>(emcp_method_count, true);
      for (int i = 0; i < old_methods->length(); i++) {
        if (emcp_methods->at(i)) {
            // this old method is EMCP. Save it only if it's on the stack
            Method* old_method = old_methods->at(i);
            if (old_method->on_stack()) {
              method_refs->append(old_method);
            }
          if (++local_count >= emcp_method_count) {
            // no more EMCP methods so bail out now
            break;
3679
          }
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        }
      }
3682
      // non-shared ConstantPool gets a reference
3683
      pv_node = new PreviousVersionNode(cp_ref, method_refs);
3684 3685
    }
    // append new previous version.
3686
    _previous_versions->append(pv_node);
3687
  }
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3689 3690
  // Since the caller is the VMThread and we are at a safepoint, this
  // is a good time to clear out unused references.
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  RC_TRACE(0x00000400, ("add: previous version length=%d",
    _previous_versions->length()));

3695 3696
  // Purge previous versions not executing on the stack
  purge_previous_versions_internal(this, emcp_method_count);
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  int obsolete_method_count = old_methods->length() - emcp_method_count;

  if (emcp_method_count != 0 && obsolete_method_count != 0 &&
3701 3702
      _previous_versions->length() > 0) {
    // We have a mix of obsolete and EMCP methods so we have to
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    // clear out any matching EMCP method entries the hard way.
    int local_count = 0;
    for (int i = 0; i < old_methods->length(); i++) {
      if (!emcp_methods->at(i)) {
        // only obsolete methods are interesting
3708
        Method* old_method = old_methods->at(i);
3709 3710
        Symbol* m_name = old_method->name();
        Symbol* m_signature = old_method->signature();
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3712 3713 3714 3715
        // we might not have added the last entry
        for (int j = _previous_versions->length() - 1; j >= 0; j--) {
          // check the previous versions array for non executing obsolete methods
          PreviousVersionNode * pv_node = _previous_versions->at(j);
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3717
          GrowableArray<Method*>* method_refs = pv_node->prev_EMCP_methods();
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          if (method_refs == NULL) {
            // We have run into a PreviousVersion generation where
            // all methods were made obsolete during that generation's
            // RedefineClasses() operation. At the time of that
            // operation, all EMCP methods were flushed so we don't
            // have to go back any further.
            //
            // A NULL method_refs is different than an empty method_refs.
            // We cannot infer any optimizations about older generations
            // from an empty method_refs for the current generation.
            break;
          }

          for (int k = method_refs->length() - 1; k >= 0; k--) {
3732
            Method* method = method_refs->at(k);
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3734 3735
            if (!method->is_obsolete() &&
                method->name() == m_name &&
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                method->signature() == m_signature) {
              // The current RedefineClasses() call has made all EMCP
              // versions of this method obsolete so mark it as obsolete
3739
              // and remove the reference.
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              RC_TRACE(0x00000400,
                ("add: %s(%s): flush obsolete method @%d in version @%d",
                m_name->as_C_string(), m_signature->as_C_string(), k, j));

              method->set_is_obsolete();
3745 3746
              // Leave obsolete methods on the previous version list to
              // clean up later.
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              break;
            }
          }

          // The previous loop may not find a matching EMCP method, but
          // that doesn't mean that we can optimize and not go any
          // further back in the PreviousVersion generations. The EMCP
3754
          // method for this generation could have already been deleted,
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          // but there still may be an older EMCP method that has not
3756
          // been deleted.
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        }

        if (++local_count >= obsolete_method_count) {
          // no more obsolete methods so bail out now
          break;
        }
      }
    }
  }
} // end add_previous_version()


3769 3770 3771
// Determine if InstanceKlass has a previous version.
bool InstanceKlass::has_previous_version() const {
  return (_previous_versions != NULL && _previous_versions->length() > 0);
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} // end has_previous_version()

3774

3775 3776 3777 3778 3779 3780 3781 3782 3783 3784 3785 3786 3787 3788 3789 3790
InstanceKlass* InstanceKlass::get_klass_version(int version) {
  if (constants()->version() == version) {
    return this;
  }
  PreviousVersionWalker pvw(Thread::current(), (InstanceKlass*)this);
  for (PreviousVersionNode * pv_node = pvw.next_previous_version();
       pv_node != NULL; pv_node = pvw.next_previous_version()) {
    ConstantPool* prev_cp = pv_node->prev_constant_pool();
    if (prev_cp->version() == version) {
      return prev_cp->pool_holder();
    }
  }
  return NULL; // None found
}


