/* * Copyright (c) 1997, 2018, 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 "classfile/altHashing.hpp" #include "classfile/classLoaderData.inline.hpp" #include "classfile/javaClasses.inline.hpp" #include "classfile/moduleEntry.hpp" #include "classfile/stringTable.hpp" #include "classfile/vmSymbols.hpp" #include "code/debugInfo.hpp" #include "code/dependencyContext.hpp" #include "code/pcDesc.hpp" #include "interpreter/interpreter.hpp" #include "interpreter/linkResolver.hpp" #include "logging/log.hpp" #include "logging/logStream.hpp" #include "memory/oopFactory.hpp" #include "memory/metaspaceShared.hpp" #include "memory/resourceArea.hpp" #include "memory/universe.hpp" #include "oops/fieldStreams.hpp" #include "oops/instanceKlass.hpp" #include "oops/instanceMirrorKlass.hpp" #include "oops/klass.hpp" #include "oops/method.inline.hpp" #include "oops/objArrayOop.inline.hpp" #include "oops/oop.inline.hpp" #include "oops/symbol.hpp" #include "oops/typeArrayOop.inline.hpp" #include "prims/resolvedMethodTable.hpp" #include "runtime/fieldDescriptor.hpp" #include "runtime/frame.inline.hpp" #include "runtime/handles.inline.hpp" #include "runtime/interfaceSupport.inline.hpp" #include "runtime/java.hpp" #include "runtime/javaCalls.hpp" #include "runtime/jniHandles.inline.hpp" #include "runtime/safepoint.hpp" #include "runtime/safepointVerifiers.hpp" #include "runtime/thread.inline.hpp" #include "runtime/vframe.inline.hpp" #include "utilities/align.hpp" #include "utilities/preserveException.hpp" #if INCLUDE_JVMCI #include "jvmci/jvmciJavaClasses.hpp" #endif #define INJECTED_FIELD_COMPUTE_OFFSET(klass, name, signature, may_be_java) \ klass::_##name##_offset = JavaClasses::compute_injected_offset(JavaClasses::klass##_##name##_enum); #if INCLUDE_CDS #define INJECTED_FIELD_SERIALIZE_OFFSET(klass, name, signature, may_be_java) \ f->do_u4((u4*)&_##name##_offset); #endif #define DECLARE_INJECTED_FIELD(klass, name, signature, may_be_java) \ { SystemDictionary::WK_KLASS_ENUM_NAME(klass), vmSymbols::VM_SYMBOL_ENUM_NAME(name##_name), vmSymbols::VM_SYMBOL_ENUM_NAME(signature), may_be_java }, InjectedField JavaClasses::_injected_fields[] = { ALL_INJECTED_FIELDS(DECLARE_INJECTED_FIELD) }; int JavaClasses::compute_injected_offset(InjectedFieldID id) { return _injected_fields[id].compute_offset(); } InjectedField* JavaClasses::get_injected(Symbol* class_name, int* field_count) { *field_count = 0; vmSymbols::SID sid = vmSymbols::find_sid(class_name); if (sid == vmSymbols::NO_SID) { // Only well known classes can inject fields return NULL; } int count = 0; int start = -1; #define LOOKUP_INJECTED_FIELD(klass, name, signature, may_be_java) \ if (sid == vmSymbols::VM_SYMBOL_ENUM_NAME(klass)) { \ count++; \ if (start == -1) start = klass##_##name##_enum; \ } ALL_INJECTED_FIELDS(LOOKUP_INJECTED_FIELD); #undef LOOKUP_INJECTED_FIELD if (start != -1) { *field_count = count; return _injected_fields + start; } return NULL; } // Helpful routine for computing field offsets at run time rather than hardcoding them // Finds local fields only, including static fields. Static field offsets are from the // beginning of the mirror. static void compute_offset(int &dest_offset, InstanceKlass* ik, Symbol* name_symbol, Symbol* signature_symbol, bool is_static = false) { fieldDescriptor fd; if (ik == NULL) { ResourceMark rm; log_error(class)("Mismatch JDK version for field: %s type: %s", name_symbol->as_C_string(), signature_symbol->as_C_string()); vm_exit_during_initialization("Invalid layout of preloaded class"); } if (!ik->find_local_field(name_symbol, signature_symbol, &fd) || fd.is_static() != is_static) { ResourceMark rm; log_error(class)("Invalid layout of %s field: %s type: %s", ik->external_name(), name_symbol->as_C_string(), signature_symbol->as_C_string()); #ifndef PRODUCT // Prints all fields and offsets Log(class) lt; LogStream ls(lt.error()); ik->print_on(&ls); #endif //PRODUCT vm_exit_during_initialization("Invalid layout of preloaded class: use -Xlog:class+load=info to see the origin of the problem class"); } dest_offset = fd.offset(); } // Overloading to pass name as a string. static void compute_offset(int& dest_offset, InstanceKlass* ik, const char* name_string, Symbol* signature_symbol, bool is_static = false) { TempNewSymbol name = SymbolTable::probe(name_string, (int)strlen(name_string)); if (name == NULL) { ResourceMark rm; log_error(class)("Name %s should be in the SymbolTable since its class is loaded", name_string); vm_exit_during_initialization("Invalid layout of preloaded class", ik->external_name()); } compute_offset(dest_offset, ik, name, signature_symbol, is_static); } // Same as above but for "optional" offsets that might not be present in certain JDK versions // Old versions should be cleaned out since Hotspot only supports the current JDK, and this // function should be removed. static void compute_optional_offset(int& dest_offset, InstanceKlass* ik, Symbol* name_symbol, Symbol* signature_symbol) { fieldDescriptor fd; if (ik->find_local_field(name_symbol, signature_symbol, &fd)) { dest_offset = fd.offset(); } } int java_lang_String::value_offset = 0; int java_lang_String::hash_offset = 0; int java_lang_String::coder_offset = 0; bool java_lang_String::initialized = false; bool java_lang_String::is_instance(oop obj) { return is_instance_inlined(obj); } #if INCLUDE_CDS #define FIELD_SERIALIZE_OFFSET(offset, klass, name, signature, is_static) \ f->do_u4((u4*)&offset) #define FIELD_SERIALIZE_OFFSET_OPTIONAL(offset, klass, name, signature) \ f->do_u4((u4*)&offset) #endif #define FIELD_COMPUTE_OFFSET(offset, klass, name, signature, is_static) \ compute_offset(offset, klass, name, vmSymbols::signature(), is_static) #define FIELD_COMPUTE_OFFSET_OPTIONAL(offset, klass, name, signature) \ compute_optional_offset(offset, klass, name, vmSymbols::signature()) #define STRING_FIELDS_DO(macro) \ macro(value_offset, k, vmSymbols::value_name(), byte_array_signature, false); \ macro(hash_offset, k, "hash", int_signature, false); \ macro(coder_offset, k, "coder", byte_signature, false) void java_lang_String::compute_offsets() { if (initialized) { return; } InstanceKlass* k = SystemDictionary::String_klass(); STRING_FIELDS_DO(FIELD_COMPUTE_OFFSET); initialized = true; } #if INCLUDE_CDS void java_lang_String::serialize(SerializeClosure* f) { STRING_FIELDS_DO(FIELD_SERIALIZE_OFFSET); f->do_u4((u4*)&initialized); } #endif class CompactStringsFixup : public FieldClosure { private: bool _value; public: CompactStringsFixup(bool value) : _value(value) {} void do_field(fieldDescriptor* fd) { if (fd->name() == vmSymbols::compact_strings_name()) { oop mirror = fd->field_holder()->java_mirror(); assert(fd->field_holder() == SystemDictionary::String_klass(), "Should be String"); assert(mirror != NULL, "String must have mirror already"); mirror->bool_field_put(fd->offset(), _value); } } }; void java_lang_String::set_compact_strings(bool value) { CompactStringsFixup fix(value); InstanceKlass::cast(SystemDictionary::String_klass())->do_local_static_fields(&fix); } Handle java_lang_String::basic_create(int length, bool is_latin1, TRAPS) { assert(initialized, "Must be initialized"); assert(CompactStrings || !is_latin1, "Must be UTF16 without CompactStrings"); // Create the String object first, so there's a chance that the String // and the char array it points to end up in the same cache line. oop obj; obj = SystemDictionary::String_klass()->allocate_instance(CHECK_NH); // Create the char array. The String object must be handlized here // because GC can happen as a result of the allocation attempt. Handle h_obj(THREAD, obj); int arr_length = is_latin1 ? length : length << 1; // 2 bytes per UTF16. typeArrayOop buffer = oopFactory::new_byteArray(arr_length, CHECK_NH);; // Point the String at the char array obj = h_obj(); set_value(obj, buffer); // No need to zero the offset, allocation zero'ed the entire String object set_coder(obj, is_latin1 ? CODER_LATIN1 : CODER_UTF16); return h_obj; } Handle java_lang_String::create_from_unicode(jchar* unicode, int length, TRAPS) { bool is_latin1 = CompactStrings && UNICODE::is_latin1(unicode, length); Handle h_obj = basic_create(length, is_latin1, CHECK_NH); typeArrayOop buffer = value(h_obj()); assert(TypeArrayKlass::cast(buffer->klass())->element_type() == T_BYTE, "only byte[]"); if (is_latin1) { for (int index = 0; index < length; index++) { buffer->byte_at_put(index, (jbyte)unicode[index]); } } else { for (int index = 0; index < length; index++) { buffer->char_at_put(index, unicode[index]); } } #ifdef ASSERT { ResourceMark rm; char* expected = UNICODE::as_utf8(unicode, length); char* actual = as_utf8_string(h_obj()); if (strcmp(expected, actual) != 0) { tty->print_cr("Unicode conversion failure: %s --> %s", expected, actual); ShouldNotReachHere(); } } #endif return h_obj; } oop java_lang_String::create_oop_from_unicode(jchar* unicode, int length, TRAPS) { Handle h_obj = create_from_unicode(unicode, length, CHECK_0); return h_obj(); } Handle java_lang_String::create_from_str(const char* utf8_str, TRAPS) { if (utf8_str == NULL) { return Handle(); } bool has_multibyte, is_latin1; int length = UTF8::unicode_length(utf8_str, is_latin1, has_multibyte); if (!CompactStrings) { has_multibyte = true; is_latin1 = false; } Handle h_obj = basic_create(length, is_latin1, CHECK_NH); if (length > 0) { if (!has_multibyte) { strncpy((char*)value(h_obj())->byte_at_addr(0), utf8_str, length); } else if (is_latin1) { UTF8::convert_to_unicode(utf8_str, value(h_obj())->byte_at_addr(0), length); } else { UTF8::convert_to_unicode(utf8_str, value(h_obj())->char_at_addr(0), length); } } #ifdef ASSERT // This check is too strict because the input string is not necessarily valid UTF8. // For example, it may be created with arbitrary content via jni_NewStringUTF. /* { ResourceMark rm; const char* expected = utf8_str; char* actual = as_utf8_string(h_obj()); if (strcmp(expected, actual) != 0) { tty->print_cr("String conversion failure: %s --> %s", expected, actual); ShouldNotReachHere(); } } */ #endif return h_obj; } oop java_lang_String::create_oop_from_str(const char* utf8_str, TRAPS) { Handle h_obj = create_from_str(utf8_str, CHECK_0); return h_obj(); } Handle java_lang_String::create_from_symbol(Symbol* symbol, TRAPS) { const char* utf8_str = (char*)symbol->bytes(); int utf8_len = symbol->utf8_length(); bool has_multibyte, is_latin1; int length = UTF8::unicode_length(utf8_str, utf8_len, is_latin1, has_multibyte); if (!CompactStrings) { has_multibyte = true; is_latin1 = false; } Handle h_obj = basic_create(length, is_latin1, CHECK_NH); if (length > 0) { if (!has_multibyte) { strncpy((char*)value(h_obj())->byte_at_addr(0), utf8_str, length); } else if (is_latin1) { UTF8::convert_to_unicode(utf8_str, value(h_obj())->byte_at_addr(0), length); } else { UTF8::convert_to_unicode(utf8_str, value(h_obj())->char_at_addr(0), length); } } #ifdef ASSERT { ResourceMark rm; const char* expected = symbol->as_utf8(); char* actual = as_utf8_string(h_obj()); if (strncmp(expected, actual, utf8_len) != 0) { tty->print_cr("Symbol conversion failure: %s --> %s", expected, actual); ShouldNotReachHere(); } } #endif return h_obj; } // Converts a C string to a Java String based on current encoding Handle java_lang_String::create_from_platform_dependent_str(const char* str, TRAPS) { assert(str != NULL, "bad arguments"); typedef jstring (*to_java_string_fn_t)(JNIEnv*, const char *); static to_java_string_fn_t _to_java_string_fn = NULL; if (_to_java_string_fn == NULL) { void *lib_handle = os::native_java_library(); _to_java_string_fn = CAST_TO_FN_PTR(to_java_string_fn_t, os::dll_lookup(lib_handle, "NewStringPlatform")); if (_to_java_string_fn == NULL) { fatal("NewStringPlatform missing"); } } jstring js = NULL; { JavaThread* thread = (JavaThread*)THREAD; assert(thread->is_Java_thread(), "must be java thread"); HandleMark hm(thread); ThreadToNativeFromVM ttn(thread); js = (_to_java_string_fn)(thread->jni_environment(), str); } return Handle(THREAD, JNIHandles::resolve(js)); } // Converts a Java String to a native C string that can be used for // native OS calls. char* java_lang_String::as_platform_dependent_str(Handle java_string, TRAPS) { typedef char* (*to_platform_string_fn_t)(JNIEnv*, jstring, bool*); static to_platform_string_fn_t _to_platform_string_fn = NULL; if (_to_platform_string_fn == NULL) { void *lib_handle = os::native_java_library(); _to_platform_string_fn = CAST_TO_FN_PTR(to_platform_string_fn_t, os::dll_lookup(lib_handle, "GetStringPlatformChars")); if (_to_platform_string_fn == NULL) { fatal("GetStringPlatformChars missing"); } } char *native_platform_string; { JavaThread* thread = (JavaThread*)THREAD; assert(thread->is_Java_thread(), "must be java thread"); JNIEnv *env = thread->jni_environment(); jstring js = (jstring) JNIHandles::make_local(env, java_string()); bool is_copy; HandleMark hm(thread); ThreadToNativeFromVM ttn(thread); native_platform_string = (_to_platform_string_fn)(env, js, &is_copy); assert(is_copy == JNI_TRUE, "is_copy value changed"); JNIHandles::destroy_local(js); } return native_platform_string; } Handle java_lang_String::char_converter(Handle java_string, jchar from_char, jchar to_char, TRAPS) { oop obj = java_string(); // Typical usage is to convert all '/' to '.' in string. typeArrayOop value = java_lang_String::value(obj); int length = java_lang_String::length(obj); bool is_latin1 = java_lang_String::is_latin1(obj); // First check if any from_char exist int index; // Declared outside, used later for (index = 0; index < length; index++) { jchar c = !is_latin1 ? value->char_at(index) : ((jchar) value->byte_at(index)) & 0xff; if (c == from_char) { break; } } if (index == length) { // No from_char, so do not copy. return java_string; } // Check if result string will be latin1 bool to_is_latin1 = false; // Replacement char must be latin1 if (CompactStrings && UNICODE::is_latin1(to_char)) { if (is_latin1) { // Source string is latin1 as well to_is_latin1 = true; } else if (!UNICODE::is_latin1(from_char)) { // We are replacing an UTF16 char. Scan string to // check if result can be latin1 encoded. to_is_latin1 = true; for (index = 0; index < length; index++) { jchar c = value->char_at(index); if (c != from_char && !UNICODE::is_latin1(c)) { to_is_latin1 = false; break; } } } } // Create new UNICODE (or byte) buffer. Must handlize value because GC // may happen during String and char array creation. typeArrayHandle h_value(THREAD, value); Handle string = basic_create(length, to_is_latin1, CHECK_NH); typeArrayOop from_buffer = h_value(); typeArrayOop to_buffer = java_lang_String::value(string()); // Copy contents for (index = 0; index < length; index++) { jchar c = (!is_latin1) ? from_buffer->char_at(index) : ((jchar) from_buffer->byte_at(index)) & 0xff; if (c == from_char) { c = to_char; } if (!to_is_latin1) { to_buffer->char_at_put(index, c); } else { to_buffer->byte_at_put(index, (jbyte) c); } } return string; } jchar* java_lang_String::as_unicode_string(oop java_string, int& length, TRAPS) { typeArrayOop value = java_lang_String::value(java_string); length = java_lang_String::length(java_string); bool is_latin1 = java_lang_String::is_latin1(java_string); jchar* result = NEW_RESOURCE_ARRAY_RETURN_NULL(jchar, length); if (result != NULL) { if (!is_latin1) { for (int index = 0; index < length; index++) { result[index] = value->char_at(index); } } else { for (int index = 0; index < length; index++) { result[index] = ((jchar) value->byte_at(index)) & 0xff; } } } else { THROW_MSG_0(vmSymbols::java_lang_OutOfMemoryError(), "could not allocate Unicode string"); } return result; } unsigned int java_lang_String::hash_code(oop java_string) { int length = java_lang_String::length(java_string); // Zero length string will hash to zero with String.hashCode() function. if (length == 0) return 0; typeArrayOop value = java_lang_String::value(java_string); bool is_latin1 = java_lang_String::is_latin1(java_string); if (is_latin1) { return java_lang_String::hash_code(value->byte_at_addr(0), length); } else { return java_lang_String::hash_code(value->char_at_addr(0), length); } } char* java_lang_String::as_quoted_ascii(oop java_string) { typeArrayOop value = java_lang_String::value(java_string); int length = java_lang_String::length(java_string); bool is_latin1 = java_lang_String::is_latin1(java_string); if (length == 0) return NULL; char* result; int result_length; if (!is_latin1) { jchar* base = value->char_at_addr(0); result_length = UNICODE::quoted_ascii_length(base, length) + 1; result = NEW_RESOURCE_ARRAY(char, result_length); UNICODE::as_quoted_ascii(base, length, result, result_length); } else { jbyte* base = value->byte_at_addr(0); result_length = UNICODE::quoted_ascii_length(base, length) + 1; result = NEW_RESOURCE_ARRAY(char, result_length); UNICODE::as_quoted_ascii(base, length, result, result_length); } assert(result_length >= length + 1, "must not be shorter"); assert(result_length == (int)strlen(result) + 1, "must match"); return result; } Symbol* java_lang_String::as_symbol(oop java_string, TRAPS) { typeArrayOop value = java_lang_String::value(java_string); int length = java_lang_String::length(java_string); bool is_latin1 = java_lang_String::is_latin1(java_string); if (!is_latin1) { jchar* base = (length == 0) ? NULL : value->char_at_addr(0); Symbol* sym = SymbolTable::lookup_unicode(base, length, THREAD); return sym; } else { ResourceMark rm; jbyte* position = (length == 0) ? NULL : value->byte_at_addr(0); const char* base = UNICODE::as_utf8(position, length); Symbol* sym = SymbolTable::lookup(base, length, THREAD); return sym; } } Symbol* java_lang_String::as_symbol_or_null(oop java_string) { typeArrayOop value = java_lang_String::value(java_string); int length = java_lang_String::length(java_string); bool is_latin1 = java_lang_String::is_latin1(java_string); if (!is_latin1) { jchar* base = (length == 0) ? NULL : value->char_at_addr(0); return SymbolTable::probe_unicode(base, length); } else { ResourceMark rm; jbyte* position = (length == 0) ? NULL : value->byte_at_addr(0); const char* base = UNICODE::as_utf8(position, length); return SymbolTable::probe(base, length); } } int java_lang_String::utf8_length(oop java_string) { typeArrayOop value = java_lang_String::value(java_string); int length = java_lang_String::length(java_string); bool is_latin1 = java_lang_String::is_latin1(java_string); if (length == 0) { return 0; } if (!is_latin1) { return UNICODE::utf8_length(value->char_at_addr(0), length); } else { return UNICODE::utf8_length(value->byte_at_addr(0), length); } } char* java_lang_String::as_utf8_string(oop java_string) { typeArrayOop value = java_lang_String::value(java_string); int length = java_lang_String::length(java_string); bool is_latin1 = java_lang_String::is_latin1(java_string); if (!is_latin1) { jchar* position = (length == 0) ? NULL : value->char_at_addr(0); return