/* * Copyright (c) 1999, 2020, Oracle and/or its affiliates. All rights reserved. * 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. * * 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. * */ #include "precompiled.hpp" #include "ci/ciField.hpp" #include "ci/ciInstanceKlass.hpp" #include "ci/ciUtilities.inline.hpp" #include "classfile/systemDictionary.hpp" #include "gc/shared/collectedHeap.inline.hpp" #include "interpreter/linkResolver.hpp" #include "oops/oop.inline.hpp" #include "runtime/fieldDescriptor.inline.hpp" #include "runtime/handles.inline.hpp" // ciField // // This class represents the result of a field lookup in the VM. // The lookup may not succeed, in which case the information in // the ciField will be incomplete. // The ciObjectFactory cannot create circular data structures in one query. // To avoid vicious circularities, we initialize ciField::_type to NULL // for reference types and derive it lazily from the ciField::_signature. // Primitive types are eagerly initialized, and basic layout queries // can succeed without initialization, using only the BasicType of the field. // Notes on bootstrapping and shared CI objects: A field is shared if and // only if it is (a) non-static and (b) declared by a shared instance klass. // This allows non-static field lists to be cached on shared types. // Because the _type field is lazily initialized, however, there is a // special restriction that a shared field cannot cache an unshared type. // This puts a small performance penalty on shared fields with unshared // types, such as StackTraceElement[] Throwable.stackTrace. // (Throwable is shared because ClassCastException is shared, but // StackTraceElement is not presently shared.) // It is not a vicious circularity for a ciField to recursively create // the ciSymbols necessary to represent its name and signature. // Therefore, these items are created eagerly, and the name and signature // of a shared field are themselves shared symbols. This somewhat // pollutes the set of shared CI objects: It grows from 50 to 93 items, // with all of the additional 43 being uninteresting shared ciSymbols. // This adds at most one step to the binary search, an amount which // decreases for complex compilation tasks. // ------------------------------------------------------------------ // ciField::ciField ciField::ciField(ciInstanceKlass* klass, int index) : _known_to_link_with_put(NULL), _known_to_link_with_get(NULL) { ASSERT_IN_VM; CompilerThread *THREAD = CompilerThread::current(); assert(ciObjectFactory::is_initialized(), "not a shared field"); assert(klass->get_instanceKlass()->is_linked(), "must be linked before using its constant-pool"); constantPoolHandle cpool(THREAD, klass->get_instanceKlass()->constants()); // Get the field's name, signature, and type. Symbol* name = cpool->name_ref_at(index); _name = ciEnv::current(THREAD)->get_symbol(name); int nt_index = cpool->name_and_type_ref_index_at(index); int sig_index = cpool->signature_ref_index_at(nt_index); Symbol* signature = cpool->symbol_at(sig_index); _signature = ciEnv::current(THREAD)->get_symbol(signature); BasicType field_type = Signature::basic_type(signature); // If the field is a pointer type, get the klass of the // field. if (is_reference_type(field_type)) { bool ignore; // This is not really a class reference; the index always refers to the // field's type signature, as a symbol. Linkage checks do not apply. _type = ciEnv::current(THREAD)->get_klass_by_index(cpool, sig_index, ignore, klass); } else { _type = ciType::make(field_type); } _name = (ciSymbol*)ciEnv::current(THREAD)->get_symbol(name); // Get the field's declared holder. // // Note: we actually create a ciInstanceKlass for this klass, // even though we may not need to. int holder_index = cpool->klass_ref_index_at(index); bool holder_is_accessible; ciKlass* generic_declared_holder = ciEnv::current(THREAD)->get_klass_by_index(cpool, holder_index, holder_is_accessible, klass); if (generic_declared_holder->is_array_klass()) { // If the declared holder of the field is an array class, assume that // the canonical holder of that field is java.lang.Object. Arrays // do not have fields; java.lang.Object is the only supertype of an // array type that can declare fields and is therefore the canonical // holder of the array type. // // Furthermore, the compilers assume that java.lang.Object does not // have any fields. Therefore, the field is not looked up. Instead, // the method returns partial information that will trigger special // handling in ciField::will_link and will result in a // java.lang.NoSuchFieldError exception being thrown by the compiled // code (the expected behavior in this case). _holder = ciEnv::current(THREAD)->Object_klass(); _offset = -1; _is_constant = false; return; } ciInstanceKlass* declared_holder = generic_declared_holder->as_instance_klass(); // The declared holder of this field may not have been loaded. // Bail out with partial field information. if (!holder_is_accessible) { // _type has already been set. // The default values for _flags and _constant_value will suffice. // We need values for _holder, _offset, and _is_constant, _holder = declared_holder; _offset = -1; _is_constant = false; return; } InstanceKlass* loaded_decl_holder = declared_holder->get_instanceKlass(); // Perform the field lookup. fieldDescriptor field_desc; Klass* canonical_holder = loaded_decl_holder->find_field(name, signature, &field_desc); if (canonical_holder == NULL) { // Field lookup failed. Will be detected by will_link. _holder = declared_holder; _offset = -1; _is_constant = false; return; } // Access check based on declared_holder. canonical_holder should not be used // to check access because it can erroneously succeed. If this check fails, // propagate the declared holder to will_link() which in turn will bail out // compilation for this field access. bool can_access = Reflection::verify_member_access(klass->get_Klass(), declared_holder->get_Klass(), canonical_holder, field_desc.access_flags(), true, false, THREAD); if (!can_access) { _holder = declared_holder; _offset = -1; _is_constant = false; // It's possible the access check failed due to a nestmate access check // encountering an exception. We can't propagate the exception from here // so we have to clear it. If the access check happens again in a different // context then the exception will be thrown there. if (HAS_PENDING_EXCEPTION) { CLEAR_PENDING_EXCEPTION; } return; } assert(canonical_holder == field_desc.field_holder(), "just checking"); initialize_from(&field_desc); } ciField::ciField(fieldDescriptor *fd) : _known_to_link_with_put(NULL), _known_to_link_with_get(NULL) { ASSERT_IN_VM; // Get the field's name, signature, and type. ciEnv* env = CURRENT_ENV; _name = env->get_symbol(fd->name()); _signature = env->get_symbol(fd->signature()); BasicType field_type = fd->field_type(); // If the field is a pointer type, get the klass of the // field. if (is_reference_type(field_type)) { _type = NULL; // must call compute_type on first access } else { _type = ciType::make(field_type); } initialize_from(fd); // Either (a) it is marked shared, or else (b) we are done bootstrapping. assert(is_shared() || ciObjectFactory::is_initialized(), "bootstrap classes must not create & cache unshared fields"); } static bool trust_final_non_static_fields(ciInstanceKlass* holder) { if (holder == NULL) return false; if (holder->name() == ciSymbol::java_lang_System()) // Never trust strangely unstable finals: System.out, etc. return false; // Even if general trusting is disabled, trust system-built closures in these packages. if (holder->is_in_package("java/lang/invoke") || holder->is_in_package("sun/invoke") || holder->is_in_package("jdk/internal/foreign") || holder->is_in_package("jdk/incubator/foreign") || holder->is_in_package("java/lang")) return true; // Trust hidden classes and VM unsafe anonymous classes. They are created via // Lookup.defineHiddenClass or the private jdk.internal.misc.Unsafe API and // can't be serialized, so there is no hacking of finals going on with them. if (holder->is_hidden() || holder->is_unsafe_anonymous()) return true; // Trust final fields in all boxed classes if (holder->is_box_klass()) return true; // Trust final fields in String if (holder->name() == ciSymbol::java_lang_String()) return true; // Trust Atomic*FieldUpdaters: they are very important for performance, and make up one // more reason not to use Unsafe, if their final fields are trusted. See more in JDK-8140483. if (holder->name() == ciSymbol::java_util_concurrent_atomic_AtomicIntegerFieldUpdater_Impl() || holder->name() == ciSymbol::java_util_concurrent_atomic_AtomicLongFieldUpdater_CASUpdater() || holder->name() == ciSymbol::java_util_concurrent_atomic_AtomicLongFieldUpdater_LockedUpdater() || holder->name() == ciSymbol::java_util_concurrent_atomic_AtomicReferenceFieldUpdater_Impl()) { return true; } return TrustFinalNonStaticFields; } void ciField::initialize_from(fieldDescriptor* fd) { // Get the flags, offset, and canonical holder of the field. _flags = ciFlags(fd->access_flags()); _offset = fd->offset(); Klass* field_holder = fd->field_holder(); assert(field_holder != NULL, "null field_holder"); _holder = CURRENT_ENV->get_instance_klass(field_holder); // Check to see if the field is constant. Klass* k = _holder->get_Klass(); bool is_stable_field = FoldStableValues && is_stable(); if ((is_final() && !has_initialized_final_update()) || is_stable_field) { if (is_static()) { // This field just may be constant. The only case where it will // not be constant is when the field is a *special* static & final field // whose value may change. The three examples are java.lang.System.in, // java.lang.System.out, and java.lang.System.err. assert(SystemDictionary::System_klass() != NULL, "Check once per vm"); if (k == SystemDictionary::System_klass()) { // Check offsets for case 2: System.in, System.out, or System.err if( _offset == java_lang_System::in_offset_in_bytes() || _offset == java_lang_System::out_offset_in_bytes() || _offset == java_lang_System::err_offset_in_bytes() ) { _is_constant = false; return; } } _is_constant = true; } else { // An instance field can be constant if it's a final static field or if // it's a final non-static field of a trusted class (classes in // java.lang.invoke and sun.invoke