3791 3792
Method* InstanceKlass::method_with_idnum(int idnum) {
  Method* m = NULL;
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  if (idnum < methods()->length()) {
3794
    m = methods()->at(idnum);
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  }
  if (m == NULL || m->method_idnum() != idnum) {
    for (int index = 0; index < methods()->length(); ++index) {
3798
      m = methods()->at(index);
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      if (m->method_idnum() == idnum) {
        return m;
      }
    }
3803 3804
    // None found, return null for the caller to handle.
    return NULL;
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  }
  return m;
}

3809 3810 3811 3812 3813 3814 3815 3816 3817 3818 3819 3820 3821 3822 3823 3824 3825 3826 3827 3828 3829 3830 3831 3832 3833 3834 3835 3836 3837 3838 3839

Method* InstanceKlass::method_with_orig_idnum(int idnum) {
  if (idnum >= methods()->length()) {
    return NULL;
  }
  Method* m = methods()->at(idnum);
  if (m != NULL && m->orig_method_idnum() == idnum) {
    return m;
  }
  // Obsolete method idnum does not match the original idnum
  for (int index = 0; index < methods()->length(); ++index) {
    m = methods()->at(index);
    if (m->orig_method_idnum() == idnum) {
      return m;
    }
  }
  // None found, return null for the caller to handle.
  return NULL;
}


Method* InstanceKlass::method_with_orig_idnum(int idnum, int version) {
  InstanceKlass* holder = get_klass_version(version);
  if (holder == NULL) {
    return NULL; // The version of klass is gone, no method is found
  }
  Method* method = holder->method_with_orig_idnum(idnum);
  return method;
}


3840 3841 3842 3843 3844 3845 3846 3847
jint InstanceKlass::get_cached_class_file_len() {
  return VM_RedefineClasses::get_cached_class_file_len(_cached_class_file);
}

unsigned char * InstanceKlass::get_cached_class_file_bytes() {
  return VM_RedefineClasses::get_cached_class_file_bytes(_cached_class_file);
}

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// Construct a PreviousVersionNode entry for the array hung off
3850 3851
// the InstanceKlass.
PreviousVersionNode::PreviousVersionNode(ConstantPool* prev_constant_pool,
3852
  GrowableArray<Method*>* prev_EMCP_methods) {
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  _prev_constant_pool = prev_constant_pool;
  _prev_EMCP_methods = prev_EMCP_methods;
}


// Destroy a PreviousVersionNode
PreviousVersionNode::~PreviousVersionNode() {
  if (_prev_constant_pool != NULL) {
3862
    _prev_constant_pool = NULL;
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  }

  if (_prev_EMCP_methods != NULL) {
    delete _prev_EMCP_methods;
  }
}

// Construct a helper for walking the previous versions array
3871 3872
PreviousVersionWalker::PreviousVersionWalker(Thread* thread, InstanceKlass *ik) {
  _thread = thread;
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  _previous_versions = ik->previous_versions();
  _current_index = 0;
  _current_p = NULL;
3876
  _current_constant_pool_handle = constantPoolHandle(thread, ik->constants());
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}


// Return the interesting information for the next previous version
// of the klass. Returns NULL if there are no more previous versions.
3882
PreviousVersionNode* PreviousVersionWalker::next_previous_version() {
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  if (_previous_versions == NULL) {
    // no previous versions so nothing to return
    return NULL;
  }

3888 3889
  _current_p = NULL;  // reset to NULL
  _current_constant_pool_handle = NULL;
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  int length = _previous_versions->length();

  while (_current_index < length) {
    PreviousVersionNode * pv_node = _previous_versions->at(_current_index++);

3896 3897 3898 3899 3900
    // Save a handle to the constant pool for this previous version,
    // which keeps all the methods from being deallocated.
    _current_constant_pool_handle = constantPoolHandle(_thread, pv_node->prev_constant_pool());
    _current_p = pv_node;
    return pv_node;
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  }

  return NULL;
} // end next_previous_version()