8228485: JVM crashes when bootstrap method for condy triggers loading of class whose static initializer throws exception
Summary: Add case for JVM_CONSTANT_Dynamic in error_message function.
Reviewed-by: dholmes, shade
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#include "precompiled.hpp"
#include "classfile/javaClasses.hpp"
#include "classfile/moduleEntry.hpp"
#include "classfile/systemDictionary.hpp"
#include "classfile/vmSymbols.hpp"
#include "gc/shared/collectedHeap.inline.hpp"
#include "jvmtifiles/jvmti.h"
#include "memory/metaspaceClosure.hpp"
#include "memory/resourceArea.hpp"
#include "memory/universe.hpp"
#include "oops/arrayKlass.hpp"
#include "oops/arrayOop.hpp"
#include "oops/instanceKlass.hpp"
#include "oops/objArrayOop.hpp"
#include "oops/oop.inline.hpp"
#include "runtime/handles.inline.hpp"
int ArrayKlass::static_size(int header_size) {
// size of an array klass object
assert(header_size <= InstanceKlass::header_size(), "bad header size");
// If this assert fails, see comments in base_create_array_klass.
header_size = InstanceKlass::header_size();
int vtable_len = Universe::base_vtable_size();
int size = header_size + vtable_len;
return align_metadata_size(size);
}
InstanceKlass* ArrayKlass::java_super() const {
if (super() == NULL) return NULL; // bootstrap case
// Array klasses have primary supertypes which are not reported to Java.
// Example super chain: String[][] -> Object[][] -> Object[] -> Object
return SystemDictionary::Object_klass();
}
oop ArrayKlass::multi_allocate(int rank, jint* sizes, TRAPS) {
ShouldNotReachHere();
return NULL;
}
// find field according to JVM spec 5.4.3.2, returns the klass in which the field is defined
Klass* ArrayKlass::find_field(Symbol* name, Symbol* sig, fieldDescriptor* fd) const {
// There are no fields in an array klass but look to the super class (Object)
assert(super(), "super klass must be present");
return super()->find_field(name, sig, fd);
}
Method* ArrayKlass::uncached_lookup_method(const Symbol* name,
const Symbol* signature,
OverpassLookupMode overpass_mode,
PrivateLookupMode private_mode) const {
// There are no methods in an array klass but the super class (Object) has some
assert(super(), "super klass must be present");
// Always ignore overpass methods in superclasses, although technically the
// super klass of an array, (j.l.Object) should not have
// any overpass methods present.
return super()->uncached_lookup_method(name, signature, Klass::skip_overpass, private_mode);
}
ArrayKlass::ArrayKlass(Symbol* name, KlassID id) :
Klass(id),
_dimension(1),
_higher_dimension(NULL),
_lower_dimension(NULL) {
// Arrays don't add any new methods, so their vtable is the same size as
// the vtable of klass Object.
set_vtable_length(Universe::base_vtable_size());
set_name(name);
set_super(Universe::is_bootstrapping() ? NULL : SystemDictionary::Object_klass());
set_layout_helper(Klass::_lh_neutral_value);
set_is_cloneable(); // All arrays are considered to be cloneable (See JLS 20.1.5)
JFR_ONLY(INIT_ID(this);)
}
// Initialization of vtables and mirror object is done separatly from base_create_array_klass,
// since a GC can happen. At this point all instance variables of the ArrayKlass must be setup.
void ArrayKlass::complete_create_array_klass(ArrayKlass* k, Klass* super_klass, ModuleEntry* module_entry, TRAPS) {
k->initialize_supers(super_klass, NULL, CHECK);
k->vtable().initialize_vtable(false, CHECK);
// During bootstrapping, before java.base is defined, the module_entry may not be present yet.
