Java example source code file (instanceKlass.hpp)
The instanceKlass.hpp Java example source code/*
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#ifndef SHARE_VM_OOPS_INSTANCEKLASS_HPP
#define SHARE_VM_OOPS_INSTANCEKLASS_HPP
#include "classfile/classLoaderData.hpp"
#include "memory/referenceType.hpp"
#include "oops/annotations.hpp"
#include "oops/constMethod.hpp"
#include "oops/fieldInfo.hpp"
#include "oops/instanceOop.hpp"
#include "oops/klassVtable.hpp"
#include "runtime/atomic.hpp"
#include "runtime/handles.hpp"
#include "runtime/os.hpp"
#include "utilities/accessFlags.hpp"
#include "utilities/bitMap.inline.hpp"
#include "utilities/macros.hpp"
#include "trace/traceMacros.hpp"
// An InstanceKlass is the VM level representation of a Java class.
// It contains all information needed for at class at execution runtime.
// InstanceKlass layout:
// [C++ vtbl pointer ] Klass
// [subtype cache ] Klass
// [instance size ] Klass
// [java mirror ] Klass
// [super ] Klass
// [access_flags ] Klass
// [name ] Klass
// [first subklass ] Klass
// [next sibling ] Klass
// [array klasses ]
// [methods ]
// [local interfaces ]
// [transitive interfaces ]
// [fields ]
// [constants ]
// [class loader ]
// [source file name ]
// [inner classes ]
// [static field size ]
// [nonstatic field size ]
// [static oop fields size ]
// [nonstatic oop maps size ]
// [has finalize method ]
// [deoptimization mark bit ]
// [initialization state ]
// [initializing thread ]
// [Java vtable length ]
// [oop map cache (stack maps) ]
// [EMBEDDED Java vtable ] size in words = vtable_len
// [EMBEDDED nonstatic oop-map blocks] size in words = nonstatic_oop_map_size
// The embedded nonstatic oop-map blocks are short pairs (offset, length)
// indicating where oops are located in instances of this klass.
// [EMBEDDED implementor of the interface] only exist for interface
// [EMBEDDED host klass ] only exist for an anonymous class (JSR 292 enabled)
// forward declaration for class -- see below for definition
class SuperTypeClosure;
class JNIid;
class jniIdMapBase;
class BreakpointInfo;
class fieldDescriptor;
class DepChange;
class nmethodBucket;
class PreviousVersionNode;
class JvmtiCachedClassFieldMap;
class MemberNameTable;
// This is used in iterators below.
class FieldClosure: public StackObj {
public:
virtual void do_field(fieldDescriptor* fd) = 0;
};
#ifndef PRODUCT
// Print fields.
// If "obj" argument to constructor is NULL, prints static fields, otherwise prints non-static fields.
class FieldPrinter: public FieldClosure {
oop _obj;
outputStream* _st;
public:
FieldPrinter(outputStream* st, oop obj = NULL) : _obj(obj), _st(st) {}
void do_field(fieldDescriptor* fd);
};
#endif // !PRODUCT
// ValueObjs embedded in klass. Describes where oops are located in instances of
// this klass.
class OopMapBlock VALUE_OBJ_CLASS_SPEC {
public:
// Byte offset of the first oop mapped by this block.
int offset() const { return _offset; }
void set_offset(int offset) { _offset = offset; }
// Number of oops in this block.
uint count() const { return _count; }
void set_count(uint count) { _count = count; }
// sizeof(OopMapBlock) in HeapWords.
static const int size_in_words() {
return align_size_up(int(sizeof(OopMapBlock)), HeapWordSize) >>
LogHeapWordSize;
}
private:
int _offset;
uint _count;
};
struct JvmtiCachedClassFileData;
class InstanceKlass: public Klass {
friend class VMStructs;
friend class ClassFileParser;
friend class CompileReplay;
protected:
// Constructor
InstanceKlass(int vtable_len,
int itable_len,
int static_field_size,
int nonstatic_oop_map_size,
ReferenceType rt,
AccessFlags access_flags,
bool is_anonymous);
public:
static InstanceKlass* allocate_instance_klass(
ClassLoaderData* loader_data,
int vtable_len,
int itable_len,
int static_field_size,
int nonstatic_oop_map_size,
ReferenceType rt,
AccessFlags access_flags,
Symbol* name,
Klass* super_klass,
bool is_anonymous,
TRAPS);
InstanceKlass() { assert(DumpSharedSpaces || UseSharedSpaces, "only for CDS"); }
// See "The Java Virtual Machine Specification" section 2.16.2-5 for a detailed description
// of the class loading & initialization procedure, and the use of the states.
enum ClassState {
allocated, // allocated (but not yet linked)
loaded, // loaded and inserted in class hierarchy (but not linked yet)
linked, // successfully linked/verified (but not initialized yet)
being_initialized, // currently running class initializer
fully_initialized, // initialized (successfull final state)
initialization_error // error happened during initialization
};
static int number_of_instance_classes() { return _total_instanceKlass_count; }
private:
static volatile int _total_instanceKlass_count;
protected:
// Annotations for this class
Annotations* _annotations;
// Array classes holding elements of this class.
Klass* _array_klasses;
// Constant pool for this class.
ConstantPool* _constants;
// The InnerClasses attribute and EnclosingMethod attribute. The
// _inner_classes is an array of shorts. If the class has InnerClasses
// attribute, then the _inner_classes array begins with 4-tuples of shorts
// [inner_class_info_index, outer_class_info_index,
// inner_name_index, inner_class_access_flags] for the InnerClasses
// attribute. If the EnclosingMethod attribute exists, it occupies the
// last two shorts [class_index, method_index] of the array. If only
// the InnerClasses attribute exists, the _inner_classes array length is
// number_of_inner_classes * 4. If the class has both InnerClasses
// and EnclosingMethod attributes the _inner_classes array length is
// number_of_inner_classes * 4 + enclosing_method_attribute_size.