UNICODE::as_utf8(position, length); } else { jbyte* position = (length == 0) ? NULL : value->byte_at_addr(0); return UNICODE::as_utf8(position, length); } } char* java_lang_String::as_utf8_string(oop java_string, char* buf, int buflen) { typeArrayOop value = java_lang_String::value(java_string); int length = java_lang_String::length(java_string); bool is_latin1 = java_lang_String::is_latin1(java_string); if (!is_latin1) { jchar* position = (length == 0) ? NULL : value->char_at_addr(0); return UNICODE::as_utf8(position, length, buf, buflen); } else { jbyte* position = (length == 0) ? NULL : value->byte_at_addr(0); return UNICODE::as_utf8(position, length, buf, buflen); } } char* java_lang_String::as_utf8_string(oop java_string, int start, int len) { typeArrayOop value = java_lang_String::value(java_string); int length = java_lang_String::length(java_string); assert(start + len <= length, "just checking"); bool is_latin1 = java_lang_String::is_latin1(java_string); if (!is_latin1) { jchar* position = value->char_at_addr(start); return UNICODE::as_utf8(position, len); } else { jbyte* position = value->byte_at_addr(start); return UNICODE::as_utf8(position, len); } } char* java_lang_String::as_utf8_string(oop java_string, int start, int len, char* buf, int buflen) { typeArrayOop value = java_lang_String::value(java_string); int length = java_lang_String::length(java_string); assert(start + len <= length, "just checking"); bool is_latin1 = java_lang_String::is_latin1(java_string); if (!is_latin1) { jchar* position = value->char_at_addr(start); return UNICODE::as_utf8(position, len, buf, buflen); } else { jbyte* position = value->byte_at_addr(start); return UNICODE::as_utf8(position, len, buf, buflen); } } bool java_lang_String::equals(oop java_string, jchar* chars, int len) { assert(java_string->klass() == SystemDictionary::String_klass(), "must be java_string"); typeArrayOop value = java_lang_String::value_no_keepalive(java_string); int length = java_lang_String::length(java_string); if (length != len) { return false; } bool is_latin1 = java_lang_String::is_latin1(java_string); if (!is_latin1) { for (int i = 0; i < len; i++) { if (value->char_at(i) != chars[i]) { return false; } } } else { for (int i = 0; i < len; i++) { if ((((jchar) value->byte_at(i)) & 0xff) != chars[i]) { return false; } } } return true; } bool java_lang_String::equals(oop str1, oop str2) { assert(str1->klass() == SystemDictionary::String_klass(), "must be java String"); assert(str2->klass() == SystemDictionary::String_klass(), "must be java String"); typeArrayOop value1 = java_lang_String::value_no_keepalive(str1); int length1 = java_lang_String::length(str1); bool is_latin1 = java_lang_String::is_latin1(str1); typeArrayOop value2 = java_lang_String::value_no_keepalive(str2); int length2 = java_lang_String::length(str2); bool is_latin2 = java_lang_String::is_latin1(str2); if ((length1 != length2) || (is_latin1 != is_latin2)) { // Strings of different size or with different // coders are never equal. return false; } int blength1 = value1->length(); for (int i = 0; i < blength1; i++) { if (value1->byte_at(i) != value2->byte_at(i)) { return false; } } return true; } void java_lang_String::print(oop java_string, outputStream* st) { assert(java_string->klass() == SystemDictionary::String_klass(), "must be java_string"); typeArrayOop value = java_lang_String::value_no_keepalive(java_string); if (value == NULL) { // This can happen if, e.g., printing a String // object before its initializer has been called st->print("NULL"); return; } int length = java_lang_String::length(java_string); bool is_latin1 = java_lang_String::is_latin1(java_string); st->print("\""); for (int index = 0; index < length; index++) { st->print("%c", (!is_latin1) ? value->char_at(index) : ((jchar) value->byte_at(index)) & 0xff ); } st->print("\""); } static void initialize_static_field(fieldDescriptor* fd, Handle mirror, TRAPS) { assert(mirror.not_null() && fd->is_static(), "just checking"); if (fd->has_initial_value()) { BasicType t = fd->field_type(); switch (t) { case T_BYTE: mirror()->byte_field_put(fd->offset(), fd->int_initial_value()); break; case T_BOOLEAN: mirror()->bool_field_put(fd->offset(), fd->int_initial_value()); break; case T_CHAR: mirror()->char_field_put(fd->offset(), fd->int_initial_value()); break; case T_SHORT: mirror()->short_field_put(fd->offset(), fd->int_initial_value()); break; case T_INT: mirror()->int_field_put(fd->offset(), fd->int_initial_value()); break; case T_FLOAT: mirror()->float_field_put(fd->offset(), fd->float_initial_value()); break; case T_DOUBLE: mirror()->double_field_put(fd->offset(), fd->double_initial_value()); break; case T_LONG: mirror()->long_field_put(fd->offset(), fd->long_initial_value()); break; case T_OBJECT: { assert(fd->signature() == vmSymbols::string_signature(), "just checking"); if (DumpSharedSpaces && oopDesc::is_archive_object(mirror())) { // Archive the String field and update the pointer. oop s = mirror()->obj_field(fd->offset()); oop archived_s = StringTable::create_archived_string(s, CHECK); mirror()->obj_field_put(fd->offset(), archived_s); } else { oop string = fd->string_initial_value(CHECK); mirror()->obj_field_put(fd->offset(), string); } } break; default: THROW_MSG(vmSymbols::java_lang_ClassFormatError(), "Illegal ConstantValue attribute in class file"); } } } void java_lang_Class::fixup_mirror(Klass* k, TRAPS) { assert(InstanceMirrorKlass::offset_of_static_fields() != 0, "must have been computed already"); // If the offset was read from the shared archive, it was fixed up already if (!k->is_shared()) { if (k->is_instance_klass()) { // During bootstrap, java.lang.Class wasn't loaded so static field // offsets were computed without the size added it. Go back and // update all the static field offsets to included the size. for (JavaFieldStream fs(InstanceKlass::cast(k)); !fs.done(); fs.next()) { if (fs.access_flags().is_static()) { int real_offset = fs.offset() + InstanceMirrorKlass::offset_of_static_fields(); fs.set_offset(real_offset); } } } } if (k->is_shared() && k->has_raw_archived_mirror()) { if (MetaspaceShared::open_archive_heap_region_mapped()) { oop m = k->archived_java_mirror(); assert(m != NULL, "archived mirror is NULL"); assert(oopDesc::is_archive_object(m), "must be archived mirror object"); Handle m_h(THREAD, m); // restore_archived_mirror() clears the klass' _has_raw_archived_mirror flag restore_archived_mirror(k, m_h, Handle(), Handle(), Handle(), CHECK); return; } else { k->set_java_mirror_handle(NULL); k->clear_has_raw_archived_mirror(); } } create_mirror(k, Handle(), Handle(), Handle(), CHECK); } void java_lang_Class::initialize_mirror_fields(Klass* k, Handle mirror, Handle protection_domain, TRAPS) { // Allocate a simple java object for a lock. // This needs to be a java object because during class initialization // it can be held across a java call. typeArrayOop r = oopFactory::new_typeArray(T_INT, 0, CHECK); set_init_lock(mirror(), r); // Set protection domain also set_protection_domain(mirror(), protection_domain()); // Initialize static fields InstanceKlass::cast(k)->do_local_static_fields(&initialize_static_field, mirror, CHECK); } // Set the java.lang.Module module field in the java_lang_Class mirror void java_lang_Class::set_mirror_module_field(Klass* k, Handle mirror, Handle module, TRAPS) { if (module.is_null()) { // During startup, the module may be NULL only if java.base has not been defined yet. // Put the class on the fixup_module_list to patch later when the java.lang.Module // for java.base is known. assert(!Universe::is_module_initialized(), "Incorrect java.lang.Module pre module system initialization"); bool javabase_was_defined = false; { MutexLocker m1(Module_lock, THREAD); // Keep list of classes needing java.base module fixup if (!ModuleEntryTable::javabase_defined()) { assert(k->java_mirror() != NULL, "Class's mirror is null"); k->class_loader_data()->inc_keep_alive(); assert(fixup_module_field_list() != NULL, "fixup_module_field_list not initialized"); fixup_module_field_list()->push(k); } else { javabase_was_defined = true; } } // If java.base was already defined then patch this particular class with java.base. if (javabase_was_defined) { ModuleEntry *javabase_entry = ModuleEntryTable::javabase_moduleEntry(); assert(javabase_entry != NULL && javabase_entry->module() != NULL, "Setting class module field, " JAVA_BASE_NAME " should be defined"); Handle javabase_handle(THREAD, javabase_entry->module()); set_module(mirror(), javabase_handle()); } } else { assert(Universe::is_module_initialized() || (ModuleEntryTable::javabase_defined() && (oopDesc::equals(module(), ModuleEntryTable::javabase_moduleEntry()->module()))), "Incorrect java.lang.Module specification while creating mirror"); set_module(mirror(), module()); } } // Statically allocate fixup lists because they always get created. void java_lang_Class::allocate_fixup_lists() { GrowableArray* mirror_list = new (ResourceObj::C_HEAP, mtClass) GrowableArray(40, true); set_fixup_mirror_list(mirror_list); GrowableArray* module_list = new (ResourceObj::C_HEAP, mtModule) GrowableArray(500, true); set_fixup_module_field_list(module_list); } void java_lang_Class::create_mirror(Klass* k, Handle class_loader, Handle module, Handle protection_domain, TRAPS) { assert(k != NULL, "Use create_basic_type_mirror for primitive types"); assert(k->java_mirror() == NULL, "should only assign mirror once"); // Use this moment of initialization to cache modifier_flags also, // to support Class.getModifiers(). Instance classes recalculate // the cached flags after the class file is parsed, but before the // class is put into the system dictionary. int computed_modifiers = k->compute_modifier_flags(CHECK); k->set_modifier_flags(computed_modifiers); // Class_klass has to be loaded because it is used to allocate // the mirror. if (SystemDictionary::Class_klass_loaded()) { // Allocate mirror (java.lang.Class instance) oop mirror_oop = InstanceMirrorKlass::cast(SystemDictionary::Class_klass())->allocate_instance(k, CHECK); Handle mirror(THREAD, mirror_oop); Handle comp_mirror; // Setup indirection from mirror->klass java_lang_Class::set_klass(mirror(), k); InstanceMirrorKlass* mk = InstanceMirrorKlass::cast(mirror->klass()); assert(oop_size(mirror()) == mk->instance_size(k), "should have been set"); java_lang_Class::set_static_oop_field_count(mirror(), mk->compute_static_oop_field_count(mirror())); // It might also have a component mirror. This mirror must already exist. if (k->is_array_klass()) { if (k->is_typeArray_klass()) { BasicType type = TypeArrayKlass::cast(k)->element_type(); comp_mirror = Handle(THREAD, Universe::java_mirror(type)); } else { assert(k->is_objArray_klass(), "Must be"); Klass* element_klass = ObjArrayKlass::cast(k)->element_klass(); assert(element_klass != NULL, "Must have an element klass"); comp_mirror = Handle(THREAD, element_klass->java_mirror()); } assert(comp_mirror() != NULL, "must have a mirror"); // Two-way link between the array klass and its component mirror: // (array_klass) k -> mirror -> component_mirror -> array_klass -> k set_component_mirror(mirror(), comp_mirror()); // See below for ordering dependencies between field array_klass in component mirror // and java_mirror in this klass. } else { assert(k->is_instance_klass(), "Must be"); initialize_mirror_fields(k, mirror, protection_domain, THREAD); if (HAS_PENDING_EXCEPTION) { // If any of the fields throws an exception like OOM remove the klass field // from the mirror so GC doesn't follow it after the klass has been deallocated. // This mirror looks like a primitive type, which logically it is because it // it represents no class. java_lang_Class::set_klass(mirror(), NULL); return; } } // set the classLoader field in the java_lang_Class instance assert(oopDesc::equals(class_loader(), k->class_loader()), "should be same"); set_class_loader(mirror(), class_loader()); // Setup indirection from klass->mirror // after any exceptions can happen during allocations. k->set_java_mirror(mirror); // Set the module field in the java_lang_Class instance. This must be done // after the mirror is set. set_mirror_module_field(k, mirror, module, THREAD); if (comp_mirror() != NULL) { // Set after k->java_mirror() is published, because compiled code running // concurrently doesn't expect a k to have a null java_mirror. release_set_array_klass(comp_mirror(), k); } } else { assert(fixup_mirror_list() != NULL, "fixup_mirror_list not initialized"); fixup_mirror_list()->push(k); } } #if INCLUDE_CDS_JAVA_HEAP // Clears mirror fields. Static final fields with initial values are reloaded // from constant pool. The object identity hash is in the object header and is // not affected. class ResetMirrorField: public FieldClosure { private: Handle _m; public: ResetMirrorField(Handle mirror) : _m(mirror) {} void do_field(fieldDescriptor* fd) { assert(DumpSharedSpaces, "dump time only"); assert(_m.not_null(), "Mirror cannot be NULL"); if (fd->is_static() && fd->has_initial_value()) { initialize_static_field(fd, _m, Thread::current()); return; } BasicType ft = fd->field_type(); switch (ft) { case T_BYTE: _m()->byte_field_put(fd->offset(), 0); break; case T_CHAR: _m()->char_field_put(fd->offset(), 0); break; case T_DOUBLE: _m()->double_field_put(fd->offset(), 0); break; case T_FLOAT: _m()->float_field_put(fd->offset(), 0); break; case T_INT: _m()->int_field_put(fd->offset(), 0); break; case T_LONG: _m()->long_field_put(fd->offset(), 0); break; case T_SHORT: _m()->short_field_put(fd->offset(), 0); break; case T_BOOLEAN: _m()->bool_field_put(fd->offset(), false); break; case T_ARRAY: case T_OBJECT: { // It might be useful to cache the String field, but // for now just clear out any reference field oop o = _m()->obj_field(fd->offset()); _m()->obj_field_put(fd->offset(), NULL); break; } default: ShouldNotReachHere(); break; } } }; void java_lang_Class::archive_basic_type_mirrors(TRAPS) { assert(MetaspaceShared::is_heap_object_archiving_allowed(), "MetaspaceShared::is_heap_object_archiving_allowed() must be true"); for (int t = 0; t <= T_VOID; t++) { oop m = Universe::_mirrors[t]; if (m != NULL) { // Update the field at _array_klass_offset to point to the relocated array klass. oop archived_m = MetaspaceShared::archive_heap_object(m, THREAD); Klass *ak = (Klass*)(archived_m->metadata_field(_array_klass_offset)); assert(ak != NULL || t == T_VOID, "should not be NULL"); if (ak != NULL) { Klass *reloc_ak = MetaspaceShared::get_relocated_klass(ak); archived_m->metadata_field_put(_array_klass_offset, reloc_ak); } // Clear the fields. Just to be safe Klass *k = m->klass(); Handle archived_mirror_h(THREAD, archived_m); ResetMirrorField reset(archived_mirror_h); InstanceKlass::cast(k)->do_nonstatic_fields(&reset); log_trace(cds, mirror)("Archived %s mirror object from " PTR_FORMAT " ==> " PTR_FORMAT, type2name((BasicType)t), p2i(Universe::_mirrors[t]), p2i(archived_m)); Universe::_mirrors[t] = archived_m; } } assert(Universe::_mirrors[T_INT] != NULL && Universe::_mirrors[T_FLOAT] != NULL && Universe::_mirrors[T_DOUBLE] != NULL && Universe::_mirrors[T_BYTE] != NULL && Universe::_mirrors[T_BOOLEAN] != NULL && Universe::_mirrors[T_CHAR] != NULL && Universe::_mirrors[T_LONG] != NULL && Universe::_mirrors[T_SHORT] != NULL && Universe::_mirrors[T_VOID] != NULL, "sanity"); Universe::set_int_mirror(Universe::_mirrors[T_INT]); Universe::set_float_mirror(Universe::_mirrors[T_FLOAT]); Universe::set_double_mirror(Universe::_mirrors[T_DOUBLE]); Universe::set_byte_mirror(Universe::_mirrors[T_BYTE]); Universe::set_bool_mirror(Universe::_mirrors[T_BOOLEAN]); Universe::set_char_mirror(Universe::_mirrors[T_CHAR]); Universe::set_long_mirror(Universe::_mirrors[T_LONG]); Universe::set_short_mirror(Universe::_mirrors[T_SHORT]); Universe::set_void_mirror(Universe::_mirrors[T_VOID]); } // // After the mirror object is successfully archived, the archived // klass is set with _has_archived_raw_mirror flag. // // The _has_archived_raw_mirror flag is cleared at runtime when the // archived mirror is restored. If archived java heap data cannot // be used at runtime, new mirror object is created for the shared // class. The _has_archived_raw_mirror is cleared also during the process. oop java_lang_Class::archive_mirror(Klass* k, TRAPS) { assert(MetaspaceShared::is_heap_object_archiving_allowed(), "MetaspaceShared::is_heap_object_archiving_allowed() must be true"); // Mirror is already archived if (k->has_raw_archived_mirror()) { assert(k->archived_java_mirror_raw() != NULL, "no archived mirror"); return k->archived_java_mirror_raw(); } // No mirror oop mirror = k->java_mirror(); if (mirror == NULL) { return NULL; } if (k->is_instance_klass()) { InstanceKlass *ik = InstanceKlass::cast(k); assert(ik->signers() == NULL && !k->has_signer_and_not_archived(), "class with signer cannot be supported"); if (!