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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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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#include "precompiled.hpp"
#include "classfile/altHashing.hpp"
#include "classfile/javaClasses.inline.hpp"
#include "memory/heapShared.inline.hpp"
#include "memory/resourceArea.hpp"
#include "memory/universe.hpp"
#include "oops/access.inline.hpp"
#include "oops/compressedOops.inline.hpp"
#include "oops/oop.inline.hpp"
#include "oops/verifyOopClosure.hpp"
#include "runtime/handles.inline.hpp"
#include "runtime/thread.inline.hpp"
#include "utilities/copy.hpp"
bool always_do_update_barrier = false;
void oopDesc::print_on(outputStream* st) const {
klass()->oop_print_on(oop(this), st);
}
void oopDesc::print_address_on(outputStream* st) const {
st->print("{" INTPTR_FORMAT "}", p2i(this));
}
void oopDesc::print() { print_on(tty); }
void oopDesc::print_address() { print_address_on(tty); }
char* oopDesc::print_string() {
stringStream st;
print_on(&st);
return st.as_string();
}
void oopDesc::print_value() {
print_value_on(tty);
}
char* oopDesc::print_value_string() {
char buf[100];
stringStream st(buf, sizeof(buf));
print_value_on(&st);
return st.as_string();
}
void oopDesc::print_value_on(outputStream* st) const {
oop obj = oop(this);
if (java_lang_String::is_instance(obj)) {
java_lang_String::print(obj, st);
print_address_on(st);
} else {
klass()->oop_print_value_on(obj, st);
}
}
void oopDesc::verify_on(outputStream* st, oopDesc* oop_desc) {
if (oop_desc != NULL) {
oop_desc->klass()->oop_verify_on(oop_desc, st);
}
}
void oopDesc::verify(oopDesc* oop_desc) {
verify_on(tty, oop_desc);
}
intptr_t oopDesc::slow_identity_hash() {
// slow case; we have to acquire the micro lock in order to locate the header
Thread* THREAD = Thread::current();
ResetNoHandleMark rnm; // Might be called from LEAF/QUICK ENTRY
HandleMark hm(THREAD);
Handle object(THREAD, this);
return ObjectSynchronizer::identity_hash_value_for(object);
}
// used only for asserts and guarantees
bool oopDesc::is_oop(oop obj, bool ignore_mark_word) {
if (!Universe::heap()->is_oop(obj)) {
return false;
}
// Header verification: the mark is typically non-NULL. If we're
// at a safepoint, it must not be null.
// Outside of a safepoint, the header could be changing (for example,
// another thread could be inflating a lock on this object).
if (ignore_mark_word) {
return true;
}
if (obj->mark_raw() != NULL) {
return true;
}
return !SafepointSynchronize::is_at_safepoint();
}
// used only for asserts and guarantees
bool oopDesc::is_oop_or_null(oop obj, bool ignore_mark_word) {
return obj == NULL ? true : is_oop(obj, ignore_mark_word);
}
#ifndef PRODUCT
#if INCLUDE_CDS_JAVA_HEAP
bool oopDesc::is_archived_object(oop p) {
return HeapShared::is_archived_object(p);
}
#endif
#endif // PRODUCT
VerifyOopClosure VerifyOopClosure::verify_oop;
template <class T> void VerifyOopClosure::do_oop_work(T* p) {
oop obj = RawAccess<>::oop_load(p);
guarantee(oopDesc::is_oop_or_null(obj), "invalid oop: " INTPTR_FORMAT, p2i((oopDesc*) obj));
}
void VerifyOopClosure::do_oop(oop* p) { VerifyOopClosure::do_oop_work(p); }
void VerifyOopClosure::do_oop(narrowOop* p) { VerifyOopClosure::do_oop_work(p); }
// type test operations that doesn't require inclusion of oop.inline.hpp.
bool oopDesc::is_instance_noinline() const { return is_instance(); }
bool oopDesc::is_array_noinline() const { return is_array(); }
bool oopDesc::is_objArray_noinline() const { return is_objArray(); }
bool oopDesc::is_typeArray_noinline() const { return is_typeArray(); }
bool oopDesc::has_klass_gap() {
// Only has a klass gap when compressed class pointers are used.