Array<jushort>* _inner_classes;
// the source debug extension for this klass, NULL if not specified.
// Specified as UTF-8 string without terminating zero byte in the classfile,
// it is stored in the instanceklass as a NULL-terminated UTF-8 string
char* _source_debug_extension;
// Array name derived from this class which needs unreferencing
// if this class is unloaded.
Symbol* _array_name;
// Number of heapOopSize words used by non-static fields in this klass
// (including inherited fields but after header_size()).
int _nonstatic_field_size;
int _static_field_size; // number words used by static fields (oop and non-oop) in this klass
// Constant pool index to the utf8 entry of the Generic signature,
// or 0 if none.
u2 _generic_signature_index;
// Constant pool index to the utf8 entry for the name of source file
// containing this klass, 0 if not specified.
u2 _source_file_name_index;
u2 _static_oop_field_count;// number of static oop fields in this klass
u2 _java_fields_count; // The number of declared Java fields
int _nonstatic_oop_map_size;// size in words of nonstatic oop map blocks
// _is_marked_dependent can be set concurrently, thus cannot be part of the
// _misc_flags.
bool _is_marked_dependent; // used for marking during flushing and deoptimization
enum {
_misc_rewritten = 1 << 0, // methods rewritten.
_misc_has_nonstatic_fields = 1 << 1, // for sizing with UseCompressedOops
_misc_should_verify_class = 1 << 2, // allow caching of preverification
_misc_is_anonymous = 1 << 3, // has embedded _host_klass field
_misc_is_contended = 1 << 4, // marked with contended annotation
_misc_has_default_methods = 1 << 5 // class/superclass/implemented interfaces has default methods
};
u2 _misc_flags;
u2 _minor_version; // minor version number of class file
u2 _major_version; // major version number of class file
Thread* _init_thread; // Pointer to current thread doing initialization (to handle recusive initialization)
int _vtable_len; // length of Java vtable (in words)
int _itable_len; // length of Java itable (in words)
OopMapCache* volatile _oop_map_cache; // OopMapCache for all methods in the klass (allocated lazily)
MemberNameTable* _member_names; // Member names
JNIid* _jni_ids; // First JNI identifier for static fields in this class
jmethodID* _methods_jmethod_ids; // jmethodIDs corresponding to method_idnum, or NULL if none
nmethodBucket* _dependencies; // list of dependent nmethods
nmethod* _osr_nmethods_head; // Head of list of on-stack replacement nmethods for this class
BreakpointInfo* _breakpoints; // bpt lists, managed by Method*
// Array of interesting part(s) of the previous version(s) of this
// InstanceKlass. See PreviousVersionWalker below.
GrowableArray<PreviousVersionNode *>* _previous_versions;
// JVMTI fields can be moved to their own structure - see 6315920
// JVMTI: cached class file, before retransformable agent modified it in CFLH
JvmtiCachedClassFileData* _cached_class_file;
volatile u2 _idnum_allocated_count; // JNI/JVMTI: increments with the addition of methods, old ids don't change
// Class states are defined as ClassState (see above).
// Place the _init_state here to utilize the unused 2-byte after
// _idnum_allocated_count.
u1 _init_state; // state of class
u1 _reference_type; // reference type
JvmtiCachedClassFieldMap* _jvmti_cached_class_field_map; // JVMTI: used during heap iteration
NOT_PRODUCT(int _verify_count;) // to avoid redundant verifies
// Method array.
Array<Method*>* _methods;
// Default Method Array, concrete methods inherited from interfaces
Array<Method*>* _default_methods;
// Interface (Klass*s) this class declares locally to implement.
Array<Klass*>* _local_interfaces;
// Interface (Klass*s) this class implements transitively.
Array<Klass*>* _transitive_interfaces;
// Int array containing the original order of method in the class file (for JVMTI).
Array<int>* _method_ordering;
// Int array containing the vtable_indices for default_methods
// offset matches _default_methods offset
Array<int>* _default_vtable_indices;
// Instance and static variable information, starts with 6-tuples of shorts
// [access, name index, sig index, initval index, low_offset, high_offset]
// for all fields, followed by the generic signature data at the end of
// the array. Only fields with generic signature attributes have the generic
// signature data set in the array. The fields array looks like following:
//
// f1: [access, name index, sig index, initial value index, low_offset, high_offset]
// f2: [access, name index, sig index, initial value index, low_offset, high_offset]
// ...
// fn: [access, name index, sig index, initial value index, low_offset, high_offset]
// [generic signature index]
// [generic signature index]
// ...
Array<u2>* _fields;
// embedded Java vtable follows here
// embedded Java itables follows here
// embedded static fields follows here
// embedded nonstatic oop-map blocks follows here
// embedded implementor of this interface follows here
// The embedded implementor only exists if the current klass is an
// iterface. The possible values of the implementor fall into following
// three cases:
// NULL: no implementor.
// A Klass* that's not itself: one implementor.
// Itsef: more than one implementors.
// embedded host klass follows here
// The embedded host klass only exists in an anonymous class for
// dynamic language support (JSR 292 enabled). The host class grants
// its access privileges to this class also. The host class is either
// named, or a previously loaded anonymous class. A non-anonymous class
// or an anonymous class loaded through normal classloading does not
// have this embedded field.