(ik->is_shared_boot_class() || ik->is_shared_platform_class() || ik->is_shared_app_class())) { // Archiving mirror for classes from non-builtin loaders is not // supported. Clear the _java_mirror within the archived class. k->set_java_mirror_handle(NULL); return NULL; } } // Now start archiving the mirror object oop archived_mirror = MetaspaceShared::archive_heap_object(mirror, THREAD); if (archived_mirror == NULL) { return NULL; } archived_mirror = process_archived_mirror(k, mirror, archived_mirror, THREAD); if (archived_mirror == NULL) { return NULL; } k->set_archived_java_mirror_raw(archived_mirror); k->set_has_raw_archived_mirror(); ResourceMark rm; log_trace(cds, mirror)("Archived %s mirror object from " PTR_FORMAT " ==> " PTR_FORMAT, k->external_name(), p2i(mirror), p2i(archived_mirror)); return archived_mirror; } // The process is based on create_mirror(). oop java_lang_Class::process_archived_mirror(Klass* k, oop mirror, oop archived_mirror, Thread *THREAD) { // Clear nonstatic fields in archived mirror. Some of the fields will be set // to archived metadata and objects below. Klass *c = archived_mirror->klass(); Handle archived_mirror_h(THREAD, archived_mirror); ResetMirrorField reset(archived_mirror_h); InstanceKlass::cast(c)->do_nonstatic_fields(&reset); if (k->is_array_klass()) { oop archived_comp_mirror; if (k->is_typeArray_klass()) { // The primitive type mirrors are already archived. Get the archived mirror. oop comp_mirror = java_lang_Class::component_mirror(mirror); archived_comp_mirror = MetaspaceShared::find_archived_heap_object(comp_mirror); assert(archived_comp_mirror != NULL, "Must be"); } else { assert(k->is_objArray_klass(), "Must be"); Klass* element_klass = ObjArrayKlass::cast(k)->element_klass(); assert(element_klass != NULL, "Must have an element klass"); archived_comp_mirror = archive_mirror(element_klass, THREAD); if (archived_comp_mirror == NULL) { return NULL; } } java_lang_Class::set_component_mirror(archived_mirror, archived_comp_mirror); } else { assert(k->is_instance_klass(), "Must be"); // Reset local static fields in the mirror InstanceKlass::cast(k)->do_local_static_fields(&reset); java_lang_Class:set_init_lock(archived_mirror, NULL); set_protection_domain(archived_mirror, NULL); } // clear class loader and mirror_module_field set_class_loader(archived_mirror, NULL); set_module(archived_mirror, NULL); // The archived mirror's field at _klass_offset is still pointing to the original // klass. Updated the field in the archived mirror to point to the relocated // klass in the archive. Klass *reloc_k = MetaspaceShared::get_relocated_klass(as_Klass(mirror)); log_debug(cds, mirror)("Relocate mirror metadata field at _klass_offset from " PTR_FORMAT " ==> " PTR_FORMAT, p2i(as_Klass(mirror)), p2i(reloc_k)); archived_mirror->metadata_field_put(_klass_offset, reloc_k); // The field at _array_klass_offset is pointing to the original one dimension // higher array klass if exists. Relocate the pointer. Klass *arr = array_klass_acquire(mirror); if (arr != NULL) { Klass *reloc_arr = MetaspaceShared::get_relocated_klass(arr); log_debug(cds, mirror)("Relocate mirror metadata field at _array_klass_offset from " PTR_FORMAT " ==> " PTR_FORMAT, p2i(arr), p2i(reloc_arr)); archived_mirror->metadata_field_put(_array_klass_offset, reloc_arr); } return archived_mirror; } // After the archived mirror object is restored, the shared klass' // _has_raw_archived_mirror flag is cleared void java_lang_Class::restore_archived_mirror(Klass *k, Handle mirror, Handle class_loader, Handle module, Handle protection_domain, TRAPS) { // The java.lang.Class field offsets were archived and reloaded from archive. // No need to put classes on the fixup_mirror_list before java.lang.Class // is loaded. if (!k->is_array_klass()) { // - local static final fields with initial values were initialized at dump time // create the init_lock typeArrayOop r = oopFactory::new_typeArray(T_INT, 0, CHECK); set_init_lock(mirror(), r); if (protection_domain.not_null()) { set_protection_domain(mirror(), protection_domain()); } } assert(class_loader() == k->class_loader(), "should be same"); if (class_loader.not_null()) { set_class_loader(mirror(), class_loader()); } k->set_java_mirror(mirror); k->clear_has_raw_archived_mirror(); set_mirror_module_field(k, mirror, module, THREAD); ResourceMark rm; log_trace(cds, mirror)("Restored %s archived mirror " PTR_FORMAT, k->external_name(), p2i(mirror())); } #endif // INCLUDE_CDS_JAVA_HEAP void java_lang_Class::fixup_module_field(Klass* k, Handle module) { assert(_module_offset != 0, "must have been computed already"); java_lang_Class::set_module(k->java_mirror(), module()); } int java_lang_Class::oop_size(oop java_class) { assert(_oop_size_offset != 0, "must be set"); int size = java_class->int_field(_oop_size_offset); assert(size > 0, "Oop size must be greater than zero, not %d", size); return size; } void java_lang_Class::set_oop_size(oop java_class, int size) { assert(_oop_size_offset != 0, "must be set"); assert(size > 0, "Oop size must be greater than zero, not %d", size); java_class->int_field_put(_oop_size_offset, size); } int java_lang_Class::static_oop_field_count(oop java_class) { assert(_static_oop_field_count_offset != 0, "must be set"); return java_class->int_field(_static_oop_field_count_offset); } void java_lang_Class::set_static_oop_field_count(oop java_class, int size) { assert(_static_oop_field_count_offset != 0, "must be set"); java_class->int_field_put(_static_oop_field_count_offset, size); } oop java_lang_Class::protection_domain(oop java_class) { assert(_protection_domain_offset != 0, "must be set"); return java_class->obj_field(_protection_domain_offset); } void java_lang_Class::set_protection_domain(oop java_class, oop pd) { assert(_protection_domain_offset != 0, "must be set"); java_class->obj_field_put(_protection_domain_offset, pd); } void java_lang_Class::set_component_mirror(oop java_class, oop comp_mirror) { assert(_component_mirror_offset != 0, "must be set"); java_class->obj_field_put(_component_mirror_offset, comp_mirror); } oop java_lang_Class::component_mirror(oop java_class) { assert(_component_mirror_offset != 0, "must be set"); return java_class->obj_field(_component_mirror_offset); } oop java_lang_Class::init_lock(oop java_class) { assert(_init_lock_offset != 0, "must be set"); return java_class->obj_field(_init_lock_offset); } void java_lang_Class::set_init_lock(oop java_class, oop init_lock) { assert(_init_lock_offset != 0, "must be set"); java_class->obj_field_put(_init_lock_offset, init_lock); } objArrayOop java_lang_Class::signers(oop java_class) { assert(_signers_offset != 0, "must be set"); return (objArrayOop)java_class->obj_field(_signers_offset); } void java_lang_Class::set_signers(oop java_class, objArrayOop signers) { assert(_signers_offset != 0, "must be set"); java_class->obj_field_put(_signers_offset, (oop)signers); } void java_lang_Class::set_class_loader(oop java_class, oop loader) { // jdk7 runs Queens in bootstrapping and jdk8-9 has no coordinated pushes yet. if (_class_loader_offset != 0) { java_class->obj_field_put(_class_loader_offset, loader); } } oop java_lang_Class::class_loader(oop java_class) { assert(_class_loader_offset != 0, "must be set"); return java_class->obj_field(_class_loader_offset); } oop java_lang_Class::module(oop java_class) { assert(_module_offset != 0, "must be set"); return java_class->obj_field(_module_offset); } void java_lang_Class::set_module(oop java_class, oop module) { assert(_module_offset != 0, "must be set"); java_class->obj_field_put(_module_offset, module); } oop java_lang_Class::create_basic_type_mirror(const char* basic_type_name, BasicType type, TRAPS) { // This should be improved by adding a field at the Java level or by // introducing a new VM klass (see comment in ClassFileParser) oop java_class = InstanceMirrorKlass::cast(SystemDictionary::Class_klass())->allocate_instance(NULL, CHECK_0); if (type != T_VOID) { Klass* aklass = Universe::typeArrayKlassObj(type); assert(aklass != NULL, "correct bootstrap"); release_set_array_klass(java_class, aklass); } #ifdef ASSERT InstanceMirrorKlass* mk = InstanceMirrorKlass::cast(SystemDictionary::Class_klass()); assert(java_lang_Class::static_oop_field_count(java_class) == 0, "should have been zeroed by allocation"); #endif return java_class; } Klass* java_lang_Class::as_Klass(oop java_class) { //%note memory_2 assert(java_lang_Class::is_instance(java_class), "must be a Class object"); Klass* k = ((Klass*)java_class->metadata_field(_klass_offset)); assert(k == NULL || k->is_klass(), "type check"); return k; } void java_lang_Class::set_klass(oop java_class, Klass* klass) { assert(java_lang_Class::is_instance(java_class), "must be a Class object"); java_class->metadata_field_put(_klass_offset, klass); } void java_lang_Class::print_signature(oop java_class, outputStream* st) { assert(java_lang_Class::is_instance(java_class), "must be a Class object"); Symbol* name = NULL; bool is_instance = false; if (is_primitive(java_class)) { name = vmSymbols::type_signature(primitive_type(java_class)); } else { Klass* k = as_Klass(java_class); is_instance = k->is_instance_klass(); name = k->name(); } if (name == NULL) { st->print(""); return; } if (is_instance) st->print("L"); st->write((char*) name->base(), (int) name->utf8_length()); if (is_instance) st->print(";"); } Symbol* java_lang_Class::as_signature(oop java_class, bool intern_if_not_found, TRAPS) { assert(java_lang_Class::is_instance(java_class), "must be a Class object"); Symbol* name; if (is_primitive(java_class)) { name = vmSymbols::type_signature(primitive_type(java_class)); // Because this can create a new symbol, the caller has to decrement // the refcount, so make adjustment here and below for symbols returned // that are not created or incremented due to a successful lookup. name->increment_refcount(); } else { Klass* k = as_Klass(java_class); if (!k->is_instance_klass()) { name = k->name(); name->increment_refcount(); } else { ResourceMark rm; const char* sigstr = k->signature_name(); int siglen = (int) strlen(sigstr); if (!intern_if_not_found) { name = SymbolTable::probe(sigstr, siglen); } else { name = SymbolTable::new_symbol(sigstr, siglen, THREAD); } } } return name; } // Returns the Java name for this Java mirror (Resource allocated) // See Klass::external_name(). // For primitive type Java mirrors, its type name is returned. const char* java_lang_Class::as_external_name(oop java_class) { assert(java_lang_Class::is_instance(java_class), "must be a Class object"); const char* name = NULL; if (is_primitive(java_class)) { name = type2name(primitive_type(java_class)); } else { name = as_Klass(java_class)->external_name(); } if (name == NULL) { name = ""; } return name; } Klass* java_lang_Class::array_klass_acquire(oop java_class) { Klass* k = ((Klass*)java_class->metadata_field_acquire(_array_klass_offset)); assert(k == NULL || k->is_klass() && k->is_array_klass(), "should be array klass"); return k; } void java_lang_Class::release_set_array_klass(oop java_class, Klass* klass) { assert(klass->is_klass() && klass->is_array_klass(), "should be array klass"); java_class->release_metadata_field_put(_array_klass_offset, klass); } bool java_lang_Class::is_primitive(oop java_class) { // should assert: //assert(java_lang_Class::is_instance(java_class), "must be a Class object"); bool is_primitive = (java_class->metadata_field(_klass_offset) == NULL); #ifdef ASSERT if (is_primitive) { Klass* k = ((Klass*)java_class->metadata_field(_array_klass_offset)); assert(k == NULL || is_java_primitive(ArrayKlass::cast(k)->element_type()), "Should be either the T_VOID primitive or a java primitive"); } #endif return is_primitive; } BasicType java_lang_Class::primitive_type(oop java_class) { assert(java_lang_Class::is_primitive(java_class), "just checking"); Klass* ak = ((Klass*)java_class->metadata_field(_array_klass_offset)); BasicType type = T_VOID; if (ak != NULL) { // Note: create_basic_type_mirror above initializes ak to a non-null value. type = ArrayKlass::cast(ak)->element_type(); } else { assert(oopDesc::equals(java_class, Universe::void_mirror()), "only valid non-array primitive"); } assert(oopDesc::equals(Universe::java_mirror(type), java_class), "must be consistent"); return type; } BasicType java_lang_Class::as_BasicType(oop java_class, Klass** reference_klass) { assert(java_lang_Class::is_instance(java_class), "must be a Class object"); if (is_primitive(java_class)) { if (reference_klass != NULL) (*reference_klass) = NULL; return primitive_type(java_class); } else { if (reference_klass != NULL) (*reference_klass) = as_Klass(java_class); return T_OBJECT; } } oop java_lang_Class::primitive_mirror(BasicType t) { oop mirror = Universe::java_mirror(t); assert(mirror != NULL && mirror->is_a(SystemDictionary::Class_klass()), "must be a Class"); assert(java_lang_Class::is_primitive(mirror), "must be primitive"); return mirror; } bool java_lang_Class::offsets_computed = false; int java_lang_Class::classRedefinedCount_offset = -1; #define CLASS_FIELDS_DO(macro) \ macro(classRedefinedCount_offset, k, "classRedefinedCount", int_signature, false) ; \ macro(_class_loader_offset, k, "classLoader", classloader_signature, false); \ macro(_component_mirror_offset, k, "componentType", class_signature, false); \ macro(_module_offset, k, "module", module_signature, false) void java_lang_Class::compute_offsets() { if (offsets_computed) { return; } offsets_computed = true; InstanceKlass* k = SystemDictionary::Class_klass(); CLASS_FIELDS_DO(FIELD_COMPUTE_OFFSET); // Init lock is a C union with component_mirror. Only instanceKlass mirrors have // init_lock and only ArrayKlass mirrors have component_mirror. Since both are oops // GC treats them the same. _init_lock_offset = _component_mirror_offset; CLASS_INJECTED_FIELDS(INJECTED_FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_Class::serialize(SerializeClosure* f) { f->do_u4((u4*)&offsets_computed); f->do_u4((u4*)&_init_lock_offset); CLASS_FIELDS_DO(FIELD_SERIALIZE_OFFSET); CLASS_INJECTED_FIELDS(INJECTED_FIELD_SERIALIZE_OFFSET); } #endif int java_lang_Class::classRedefinedCount(oop the_class_mirror) { if (classRedefinedCount_offset == -1) { // If we don't have an offset for it then just return -1 as a marker. return -1; } return the_class_mirror->int_field(classRedefinedCount_offset); } void java_lang_Class::set_classRedefinedCount(oop the_class_mirror, int value) { if (classRedefinedCount_offset == -1) { // If we don't have an offset for it then nothing to set. return; } the_class_mirror->int_field_put(classRedefinedCount_offset, value); } // Note: JDK1.1 and before had a privateInfo_offset field which was used for the // platform thread structure, and a eetop offset which was used for thread // local storage (and unused by the HotSpot VM). In JDK1.2 the two structures // merged, so in the HotSpot VM we just use the eetop field for the thread // instead of the privateInfo_offset. // // Note: The stackSize field is only present starting in 1.4. int java_lang_Thread::_name_offset = 0; int java_lang_Thread::_group_offset = 0; int java_lang_Thread::_contextClassLoader_offset = 0; int java_lang_Thread::_inheritedAccessControlContext_offset = 0; int java_lang_Thread::_priority_offset = 0; int java_lang_Thread::_eetop_offset = 0; int java_lang_Thread::_daemon_offset = 0; int java_lang_Thread::_stillborn_offset = 0; int java_lang_Thread::_stackSize_offset = 0; int java_lang_Thread::_tid_offset = 0; int java_lang_Thread::_thread_status_offset = 0; int java_lang_Thread::_park_blocker_offset = 0; int java_lang_Thread::_park_event_offset = 0 ; #define THREAD_FIELDS_DO(macro) \ macro(_name_offset, k, vmSymbols::name_name(), string_signature, false); \ macro(_group_offset, k, vmSymbols::group_name(), threadgroup_signature, false); \ macro(_contextClassLoader_offset, k, vmSymbols::contextClassLoader_name(), classloader_signature, false); \ macro(_inheritedAccessControlContext_offset, k, vmSymbols::inheritedAccessControlContext_name(), accesscontrolcontext_signature, false); \ macro(_priority_offset, k, vmSymbols::priority_name(), int_signature, false); \ macro(_daemon_offset, k, vmSymbols::daemon_name(), bool_signature, false); \ macro(_eetop_offset, k, "eetop", long_signature, false); \ macro(_stillborn_offset, k, "stillborn", bool_signature, false); \ macro(_stackSize_offset, k, "stackSize", long_signature, false); \ macro(_tid_offset, k, "tid", long_signature, false); \ macro(_thread_status_offset, k, "threadStatus", int_signature, false); \ macro(_park_blocker_offset, k, "parkBlocker", object_signature, false); \ macro(_park_event_offset, k, "nativeParkEventPointer", long_signature, false) void java_lang_Thread::compute_offsets() { assert(_group_offset == 0, "offsets should be initialized only once"); InstanceKlass* k = SystemDictionary::Thread_klass(); THREAD_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_Thread::serialize(SerializeClosure* f) { THREAD_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif JavaThread* java_lang_Thread::thread(oop java_thread) { return (JavaThread*)java_thread->address_field(_eetop_offset); } void java_lang_Thread::set_thread(oop java_thread, JavaThread* thread) { java_thread->address_field_put(_eetop_offset, (address)thread); } oop java_lang_Thread::name(oop java_thread) { return java_thread->obj_field(_name_offset); } void java_lang_Thread::set_name(oop java_thread, oop name) { java_thread->obj_field_put(_name_offset, name); } ThreadPriority java_lang_Thread::priority(oop java_thread) { return (ThreadPriority)java_thread->int_field(_priority_offset); } void java_lang_Thread::set_priority(oop java_thread, ThreadPriority priority) { java_thread->int_field_put(_priority_offset, priority); } oop java_lang_Thread::threadGroup(oop java_thread) { return java_thread->obj_field(_group_offset); } bool java_lang_Thread::is_stillborn(oop java_thread) { return java_thread->bool_field(_stillborn_offset) != 0; } // We never have reason to turn the stillborn bit off void java_lang_Thread::set_stillborn(oop java_thread) { java_thread->bool_field_put(_stillborn_offset, true); } bool java_lang_Thread::is_alive(oop java_thread) { JavaThread* thr = java_lang_Thread::thread(java_thread); return (thr != NULL); } bool java_lang_Thread::is_daemon(oop java_thread) { return java_thread->bool_field(_daemon_offset) != 0; } void java_lang_Thread::set_daemon(oop java_thread) { java_thread->bool_field_put(_daemon_offset, true); } oop java_lang_Thread::context_class_loader(oop java_thread) { return java_thread->obj_field(_contextClassLoader_offset); } oop java_lang_Thread::inherited_access_control_context(oop java_thread) { return java_thread->obj_field(_inheritedAccessControlContext_offset); } jlong java_lang_Thread::stackSize(oop java_thread) { if (_stackSize_offset > 0) { return java_thread->long_field(_stackSize_offset); } else { return 0; } } // Write the thread status value to threadStatus field in java.lang.Thread java class. void java_lang_Thread::set_thread_status(oop java_thread, java_lang_Thread::ThreadStatus status) { // The threadStatus is only present starting in 1.5 if (_thread_status_offset > 0) { java_thread->int_field_put(_thread_status_offset, status); } } // Read thread status value from threadStatus field in java.lang.Thread java class. java_lang_Thread::ThreadStatus java_lang_Thread::get_thread_status(oop java_thread) { // Make sure the caller is operating on behalf of the VM or is // running VM code (state == _thread_in_vm). assert(Threads_lock->owned_by_self() || Thread::current()->is_VM_thread() || JavaThread::current()->thread_state() == _thread_in_vm, "Java Thread is not running in vm"); // The threadStatus is only present starting in 1.5 if (_thread_status_offset > 0) { return (java_lang_Thread::ThreadStatus)java_thread->int_field(_thread_status_offset); } else { // All we can easily figure out is if it is alive, but that is // enough info for a valid unknown status. // These aren't restricted to valid set ThreadStatus values, so // use JVMTI values and cast. JavaThread* thr = java_lang_Thread::thread(java_thread); if (thr == NULL) { // the thread hasn't run yet or is in the process of exiting return NEW; } return (java_lang_Thread::ThreadStatus)JVMTI_THREAD_STATE_ALIVE; } } jlong java_lang_Thread::thread_id(oop java_thread) { // The thread ID field is only present starting in 1.5 if (_tid_offset > 0) { return java_thread->long_field(_tid_offset); } else { return 0; } } oop java_lang_Thread::park_blocker(oop java_thread) { assert(JDK_Version::current().supports_thread_park_blocker() && _park_blocker_offset != 0, "Must support parkBlocker field"); if (_park_blocker_offset > 0) { return java_thread->obj_field(_park_blocker_offset); } return NULL; } jlong java_lang_Thread::park_event(oop java_thread) { if (_park_event_offset > 0) { return java_thread->long_field(_park_event_offset); } return 0; } bool