return UseCompressedClassPointers;
}
void* oopDesc::load_klass_raw(oop obj) {
if (UseCompressedClassPointers) {
narrowKlass narrow_klass = *(obj->compressed_klass_addr());
if (narrow_klass == 0) return NULL;
return (void*)CompressedKlassPointers::decode_raw(narrow_klass);
} else {
return *(void**)(obj->klass_addr());
}
}
void* oopDesc::load_oop_raw(oop obj, int offset) {
uintptr_t addr = (uintptr_t)(void*)obj + (uint)offset;
if (UseCompressedOops) {
narrowOop narrow_oop = *(narrowOop*)addr;
if (narrow_oop == 0) return NULL;
return (void*)CompressedOops::decode_raw(narrow_oop);
} else {
return *(void**)addr;
}
}
bool oopDesc::is_valid(oop obj) {
if (!is_object_aligned(obj)) return false;
if ((size_t)(oopDesc*)obj < os::min_page_size()) return false;
// We need at least the mark and the klass word in the committed region.
if (!os::is_readable_range(obj, (oopDesc*)obj + 1)) return false;
if (!Universe::heap()->is_in(obj)) return false;
Klass* k = (Klass*)load_klass_raw(obj);
return Klass::is_valid(k);
}
oop oopDesc::oop_or_null(address addr) {
if (is_valid(oop(addr))) {
// We were just given an oop directly.
return oop(addr);
}
// Try to find addr using block_start.
HeapWord* p = Universe::heap()->block_start(addr);
if (p != NULL && Universe::heap()->block_is_obj(p)) {
if (!is_valid(oop(p))) return NULL;
return oop(p);
}
// If we can't find it it just may mean that heap wasn't parsable.
return NULL;
}
oop oopDesc::obj_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::oop_load_at(as_oop(), offset); }
void oopDesc::obj_field_put_raw(int offset, oop value) { RawAccess<>::oop_store_at(as_oop(), offset, value); }
void oopDesc::release_obj_field_put(int offset, oop value) { HeapAccess<MO_RELEASE>::oop_store_at(as_oop(), offset, value); }
void oopDesc::obj_field_put_volatile(int offset, oop value) { HeapAccess<MO_SEQ_CST>::oop_store_at(as_oop(), offset, value); }
address oopDesc::address_field(int offset) const { return HeapAccess<>::load_at(as_oop(), offset); }
address oopDesc::address_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::address_field_put(int offset, address value) { HeapAccess<>::store_at(as_oop(), offset, value); }
void oopDesc::release_address_field_put(int offset, address value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, value); }
Metadata* oopDesc::metadata_field(int offset) const { return HeapAccess<>::load_at(as_oop(), offset); }
Metadata* oopDesc::metadata_field_raw(int offset) const { return RawAccess<>::load_at(as_oop(), offset); }
void oopDesc::metadata_field_put(int offset, Metadata* value) { HeapAccess<>::store_at(as_oop(), offset, value); }
Metadata* oopDesc::metadata_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::release_metadata_field_put(int offset, Metadata* value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, value); }
jbyte oopDesc::byte_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::release_byte_field_put(int offset, jbyte value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, value); }
jchar oopDesc::char_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::release_char_field_put(int offset, jchar value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, value); }
jboolean oopDesc::bool_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::release_bool_field_put(int offset, jboolean value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, jboolean(value & 1)); }
jint oopDesc::int_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::release_int_field_put(int offset, jint value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, value); }
jshort oopDesc::short_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::release_short_field_put(int offset, jshort value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, value); }
jlong oopDesc::long_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::release_long_field_put(int offset, jlong value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, value); }
jfloat oopDesc::float_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::release_float_field_put(int offset, jfloat value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, value); }
jdouble oopDesc::double_field_acquire(int offset) const { return HeapAccess<MO_ACQUIRE>::load_at(as_oop(), offset); }
void oopDesc::release_double_field_put(int offset, jdouble value) { HeapAccess<MO_RELEASE>::store_at(as_oop(), offset, value); }