//
friend class SystemDictionary;
public:
bool has_nonstatic_fields() const {
return (_misc_flags & _misc_has_nonstatic_fields) != 0;
}
void set_has_nonstatic_fields(bool b) {
if (b) {
_misc_flags |= _misc_has_nonstatic_fields;
} else {
_misc_flags &= ~_misc_has_nonstatic_fields;
}
}
// field sizes
int nonstatic_field_size() const { return _nonstatic_field_size; }
void set_nonstatic_field_size(int size) { _nonstatic_field_size = size; }
int static_field_size() const { return _static_field_size; }
void set_static_field_size(int size) { _static_field_size = size; }
int static_oop_field_count() const { return (int)_static_oop_field_count; }
void set_static_oop_field_count(u2 size) { _static_oop_field_count = size; }
// Java vtable
int vtable_length() const { return _vtable_len; }
void set_vtable_length(int len) { _vtable_len = len; }
// Java itable
int itable_length() const { return _itable_len; }
void set_itable_length(int len) { _itable_len = len; }
// array klasses
Klass* array_klasses() const { return _array_klasses; }
void set_array_klasses(Klass* k) { _array_klasses = k; }
// methods
Array<Method*>* methods() const { return _methods; }
void set_methods(Array<Method*>* a) { _methods = a; }
Method* method_with_idnum(int idnum);
// method ordering
Array<int>* method_ordering() const { return _method_ordering; }
void set_method_ordering(Array<int>* m) { _method_ordering = m; }
void copy_method_ordering(intArray* m, TRAPS);
// default_methods
Array<Method*>* default_methods() const { return _default_methods; }
void set_default_methods(Array<Method*>* a) { _default_methods = a; }
// default method vtable_indices
Array<int>* default_vtable_indices() const { return _default_vtable_indices; }
void set_default_vtable_indices(Array<int>* v) { _default_vtable_indices = v; }
Array<int>* create_new_default_vtable_indices(int len, TRAPS);
// interfaces
Array<Klass*>* local_interfaces() const { return _local_interfaces; }
void set_local_interfaces(Array<Klass*>* a) {
guarantee(_local_interfaces == NULL || a == NULL, "Just checking");
_local_interfaces = a; }
Array<Klass*>* transitive_interfaces() const { return _transitive_interfaces; }
void set_transitive_interfaces(Array<Klass*>* a) {
guarantee(_transitive_interfaces == NULL || a == NULL, "Just checking");
_transitive_interfaces = a;
}
private:
friend class fieldDescriptor;
FieldInfo* field(int index) const { return FieldInfo::from_field_array(_fields, index); }
public:
int field_offset (int index) const { return field(index)->offset(); }
int field_access_flags(int index) const { return field(index)->access_flags(); }
Symbol* field_name (int index) const { return field(index)->name(constants()); }
Symbol* field_signature (int index) const { return field(index)->signature(constants()); }
// Number of Java declared fields
int java_fields_count() const { return (int)_java_fields_count; }
Array<u2>* fields() const { return _fields; }
void set_fields(Array<u2>* f, u2 java_fields_count) {
guarantee(_fields == NULL || f == NULL, "Just checking");
_fields = f;
_java_fields_count = java_fields_count;
}
// inner classes
Array<u2>* inner_classes() const { return _inner_classes; }
void set_inner_classes(Array<u2>* f) { _inner_classes = f; }
enum InnerClassAttributeOffset {
// From http://mirror.eng/products/jdk/1.1/docs/guide/innerclasses/spec/innerclasses.doc10.html#18814
inner_class_inner_class_info_offset = 0,
inner_class_outer_class_info_offset = 1,
inner_class_inner_name_offset = 2,
inner_class_access_flags_offset = 3,
inner_class_next_offset = 4
};
enum EnclosingMethodAttributeOffset {
enclosing_method_class_index_offset = 0,
enclosing_method_method_index_offset = 1,
enclosing_method_attribute_size = 2
};
// method override check
bool is_override(methodHandle super_method, Handle targetclassloader, Symbol* targetclassname, TRAPS);
// package
bool is_same_class_package(Klass* class2);
bool is_same_class_package(oop classloader2, Symbol* classname2);
static bool is_same_class_package(oop class_loader1, Symbol* class_name1, oop class_loader2, Symbol* class_name2);
// find an enclosing class (defined where original code was, in jvm.cpp!)
Klass* compute_enclosing_class(bool* inner_is_member, TRAPS) {
instanceKlassHandle self(THREAD, this);
return compute_enclosing_class_impl(self, inner_is_member, THREAD);
}
static Klass* compute_enclosing_class_impl(instanceKlassHandle self,
bool* inner_is_member, TRAPS);
// tell if two classes have the same enclosing class (at package level)
bool is_same_package_member(Klass* class2, TRAPS) {
instanceKlassHandle self(THREAD, this);
return is_same_package_member_impl(self, class2, THREAD);
}
static bool is_same_package_member_impl(instanceKlassHandle self,
Klass* class2, TRAPS);
// initialization state
bool is_loaded() const { return _init_state >= loaded; }
bool is_linked() const { return _init_state >= linked; }
bool is_initialized() const { return _init_state == fully_initialized; }
bool is_not_initialized() const { return _init_state < being_initialized; }
bool is_being_initialized() const { return _init_state == being_initialized; }
bool is_in_error_state() const { return _init_state == initialization_error; }
bool is_reentrant_initialization(Thread *thread) { return thread == _init_thread; }
ClassState init_state() { return (ClassState)_init_state; }
bool is_rewritten() const { return (_misc_flags & _misc_rewritten) != 0; }
// defineClass specified verification
bool should_verify_class() const {
return (_misc_flags & _misc_should_verify_class) != 0;
}
void set_should_verify_class(bool value) {
if (value) {
_misc_flags |= _misc_should_verify_class;
} else {
_misc_flags &= ~_misc_should_verify_class;
}
}
// marking
bool is_marked_dependent() const { return _is_marked_dependent; }
void set_is_marked_dependent(bool value) { _is_marked_dependent = value; }
// initialization (virtuals from Klass)
bool should_be_initialized() const; // means that initialize should be called
void initialize(TRAPS);
void link_class(TRAPS);
bool link_class_or_fail(TRAPS); // returns false on failure
void unlink_class();
void rewrite_class(TRAPS);
void link_methods(TRAPS);
Method* class_initializer();
// set the class to initialized if no static initializer is present
void eager_initialize(Thread *thread);
// reference type
ReferenceType reference_type() const { return (ReferenceType)_reference_type; }
void set_reference_type(ReferenceType t) {
assert(t == (u1)t, "overflow");
_reference_type = (u1)t;
}
static ByteSize reference_type_offset() { return in_ByteSize(offset_of(InstanceKlass, _reference_type)); }
// find local field, returns true if found
bool find_local_field(Symbol* name, Symbol* sig, fieldDescriptor* fd) const;
// find field in direct superinterfaces, returns the interface in which the field is defined
Klass* find_interface_field(Symbol* name, Symbol* sig, fieldDescriptor* fd) const;
// find field according to JVM spec 5.4.3.2, returns the klass in which the field is defined
Klass* find_field(Symbol* name, Symbol* sig, fieldDescriptor* fd) const;
// find instance or static fields according to JVM spec 5.4.3.2, returns the klass in which the field is defined
Klass* find_field(Symbol* name, Symbol* sig, bool is_static, fieldDescriptor* fd) const;
// find a non-static or static field given its offset within the class.