java_lang_Thread::set_park_event(oop java_thread, jlong ptr) { if (_park_event_offset > 0) { java_thread->long_field_put(_park_event_offset, ptr); return true; } return false; } const char* java_lang_Thread::thread_status_name(oop java_thread) { assert(_thread_status_offset != 0, "Must have thread status"); ThreadStatus status = (java_lang_Thread::ThreadStatus)java_thread->int_field(_thread_status_offset); switch (status) { case NEW : return "NEW"; case RUNNABLE : return "RUNNABLE"; case SLEEPING : return "TIMED_WAITING (sleeping)"; case IN_OBJECT_WAIT : return "WAITING (on object monitor)"; case IN_OBJECT_WAIT_TIMED : return "TIMED_WAITING (on object monitor)"; case PARKED : return "WAITING (parking)"; case PARKED_TIMED : return "TIMED_WAITING (parking)"; case BLOCKED_ON_MONITOR_ENTER : return "BLOCKED (on object monitor)"; case TERMINATED : return "TERMINATED"; default : return "UNKNOWN"; }; } int java_lang_ThreadGroup::_parent_offset = 0; int java_lang_ThreadGroup::_name_offset = 0; int java_lang_ThreadGroup::_threads_offset = 0; int java_lang_ThreadGroup::_groups_offset = 0; int java_lang_ThreadGroup::_maxPriority_offset = 0; int java_lang_ThreadGroup::_destroyed_offset = 0; int java_lang_ThreadGroup::_daemon_offset = 0; int java_lang_ThreadGroup::_nthreads_offset = 0; int java_lang_ThreadGroup::_ngroups_offset = 0; oop java_lang_ThreadGroup::parent(oop java_thread_group) { assert(oopDesc::is_oop(java_thread_group), "thread group must be oop"); return java_thread_group->obj_field(_parent_offset); } // ("name as oop" accessor is not necessary) const char* java_lang_ThreadGroup::name(oop java_thread_group) { oop name = java_thread_group->obj_field(_name_offset); // ThreadGroup.name can be null if (name != NULL) { return java_lang_String::as_utf8_string(name); } return NULL; } int java_lang_ThreadGroup::nthreads(oop java_thread_group) { assert(oopDesc::is_oop(java_thread_group), "thread group must be oop"); return java_thread_group->int_field(_nthreads_offset); } objArrayOop java_lang_ThreadGroup::threads(oop java_thread_group) { oop threads = java_thread_group->obj_field(_threads_offset); assert(threads != NULL, "threadgroups should have threads"); assert(threads->is_objArray(), "just checking"); // Todo: Add better type checking code return objArrayOop(threads); } int java_lang_ThreadGroup::ngroups(oop java_thread_group) { assert(oopDesc::is_oop(java_thread_group), "thread group must be oop"); return java_thread_group->int_field(_ngroups_offset); } objArrayOop java_lang_ThreadGroup::groups(oop java_thread_group) { oop groups = java_thread_group->obj_field(_groups_offset); assert(groups == NULL || groups->is_objArray(), "just checking"); // Todo: Add better type checking code return objArrayOop(groups); } ThreadPriority java_lang_ThreadGroup::maxPriority(oop java_thread_group) { assert(oopDesc::is_oop(java_thread_group), "thread group must be oop"); return (ThreadPriority) java_thread_group->int_field(_maxPriority_offset); } bool java_lang_ThreadGroup::is_destroyed(oop java_thread_group) { assert(oopDesc::is_oop(java_thread_group), "thread group must be oop"); return java_thread_group->bool_field(_destroyed_offset) != 0; } bool java_lang_ThreadGroup::is_daemon(oop java_thread_group) { assert(oopDesc::is_oop(java_thread_group), "thread group must be oop"); return java_thread_group->bool_field(_daemon_offset) != 0; } #define THREADGROUP_FIELDS_DO(macro) \ macro(_parent_offset, k, vmSymbols::parent_name(), threadgroup_signature, false); \ macro(_name_offset, k, vmSymbols::name_name(), string_signature, false); \ macro(_threads_offset, k, vmSymbols::threads_name(), thread_array_signature, false); \ macro(_groups_offset, k, vmSymbols::groups_name(), threadgroup_array_signature, false); \ macro(_maxPriority_offset, k, vmSymbols::maxPriority_name(), int_signature, false); \ macro(_destroyed_offset, k, vmSymbols::destroyed_name(), bool_signature, false); \ macro(_daemon_offset, k, vmSymbols::daemon_name(), bool_signature, false); \ macro(_nthreads_offset, k, vmSymbols::nthreads_name(), int_signature, false); \ macro(_ngroups_offset, k, vmSymbols::ngroups_name(), int_signature, false) void java_lang_ThreadGroup::compute_offsets() { assert(_parent_offset == 0, "offsets should be initialized only once"); InstanceKlass* k = SystemDictionary::ThreadGroup_klass(); THREADGROUP_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_ThreadGroup::serialize(SerializeClosure* f) { THREADGROUP_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif #define THROWABLE_FIELDS_DO(macro) \ macro(backtrace_offset, k, "backtrace", object_signature, false); \ macro(detailMessage_offset, k, "detailMessage", string_signature, false); \ macro(stackTrace_offset, k, "stackTrace", java_lang_StackTraceElement_array, false); \ macro(depth_offset, k, "depth", int_signature, false); \ macro(static_unassigned_stacktrace_offset, k, "UNASSIGNED_STACK", java_lang_StackTraceElement_array, true) void java_lang_Throwable::compute_offsets() { InstanceKlass* k = SystemDictionary::Throwable_klass(); THROWABLE_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_Throwable::serialize(SerializeClosure* f) { THROWABLE_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif oop java_lang_Throwable::unassigned_stacktrace() { InstanceKlass* ik = SystemDictionary::Throwable_klass(); oop base = ik->static_field_base_raw(); return base->obj_field(static_unassigned_stacktrace_offset); } oop java_lang_Throwable::backtrace(oop throwable) { return throwable->obj_field_acquire(backtrace_offset); } void java_lang_Throwable::set_backtrace(oop throwable, oop value) { throwable->release_obj_field_put(backtrace_offset, value); } int java_lang_Throwable::depth(oop throwable) { return throwable->int_field(depth_offset); } void java_lang_Throwable::set_depth(oop throwable, int value) { throwable->int_field_put(depth_offset, value); } oop java_lang_Throwable::message(oop throwable) { return throwable->obj_field(detailMessage_offset); } // Return Symbol for detailed_message or NULL Symbol* java_lang_Throwable::detail_message(oop throwable) { PRESERVE_EXCEPTION_MARK; // Keep original exception oop detailed_message = java_lang_Throwable::message(throwable); if (detailed_message != NULL) { return java_lang_String::as_symbol(detailed_message, THREAD); } return NULL; } void java_lang_Throwable::set_message(oop throwable, oop value) { throwable->obj_field_put(detailMessage_offset, value); } void java_lang_Throwable::set_stacktrace(oop throwable, oop st_element_array) { throwable->obj_field_put(stackTrace_offset, st_element_array); } void java_lang_Throwable::clear_stacktrace(oop throwable) { set_stacktrace(throwable, NULL); } void java_lang_Throwable::print(oop throwable, outputStream* st) { ResourceMark rm; Klass* k = throwable->klass(); assert(k != NULL, "just checking"); st->print("%s", k->external_name()); oop msg = message(throwable); if (msg != NULL) { st->print(": %s", java_lang_String::as_utf8_string(msg)); } } // After this many redefines, the stack trace is unreliable. const int MAX_VERSION = USHRT_MAX; static inline bool version_matches(Method* method, int version) { assert(version < MAX_VERSION, "version is too big"); return method != NULL && (method->constants()->version() == version); } // This class provides a simple wrapper over the internal structure of // exception backtrace to insulate users of the backtrace from needing // to know what it looks like. class BacktraceBuilder: public StackObj { friend class BacktraceIterator; private: Handle _backtrace; objArrayOop _head; typeArrayOop _methods; typeArrayOop _bcis; objArrayOop _mirrors; typeArrayOop _names; // needed to insulate method name against redefinition int _index; NoSafepointVerifier _nsv; enum { trace_methods_offset = java_lang_Throwable::trace_methods_offset, trace_bcis_offset = java_lang_Throwable::trace_bcis_offset, trace_mirrors_offset = java_lang_Throwable::trace_mirrors_offset, trace_names_offset = java_lang_Throwable::trace_names_offset, trace_next_offset = java_lang_Throwable::trace_next_offset, trace_size = java_lang_Throwable::trace_size, trace_chunk_size = java_lang_Throwable::trace_chunk_size }; // get info out of chunks static typeArrayOop get_methods(objArrayHandle chunk) { typeArrayOop methods = typeArrayOop(chunk->obj_at(trace_methods_offset)); assert(methods != NULL, "method array should be initialized in backtrace"); return methods; } static typeArrayOop get_bcis(objArrayHandle chunk) { typeArrayOop bcis = typeArrayOop(chunk->obj_at(trace_bcis_offset)); assert(bcis != NULL, "bci array should be initialized in backtrace"); return bcis; } static objArrayOop get_mirrors(objArrayHandle chunk) { objArrayOop mirrors = objArrayOop(chunk->obj_at(trace_mirrors_offset)); assert(mirrors != NULL, "mirror array should be initialized in backtrace"); return mirrors; } static typeArrayOop get_names(objArrayHandle chunk) { typeArrayOop names = typeArrayOop(chunk->obj_at(trace_names_offset)); assert(names != NULL, "names array should be initialized in backtrace"); return names; } public: // constructor for new backtrace BacktraceBuilder(TRAPS): _methods(NULL), _bcis(NULL), _head(NULL), _mirrors(NULL), _names(NULL) { expand(CHECK); _backtrace = Handle(THREAD, _head); _index = 0; } BacktraceBuilder(Thread* thread, objArrayHandle backtrace) { _methods = get_methods(backtrace); _bcis = get_bcis(backtrace); _mirrors = get_mirrors(backtrace); _names = get_names(backtrace); assert(_methods->length() == _bcis->length() && _methods->length() == _mirrors->length() && _mirrors->length() == _names->length(), "method and source information arrays should match"); // head is the preallocated backtrace _head = backtrace(); _backtrace = Handle(thread, _head); _index = 0; } void expand(TRAPS) { objArrayHandle old_head(THREAD, _head); PauseNoSafepointVerifier pnsv(&_nsv); objArrayOop head = oopFactory::new_objectArray(trace_size, CHECK); objArrayHandle new_head(THREAD, head); typeArrayOop methods = oopFactory::new_shortArray(trace_chunk_size, CHECK); typeArrayHandle new_methods(THREAD, methods); typeArrayOop bcis = oopFactory::new_intArray(trace_chunk_size, CHECK); typeArrayHandle new_bcis(THREAD, bcis); objArrayOop mirrors = oopFactory::new_objectArray(trace_chunk_size, CHECK); objArrayHandle new_mirrors(THREAD, mirrors); typeArrayOop names = oopFactory::new_symbolArray(trace_chunk_size, CHECK); typeArrayHandle new_names(THREAD, names); if (!old_head.is_null()) { old_head->obj_at_put(trace_next_offset, new_head()); } new_head->obj_at_put(trace_methods_offset, new_methods()); new_head->obj_at_put(trace_bcis_offset, new_bcis()); new_head->obj_at_put(trace_mirrors_offset, new_mirrors()); new_head->obj_at_put(trace_names_offset, new_names()); _head = new_head(); _methods = new_methods(); _bcis = new_bcis(); _mirrors = new_mirrors(); _names = new_names(); _index = 0; } oop backtrace() { return _backtrace(); } inline void push(Method* method, int bci, TRAPS) { // Smear the -1 bci to 0 since the array only holds unsigned // shorts. The later line number lookup would just smear the -1 // to a 0 even if it could be recorded. if (bci == SynchronizationEntryBCI) bci = 0; if (_index >= trace_chunk_size) { methodHandle mhandle(THREAD, method); expand(CHECK); method = mhandle(); } _methods->ushort_at_put(_index, method->orig_method_idnum()); _bcis->int_at_put(_index, Backtrace::merge_bci_and_version(bci, method->constants()->version())); // Note:this doesn't leak symbols because the mirror in the backtrace keeps the // klass owning the symbols alive so their refcounts aren't decremented. Symbol* name = method->name(); _names->symbol_at_put(_index, name); // We need to save the mirrors in the backtrace to keep the class // from being unloaded while we still have this stack trace. assert(method->method_holder()->java_mirror() != NULL, "never push null for mirror"); _mirrors->obj_at_put(_index, method->method_holder()->java_mirror()); _index++; } }; struct BacktraceElement : public StackObj { int _method_id; int _bci; int _version; Symbol* _name; Handle _mirror; BacktraceElement(Handle mirror, int mid, int version, int bci, Symbol* name) : _mirror(mirror), _method_id(mid), _version(version), _bci(bci), _name(name) {} }; class BacktraceIterator : public StackObj { int _index; objArrayHandle _result; objArrayHandle _mirrors; typeArrayHandle _methods; typeArrayHandle _bcis; typeArrayHandle _names; void init(objArrayHandle result, Thread* thread) { // Get method id, bci, version and mirror from chunk _result = result; if (_result.not_null()) { _methods = typeArrayHandle(thread, BacktraceBuilder::get_methods(_result)); _bcis = typeArrayHandle(thread, BacktraceBuilder::get_bcis(_result)); _mirrors = objArrayHandle(thread, BacktraceBuilder::get_mirrors(_result)); _names = typeArrayHandle(thread, BacktraceBuilder::get_names(_result)); _index = 0; } } public: BacktraceIterator(objArrayHandle result, Thread* thread) { init(result, thread); assert(_methods.is_null() || _methods->length() == java_lang_Throwable::trace_chunk_size, "lengths don't match"); } BacktraceElement next(Thread* thread) { BacktraceElement e (Handle(thread, _mirrors->obj_at(_index)), _methods->ushort_at(_index), Backtrace::version_at(_bcis->int_at(_index)), Backtrace::bci_at(_bcis->int_at(_index)), _names->symbol_at(_index)); _index++; if (_index >= java_lang_Throwable::trace_chunk_size) { int next_offset = java_lang_Throwable::trace_next_offset; // Get next chunk objArrayHandle result (thread, objArrayOop(_result->obj_at(next_offset))); init(result, thread); } return e; } bool repeat() { return _result.not_null() && _mirrors->obj_at(_index) != NULL; } }; // Print stack trace element to resource allocated buffer static void print_stack_element_to_stream(outputStream* st, Handle mirror, int method_id, int version, int bci, Symbol* name) { ResourceMark rm; // Get strings and string lengths InstanceKlass* holder = InstanceKlass::cast(java_lang_Class::as_Klass(mirror())); const char* klass_name = holder->external_name(); int buf_len = (int)strlen(klass_name); char* method_name = name->as_C_string(); buf_len += (int)strlen(method_name); char* source_file_name = NULL; Symbol* source = Backtrace::get_source_file_name(holder, version); if (source != NULL) { source_file_name = source->as_C_string(); buf_len += (int)strlen(source_file_name); } char *module_name = NULL, *module_version = NULL; ModuleEntry* module = holder->module(); if (module->is_named()) { module_name = module->name()->as_C_string(); buf_len += (int)strlen(module_name); if (module->version() != NULL) { module_version = module->version()->as_C_string(); buf_len += (int)strlen(module_version); } } // Allocate temporary buffer with extra space for formatting and line number char* buf = NEW_RESOURCE_ARRAY(char, buf_len + 64); // Print stack trace line in buffer sprintf(buf, "\tat %s.%s(", klass_name, method_name); // Print module information if (module_name != NULL) { if (module_version != NULL) { sprintf(buf + (int)strlen(buf), "%s@%s/", module_name, module_version); } else { sprintf(buf + (int)strlen(buf), "%s/", module_name); } } // The method can be NULL if the requested class version is gone Method* method = holder->method_with_orig_idnum(method_id, version); if (!version_matches(method, version)) { strcat(buf, "Redefined)"); } else { int line_number = Backtrace::get_line_number(method, bci); if (line_number == -2) { strcat(buf, "Native Method)"); } else { if (source_file_name != NULL && (line_number != -1)) { // Sourcename and linenumber sprintf(buf + (int)strlen(buf), "%s:%d)", source_file_name, line_number); } else if (source_file_name != NULL) { // Just sourcename sprintf(buf + (int)strlen(buf), "%s)", source_file_name); } else { // Neither sourcename nor linenumber sprintf(buf + (int)strlen(buf), "Unknown Source)"); } CompiledMethod* nm = method->code(); if (WizardMode && nm != NULL) { sprintf(buf + (int)strlen(buf), "(nmethod " INTPTR_FORMAT ")", (intptr_t)nm); } } } st->print_cr("%s", buf); } void java_lang_Throwable::print_stack_element(outputStream *st, const methodHandle& method, int bci) { Handle mirror (Thread::current(), method->method_holder()->java_mirror()); int method_id = method->orig_method_idnum(); int version = method->constants()->version(); print_stack_element_to_stream(st, mirror, method_id, version, bci, method->name()); } /** * Print the throwable message and its stack trace plus all causes by walking the * cause chain. The output looks the same as of Throwable.printStackTrace(). */ void java_lang_Throwable::print_stack_trace(Handle throwable, outputStream* st) { // First, print the message. print(throwable(), st); st->cr(); // Now print the stack trace. Thread* THREAD = Thread::current(); while (throwable.not_null()) { objArrayHandle result (THREAD, objArrayOop(backtrace(throwable()))); if (result.is_null()) { st->print_raw_cr("\t<>"); return; } BacktraceIterator iter(result, THREAD); while (iter.repeat()) { BacktraceElement bte = iter.next(THREAD); print_stack_element_to_stream(st, bte._mirror, bte._method_id, bte._version, bte._bci, bte._name); } { // Call getCause() which doesn't necessarily return the _cause field. EXCEPTION_MARK; JavaValue cause(T_OBJECT); JavaCalls::call_virtual(&cause, throwable, throwable->klass(), vmSymbols::getCause_name(), vmSymbols::void_throwable_signature(), THREAD); // Ignore any exceptions. we are in the middle of exception handling. Same as classic VM. if (HAS_PENDING_EXCEPTION) { CLEAR_PENDING_EXCEPTION; throwable = Handle(); } else { throwable = Handle(THREAD, (oop) cause.get_jobject()); if (throwable.not_null()) { st->print("Caused by: "); print(throwable(), st); st->cr(); } } } } } /** * Print the throwable stack trace by calling the Java method java.lang.Throwable.printStackTrace(). */ void java_lang_Throwable::java_printStackTrace(Handle throwable, TRAPS) { assert(throwable->is_a(SystemDictionary::Throwable_klass()), "Throwable instance expected"); JavaValue result(T_VOID); JavaCalls::call_virtual(&result, throwable, SystemDictionary::Throwable_klass(), vmSymbols::printStackTrace_name(), vmSymbols::void_method_signature(), THREAD); } void java_lang_Throwable::fill_in_stack_trace(Handle throwable, const methodHandle& method, TRAPS) { if (!StackTraceInThrowable) return; ResourceMark rm(THREAD); // Start out by clearing the backtrace for this object, in case the VM // runs out of memory while allocating the stack trace set_backtrace(throwable(), NULL); // Clear lazily constructed Java level stacktrace if refilling occurs // This is unnecessary in 1.7+ but harmless clear_stacktrace(throwable()); int max_depth = MaxJavaStackTraceDepth; JavaThread* thread = (JavaThread*)THREAD; BacktraceBuilder bt(CHECK); // If there is no Java frame just return the method that was being called // with bci 0 if (!thread->has_last_Java_frame()) { if (max_depth >= 1 && method() != NULL) { bt.push(method(), 0, CHECK); log_info(stacktrace)("%s, %d", throwable->klass()->external_name(), 1); set_depth(throwable(), 1); set_backtrace(throwable(), bt.backtrace()); } return; } // Instead of using vframe directly, this version of fill_in_stack_trace // basically handles everything by hand. This significantly improved the // speed of this method call up to 28.5% on Solaris sparc. 