// These classes will be put on a fixup list and their module fields will be patched once
// java.base is defined.
assert((module_entry != NULL) || ((module_entry == NULL) && !ModuleEntryTable::javabase_defined()),
"module entry not available post " JAVA_BASE_NAME " definition");
oop module = (module_entry != NULL) ? module_entry->module() : (oop)NULL;
java_lang_Class::create_mirror(k, Handle(THREAD, k->class_loader()), Handle(THREAD, module), Handle(), CHECK);
}
GrowableArray<Klass*>* ArrayKlass::compute_secondary_supers(int num_extra_slots,
Array<InstanceKlass*>* transitive_interfaces) {
// interfaces = { cloneable_klass, serializable_klass };
assert(num_extra_slots == 0, "sanity of primitive array type");
assert(transitive_interfaces == NULL, "sanity");
// Must share this for correct bootstrapping!
set_secondary_supers(Universe::the_array_interfaces_array());
return NULL;
}
objArrayOop ArrayKlass::allocate_arrayArray(int n, int length, TRAPS) {
check_array_allocation_length(length, arrayOopDesc::max_array_length(T_ARRAY), CHECK_0);
int size = objArrayOopDesc::object_size(length);
Klass* k = array_klass(n+dimension(), CHECK_0);
ArrayKlass* ak = ArrayKlass::cast(k);
objArrayOop o = (objArrayOop)Universe::heap()->array_allocate(ak, size, length,
/* do_zero */ true, CHECK_0);
// initialization to NULL not necessary, area already cleared
return o;
}
void ArrayKlass::array_klasses_do(void f(Klass* k, TRAPS), TRAPS) {
Klass* k = this;
// Iterate over this array klass and all higher dimensions
while (k != NULL) {
f(k, CHECK);
k = ArrayKlass::cast(k)->higher_dimension();
}
}
void ArrayKlass::array_klasses_do(void f(Klass* k)) {
Klass* k = this;
// Iterate over this array klass and all higher dimensions
while (k != NULL) {
f(k);
k = ArrayKlass::cast(k)->higher_dimension();
}
}
// JVM support
jint ArrayKlass::compute_modifier_flags(TRAPS) const {
return JVM_ACC_ABSTRACT | JVM_ACC_FINAL | JVM_ACC_PUBLIC;
}
// JVMTI support
jint ArrayKlass::jvmti_class_status() const {
return JVMTI_CLASS_STATUS_ARRAY;
}
void ArrayKlass::metaspace_pointers_do(MetaspaceClosure* it) {
Klass::metaspace_pointers_do(it);
ResourceMark rm;
log_trace(cds)("Iter(ArrayKlass): %p (%s)", this, external_name());
// need to cast away volatile
it->push((Klass**)&_higher_dimension);
it->push((Klass**)&_lower_dimension);
}
void ArrayKlass::remove_unshareable_info() {
Klass::remove_unshareable_info();
if (_higher_dimension != NULL) {
ArrayKlass *ak = ArrayKlass::cast(higher_dimension());
ak->remove_unshareable_info();
}
}
void ArrayKlass::remove_java_mirror() {
Klass::remove_java_mirror();
if (_higher_dimension != NULL) {
ArrayKlass *ak = ArrayKlass::cast(higher_dimension());
ak->remove_java_mirror();
}
}
void ArrayKlass::restore_unshareable_info(ClassLoaderData* loader_data, Handle protection_domain, TRAPS) {
assert(loader_data == ClassLoaderData::the_null_class_loader_data(), "array classes belong to null loader");
Klass::restore_unshareable_info(loader_data, protection_domain, CHECK);
// Klass recreates the component mirror also
if (_higher_dimension != NULL) {
ArrayKlass *ak = ArrayKlass::cast(higher_dimension());
ak->restore_unshareable_info(loader_data, protection_domain, CHECK);
}
}
// Printing
void ArrayKlass::print_on(outputStream* st) const {
assert(is_klass(), "must be klass");
Klass::print_on(st);
}
void ArrayKlass::print_value_on(outputStream* st) const {
assert(is_klass(), "must be klass");
for(int index = 0; index < dimension(); index++) {
st->print("[]");
}
}
void ArrayKlass::oop_print_on(oop obj, outputStream* st) {
assert(obj->is_array(), "must be array");
Klass::oop_print_on(obj, st);
st->print_cr(" - length: %d", arrayOop(obj)->length());
}
// Verification
void ArrayKlass::verify_on(outputStream* st) {
Klass::verify_on(st);
}
void ArrayKlass::oop_verify_on(oop obj, outputStream* st) {
guarantee(obj->is_array(), "must be array");
arrayOop a = arrayOop(obj);
guarantee(a->length() >= 0, "array with negative length?");
}