bool contains_field_offset(int offset) {
return instanceOopDesc::contains_field_offset(offset, nonstatic_field_size());
}
bool find_local_field_from_offset(int offset, bool is_static, fieldDescriptor* fd) const;
bool find_field_from_offset(int offset, bool is_static, fieldDescriptor* fd) const;
// find a local method (returns NULL if not found)
Method* find_method(Symbol* name, Symbol* signature) const;
static Method* find_method(Array<Method*>* methods, Symbol* name, Symbol* signature);
static Method* find_instance_method(Array<Method*>* methods, Symbol* name, Symbol* signature);
// find a local method index in default_methods (returns -1 if not found)
static int find_method_index(Array<Method*>* methods, Symbol* name, Symbol* signature);
// lookup operation (returns NULL if not found)
Method* uncached_lookup_method(Symbol* name, Symbol* signature) const;
// lookup a method in all the interfaces that this class implements
// (returns NULL if not found)
Method* lookup_method_in_all_interfaces(Symbol* name, Symbol* signature, bool skip_default_methods) const;
// lookup a method in local defaults then in all interfaces
// (returns NULL if not found)
Method* lookup_method_in_ordered_interfaces(Symbol* name, Symbol* signature) const;
// Find method indices by name. If a method with the specified name is
// found the index to the first method is returned, and 'end' is filled in
// with the index of first non-name-matching method. If no method is found
// -1 is returned.
int find_method_by_name(Symbol* name, int* end);
static int find_method_by_name(Array<Method*>* methods, Symbol* name, int* end);
// constant pool
ConstantPool* constants() const { return _constants; }
void set_constants(ConstantPool* c) { _constants = c; }
// protection domain
oop protection_domain() const;
// signers
objArrayOop signers() const;
// host class
Klass* host_klass() const {
Klass** hk = (Klass**)adr_host_klass();
if (hk == NULL) {
return NULL;
} else {
return *hk;
}
}
void set_host_klass(Klass* host) {
assert(is_anonymous(), "not anonymous");
Klass** addr = (Klass**)adr_host_klass();
assert(addr != NULL, "no reversed space");
if (addr != NULL) {
*addr = host;
}
}
bool is_anonymous() const {
return (_misc_flags & _misc_is_anonymous) != 0;
}
void set_is_anonymous(bool value) {
if (value) {
_misc_flags |= _misc_is_anonymous;
} else {
_misc_flags &= ~_misc_is_anonymous;
}
}
// Oop that keeps the metadata for this class from being unloaded
// in places where the metadata is stored in other places, like nmethods
oop klass_holder() const {
return is_anonymous() ? java_mirror() : class_loader();
}
bool is_contended() const {
return (_misc_flags & _misc_is_contended) != 0;
}
void set_is_contended(bool value) {
if (value) {
_misc_flags |= _misc_is_contended;
} else {
_misc_flags &= ~_misc_is_contended;
}
}
// source file name
Symbol* source_file_name() const {
return (_source_file_name_index == 0) ?
(Symbol*)NULL : _constants->symbol_at(_source_file_name_index);
}
u2 source_file_name_index() const {
return _source_file_name_index;
}
void set_source_file_name_index(u2 sourcefile_index) {
_source_file_name_index = sourcefile_index;
}
// minor and major version numbers of class file
u2 minor_version() const { return _minor_version; }
void set_minor_version(u2 minor_version) { _minor_version = minor_version; }
u2 major_version() const { return _major_version; }
void set_major_version(u2 major_version) { _major_version = major_version; }
// source debug extension
char* source_debug_extension() const { return _source_debug_extension; }
void set_source_debug_extension(char* array, int length);
// symbol unloading support (refcount already added)
Symbol* array_name() { return _array_name; }
void set_array_name(Symbol* name) { assert(_array_name == NULL || name == NULL, "name already created"); _array_name = name; }
// nonstatic oop-map blocks
static int nonstatic_oop_map_size(unsigned int oop_map_count) {
return oop_map_count * OopMapBlock::size_in_words();
}
unsigned int nonstatic_oop_map_count() const {
return _nonstatic_oop_map_size / OopMapBlock::size_in_words();
}
int nonstatic_oop_map_size() const { return _nonstatic_oop_map_size; }
void set_nonstatic_oop_map_size(int words) {
_nonstatic_oop_map_size = words;
}
// RedefineClasses() support for previous versions:
void add_previous_version(instanceKlassHandle ikh, BitMap *emcp_methods,
int emcp_method_count);
// If the _previous_versions array is non-NULL, then this klass
// has been redefined at least once even if we aren't currently
// tracking a previous version.