27.1% on Windows. // See bug 6333838 for more details. // The "ASSERT" here is to verify this method generates the exactly same stack // trace as utilizing vframe. #ifdef ASSERT vframeStream st(thread); methodHandle st_method(THREAD, st.method()); #endif int total_count = 0; RegisterMap map(thread, false); int decode_offset = 0; CompiledMethod* nm = NULL; bool skip_fillInStackTrace_check = false; bool skip_throwableInit_check = false; bool skip_hidden = !ShowHiddenFrames; for (frame fr = thread->last_frame(); max_depth == 0 || max_depth != total_count;) { Method* method = NULL; int bci = 0; // Compiled java method case. if (decode_offset != 0) { DebugInfoReadStream stream(nm, decode_offset); decode_offset = stream.read_int(); method = (Method*)nm->metadata_at(stream.read_int()); bci = stream.read_bci(); } else { if (fr.is_first_frame()) break; address pc = fr.pc(); if (fr.is_interpreted_frame()) { address bcp = fr.interpreter_frame_bcp(); method = fr.interpreter_frame_method(); bci = method->bci_from(bcp); fr = fr.sender(&map); } else { CodeBlob* cb = fr.cb(); // HMMM QQQ might be nice to have frame return nm as NULL if cb is non-NULL // but non nmethod fr = fr.sender(&map); if (cb == NULL || !cb->is_compiled()) { continue; } nm = cb->as_compiled_method(); if (nm->method()->is_native()) { method = nm->method(); bci = 0; } else { PcDesc* pd = nm->pc_desc_at(pc); decode_offset = pd->scope_decode_offset(); // if decode_offset is not equal to 0, it will execute the // "compiled java method case" at the beginning of the loop. continue; } } } #ifdef ASSERT assert(st_method() == method && st.bci() == bci, "Wrong stack trace"); st.next(); // vframeStream::method isn't GC-safe so store off a copy // of the Method* in case we GC. if (!st.at_end()) { st_method = st.method(); } #endif // the format of the stacktrace will be: // - 1 or more fillInStackTrace frames for the exception class (skipped) // - 0 or more methods for the exception class (skipped) // - rest of the stack if (!skip_fillInStackTrace_check) { if (method->name() == vmSymbols::fillInStackTrace_name() && throwable->is_a(method->method_holder())) { continue; } else { skip_fillInStackTrace_check = true; // gone past them all } } if (!skip_throwableInit_check) { assert(skip_fillInStackTrace_check, "logic error in backtrace filtering"); // skip methods of the exception class and superclasses // This is simlar to classic VM. if (method->name() == vmSymbols::object_initializer_name() && throwable->is_a(method->method_holder())) { continue; } else { // there are none or we've seen them all - either way stop checking skip_throwableInit_check = true; } } if (method->is_hidden()) { if (skip_hidden) continue; } bt.push(method, bci, CHECK); total_count++; } log_info(stacktrace)("%s, %d", throwable->klass()->external_name(), total_count); // Put completed stack trace into throwable object set_backtrace(throwable(), bt.backtrace()); set_depth(throwable(), total_count); } void java_lang_Throwable::fill_in_stack_trace(Handle throwable, const methodHandle& method) { // No-op if stack trace is disabled if (!StackTraceInThrowable) { return; } // Disable stack traces for some preallocated out of memory errors if (!Universe::should_fill_in_stack_trace(throwable)) { return; } PRESERVE_EXCEPTION_MARK; JavaThread* thread = JavaThread::active(); fill_in_stack_trace(throwable, method, thread); // ignore exceptions thrown during stack trace filling CLEAR_PENDING_EXCEPTION; } void java_lang_Throwable::allocate_backtrace(Handle throwable, TRAPS) { // Allocate stack trace - backtrace is created but not filled in // No-op if stack trace is disabled if (!StackTraceInThrowable) return; BacktraceBuilder bt(CHECK); // creates a backtrace set_backtrace(throwable(), bt.backtrace()); } void java_lang_Throwable::fill_in_stack_trace_of_preallocated_backtrace(Handle throwable) { // Fill in stack trace into preallocated backtrace (no GC) // No-op if stack trace is disabled if (!StackTraceInThrowable) return; assert(throwable->is_a(SystemDictionary::Throwable_klass()), "sanity check"); JavaThread* THREAD = JavaThread::current(); objArrayHandle backtrace (THREAD, (objArrayOop)java_lang_Throwable::backtrace(throwable())); assert(backtrace.not_null(), "backtrace should have been preallocated"); ResourceMark rm(THREAD); vframeStream st(THREAD); BacktraceBuilder bt(THREAD, backtrace); // Unlike fill_in_stack_trace we do not skip fillInStackTrace or throwable init // methods as preallocated errors aren't created by "java" code. // fill in as much stack trace as possible int chunk_count = 0; for (;!st.at_end(); st.next()) { bt.push(st.method(), st.bci(), CHECK); chunk_count++; // Bail-out for deep stacks if (chunk_count >= trace_chunk_size) break; } set_depth(throwable(), chunk_count); log_info(stacktrace)("%s, %d", throwable->klass()->external_name(), chunk_count); // We support the Throwable immutability protocol defined for Java 7. java_lang_Throwable::set_stacktrace(throwable(), java_lang_Throwable::unassigned_stacktrace()); assert(java_lang_Throwable::unassigned_stacktrace() != NULL, "not initialized"); } void java_lang_Throwable::get_stack_trace_elements(Handle throwable, objArrayHandle stack_trace_array_h, TRAPS) { if (throwable.is_null() || stack_trace_array_h.is_null()) { THROW(vmSymbols::java_lang_NullPointerException()); } assert(stack_trace_array_h->is_objArray(), "Stack trace array should be an array of StackTraceElenent"); if (stack_trace_array_h->length() != depth(throwable())) { THROW(vmSymbols::java_lang_IndexOutOfBoundsException()); } objArrayHandle result(THREAD, objArrayOop(backtrace(throwable()))); BacktraceIterator iter(result, THREAD); int index = 0; while (iter.repeat()) { BacktraceElement bte = iter.next(THREAD); Handle stack_trace_element(THREAD, stack_trace_array_h->obj_at(index++)); if (stack_trace_element.is_null()) { THROW(vmSymbols::java_lang_NullPointerException()); } InstanceKlass* holder = InstanceKlass::cast(java_lang_Class::as_Klass(bte._mirror())); methodHandle method (THREAD, holder->method_with_orig_idnum(bte._method_id, bte._version)); java_lang_StackTraceElement::fill_in(stack_trace_element, holder, method, bte._version, bte._bci, bte._name, CHECK); } } oop java_lang_StackTraceElement::create(const methodHandle& method, int bci, TRAPS) { // Allocate java.lang.StackTraceElement instance InstanceKlass* k = SystemDictionary::StackTraceElement_klass(); assert(k != NULL, "must be loaded in 1.4+"); if (k->should_be_initialized()) { k->initialize(CHECK_0); } Handle element = k->allocate_instance_handle(CHECK_0); int version = method->constants()->version(); fill_in(element, method->method_holder(), method, version, bci, method->name(), CHECK_0); return element(); } void java_lang_StackTraceElement::fill_in(Handle element, InstanceKlass* holder, const methodHandle& method, int version, int bci, Symbol* name, TRAPS) { assert(element->is_a(SystemDictionary::StackTraceElement_klass()), "sanity check"); // Fill in class name ResourceMark rm(THREAD); const char* str = holder->external_name(); oop classname = StringTable::intern((char*) str, CHECK); java_lang_StackTraceElement::set_declaringClass(element(), classname); java_lang_StackTraceElement::set_declaringClassObject(element(), holder->java_mirror()); oop loader = holder->class_loader(); if (loader != NULL) { oop loader_name = java_lang_ClassLoader::name(loader); if (loader_name != NULL) java_lang_StackTraceElement::set_classLoaderName(element(), loader_name); } // Fill in method name oop methodname = StringTable::intern(name, CHECK); java_lang_StackTraceElement::set_methodName(element(), methodname); // Fill in module name and version ModuleEntry* module = holder->module(); if (module->is_named()) { oop module_name = StringTable::intern(module->name(), CHECK); java_lang_StackTraceElement::set_moduleName(element(), module_name); oop module_version; if (module->version() != NULL) { module_version = StringTable::intern(module->version(), CHECK); } else { module_version = NULL; } java_lang_StackTraceElement::set_moduleVersion(element(), module_version); } if (method() == NULL || !version_matches(method(), version)) { // The method was redefined, accurate line number information isn't available java_lang_StackTraceElement::set_fileName(element(), NULL); java_lang_StackTraceElement::set_lineNumber(element(), -1); } else { // Fill in source file name and line number. Symbol* source = Backtrace::get_source_file_name(holder, version); if (ShowHiddenFrames && source == NULL) source = vmSymbols::unknown_class_name(); oop filename = StringTable::intern(source, CHECK); java_lang_StackTraceElement::set_fileName(element(), filename); int line_number = Backtrace::get_line_number(method, bci); java_lang_StackTraceElement::set_lineNumber(element(), line_number); } } Method* java_lang_StackFrameInfo::get_method(Handle stackFrame, InstanceKlass* holder, TRAPS) { Handle mname(THREAD, stackFrame->obj_field(_memberName_offset)); Method* method = (Method*)java_lang_invoke_MemberName::vmtarget(mname()); // we should expand MemberName::name when Throwable uses StackTrace // MethodHandles::expand_MemberName(mname, MethodHandles::_suppress_defc|MethodHandles::_suppress_type, CHECK_NULL); return method; } void java_lang_StackFrameInfo::set_method_and_bci(Handle stackFrame, const methodHandle& method, int bci, TRAPS) { // set Method* or mid/cpref Handle mname(Thread::current(), stackFrame->obj_field(_memberName_offset)); InstanceKlass* ik = method->method_holder(); CallInfo info(method(), ik, CHECK); MethodHandles::init_method_MemberName(mname, info); // set bci java_lang_StackFrameInfo::set_bci(stackFrame(), bci); // method may be redefined; store the version int version = method->constants()->version(); assert((jushort)version == version, "version should be short"); java_lang_StackFrameInfo::set_version(stackFrame(), (short)version); } void java_lang_StackFrameInfo::to_stack_trace_element(Handle stackFrame, Handle stack_trace_element, TRAPS) { ResourceMark rm(THREAD); Handle mname(THREAD, stackFrame->obj_field(java_lang_StackFrameInfo::_memberName_offset)); Klass* clazz = java_lang_Class::as_Klass(java_lang_invoke_MemberName::clazz(mname())); InstanceKlass* holder = InstanceKlass::cast(clazz); Method* method = java_lang_StackFrameInfo::get_method(stackFrame, holder, CHECK); short version = stackFrame->short_field(_version_offset); short bci = stackFrame->short_field(_bci_offset); Symbol* name = method->name(); java_lang_StackTraceElement::fill_in(stack_trace_element, holder, method, version, bci, name, CHECK); } #define STACKFRAMEINFO_FIELDS_DO(macro) \ macro(_memberName_offset, k, "memberName", object_signature, false); \ macro(_bci_offset, k, "bci", short_signature, false) void java_lang_StackFrameInfo::compute_offsets() { InstanceKlass* k = SystemDictionary::StackFrameInfo_klass(); STACKFRAMEINFO_FIELDS_DO(FIELD_COMPUTE_OFFSET); STACKFRAMEINFO_INJECTED_FIELDS(INJECTED_FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_StackFrameInfo::serialize(SerializeClosure* f) { STACKFRAMEINFO_FIELDS_DO(FIELD_SERIALIZE_OFFSET); STACKFRAMEINFO_INJECTED_FIELDS(INJECTED_FIELD_SERIALIZE_OFFSET); } #endif #define LIVESTACKFRAMEINFO_FIELDS_DO(macro) \ macro(_monitors_offset, k, "monitors", object_array_signature, false); \ macro(_locals_offset, k, "locals", object_array_signature, false); \ macro(_operands_offset, k, "operands", object_array_signature, false); \ macro(_mode_offset, k, "mode", int_signature, false) void java_lang_LiveStackFrameInfo::compute_offsets() { InstanceKlass* k = SystemDictionary::LiveStackFrameInfo_klass(); LIVESTACKFRAMEINFO_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_LiveStackFrameInfo::serialize(SerializeClosure* f) { LIVESTACKFRAMEINFO_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif #define ACCESSIBLEOBJECT_FIELDS_DO(macro) \ macro(override_offset, k, "override", bool_signature, false) void java_lang_reflect_AccessibleObject::compute_offsets() { InstanceKlass* k = SystemDictionary::reflect_AccessibleObject_klass(); ACCESSIBLEOBJECT_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_reflect_AccessibleObject::serialize(SerializeClosure* f) { ACCESSIBLEOBJECT_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif jboolean java_lang_reflect_AccessibleObject::override(oop reflect) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return (jboolean) reflect->bool_field(override_offset); } void java_lang_reflect_AccessibleObject::set_override(oop reflect, jboolean value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); reflect->bool_field_put(override_offset, (int) value); } #define METHOD_FIELDS_DO(macro) \ macro(clazz_offset, k, vmSymbols::clazz_name(), class_signature, false); \ macro(name_offset, k, vmSymbols::name_name(), string_signature, false); \ macro(returnType_offset, k, vmSymbols::returnType_name(), class_signature, false); \ macro(parameterTypes_offset, k, vmSymbols::parameterTypes_name(), class_array_signature, false); \ macro(exceptionTypes_offset, k, vmSymbols::exceptionTypes_name(), class_array_signature, false); \ macro(slot_offset, k, vmSymbols::slot_name(), int_signature, false); \ macro(modifiers_offset, k, vmSymbols::modifiers_name(), int_signature, false); \ macro##_OPTIONAL(signature_offset, k, vmSymbols::signature_name(), string_signature); \ macro##_OPTIONAL(annotations_offset, k, vmSymbols::annotations_name(), byte_array_signature); \ macro##_OPTIONAL(parameter_annotations_offset, k, vmSymbols::parameter_annotations_name(), byte_array_signature); \ macro##_OPTIONAL(annotation_default_offset, k, vmSymbols::annotation_default_name(), byte_array_signature); \ macro##_OPTIONAL(type_annotations_offset, k, vmSymbols::type_annotations_name(), byte_array_signature) void java_lang_reflect_Method::compute_offsets() { InstanceKlass* k = SystemDictionary::reflect_Method_klass(); // The generic signature and annotations fields are only present in 1.5 signature_offset = -1; annotations_offset = -1; parameter_annotations_offset = -1; annotation_default_offset = -1; type_annotations_offset = -1; METHOD_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_reflect_Method::serialize(SerializeClosure* f) { METHOD_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif Handle java_lang_reflect_Method::create(TRAPS) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); Klass* klass = SystemDictionary::reflect_Method_klass(); // This class is eagerly initialized during VM initialization, since we keep a refence // to one of the methods assert(InstanceKlass::cast(klass)->is_initialized(), "must be initialized"); return InstanceKlass::cast(klass)->allocate_instance_handle(THREAD); } oop java_lang_reflect_Method::clazz(oop reflect) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return reflect->obj_field(clazz_offset); } void java_lang_reflect_Method::set_clazz(oop reflect, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); reflect->obj_field_put(clazz_offset, value); } int java_lang_reflect_Method::slot(oop reflect) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return reflect->int_field(slot_offset); } void java_lang_reflect_Method::set_slot(oop reflect, int value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); reflect->int_field_put(slot_offset, value); } oop java_lang_reflect_Method::name(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return method->obj_field(name_offset); } void java_lang_reflect_Method::set_name(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); method->obj_field_put(name_offset, value); } oop java_lang_reflect_Method::return_type(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return method->obj_field(returnType_offset); } void java_lang_reflect_Method::set_return_type(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); method->obj_field_put(returnType_offset, value); } oop java_lang_reflect_Method::parameter_types(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return method->obj_field(parameterTypes_offset); } void java_lang_reflect_Method::set_parameter_types(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); method->obj_field_put(parameterTypes_offset, value); } oop java_lang_reflect_Method::exception_types(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return method->obj_field(exceptionTypes_offset); } void java_lang_reflect_Method::set_exception_types(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); method->obj_field_put(exceptionTypes_offset, value); } int java_lang_reflect_Method::modifiers(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return method->int_field(modifiers_offset); } void java_lang_reflect_Method::set_modifiers(oop method, int value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); method->int_field_put(modifiers_offset, value); } bool java_lang_reflect_Method::has_signature_field() { return (signature_offset >= 0); } oop java_lang_reflect_Method::signature(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_signature_field(), "signature field must be present"); return method->obj_field(signature_offset); } void java_lang_reflect_Method::set_signature(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_signature_field(), "signature field must be present"); method->obj_field_put(signature_offset, value); } bool java_lang_reflect_Method::has_annotations_field() { return (annotations_offset >= 0); } oop java_lang_reflect_Method::annotations(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_annotations_field(), "annotations field must be present"); return method->obj_field(annotations_offset); } void java_lang_reflect_Method::set_annotations(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_annotations_field(), "annotations field must be present"); method->obj_field_put(annotations_offset, value); } bool java_lang_reflect_Method::has_parameter_annotations_field() { return (parameter_annotations_offset >= 0); } oop java_lang_reflect_Method::parameter_annotations(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_parameter_annotations_field(), "parameter annotations field must be present"); return method->obj_field(parameter_annotations_offset); } void java_lang_reflect_Method::set_parameter_annotations(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_parameter_annotations_field(), "parameter annotations field must be present"); method->obj_field_put(parameter_annotations_offset, value); } bool java_lang_reflect_Method::has_annotation_default_field() { return (annotation_default_offset >= 0); } oop java_lang_reflect_Method::annotation_default(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_annotation_default_field(), "annotation