packages and subpackages). _is_constant = is_stable_field || trust_final_non_static_fields(_holder); } } else { // For CallSite objects treat the target field as a compile time constant. assert(SystemDictionary::CallSite_klass() != NULL, "should be already initialized"); if (k == SystemDictionary::CallSite_klass() && _offset == java_lang_invoke_CallSite::target_offset_in_bytes()) { assert(!has_initialized_final_update(), "CallSite is not supposed to have writes to final fields outside initializers"); _is_constant = true; } else { // Non-final & non-stable fields are not constants. _is_constant = false; } } } // ------------------------------------------------------------------ // ciField::constant_value // Get the constant value of a this static field. ciConstant ciField::constant_value() { assert(is_static() && is_constant(), "illegal call to constant_value()"); if (!_holder->is_initialized()) { return ciConstant(); // Not initialized yet } if (_constant_value.basic_type() == T_ILLEGAL) { // Static fields are placed in mirror objects. VM_ENTRY_MARK; ciInstance* mirror = CURRENT_ENV->get_instance(_holder->get_Klass()->java_mirror()); _constant_value = mirror->field_value_impl(type()->basic_type(), offset()); } if (FoldStableValues && is_stable() && _constant_value.is_null_or_zero()) { return ciConstant(); } return _constant_value; } // ------------------------------------------------------------------ // ciField::constant_value_of // Get the constant value of non-static final field in the given object. ciConstant ciField::constant_value_of(ciObject* object) { assert(!is_static() && is_constant(), "only if field is non-static constant"); assert(object->is_instance(), "must be instance"); ciConstant field_value = object->as_instance()->field_value(this); if (FoldStableValues && is_stable() && field_value.is_null_or_zero()) { return ciConstant(); } return field_value; } // ------------------------------------------------------------------ // ciField::compute_type // // Lazily compute the type, if it is an instance klass. ciType* ciField::compute_type() { GUARDED_VM_ENTRY(return compute_type_impl();) } ciType* ciField::compute_type_impl() { ciKlass* type = CURRENT_ENV->get_klass_by_name_impl(_holder, constantPoolHandle(), _signature, false); if (!type->is_primitive_type() && is_shared()) { // We must not cache a pointer to an unshared type, in a shared field. bool type_is_also_shared = false; if (type->is_type_array_klass()) { type_is_also_shared = true; // int[] etc. are explicitly bootstrapped } else if (type->is_instance_klass()) { type_is_also_shared = type->as_instance_klass()->is_shared(); } else { // Currently there is no 'shared' query for array types. type_is_also_shared = !ciObjectFactory::is_initialized(); } if (!type_is_also_shared) return type; // Bummer. } _type = type; return type; } // ------------------------------------------------------------------ // ciField::will_link // // Can a specific access to this field be made without causing // link errors? bool ciField::will_link(ciMethod* accessing_method, Bytecodes::Code bc) { VM_ENTRY_MARK; assert(bc == Bytecodes::_getstatic || bc == Bytecodes::_putstatic || bc == Bytecodes::_getfield || bc == Bytecodes::_putfield, "unexpected bytecode"); if (_offset == -1) { // at creation we couldn't link to our holder so we need to // maintain that stance, otherwise there's no safe way to use this // ciField. return false; } // Check for static/nonstatic mismatch bool is_static = (bc == Bytecodes::_getstatic || bc == Bytecodes::_putstatic); if (is_static != this->is_static()) { return false; } // Get and put can have different accessibility rules bool is_put = (bc == Bytecodes::_putfield || bc == Bytecodes::_putstatic); if (is_put) { if (_known_to_link_with_put == accessing_method) { return true; } } else { if (_known_to_link_with_get == accessing_method->holder()) { return true; } } LinkInfo link_info(_holder->get_instanceKlass(), _name->get_symbol(), _signature->get_symbol(), methodHandle(THREAD, accessing_method->get_Method())); fieldDescriptor result; LinkResolver::resolve_field(result, link_info, bc, false, KILL_COMPILE_ON_FATAL_(false)); // update the hit-cache, unless there is a problem with memory scoping: if (accessing_method->holder()->is_shared() || !is_shared()) { if (is_put) { _known_to_link_with_put = accessing_method; } else { _known_to_link_with_get = accessing_method->holder(); } } return true; } // ------------------------------------------------------------------ // ciField::print void ciField::print() { tty->print("print_symbol(); tty->print(" signature="); _signature->print_symbol(); tty->print(" offset=%d type=", _offset); if (_type != NULL) _type->print_name(); else tty->print("(reference)"); tty->print(" flags=%04x", flags().as_int()); tty->print(" is_constant=%s", bool_to_str(_is_constant)); if (_is_constant && is_static()) { tty->print(" constant_value="); _constant_value.print(); } tty->print(">"); } // ------------------------------------------------------------------ // ciField::print_name_on // // Print the name of this field void ciField::print_name_on(outputStream* st) { name()->print_symbol_on(st); }