bool has_been_redefined() const { return _previous_versions != NULL; }
bool has_previous_version() const;
void init_previous_versions() {
_previous_versions = NULL;
}
GrowableArray<PreviousVersionNode *>* previous_versions() const {
return _previous_versions;
}
static void purge_previous_versions(InstanceKlass* ik);
// JVMTI: Support for caching a class file before it is modified by an agent that can do retransformation
void set_cached_class_file(JvmtiCachedClassFileData *data) {
_cached_class_file = data;
}
JvmtiCachedClassFileData * get_cached_class_file() { return _cached_class_file; }
jint get_cached_class_file_len();
unsigned char * get_cached_class_file_bytes();
// JVMTI: Support for caching of field indices, types, and offsets
void set_jvmti_cached_class_field_map(JvmtiCachedClassFieldMap* descriptor) {
_jvmti_cached_class_field_map = descriptor;
}
JvmtiCachedClassFieldMap* jvmti_cached_class_field_map() const {
return _jvmti_cached_class_field_map;
}
bool has_default_methods() const {
return (_misc_flags & _misc_has_default_methods) != 0;
}
void set_has_default_methods(bool b) {
if (b) {
_misc_flags |= _misc_has_default_methods;
} else {
_misc_flags &= ~_misc_has_default_methods;
}
}
// for adding methods, ConstMethod::UNSET_IDNUM means no more ids available
inline u2 next_method_idnum();
void set_initial_method_idnum(u2 value) { _idnum_allocated_count = value; }
// generics support
Symbol* generic_signature() const {
return (_generic_signature_index == 0) ?
(Symbol*)NULL : _constants->symbol_at(_generic_signature_index);
}
u2 generic_signature_index() const {
return _generic_signature_index;
}
void set_generic_signature_index(u2 sig_index) {
_generic_signature_index = sig_index;
}
u2 enclosing_method_data(int offset);
u2 enclosing_method_class_index() {
return enclosing_method_data(enclosing_method_class_index_offset);
}
u2 enclosing_method_method_index() {
return enclosing_method_data(enclosing_method_method_index_offset);
}
void set_enclosing_method_indices(u2 class_index,
u2 method_index);
// jmethodID support
static jmethodID get_jmethod_id(instanceKlassHandle ik_h,
methodHandle method_h);
static jmethodID get_jmethod_id_fetch_or_update(instanceKlassHandle ik_h,
size_t idnum, jmethodID new_id, jmethodID* new_jmeths,
jmethodID* to_dealloc_id_p,
jmethodID** to_dealloc_jmeths_p);
static void get_jmethod_id_length_value(jmethodID* cache, size_t idnum,
size_t *length_p, jmethodID* id_p);
jmethodID jmethod_id_or_null(Method* method);
// annotations support
Annotations* annotations() const { return _annotations; }
void set_annotations(Annotations* anno) { _annotations = anno; }
AnnotationArray* class_annotations() const {
return (_annotations != NULL) ? _annotations->class_annotations() : NULL;
}
Array<AnnotationArray*>* fields_annotations() const {
return (_annotations != NULL) ? _annotations->fields_annotations() : NULL;
}
AnnotationArray* class_type_annotations() const {
return (_annotations != NULL) ? _annotations->class_type_annotations() : NULL;
}
Array<AnnotationArray*>* fields_type_annotations() const {
return (_annotations != NULL) ? _annotations->fields_type_annotations() : NULL;
}
// allocation
instanceOop allocate_instance(TRAPS);
// additional member function to return a handle
instanceHandle allocate_instance_handle(TRAPS) { return instanceHandle(THREAD, allocate_instance(THREAD)); }
objArrayOop allocate_objArray(int n, int length, TRAPS);
// Helper function
static instanceOop register_finalizer(instanceOop i, TRAPS);
// Check whether reflection/jni/jvm code is allowed to instantiate this class;
// if not, throw either an Error or an Exception.
virtual void check_valid_for_instantiation(bool throwError, TRAPS);
// initialization
void call_class_initializer(TRAPS);
void set_initialization_state_and_notify(ClassState state, TRAPS);
// OopMapCache support
OopMapCache* oop_map_cache() { return _oop_map_cache; }
void set_oop_map_cache(OopMapCache *cache) { _oop_map_cache = cache; }
void mask_for(methodHandle method, int bci, InterpreterOopMap* entry);
// JNI identifier support (for static fields - for jni performance)
JNIid* jni_ids() { return _jni_ids; }
void set_jni_ids(JNIid* ids) { _jni_ids = ids; }
JNIid* jni_id_for(int offset);
// maintenance of deoptimization dependencies
int mark_dependent_nmethods(DepChange& changes);
void add_dependent_nmethod(nmethod* nm);
void remove_dependent_nmethod(nmethod* nm);
// On-stack replacement support
nmethod* osr_nmethods_head() const { return _osr_nmethods_head; };
void set_osr_nmethods_head(nmethod* h) { _osr_nmethods_head = h; };
void add_osr_nmethod(nmethod* n);
void remove_osr_nmethod(nmethod* n);
nmethod* lookup_osr_nmethod(const Method* m, int bci, int level, bool match_level) const;
// Breakpoint support (see methods on Method* for details)
BreakpointInfo* breakpoints() const { return _breakpoints; };
void set_breakpoints(BreakpointInfo* bps) { _breakpoints = bps; };
// support for stub routines
static ByteSize init_state_offset() { return in_ByteSize(offset_of(InstanceKlass, _init_state)); }
TRACE_DEFINE_OFFSET;
static ByteSize init_thread_offset() { return in_ByteSize(offset_of(InstanceKlass, _init_thread)); }
// subclass/subinterface checks
bool implements_interface(Klass* k) const;
bool is_same_or_direct_interface(Klass* k) const;
// Access to the implementor of an interface.