default field must be present"); return method->obj_field(annotation_default_offset); } void java_lang_reflect_Method::set_annotation_default(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_annotation_default_field(), "annotation default field must be present"); method->obj_field_put(annotation_default_offset, value); } bool java_lang_reflect_Method::has_type_annotations_field() { return (type_annotations_offset >= 0); } oop java_lang_reflect_Method::type_annotations(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_type_annotations_field(), "type_annotations field must be present"); return method->obj_field(type_annotations_offset); } void java_lang_reflect_Method::set_type_annotations(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_type_annotations_field(), "type_annotations field must be present"); method->obj_field_put(type_annotations_offset, value); } #define CONSTRUCTOR_FIELDS_DO(macro) \ macro(clazz_offset, k, vmSymbols::clazz_name(), class_signature, false); \ macro(parameterTypes_offset, k, vmSymbols::parameterTypes_name(), class_array_signature, false); \ macro(exceptionTypes_offset, k, vmSymbols::exceptionTypes_name(), class_array_signature, false); \ macro(slot_offset, k, vmSymbols::slot_name(), int_signature, false); \ macro(modifiers_offset, k, vmSymbols::modifiers_name(), int_signature, false); \ macro##_OPTIONAL(signature_offset, k, vmSymbols::signature_name(), string_signature); \ macro##_OPTIONAL(annotations_offset, k, vmSymbols::annotations_name(), byte_array_signature); \ macro##_OPTIONAL(parameter_annotations_offset, k, vmSymbols::parameter_annotations_name(), byte_array_signature); \ macro##_OPTIONAL(type_annotations_offset, k, vmSymbols::type_annotations_name(), byte_array_signature) void java_lang_reflect_Constructor::compute_offsets() { InstanceKlass* k = SystemDictionary::reflect_Constructor_klass(); // The generic signature and annotations fields are only present in 1.5 signature_offset = -1; annotations_offset = -1; parameter_annotations_offset = -1; type_annotations_offset = -1; CONSTRUCTOR_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_reflect_Constructor::serialize(SerializeClosure* f) { CONSTRUCTOR_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif Handle java_lang_reflect_Constructor::create(TRAPS) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); Symbol* name = vmSymbols::java_lang_reflect_Constructor(); Klass* k = SystemDictionary::resolve_or_fail(name, true, CHECK_NH); InstanceKlass* ik = InstanceKlass::cast(k); // Ensure it is initialized ik->initialize(CHECK_NH); return ik->allocate_instance_handle(THREAD); } oop java_lang_reflect_Constructor::clazz(oop reflect) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return reflect->obj_field(clazz_offset); } void java_lang_reflect_Constructor::set_clazz(oop reflect, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); reflect->obj_field_put(clazz_offset, value); } oop java_lang_reflect_Constructor::parameter_types(oop constructor) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return constructor->obj_field(parameterTypes_offset); } void java_lang_reflect_Constructor::set_parameter_types(oop constructor, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); constructor->obj_field_put(parameterTypes_offset, value); } oop java_lang_reflect_Constructor::exception_types(oop constructor) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return constructor->obj_field(exceptionTypes_offset); } void java_lang_reflect_Constructor::set_exception_types(oop constructor, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); constructor->obj_field_put(exceptionTypes_offset, value); } int java_lang_reflect_Constructor::slot(oop reflect) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return reflect->int_field(slot_offset); } void java_lang_reflect_Constructor::set_slot(oop reflect, int value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); reflect->int_field_put(slot_offset, value); } int java_lang_reflect_Constructor::modifiers(oop constructor) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return constructor->int_field(modifiers_offset); } void java_lang_reflect_Constructor::set_modifiers(oop constructor, int value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); constructor->int_field_put(modifiers_offset, value); } bool java_lang_reflect_Constructor::has_signature_field() { return (signature_offset >= 0); } oop java_lang_reflect_Constructor::signature(oop constructor) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_signature_field(), "signature field must be present"); return constructor->obj_field(signature_offset); } void java_lang_reflect_Constructor::set_signature(oop constructor, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_signature_field(), "signature field must be present"); constructor->obj_field_put(signature_offset, value); } bool java_lang_reflect_Constructor::has_annotations_field() { return (annotations_offset >= 0); } oop java_lang_reflect_Constructor::annotations(oop constructor) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_annotations_field(), "annotations field must be present"); return constructor->obj_field(annotations_offset); } void java_lang_reflect_Constructor::set_annotations(oop constructor, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_annotations_field(), "annotations field must be present"); constructor->obj_field_put(annotations_offset, value); } bool java_lang_reflect_Constructor::has_parameter_annotations_field() { return (parameter_annotations_offset >= 0); } oop java_lang_reflect_Constructor::parameter_annotations(oop method) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_parameter_annotations_field(), "parameter annotations field must be present"); return method->obj_field(parameter_annotations_offset); } void java_lang_reflect_Constructor::set_parameter_annotations(oop method, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_parameter_annotations_field(), "parameter annotations field must be present"); method->obj_field_put(parameter_annotations_offset, value); } bool java_lang_reflect_Constructor::has_type_annotations_field() { return (type_annotations_offset >= 0); } oop java_lang_reflect_Constructor::type_annotations(oop constructor) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_type_annotations_field(), "type_annotations field must be present"); return constructor->obj_field(type_annotations_offset); } void java_lang_reflect_Constructor::set_type_annotations(oop constructor, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_type_annotations_field(), "type_annotations field must be present"); constructor->obj_field_put(type_annotations_offset, value); } #define FIELD_FIELDS_DO(macro) \ macro(clazz_offset, k, vmSymbols::clazz_name(), class_signature, false); \ macro(name_offset, k, vmSymbols::name_name(), string_signature, false); \ macro(type_offset, k, vmSymbols::type_name(), class_signature, false); \ macro(slot_offset, k, vmSymbols::slot_name(), int_signature, false); \ macro(modifiers_offset, k, vmSymbols::modifiers_name(), int_signature, false); \ macro##_OPTIONAL(signature_offset, k, vmSymbols::signature_name(), string_signature); \ macro##_OPTIONAL(annotations_offset, k, vmSymbols::annotations_name(), byte_array_signature); \ macro##_OPTIONAL(type_annotations_offset, k, vmSymbols::type_annotations_name(), byte_array_signature) void java_lang_reflect_Field::compute_offsets() { InstanceKlass* k = SystemDictionary::reflect_Field_klass(); // The generic signature and annotations fields are only present in 1.5 signature_offset = -1; annotations_offset = -1; type_annotations_offset = -1; FIELD_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_reflect_Field::serialize(SerializeClosure* f) { FIELD_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif Handle java_lang_reflect_Field::create(TRAPS) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); Symbol* name = vmSymbols::java_lang_reflect_Field(); Klass* k = SystemDictionary::resolve_or_fail(name, true, CHECK_NH); InstanceKlass* ik = InstanceKlass::cast(k); // Ensure it is initialized ik->initialize(CHECK_NH); return ik->allocate_instance_handle(THREAD); } oop java_lang_reflect_Field::clazz(oop reflect) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return reflect->obj_field(clazz_offset); } void java_lang_reflect_Field::set_clazz(oop reflect, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); reflect->obj_field_put(clazz_offset, value); } oop java_lang_reflect_Field::name(oop field) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return field->obj_field(name_offset); } void java_lang_reflect_Field::set_name(oop field, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); field->obj_field_put(name_offset, value); } oop java_lang_reflect_Field::type(oop field) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return field->obj_field(type_offset); } void java_lang_reflect_Field::set_type(oop field, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); field->obj_field_put(type_offset, value); } int java_lang_reflect_Field::slot(oop reflect) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return reflect->int_field(slot_offset); } void java_lang_reflect_Field::set_slot(oop reflect, int value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); reflect->int_field_put(slot_offset, value); } int java_lang_reflect_Field::modifiers(oop field) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return field->int_field(modifiers_offset); } void java_lang_reflect_Field::set_modifiers(oop field, int value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); field->int_field_put(modifiers_offset, value); } bool java_lang_reflect_Field::has_signature_field() { return (signature_offset >= 0); } oop java_lang_reflect_Field::signature(oop field) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_signature_field(), "signature field must be present"); return field->obj_field(signature_offset); } void java_lang_reflect_Field::set_signature(oop field, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_signature_field(), "signature field must be present"); field->obj_field_put(signature_offset, value); } bool java_lang_reflect_Field::has_annotations_field() { return (annotations_offset >= 0); } oop java_lang_reflect_Field::annotations(oop field) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_annotations_field(), "annotations field must be present"); return field->obj_field(annotations_offset); } void java_lang_reflect_Field::set_annotations(oop field, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_annotations_field(), "annotations field must be present"); field->obj_field_put(annotations_offset, value); } bool java_lang_reflect_Field::has_type_annotations_field() { return (type_annotations_offset >= 0); } oop java_lang_reflect_Field::type_annotations(oop field) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_type_annotations_field(), "type_annotations field must be present"); return field->obj_field(type_annotations_offset); } void java_lang_reflect_Field::set_type_annotations(oop field, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); assert(has_type_annotations_field(), "type_annotations field must be present"); field->obj_field_put(type_annotations_offset, value); } #define CONSTANTPOOL_FIELDS_DO(macro) \ macro(_oop_offset, k, "constantPoolOop", object_signature, false) void reflect_ConstantPool::compute_offsets() { InstanceKlass* k = SystemDictionary::reflect_ConstantPool_klass(); // The field is called ConstantPool* in the sun.reflect.ConstantPool class. CONSTANTPOOL_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void reflect_ConstantPool::serialize(SerializeClosure* f) { CONSTANTPOOL_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif #define PARAMETER_FIELDS_DO(macro) \ macro(name_offset, k, vmSymbols::name_name(), string_signature, false); \ macro(modifiers_offset, k, vmSymbols::modifiers_name(), int_signature, false); \ macro(index_offset, k, vmSymbols::index_name(), int_signature, false); \ macro(executable_offset, k, vmSymbols::executable_name(), executable_signature, false) void java_lang_reflect_Parameter::compute_offsets() { InstanceKlass* k = SystemDictionary::reflect_Parameter_klass(); PARAMETER_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_reflect_Parameter::serialize(SerializeClosure* f) { PARAMETER_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif Handle java_lang_reflect_Parameter::create(TRAPS) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); Symbol* name = vmSymbols::java_lang_reflect_Parameter(); Klass* k = SystemDictionary::resolve_or_fail(name, true, CHECK_NH); InstanceKlass* ik = InstanceKlass::cast(k); // Ensure it is initialized ik->initialize(CHECK_NH); return ik->allocate_instance_handle(THREAD); } oop java_lang_reflect_Parameter::name(oop param) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return param->obj_field(name_offset); } void java_lang_reflect_Parameter::set_name(oop param, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); param->obj_field_put(name_offset, value); } int java_lang_reflect_Parameter::modifiers(oop param) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return param->int_field(modifiers_offset); } void java_lang_reflect_Parameter::set_modifiers(oop param, int value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); param->int_field_put(modifiers_offset, value); } int java_lang_reflect_Parameter::index(oop param) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return param->int_field(index_offset); } void java_lang_reflect_Parameter::set_index(oop param, int value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); param->int_field_put(index_offset, value); } oop java_lang_reflect_Parameter::executable(oop param) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return param->obj_field(executable_offset); } void java_lang_reflect_Parameter::set_executable(oop param, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); param->obj_field_put(executable_offset, value); } int java_lang_Module::loader_offset; int java_lang_Module::name_offset; int java_lang_Module::_module_entry_offset = -1; Handle java_lang_Module::create(Handle loader, Handle module_name, TRAPS) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); Symbol* name = vmSymbols::java_lang_Module(); Klass* k = SystemDictionary::resolve_or_fail(name, true, CHECK_NH); InstanceKlass* ik = InstanceKlass::cast(k); Handle jlmh = ik->allocate_instance_handle(CHECK_NH); JavaValue result(T_VOID); JavaCalls::call_special(&result, jlmh, ik, vmSymbols::object_initializer_name(), vmSymbols::java_lang_module_init_signature(), loader, module_name, CHECK_NH); return jlmh; } #define MODULE_FIELDS_DO(macro) \ macro(loader_offset, k, vmSymbols::loader_name(), classloader_signature, false); \ macro(name_offset, k, vmSymbols::name_name(), string_signature, false) void java_lang_Module::compute_offsets() { InstanceKlass* k = SystemDictionary::Module_klass(); MODULE_FIELDS_DO(FIELD_COMPUTE_OFFSET); MODULE_INJECTED_FIELDS(INJECTED_FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_Module::serialize(SerializeClosure* f) { MODULE_FIELDS_DO(FIELD_SERIALIZE_OFFSET); MODULE_INJECTED_FIELDS(INJECTED_FIELD_SERIALIZE_OFFSET); } #endif oop java_lang_Module::loader(oop module) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return module->obj_field(loader_offset); } void java_lang_Module::set_loader(oop module, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); module->obj_field_put(loader_offset, value); } oop java_lang_Module::name(oop module) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); return module->obj_field(name_offset); } void java_lang_Module::set_name(oop module, oop value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); module->obj_field_put(name_offset, value); } ModuleEntry* java_lang_Module::module_entry(oop module) { assert(_module_entry_offset != -1, "Uninitialized module_entry_offset"); assert(module != NULL, "module can't be null"); assert(oopDesc::is_oop(module), "module must be oop"); ModuleEntry* module_entry = (ModuleEntry*)module->address_field(_module_entry_offset); if (module_entry == NULL) { // If the inject field containing the ModuleEntry* is null then return the // class loader's unnamed module. oop loader = java_lang_Module::loader(module); Handle h_loader = Handle(Thread::current(), loader); ClassLoaderData* loader_cld = SystemDictionary::register_loader(h_loader); return loader_cld->unnamed_module(); } return module_entry; } void java_lang_Module::set_module_entry(oop module, ModuleEntry* module_entry) { assert(_module_entry_offset != -1, "Uninitialized module_entry_offset"); assert(module != NULL, "module can't be null"); assert(oopDesc::is_oop(module), "module must be oop"); module->address_field_put(_module_entry_offset, (address)module_entry); } Handle reflect_ConstantPool::create(TRAPS) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); InstanceKlass* k = SystemDictionary::reflect_ConstantPool_klass(); // Ensure it is initialized k->initialize(CHECK_NH); return k->allocate_instance_handle(THREAD); } void reflect_ConstantPool::set_cp(oop reflect, ConstantPool* value) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); oop mirror = value->pool_holder()->java_mirror(); // Save the mirror to get back the constant pool. reflect->obj_field_put(_oop_offset, mirror); } ConstantPool* reflect_ConstantPool::get_cp(oop reflect) { assert(Universe::is_fully_initialized(), "Need to find another solution to the reflection problem"); oop mirror = reflect->obj_field(_oop_offset); Klass* k = java_lang_Class::as_Klass(mirror); assert(k->is_instance_klass(), "Must be"); // Get the constant pool back from the klass. Since class redefinition // merges the new constant pool into the old, this is essentially the // same constant pool as the original. If constant pool merging is // no longer done in the future, this will have to change to save // the original. return InstanceKlass::cast(k)->constants(); } #define UNSAFESTATICFIELDACCESSORIMPL_FIELDS_DO(macro) \ macro(_base_offset, k, "base", object_signature, false) void reflect_UnsafeStaticFieldAccessorImpl::compute_offsets() { InstanceKlass* k = SystemDictionary::reflect_UnsafeStaticFieldAccessorImpl_klass(); UNSAFESTATICFIELDACCESSORIMPL_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void reflect_UnsafeStaticFieldAccessorImpl::serialize(SerializeClosure* f) { UNSAFESTATICFIELDACCESSORIMPL_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif oop java_lang_boxing_object::initialize_and_allocate(BasicType type, TRAPS) { Klass* k = SystemDictionary::box_klass(type); if (k == NULL) return NULL; InstanceKlass* ik = InstanceKlass::cast(k); if (!ik->is_initialized()) ik->initialize(CHECK_0); return ik->allocate_instance(THREAD); } oop java_lang_boxing_object::create(BasicType type, jvalue* value, TRAPS) { oop