Klass* implementor() const
{
Klass** k = adr_implementor();
if (k == NULL) {
return NULL;
} else {
return *k;
}
}
void set_implementor(Klass* k) {
assert(is_interface(), "not interface");
Klass** addr = adr_implementor();
assert(addr != NULL, "null addr");
if (addr != NULL) {
*addr = k;
}
}
int nof_implementors() const {
Klass* k = implementor();
if (k == NULL) {
return 0;
} else if (k != this) {
return 1;
} else {
return 2;
}
}
void add_implementor(Klass* k); // k is a new class that implements this interface
void init_implementor(); // initialize
// link this class into the implementors list of every interface it implements
void process_interfaces(Thread *thread);
// virtual operations from Klass
bool is_leaf_class() const { return _subklass == NULL; }
GrowableArray<Klass*>* compute_secondary_supers(int num_extra_slots);
bool compute_is_subtype_of(Klass* k);
bool can_be_primary_super_slow() const;
int oop_size(oop obj) const { return size_helper(); }
bool oop_is_instance_slow() const { return true; }
// Iterators
void do_local_static_fields(FieldClosure* cl);
void do_nonstatic_fields(FieldClosure* cl); // including inherited fields
void do_local_static_fields(void f(fieldDescriptor*, TRAPS), TRAPS);
void methods_do(void f(Method* method));
void array_klasses_do(void f(Klass* k));
void array_klasses_do(void f(Klass* k, TRAPS), TRAPS);
bool super_types_do(SuperTypeClosure* blk);
// Casting from Klass*
static InstanceKlass* cast(Klass* k) {
assert(k->is_klass(), "must be");
assert(k->oop_is_instance(), "cast to InstanceKlass");
return (InstanceKlass*) k;
}
InstanceKlass* java_super() const {
return (super() == NULL) ? NULL : cast(super());
}
// Sizing (in words)
static int header_size() { return align_object_offset(sizeof(InstanceKlass)/HeapWordSize); }
static int size(int vtable_length, int itable_length,
int nonstatic_oop_map_size,
bool is_interface, bool is_anonymous) {
return align_object_size(header_size() +
align_object_offset(vtable_length) +
align_object_offset(itable_length) +
((is_interface || is_anonymous) ?
align_object_offset(nonstatic_oop_map_size) :
nonstatic_oop_map_size) +
(is_interface ? (int)sizeof(Klass*)/HeapWordSize : 0) +
(is_anonymous ? (int)sizeof(Klass*)/HeapWordSize : 0));
}
int size() const { return size(vtable_length(),
itable_length(),
nonstatic_oop_map_size(),
is_interface(),
is_anonymous());
}
#if INCLUDE_SERVICES
virtual void collect_statistics(KlassSizeStats *sz) const;
#endif
static int vtable_start_offset() { return header_size(); }
static int vtable_length_offset() { return offset_of(InstanceKlass, _vtable_len) / HeapWordSize; }
intptr_t* start_of_vtable() const { return ((intptr_t*)this) + vtable_start_offset(); }
intptr_t* start_of_itable() const { return start_of_vtable() + align_object_offset(vtable_length()); }
int itable_offset_in_words() const { return start_of_itable() - (intptr_t*)this; }
intptr_t* end_of_itable() const { return start_of_itable() + itable_length(); }
address static_field_addr(int offset);
OopMapBlock* start_of_nonstatic_oop_maps() const {
return (OopMapBlock*)(start_of_itable() + align_object_offset(itable_length()));
}
Klass** end_of_nonstatic_oop_maps() const {
return (Klass**)(start_of_nonstatic_oop_maps() +
nonstatic_oop_map_count());
}
Klass** adr_implementor() const {
if (is_interface()) {
return (Klass**)end_of_nonstatic_oop_maps();
} else {
return NULL;
}
};
Klass** adr_host_klass() const {
if (is_anonymous()) {
Klass** adr_impl = adr_implementor();
if (adr_impl != NULL) {
return adr_impl + 1;
} else {
return end_of_nonstatic_oop_maps();
}
} else {
return NULL;
}
}
// Use this to return the size of an instance in heap words:
int size_helper() const {
return layout_helper_to_size_helper(layout_helper());
}
// This bit is initialized in classFileParser.cpp.
// It is false under any of the following conditions:
// - the class is abstract (including any interface)
// - the class has a finalizer (if !RegisterFinalizersAtInit)
// - the class size is larger than FastAllocateSizeLimit
// - the class is java/lang/Class, which cannot be allocated directly
bool can_be_fastpath_allocated() const {
return !layout_helper_needs_slow_path(layout_helper());
}
// Java vtable/itable
klassVtable* vtable() const; // return new klassVtable wrapper
inline Method* method_at_vtable(int index);
klassItable* itable() const; // return new klassItable wrapper
Method* method_at_itable(Klass* holder, int index, TRAPS);
#if INCLUDE_JVMTI
void adjust_default_methods(Method** old_methods, Method** new_methods,
int methods_length, bool* trace_name_printed);
#endif // INCLUDE_JVMTI
// Garbage collection
void oop_follow_contents(oop obj);
int oop_adjust_pointers(oop obj);
void clean_implementors_list(BoolObjectClosure* is_alive);
void clean_method_data(BoolObjectClosure* is_alive);
// Explicit metaspace deallocation of fields
// For RedefineClasses and class file parsing errors, we need to deallocate
// instanceKlasses and the metadata they point to.
void deallocate_contents(ClassLoaderData* loader_data);
static void deallocate_methods(ClassLoaderData* loader_data,
Array<Method*>* methods);
void static deallocate_interfaces(ClassLoaderData* loader_data,
Klass* super_klass,
Array<Klass*>* local_interfaces,
Array<Klass*>* transitive_interfaces);
// The constant pool is on stack if any of the methods are executing or
// referenced by handles.
bool on_stack() const { return _constants->on_stack(); }
// callbacks for actions during class unloading
static void notify_unload_class(InstanceKlass* ik);
static void release_C_heap_structures(InstanceKlass* ik);
// Parallel Scavenge and Parallel Old
PARALLEL_GC_DECLS
// Naming
const char* signature_name() const;
// Iterators
int oop_oop_iterate(oop obj, ExtendedOopClosure* blk) {
return oop_oop_iterate_v(obj, blk);
}
int oop_oop_iterate_m(oop obj, ExtendedOopClosure* blk, MemRegion mr) {
return oop_oop_iterate_v_m(obj, blk, mr);
}
#define InstanceKlass_OOP_OOP_ITERATE_DECL(OopClosureType, nv_suffix) \
int oop_oop_iterate##nv_suffix(oop obj, OopClosureType* blk); \
int oop_oop_iterate##nv_suffix##_m(oop obj, OopClosureType* blk, \
MemRegion mr);
ALL_OOP_OOP_ITERATE_CLOSURES_1(InstanceKlass_OOP_OOP_ITERATE_DECL)
ALL_OOP_OOP_ITERATE_CLOSURES_2(InstanceKlass_OOP_OOP_ITERATE_DECL)
#if INCLUDE_ALL_GCS
#define InstanceKlass_OOP_OOP_ITERATE_BACKWARDS_DECL(OopClosureType, nv_suffix) \
int oop_oop_iterate_backwards##nv_suffix(oop obj, OopClosureType* blk);
ALL_OOP_OOP_ITERATE_CLOSURES_1(InstanceKlass_OOP_OOP_ITERATE_BACKWARDS_DECL)
ALL_OOP_OOP_ITERATE_CLOSURES_2(InstanceKlass_OOP_OOP_ITERATE_BACKWARDS_DECL)
#endif // INCLUDE_ALL_GCS
u2 idnum_allocated_count() const { return _idnum_allocated_count; }
private:
// initialization state
#ifdef ASSERT
void set_init_state(ClassState state);
#else
void set_init_state(ClassState state) { _init_state = (u1)state; }
#endif
void set_rewritten() { _misc_flags |= _misc_rewritten; }
void set_init_thread(Thread *thread) { _init_thread = thread; }
// The RedefineClasses() API can cause new method idnums to be needed
// which will cause the caches to grow. Safety requires different
// cache management logic if the caches can grow instead of just
// going from NULL to non-NULL.
bool idnum_can_increment() const { return has_been_redefined(); }
jmethodID* methods_jmethod_ids_acquire() const
{ return (jmethodID*)OrderAccess::load_ptr_acquire(&_methods_jmethod_ids); }
void release_set_methods_jmethod_ids(jmethodID* jmeths)
{ OrderAccess::release_store_ptr(&_methods_jmethod_ids, jmeths); }
// Lock during initialization
public:
// Lock for (1) initialization; (2) access to the ConstantPool of this class.
// Must be one per class and it has to be a VM internal object so java code
// cannot lock it (like the mirror).
// It has to be an object not a Mutex because it's held through java calls.
oop init_lock() const;
private:
void fence_and_clear_init_lock();
// Static methods that are used to implement member methods where an exposed this pointer
// is needed due to possible GCs
static bool link_class_impl (instanceKlassHandle this_oop, bool throw_verifyerror, TRAPS);
static bool verify_code (instanceKlassHandle this_oop, bool throw_verifyerror, TRAPS);
static void initialize_impl (instanceKlassHandle this_oop, TRAPS);
static void eager_initialize_impl (instanceKlassHandle this_oop);
static void set_initialization_state_and_notify_impl (instanceKlassHandle this_oop, ClassState state, TRAPS);
static void call_class_initializer_impl (instanceKlassHandle this_oop, TRAPS);
static Klass* array_klass_impl (instanceKlassHandle this_oop, bool or_null, int n, TRAPS);
static void do_local_static_fields_impl (instanceKlassHandle this_oop, void f(fieldDescriptor* fd, TRAPS), TRAPS);
/* jni_id_for_impl for jfieldID only */
static JNIid* jni_id_for_impl (instanceKlassHandle this_oop, int offset);
// Returns the array class for the n'th dimension
Klass* array_klass_impl(bool or_null, int n, TRAPS);
// Returns the array class with this class as element type
Klass* array_klass_impl(bool or_null, TRAPS);
// Free CHeap allocated fields.
void release_C_heap_structures();
public:
// CDS support - remove and restore oops from metadata. Oops are not shared.
virtual void remove_unshareable_info();
virtual void restore_unshareable_info(TRAPS);
// jvm support
jint compute_modifier_flags(TRAPS) const;
// JSR-292 support
MemberNameTable* member_names() { return _member_names; }
void set_member_names(MemberNameTable* member_names) { _member_names = member_names; }
void add_member_name(int index, Handle member_name);
oop get_member_name(int index);
public:
// JVMTI support
jint jvmti_class_status() const;
public:
// Printing
#ifndef PRODUCT
void print_on(outputStream* st) const;
#endif
void print_value_on(outputStream* st) const;
void oop_print_value_on(oop obj, outputStream* st);
#ifndef PRODUCT
void oop_print_on (oop obj, outputStream* st);
void print_dependent_nmethods(bool verbose = false);
bool is_dependent_nmethod(nmethod* nm);
#endif
const char* internal_name() const;
// Verification
void verify_on(outputStream* st, bool check_dictionary);
void oop_verify_on(oop obj, outputStream* st);
};
inline Method* InstanceKlass::method_at_vtable(int index) {
#ifndef PRODUCT
assert(index >= 0, "valid vtable index");
if (DebugVtables) {
verify_vtable_index(index);
}
#endif
vtableEntry* ve = (vtableEntry*)start_of_vtable();
return ve[index].method();
}
// for adding methods
// UNSET_IDNUM return means no more ids available
inline u2 InstanceKlass::next_method_idnum() {
if (_idnum_allocated_count == ConstMethod::MAX_IDNUM) {
return ConstMethod::UNSET_IDNUM; // no more ids available
} else {
return _idnum_allocated_count++;
}
}
/* JNIid class for jfieldIDs only */
class JNIid: public CHeapObj<mtClass> {
friend class VMStructs;
private:
Klass* _holder;
JNIid* _next;
int _offset;
#ifdef ASSERT
bool _is_static_field_id;
#endif
public:
// Accessors
Klass* holder() const { return _holder; }
int offset() const { return _offset; }
JNIid* next() { return _next; }
// Constructor
JNIid(Klass* holder, int offset, JNIid* next);
// Identifier lookup
JNIid* find(int offset);
bool find_local_field(fieldDescriptor* fd) {
return InstanceKlass::cast(holder())->find_local_field_from_offset(offset(), true, fd);
}
static void deallocate(JNIid* id);
// Debugging
#ifdef ASSERT
bool is_static_field_id() const { return _is_static_field_id; }
void set_is_static_field_id() { _is_static_field_id = true; }
#endif
void verify(Klass* holder);
};
// If breakpoints are more numerous than just JVMTI breakpoints,
// consider compressing this data structure.