box = initialize_and_allocate(type, CHECK_0); if (box == NULL) return NULL; switch (type) { case T_BOOLEAN: box->bool_field_put(value_offset, value->z); break; case T_CHAR: box->char_field_put(value_offset, value->c); break; case T_FLOAT: box->float_field_put(value_offset, value->f); break; case T_DOUBLE: box->double_field_put(long_value_offset, value->d); break; case T_BYTE: box->byte_field_put(value_offset, value->b); break; case T_SHORT: box->short_field_put(value_offset, value->s); break; case T_INT: box->int_field_put(value_offset, value->i); break; case T_LONG: box->long_field_put(long_value_offset, value->j); break; default: return NULL; } return box; } BasicType java_lang_boxing_object::basic_type(oop box) { if (box == NULL) return T_ILLEGAL; BasicType type = SystemDictionary::box_klass_type(box->klass()); if (type == T_OBJECT) // 'unknown' value returned by SD::bkt return T_ILLEGAL; return type; } BasicType java_lang_boxing_object::get_value(oop box, jvalue* value) { BasicType type = SystemDictionary::box_klass_type(box->klass()); switch (type) { case T_BOOLEAN: value->z = box->bool_field(value_offset); break; case T_CHAR: value->c = box->char_field(value_offset); break; case T_FLOAT: value->f = box->float_field(value_offset); break; case T_DOUBLE: value->d = box->double_field(long_value_offset); break; case T_BYTE: value->b = box->byte_field(value_offset); break; case T_SHORT: value->s = box->short_field(value_offset); break; case T_INT: value->i = box->int_field(value_offset); break; case T_LONG: value->j = box->long_field(long_value_offset); break; default: return T_ILLEGAL; } // end switch return type; } BasicType java_lang_boxing_object::set_value(oop box, jvalue* value) { BasicType type = SystemDictionary::box_klass_type(box->klass()); switch (type) { case T_BOOLEAN: box->bool_field_put(value_offset, value->z); break; case T_CHAR: box->char_field_put(value_offset, value->c); break; case T_FLOAT: box->float_field_put(value_offset, value->f); break; case T_DOUBLE: box->double_field_put(long_value_offset, value->d); break; case T_BYTE: box->byte_field_put(value_offset, value->b); break; case T_SHORT: box->short_field_put(value_offset, value->s); break; case T_INT: box->int_field_put(value_offset, value->i); break; case T_LONG: box->long_field_put(long_value_offset, value->j); break; default: return T_ILLEGAL; } // end switch return type; } void java_lang_boxing_object::print(BasicType type, jvalue* value, outputStream* st) { switch (type) { case T_BOOLEAN: st->print("%s", value->z ? "true" : "false"); break; case T_CHAR: st->print("%d", value->c); break; case T_BYTE: st->print("%d", value->b); break; case T_SHORT: st->print("%d", value->s); break; case T_INT: st->print("%d", value->i); break; case T_LONG: st->print(JLONG_FORMAT, value->j); break; case T_FLOAT: st->print("%f", value->f); break; case T_DOUBLE: st->print("%lf", value->d); break; default: st->print("type %d?", type); break; } } // Support for java_lang_ref_Reference bool java_lang_ref_Reference::is_referent_field(oop obj, ptrdiff_t offset) { assert(obj != NULL, "sanity"); if (offset != java_lang_ref_Reference::referent_offset) { return false; } Klass* k = obj->klass(); if (!k->is_instance_klass()) { return false; } InstanceKlass* ik = InstanceKlass::cast(obj->klass()); bool is_reference = ik->reference_type() != REF_NONE; assert(!is_reference || ik->is_subclass_of(SystemDictionary::Reference_klass()), "sanity"); return is_reference; } // Support for java_lang_ref_SoftReference // #define SOFTREFERENCE_FIELDS_DO(macro) \ macro(timestamp_offset, k, "timestamp", long_signature, false); \ macro(static_clock_offset, k, "clock", long_signature, true) void java_lang_ref_SoftReference::compute_offsets() { InstanceKlass* k = SystemDictionary::SoftReference_klass(); SOFTREFERENCE_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_ref_SoftReference::serialize(SerializeClosure* f) { SOFTREFERENCE_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif jlong java_lang_ref_SoftReference::timestamp(oop ref) { return ref->long_field(timestamp_offset); } jlong java_lang_ref_SoftReference::clock() { InstanceKlass* ik = SystemDictionary::SoftReference_klass(); oop base = ik->static_field_base_raw(); return base->long_field(static_clock_offset); } void java_lang_ref_SoftReference::set_clock(jlong value) { InstanceKlass* ik = SystemDictionary::SoftReference_klass(); oop base = ik->static_field_base_raw(); base->long_field_put(static_clock_offset, value); } // Support for java_lang_invoke_DirectMethodHandle int java_lang_invoke_DirectMethodHandle::_member_offset; oop java_lang_invoke_DirectMethodHandle::member(oop dmh) { oop member_name = NULL; assert(oopDesc::is_oop(dmh) && java_lang_invoke_DirectMethodHandle::is_instance(dmh), "a DirectMethodHandle oop is expected"); return dmh->obj_field(member_offset_in_bytes()); } #define DIRECTMETHODHANDLE_FIELDS_DO(macro) \ macro(_member_offset, k, "member", java_lang_invoke_MemberName_signature, false) void java_lang_invoke_DirectMethodHandle::compute_offsets() { InstanceKlass* k = SystemDictionary::DirectMethodHandle_klass(); DIRECTMETHODHANDLE_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_invoke_DirectMethodHandle::serialize(SerializeClosure* f) { DIRECTMETHODHANDLE_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif // Support for java_lang_invoke_MethodHandle int java_lang_invoke_MethodHandle::_type_offset; int java_lang_invoke_MethodHandle::_form_offset; int java_lang_invoke_MemberName::_clazz_offset; int java_lang_invoke_MemberName::_name_offset; int java_lang_invoke_MemberName::_type_offset; int java_lang_invoke_MemberName::_flags_offset; int java_lang_invoke_MemberName::_method_offset; int java_lang_invoke_MemberName::_vmindex_offset; int java_lang_invoke_ResolvedMethodName::_vmtarget_offset; int java_lang_invoke_ResolvedMethodName::_vmholder_offset; int java_lang_invoke_LambdaForm::_vmentry_offset; #define METHODHANDLE_FIELDS_DO(macro) \ macro(_type_offset, k, vmSymbols::type_name(), java_lang_invoke_MethodType_signature, false); \ macro(_form_offset, k, "form", java_lang_invoke_LambdaForm_signature, false) void java_lang_invoke_MethodHandle::compute_offsets() { InstanceKlass* k = SystemDictionary::MethodHandle_klass(); METHODHANDLE_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_invoke_MethodHandle::serialize(SerializeClosure* f) { METHODHANDLE_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif #define MEMBERNAME_FIELDS_DO(macro) \ macro(_clazz_offset, k, vmSymbols::clazz_name(), class_signature, false); \ macro(_name_offset, k, vmSymbols::name_name(), string_signature, false); \ macro(_type_offset, k, vmSymbols::type_name(), object_signature, false); \ macro(_flags_offset, k, vmSymbols::flags_name(), int_signature, false); \ macro(_method_offset, k, vmSymbols::method_name(), java_lang_invoke_ResolvedMethodName_signature, false) void java_lang_invoke_MemberName::compute_offsets() { InstanceKlass* k = SystemDictionary::MemberName_klass(); MEMBERNAME_FIELDS_DO(FIELD_COMPUTE_OFFSET); MEMBERNAME_INJECTED_FIELDS(INJECTED_FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_invoke_MemberName::serialize(SerializeClosure* f) { MEMBERNAME_FIELDS_DO(FIELD_SERIALIZE_OFFSET); MEMBERNAME_INJECTED_FIELDS(INJECTED_FIELD_SERIALIZE_OFFSET); } #endif void java_lang_invoke_ResolvedMethodName::compute_offsets() { InstanceKlass* k = SystemDictionary::ResolvedMethodName_klass(); assert(k != NULL, "jdk mismatch"); RESOLVEDMETHOD_INJECTED_FIELDS(INJECTED_FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_invoke_ResolvedMethodName::serialize(SerializeClosure* f) { RESOLVEDMETHOD_INJECTED_FIELDS(INJECTED_FIELD_SERIALIZE_OFFSET); } #endif #define LAMBDAFORM_FIELDS_DO(macro) \ macro(_vmentry_offset, k, "vmentry", java_lang_invoke_MemberName_signature, false) void java_lang_invoke_LambdaForm::compute_offsets() { InstanceKlass* k = SystemDictionary::LambdaForm_klass(); assert (k != NULL, "jdk mismatch"); LAMBDAFORM_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_invoke_LambdaForm::serialize(SerializeClosure* f) { LAMBDAFORM_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif bool java_lang_invoke_LambdaForm::is_instance(oop obj) { return obj != NULL && is_subclass(obj->klass()); } oop java_lang_invoke_MethodHandle::type(oop mh) { return mh->obj_field(_type_offset); } void java_lang_invoke_MethodHandle::set_type(oop mh, oop mtype) { mh->obj_field_put(_type_offset, mtype); } oop java_lang_invoke_MethodHandle::form(oop mh) { assert(_form_offset != 0, ""); return mh->obj_field(_form_offset); } void java_lang_invoke_MethodHandle::set_form(oop mh, oop lform) { assert(_form_offset != 0, ""); mh->obj_field_put(_form_offset, lform); } /// MemberName accessors oop java_lang_invoke_MemberName::clazz(oop mname) { assert(is_instance(mname), "wrong type"); return mname->obj_field(_clazz_offset); } void java_lang_invoke_MemberName::set_clazz(oop mname, oop clazz) { assert(is_instance(mname), "wrong type"); mname->obj_field_put(_clazz_offset, clazz); } oop java_lang_invoke_MemberName::name(oop mname) { assert(is_instance(mname), "wrong type"); return mname->obj_field(_name_offset); } void java_lang_invoke_MemberName::set_name(oop mname, oop name) { assert(is_instance(mname), "wrong type"); mname->obj_field_put(_name_offset, name); } oop java_lang_invoke_MemberName::type(oop mname) { assert(is_instance(mname), "wrong type"); return mname->obj_field(_type_offset); } void java_lang_invoke_MemberName::set_type(oop mname, oop type) { assert(is_instance(mname), "wrong type"); mname->obj_field_put(_type_offset, type); } int java_lang_invoke_MemberName::flags(oop mname) { assert(is_instance(mname), "wrong type"); return mname->int_field(_flags_offset); } void java_lang_invoke_MemberName::set_flags(oop mname, int flags) { assert(is_instance(mname), "wrong type"); mname->int_field_put(_flags_offset, flags); } // Return vmtarget from ResolvedMethodName method field through indirection Method* java_lang_invoke_MemberName::vmtarget(oop mname) { assert(is_instance(mname), "wrong type"); oop method = mname->obj_field(_method_offset); return method == NULL ? NULL : java_lang_invoke_ResolvedMethodName::vmtarget(method); } bool java_lang_invoke_MemberName::is_method(oop mname) { assert(is_instance(mname), "must be MemberName"); return (flags(mname) & (MN_IS_METHOD | MN_IS_CONSTRUCTOR)) > 0; } void java_lang_invoke_MemberName::set_method(oop mname, oop resolved_method) { assert(is_instance(mname), "wrong type"); mname->obj_field_put(_method_offset, resolved_method); } intptr_t java_lang_invoke_MemberName::vmindex(oop mname) { assert(is_instance(mname), "wrong type"); return (intptr_t) mname->address_field(_vmindex_offset); } void java_lang_invoke_MemberName::set_vmindex(oop mname, intptr_t index) { assert(is_instance(mname), "wrong type"); mname->address_field_put(_vmindex_offset, (address) index); } Method* java_lang_invoke_ResolvedMethodName::vmtarget(oop resolved_method) { assert(is_instance(resolved_method), "wrong type"); Method* m = (Method*)resolved_method->address_field(_vmtarget_offset); assert(m->is_method(), "must be"); return m; } // Used by redefinition to change Method* to new Method* with same hash (name, signature) void java_lang_invoke_ResolvedMethodName::set_vmtarget(oop resolved_method, Method* m) { assert(is_instance(resolved_method), "wrong type"); resolved_method->address_field_put(_vmtarget_offset, (address)m); } oop java_lang_invoke_ResolvedMethodName::find_resolved_method(const methodHandle& m, TRAPS) { // lookup ResolvedMethod oop in the table, or create a new one and intern it oop resolved_method = ResolvedMethodTable::find_method(m()); if (resolved_method == NULL) { InstanceKlass* k = SystemDictionary::ResolvedMethodName_klass(); if (!k->is_initialized()) { k->initialize(CHECK_NULL); } oop new_resolved_method = k->allocate_instance(CHECK_NULL); new_resolved_method->address_field_put(_vmtarget_offset, (address)m()); // Add a reference to the loader (actually mirror because anonymous classes will not have // distinct loaders) to ensure the metadata is kept alive. // This mirror may be different than the one in clazz field. new_resolved_method->obj_field_put(_vmholder_offset, m->method_holder()->java_mirror()); resolved_method = ResolvedMethodTable::add_method(Handle(THREAD, new_resolved_method)); } return resolved_method; } oop java_lang_invoke_LambdaForm::vmentry(oop lform) { assert(is_instance(lform), "wrong type"); return lform->obj_field(_vmentry_offset); } // Support for java_lang_invoke_MethodType int java_lang_invoke_MethodType::_rtype_offset; int java_lang_invoke_MethodType::_ptypes_offset; #define METHODTYPE_FIELDS_DO(macro) \ macro(_rtype_offset, k, "rtype", class_signature, false); \ macro(_ptypes_offset, k, "ptypes", class_array_signature, false) void java_lang_invoke_MethodType::compute_offsets() { InstanceKlass* k = SystemDictionary::MethodType_klass(); METHODTYPE_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_invoke_MethodType::serialize(SerializeClosure* f) { METHODTYPE_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif void java_lang_invoke_MethodType::print_signature(oop mt, outputStream* st) { st->print("("); objArrayOop pts = ptypes(mt); for (int i = 0, limit = pts->length(); i < limit; i++) { java_lang_Class::print_signature(pts->obj_at(i), st); } st->print(")"); java_lang_Class::print_signature(rtype(mt), st); } Symbol* java_lang_invoke_MethodType::as_signature(oop mt, bool intern_if_not_found, TRAPS) { ResourceMark rm; stringStream buffer(128); print_signature(mt, &buffer); const char* sigstr = buffer.base(); int siglen = (int) buffer.size(); Symbol *name; if (!intern_if_not_found) { name = SymbolTable::probe(sigstr, siglen); } else { name = SymbolTable::new_symbol(sigstr, siglen, THREAD); } return name; } bool java_lang_invoke_MethodType::equals(oop mt1, oop mt2) { if (oopDesc::equals(mt1, mt2)) return true; if (!oopDesc::equals(rtype(mt1), rtype(mt2))) return false; if (ptype_count(mt1) != ptype_count(mt2)) return false; for (int i = ptype_count(mt1) - 1; i >= 0; i--) { if (!oopDesc::equals(ptype(mt1, i), ptype(mt2, i))) return false; } return true; } oop java_lang_invoke_MethodType::rtype(oop mt) { assert(is_instance(mt), "must be a MethodType"); return mt->obj_field(_rtype_offset); } objArrayOop java_lang_invoke_MethodType::ptypes(oop mt) { assert(is_instance(mt), "must be a MethodType"); return (objArrayOop) mt->obj_field(_ptypes_offset); } oop java_lang_invoke_MethodType::ptype(oop mt, int idx) { return ptypes(mt)->obj_at(idx); } int java_lang_invoke_MethodType::ptype_count(oop mt) { return ptypes(mt)->length(); } int java_lang_invoke_MethodType::ptype_slot_count(oop mt) { objArrayOop pts = ptypes(mt); int count = pts->length(); int slots = 0; for (int i = 0; i < count; i++) { BasicType bt = java_lang_Class::as_BasicType(pts->obj_at(i)); slots += type2size[bt]; } return slots; } int java_lang_invoke_MethodType::rtype_slot_count(oop mt) { BasicType bt = java_lang_Class::as_BasicType(rtype(mt)); return type2size[bt]; } // Support for java_lang_invoke_CallSite int java_lang_invoke_CallSite::_target_offset; int java_lang_invoke_CallSite::_context_offset; #define CALLSITE_FIELDS_DO(macro) \ macro(_target_offset, k, "target", java_lang_invoke_MethodHandle_signature, false); \ macro(_context_offset, k, "context", java_lang_invoke_MethodHandleNatives_CallSiteContext_signature, false) void java_lang_invoke_CallSite::compute_offsets() { InstanceKlass* k = SystemDictionary::CallSite_klass(); CALLSITE_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_invoke_CallSite::serialize(SerializeClosure* f) { CALLSITE_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif oop java_lang_invoke_CallSite::context(oop call_site) { assert(java_lang_invoke_CallSite::is_instance(call_site), ""); oop dep_oop = call_site->obj_field(_context_offset); return dep_oop; } // Support for java_lang_invoke_MethodHandleNatives_CallSiteContext int java_lang_invoke_MethodHandleNatives_CallSiteContext::_vmdependencies_offset; void java_lang_invoke_MethodHandleNatives_CallSiteContext::compute_offsets() { InstanceKlass* k = SystemDictionary::Context_klass(); CALLSITECONTEXT_INJECTED_FIELDS(INJECTED_FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_invoke_MethodHandleNatives_CallSiteContext::serialize(SerializeClosure* f) { CALLSITECONTEXT_INJECTED_FIELDS(INJECTED_FIELD_SERIALIZE_OFFSET); } #endif DependencyContext java_lang_invoke_MethodHandleNatives_CallSiteContext::vmdependencies(oop call_site) { assert(java_lang_invoke_MethodHandleNatives_CallSiteContext::is_instance(call_site), ""); intptr_t* vmdeps_addr = (intptr_t*)call_site->field_addr(_vmdependencies_offset); DependencyContext dep_ctx(vmdeps_addr); return dep_ctx; } // Support for java_security_AccessControlContext int java_security_AccessControlContext::_context_offset = 0; int java_security_AccessControlContext::_privilegedContext_offset = 0; int java_security_AccessControlContext::_isPrivileged_offset = 0; int java_security_AccessControlContext::_isAuthorized_offset = -1; #define ACCESSCONTROLCONTEXT_FIELDS_DO(macro) \ macro(_context_offset, k, "context", protectiondomain_signature, false); \ macro(_privilegedContext_offset, k, "privilegedContext", accesscontrolcontext_signature, false); \ macro(_isPrivileged_offset, k, "isPrivileged", bool_signature, false); \ macro(_isAuthorized_offset, k, "isAuthorized", bool_signature, false) void java_security_AccessControlContext::compute_offsets() { assert(_isPrivileged_offset == 0, "offsets should be initialized only once"); InstanceKlass* k = SystemDictionary::AccessControlContext_klass(); ACCESSCONTROLCONTEXT_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_security_AccessControlContext::serialize(SerializeClosure* f) { ACCESSCONTROLCONTEXT_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif bool java_security_AccessControlContext::is_authorized(Handle context) { assert(context.not_null() && context->klass() == SystemDictionary::AccessControlContext_klass(), "Invalid type"); assert(_isAuthorized_offset != -1, "should be set"); return context->bool_field(_isAuthorized_offset) != 0; } oop java_security_AccessControlContext::create(objArrayHandle context, bool isPrivileged, Handle privileged_context, TRAPS) { assert(_isPrivileged_offset != 0, "offsets should have been initialized"); // Ensure klass is initialized SystemDictionary::AccessControlContext_klass()->initialize(CHECK_0); // Allocate result oop result = SystemDictionary::AccessControlContext_klass()->allocate_instance(CHECK_0); // Fill in values result->obj_field_put(_context_offset, context()); result->obj_field_put(_privilegedContext_offset, privileged_context()); result->bool_field_put(_isPrivileged_offset, isPrivileged); // whitelist AccessControlContexts created by the JVM if present if (_isAuthorized_offset != -1) { result->bool_field_put(_isAuthorized_offset, true); } return