// It is currently a simple linked list defined in method.hpp.
class BreakpointInfo;
// A collection point for interesting information about the previous
// version(s) of an InstanceKlass. A GrowableArray of PreviousVersionNodes
// is attached to the InstanceKlass as needed. See PreviousVersionWalker below.
class PreviousVersionNode : public CHeapObj<mtClass> {
private:
ConstantPool* _prev_constant_pool;
// If the previous version of the InstanceKlass doesn't have any
// EMCP methods, then _prev_EMCP_methods will be NULL. If all the
// EMCP methods have been collected, then _prev_EMCP_methods can
// have a length of zero.
GrowableArray<Method*>* _prev_EMCP_methods;
public:
PreviousVersionNode(ConstantPool* prev_constant_pool,
GrowableArray<Method*>* prev_EMCP_methods);
~PreviousVersionNode();
ConstantPool* prev_constant_pool() const {
return _prev_constant_pool;
}
GrowableArray<Method*>* prev_EMCP_methods() const {
return _prev_EMCP_methods;
}
};
// Helper object for walking previous versions.
class PreviousVersionWalker : public StackObj {
private:
Thread* _thread;
GrowableArray<PreviousVersionNode *>* _previous_versions;
int _current_index;
// A pointer to the current node object so we can handle the deletes.
PreviousVersionNode* _current_p;
// The constant pool handle keeps all the methods in this class from being
// deallocated from the metaspace during class unloading.
constantPoolHandle _current_constant_pool_handle;
public:
PreviousVersionWalker(Thread* thread, InstanceKlass *ik);
// Return the interesting information for the next previous version
// of the klass. Returns NULL if there are no more previous versions.
PreviousVersionNode* next_previous_version();
};
//
// nmethodBucket is used to record dependent nmethods for
// deoptimization. nmethod dependencies are actually <klass, method>
// pairs but we really only care about the klass part for purposes of
// finding nmethods which might need to be deoptimized. Instead of
// recording the method, a count of how many times a particular nmethod
// was recorded is kept. This ensures that any recording errors are
// noticed since an nmethod should be removed as many times are it's
// added.
//
class nmethodBucket: public CHeapObj<mtClass> {
friend class VMStructs;
private:
nmethod* _nmethod;
int _count;
nmethodBucket* _next;
public:
nmethodBucket(nmethod* nmethod, nmethodBucket* next) {
_nmethod = nmethod;
_next = next;
_count = 1;
}
int count() { return _count; }
int increment() { _count += 1; return _count; }
int decrement() { _count -= 1; assert(_count >= 0, "don't underflow"); return _count; }
nmethodBucket* next() { return _next; }
void set_next(nmethodBucket* b) { _next = b; }
nmethod* get_nmethod() { return _nmethod; }
};
// An iterator that's used to access the inner classes indices in the
// InstanceKlass::_inner_classes array.
class InnerClassesIterator : public StackObj {
private:
Array<jushort>* _inner_classes;
int _length;
int _idx;
public:
InnerClassesIterator(instanceKlassHandle k) {
_inner_classes = k->inner_classes();
if (k->inner_classes() != NULL) {
_length = _inner_classes->length();
// The inner class array's length should be the multiple of
// inner_class_next_offset if it only contains the InnerClasses
// attribute data, or it should be
// n*inner_class_next_offset+enclosing_method_attribute_size
// if it also contains the EnclosingMethod data.
assert((_length % InstanceKlass::inner_class_next_offset == 0 ||
_length % InstanceKlass::inner_class_next_offset == InstanceKlass::enclosing_method_attribute_size),
"just checking");
// Remove the enclosing_method portion if exists.
if (_length % InstanceKlass::inner_class_next_offset == InstanceKlass::enclosing_method_attribute_size) {
_length -= InstanceKlass::enclosing_method_attribute_size;
}
} else {
_length = 0;
}
_idx = 0;
}
int length() const {
return _length;
}
void next() {
_idx += InstanceKlass::inner_class_next_offset;
}
bool done() const {
return (_idx >= _length);
}
u2 inner_class_info_index() const {
return _inner_classes->at(
_idx + InstanceKlass::inner_class_inner_class_info_offset);
}
void set_inner_class_info_index(u2 index) {
_inner_classes->at_put(
_idx + InstanceKlass::inner_class_inner_class_info_offset, index);
}
u2 outer_class_info_index() const {
return _inner_classes->at(
_idx + InstanceKlass::inner_class_outer_class_info_offset);
}
void set_outer_class_info_index(u2 index) {
_inner_classes->at_put(
_idx + InstanceKlass::inner_class_outer_class_info_offset, index);
}
u2 inner_name_index() const {
return _inner_classes->at(
_idx + InstanceKlass::inner_class_inner_name_offset);
}
void set_inner_name_index(u2 index) {
_inner_classes->at_put(
_idx + InstanceKlass::inner_class_inner_name_offset, index);
}
u2 inner_access_flags() const {
return _inner_classes->at(
_idx + InstanceKlass::inner_class_access_flags_offset);
}
};
#endif // SHARE_VM_OOPS_INSTANCEKLASS_HPP
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