result; } // Support for java_lang_ClassLoader bool java_lang_ClassLoader::offsets_computed = false; int java_lang_ClassLoader::_loader_data_offset = -1; int java_lang_ClassLoader::parallelCapable_offset = -1; int java_lang_ClassLoader::name_offset = -1; int java_lang_ClassLoader::unnamedModule_offset = -1; ClassLoaderData* java_lang_ClassLoader::loader_data(oop loader) { assert(loader != NULL && oopDesc::is_oop(loader), "loader must be oop"); return HeapAccess<>::load_at(loader, _loader_data_offset); } ClassLoaderData* java_lang_ClassLoader::cmpxchg_loader_data(ClassLoaderData* new_data, oop loader, ClassLoaderData* expected_data) { assert(loader != NULL && oopDesc::is_oop(loader), "loader must be oop"); return HeapAccess<>::atomic_cmpxchg_at(new_data, loader, _loader_data_offset, expected_data); } #define CLASSLOADER_FIELDS_DO(macro) \ macro(parallelCapable_offset, k1, "parallelLockMap", concurrenthashmap_signature, false); \ macro(name_offset, k1, vmSymbols::name_name(), string_signature, false); \ macro(unnamedModule_offset, k1, "unnamedModule", module_signature, false); \ macro(parent_offset, k1, "parent", classloader_signature, false) void java_lang_ClassLoader::compute_offsets() { assert(!offsets_computed, "offsets should be initialized only once"); offsets_computed = true; InstanceKlass* k1 = SystemDictionary::ClassLoader_klass(); CLASSLOADER_FIELDS_DO(FIELD_COMPUTE_OFFSET); CLASSLOADER_INJECTED_FIELDS(INJECTED_FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_ClassLoader::serialize(SerializeClosure* f) { CLASSLOADER_FIELDS_DO(FIELD_SERIALIZE_OFFSET); CLASSLOADER_INJECTED_FIELDS(INJECTED_FIELD_SERIALIZE_OFFSET); } #endif oop java_lang_ClassLoader::parent(oop loader) { assert(is_instance(loader), "loader must be oop"); return loader->obj_field(parent_offset); } oop java_lang_ClassLoader::name(oop loader) { assert(is_instance(loader), "loader must be oop"); return loader->obj_field(name_offset); } bool java_lang_ClassLoader::isAncestor(oop loader, oop cl) { assert(is_instance(loader), "loader must be oop"); assert(cl == NULL || is_instance(cl), "cl argument must be oop"); oop acl = loader; debug_only(jint loop_count = 0); // This loop taken verbatim from ClassLoader.java: do { acl = parent(acl); if (oopDesc::equals(cl, acl)) { return true; } assert(++loop_count > 0, "loop_count overflow"); } while (acl != NULL); return false; } bool java_lang_ClassLoader::is_instance(oop obj) { return obj != NULL && is_subclass(obj->klass()); } // For class loader classes, parallelCapable defined // based on non-null field // Written to by java.lang.ClassLoader, vm only reads this field, doesn't set it bool java_lang_ClassLoader::parallelCapable(oop class_loader) { if (parallelCapable_offset == -1) { // Default for backward compatibility is false return false; } return (class_loader->obj_field(parallelCapable_offset) != NULL); } bool java_lang_ClassLoader::is_trusted_loader(oop loader) { // Fix for 4474172; see evaluation for more details loader = non_reflection_class_loader(loader); oop cl = SystemDictionary::java_system_loader(); while(cl != NULL) { if (oopDesc::equals(cl, loader)) return true; cl = parent(cl); } return false; } // Return true if this is one of the class loaders associated with // the generated bytecodes for reflection. bool java_lang_ClassLoader::is_reflection_class_loader(oop loader) { if (loader != NULL) { Klass* delegating_cl_class = SystemDictionary::reflect_DelegatingClassLoader_klass(); // This might be null in non-1.4 JDKs return (delegating_cl_class != NULL && loader->is_a(delegating_cl_class)); } return false; } oop java_lang_ClassLoader::non_reflection_class_loader(oop loader) { // See whether this is one of the class loaders associated with // the generated bytecodes for reflection, and if so, "magically" // delegate to its parent to prevent class loading from occurring // in places where applications using reflection didn't expect it. if (is_reflection_class_loader(loader)) { return parent(loader); } return loader; } oop java_lang_ClassLoader::unnamedModule(oop loader) { assert(is_instance(loader), "loader must be oop"); return loader->obj_field(unnamedModule_offset); } // Support for java_lang_System // #define SYSTEM_FIELDS_DO(macro) \ macro(static_in_offset, k, "in", input_stream_signature, true); \ macro(static_out_offset, k, "out", print_stream_signature, true); \ macro(static_err_offset, k, "err", print_stream_signature, true); \ macro(static_security_offset, k, "security", security_manager_signature, true) void java_lang_System::compute_offsets() { InstanceKlass* k = SystemDictionary::System_klass(); SYSTEM_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_System::serialize(SerializeClosure* f) { SYSTEM_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif int java_lang_System::in_offset_in_bytes() { return static_in_offset; } int java_lang_System::out_offset_in_bytes() { return static_out_offset; } int java_lang_System::err_offset_in_bytes() { return static_err_offset; } bool java_lang_System::has_security_manager() { InstanceKlass* ik = SystemDictionary::System_klass(); oop base = ik->static_field_base_raw(); return base->obj_field(static_security_offset) != NULL; } int java_lang_Class::_klass_offset; int java_lang_Class::_array_klass_offset; int java_lang_Class::_oop_size_offset; int java_lang_Class::_static_oop_field_count_offset; int java_lang_Class::_class_loader_offset; int java_lang_Class::_module_offset; int java_lang_Class::_protection_domain_offset; int java_lang_Class::_component_mirror_offset; int java_lang_Class::_init_lock_offset; int java_lang_Class::_signers_offset; GrowableArray* java_lang_Class::_fixup_mirror_list = NULL; GrowableArray* java_lang_Class::_fixup_module_field_list = NULL; int java_lang_Throwable::backtrace_offset; int java_lang_Throwable::detailMessage_offset; int java_lang_Throwable::stackTrace_offset; int java_lang_Throwable::depth_offset; int java_lang_Throwable::static_unassigned_stacktrace_offset; int java_lang_reflect_AccessibleObject::override_offset; int java_lang_reflect_Method::clazz_offset; int java_lang_reflect_Method::name_offset; int java_lang_reflect_Method::returnType_offset; int java_lang_reflect_Method::parameterTypes_offset; int java_lang_reflect_Method::exceptionTypes_offset; int java_lang_reflect_Method::slot_offset; int java_lang_reflect_Method::modifiers_offset; int java_lang_reflect_Method::signature_offset; int java_lang_reflect_Method::annotations_offset; int java_lang_reflect_Method::parameter_annotations_offset; int java_lang_reflect_Method::annotation_default_offset; int java_lang_reflect_Method::type_annotations_offset; int java_lang_reflect_Constructor::clazz_offset; int java_lang_reflect_Constructor::parameterTypes_offset; int java_lang_reflect_Constructor::exceptionTypes_offset; int java_lang_reflect_Constructor::slot_offset; int java_lang_reflect_Constructor::modifiers_offset; int java_lang_reflect_Constructor::signature_offset; int java_lang_reflect_Constructor::annotations_offset; int java_lang_reflect_Constructor::parameter_annotations_offset; int java_lang_reflect_Constructor::type_annotations_offset; int java_lang_reflect_Field::clazz_offset; int java_lang_reflect_Field::name_offset; int java_lang_reflect_Field::type_offset; int java_lang_reflect_Field::slot_offset; int java_lang_reflect_Field::modifiers_offset; int java_lang_reflect_Field::signature_offset; int java_lang_reflect_Field::annotations_offset; int java_lang_reflect_Field::type_annotations_offset; int java_lang_reflect_Parameter::name_offset; int java_lang_reflect_Parameter::modifiers_offset; int java_lang_reflect_Parameter::index_offset; int java_lang_reflect_Parameter::executable_offset; int java_lang_boxing_object::value_offset; int java_lang_boxing_object::long_value_offset; int java_lang_ref_Reference::referent_offset; int java_lang_ref_Reference::queue_offset; int java_lang_ref_Reference::next_offset; int java_lang_ref_Reference::discovered_offset; int java_lang_ref_SoftReference::timestamp_offset; int java_lang_ref_SoftReference::static_clock_offset; int java_lang_ClassLoader::parent_offset; int java_lang_System::static_in_offset; int java_lang_System::static_out_offset; int java_lang_System::static_err_offset; int java_lang_System::static_security_offset; int java_lang_StackTraceElement::methodName_offset; int java_lang_StackTraceElement::fileName_offset; int java_lang_StackTraceElement::lineNumber_offset; int java_lang_StackTraceElement::moduleName_offset; int java_lang_StackTraceElement::moduleVersion_offset; int java_lang_StackTraceElement::classLoaderName_offset; int java_lang_StackTraceElement::declaringClass_offset; int java_lang_StackTraceElement::declaringClassObject_offset; int java_lang_StackFrameInfo::_memberName_offset; int java_lang_StackFrameInfo::_bci_offset; int java_lang_StackFrameInfo::_version_offset; int java_lang_LiveStackFrameInfo::_monitors_offset; int java_lang_LiveStackFrameInfo::_locals_offset; int java_lang_LiveStackFrameInfo::_operands_offset; int java_lang_LiveStackFrameInfo::_mode_offset; int java_lang_AssertionStatusDirectives::classes_offset; int java_lang_AssertionStatusDirectives::classEnabled_offset; int java_lang_AssertionStatusDirectives::packages_offset; int java_lang_AssertionStatusDirectives::packageEnabled_offset; int java_lang_AssertionStatusDirectives::deflt_offset; int java_nio_Buffer::_limit_offset; int java_util_concurrent_locks_AbstractOwnableSynchronizer::_owner_offset = 0; int reflect_ConstantPool::_oop_offset; int reflect_UnsafeStaticFieldAccessorImpl::_base_offset; #define STACKTRACEELEMENT_FIELDS_DO(macro) \ macro(declaringClassObject_offset, k, "declaringClassObject", class_signature, false); \ macro(classLoaderName_offset, k, "classLoaderName", string_signature, false); \ macro(moduleName_offset, k, "moduleName", string_signature, false); \ macro(moduleVersion_offset, k, "moduleVersion", string_signature, false); \ macro(declaringClass_offset, k, "declaringClass", string_signature, false); \ macro(methodName_offset, k, "methodName", string_signature, false); \ macro(fileName_offset, k, "fileName", string_signature, false); \ macro(lineNumber_offset, k, "lineNumber", int_signature, false) // Support for java_lang_StackTraceElement void java_lang_StackTraceElement::compute_offsets() { InstanceKlass* k = SystemDictionary::StackTraceElement_klass(); STACKTRACEELEMENT_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_StackTraceElement::serialize(SerializeClosure* f) { STACKTRACEELEMENT_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif void java_lang_StackTraceElement::set_fileName(oop element, oop value) { element->obj_field_put(fileName_offset, value); } void java_lang_StackTraceElement::set_declaringClass(oop element, oop value) { element->obj_field_put(declaringClass_offset, value); } void java_lang_StackTraceElement::set_methodName(oop element, oop value) { element->obj_field_put(methodName_offset, value); } void java_lang_StackTraceElement::set_lineNumber(oop element, int value) { element->int_field_put(lineNumber_offset, value); } void java_lang_StackTraceElement::set_moduleName(oop element, oop value) { element->obj_field_put(moduleName_offset, value); } void java_lang_StackTraceElement::set_moduleVersion(oop element, oop value) { element->obj_field_put(moduleVersion_offset, value); } void java_lang_StackTraceElement::set_classLoaderName(oop element, oop value) { element->obj_field_put(classLoaderName_offset, value); } void java_lang_StackTraceElement::set_declaringClassObject(oop element, oop value) { element->obj_field_put(declaringClassObject_offset, value); } void java_lang_StackFrameInfo::set_version(oop element, short value) { element->short_field_put(_version_offset, value); } void java_lang_StackFrameInfo::set_bci(oop element, int value) { element->int_field_put(_bci_offset, value); } void java_lang_LiveStackFrameInfo::set_monitors(oop element, oop value) { element->obj_field_put(_monitors_offset, value); } void java_lang_LiveStackFrameInfo::set_locals(oop element, oop value) { element->obj_field_put(_locals_offset, value); } void java_lang_LiveStackFrameInfo::set_operands(oop element, oop value) { element->obj_field_put(_operands_offset, value); } void java_lang_LiveStackFrameInfo::set_mode(oop element, int value) { element->int_field_put(_mode_offset, value); } // Support for java Assertions - java_lang_AssertionStatusDirectives. #define ASSERTIONSTATUSDIRECTIVES_FIELDS_DO(macro) \ macro(classes_offset, k, "classes", string_array_signature, false); \ macro(classEnabled_offset, k, "classEnabled", bool_array_signature, false); \ macro(packages_offset, k, "packages", string_array_signature, false); \ macro(packageEnabled_offset, k, "packageEnabled", bool_array_signature, false); \ macro(deflt_offset, k, "deflt", bool_signature, false) void java_lang_AssertionStatusDirectives::compute_offsets() { InstanceKlass* k = SystemDictionary::AssertionStatusDirectives_klass(); ASSERTIONSTATUSDIRECTIVES_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_lang_AssertionStatusDirectives::serialize(SerializeClosure* f) { ASSERTIONSTATUSDIRECTIVES_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif void java_lang_AssertionStatusDirectives::set_classes(oop o, oop val) { o->obj_field_put(classes_offset, val); } void java_lang_AssertionStatusDirectives::set_classEnabled(oop o, oop val) { o->obj_field_put(classEnabled_offset, val); } void java_lang_AssertionStatusDirectives::set_packages(oop o, oop val) { o->obj_field_put(packages_offset, val); } void java_lang_AssertionStatusDirectives::set_packageEnabled(oop o, oop val) { o->obj_field_put(packageEnabled_offset, val); } void java_lang_AssertionStatusDirectives::set_deflt(oop o, bool val) { o->bool_field_put(deflt_offset, val); } // Support for intrinsification of java.nio.Buffer.checkIndex int java_nio_Buffer::limit_offset() { return _limit_offset; } #define BUFFER_FIELDS_DO(macro) \ macro(_limit_offset, k, "limit", int_signature, false) void java_nio_Buffer::compute_offsets() { InstanceKlass* k = SystemDictionary::nio_Buffer_klass(); assert(k != NULL, "must be loaded in 1.4+"); BUFFER_FIELDS_DO(FIELD_COMPUTE_OFFSET); } #if INCLUDE_CDS void java_nio_Buffer::serialize(SerializeClosure* f) { BUFFER_FIELDS_DO(FIELD_SERIALIZE_OFFSET); } #endif void java_util_concurrent_locks_AbstractOwnableSynchronizer::initialize(TRAPS) { if (_owner_offset != 0) return; SystemDictionary::load_abstract_ownable_synchronizer_klass(CHECK); InstanceKlass* k = SystemDictionary::abstract_ownable_synchronizer_klass(); compute_offset(_owner_offset, k, "exclusiveOwnerThread", vmSymbols::thread_signature()); } oop java_util_concurrent_locks_AbstractOwnableSynchronizer::get_owner_threadObj(oop obj) { assert(_owner_offset != 0, "Must be initialized"); return obj->obj_field(_owner_offset); } static int member_offset(int hardcoded_offset) { return (hardcoded_offset * heapOopSize) + instanceOopDesc::base_offset_in_bytes(); } // Compute hard-coded offsets // Invoked before SystemDictionary::initialize, so pre-loaded classes // are not available to determine the offset_of_static_fields. void JavaClasses::compute_hard_coded_offsets() { // java_lang_boxing_object java_lang_boxing_object::value_offset = member_offset(java_lang_boxing_object::hc_value_offset); java_lang_boxing_object::long_value_offset = align_up(member_offset(java_lang_boxing_object::hc_value_offset), BytesPerLong); // java_lang_ref_Reference java_lang_ref_Reference::referent_offset = member_offset(java_lang_ref_Reference::hc_referent_offset); java_lang_ref_Reference::queue_offset = member_offset(java_lang_ref_Reference::hc_queue_offset); java_lang_ref_Reference::next_offset = member_offset(java_lang_ref_Reference::hc_next_offset); java_lang_ref_Reference::discovered_offset = member_offset(java_lang_ref_Reference::hc_discovered_offset); } // Compute non-hard-coded field offsets of all the classes in this file void JavaClasses::compute_offsets() { if (UseSharedSpaces) { return; // field offsets are loaded from archive } // java_lang_Class::compute_offsets was called earlier in bootstrap java_lang_System::compute_offsets(); java_lang_ClassLoader::compute_offsets(); java_lang_Throwable::compute_offsets(); java_lang_Thread::compute_offsets(); java_lang_ThreadGroup::compute_offsets(); java_lang_AssertionStatusDirectives::compute_offsets(); java_lang_ref_SoftReference::compute_offsets(); java_lang_invoke_MethodHandle::compute_offsets(); java_lang_invoke_DirectMethodHandle::compute_offsets(); java_lang_invoke_MemberName::compute_offsets(); java_lang_invoke_ResolvedMethodName::compute_offsets(); java_lang_invoke_LambdaForm::compute_offsets(); java_lang_invoke_MethodType::compute_offsets(); java_lang_invoke_CallSite::compute_offsets(); java_lang_invoke_MethodHandleNatives_CallSiteContext::compute_offsets(); java_security_AccessControlContext::compute_offsets(); // Initialize reflection classes. The layouts of these classes // changed with the new reflection implementation in JDK 1.4, and // since the Universe doesn't know what JDK version it is until this // point we defer computation of these offsets until now. java_lang_reflect_AccessibleObject::compute_offsets(); java_lang_reflect_Method::compute_offsets(); java_lang_reflect_Constructor::compute_offsets(); java_lang_reflect_Field::compute_offsets(); java_nio_Buffer::compute_offsets(); reflect_ConstantPool::compute_offsets(); reflect_UnsafeStaticFieldAccessorImpl::compute_offsets(); java_lang_reflect_Parameter::compute_offsets(); java_lang_Module::compute_offsets(); java_lang_StackTraceElement::compute_offsets(); java_lang_StackFrameInfo::compute_offsets(); java_lang_LiveStackFrameInfo::compute_offsets(); // generated interpreter code wants to know about the offsets we just computed: AbstractAssembler::update_delayed_values(); } #ifndef PRODUCT // These functions exist to assert the validity of hard-coded field offsets to guard // against changes in the class files bool JavaClasses::check_offset(const char *klass_name, int hardcoded_offset, const char *field_name, const char* field_sig) { EXCEPTION_MARK; fieldDescriptor fd; TempNewSymbol klass_sym = SymbolTable::new_symbol(klass_name, CATCH); Klass* k = SystemDictionary::resolve_or_fail(klass_sym, true, CATCH); InstanceKlass* ik = InstanceKlass::cast(k); TempNewSymbol f_name = SymbolTable::new_symbol(field_name, CATCH); TempNewSymbol f_sig = SymbolTable::new_symbol(field_sig, CATCH); if (!ik->find_local_field(f_name, f_sig, &fd)) { tty->print_cr("Nonstatic field %s.%s not found", klass_name, field_name); return false; } if (fd.is_static()) { tty->print_cr("Nonstatic field %s.%s appears to be static", klass_name, field_name); return false; } if (fd.offset() == hardcoded_offset ) { return true; } else { tty->print_cr("Offset of nonstatic field %s.%s is hardcoded as %d but should really be %d.", klass_name, field_name, hardcoded_offset, fd.offset()); return false; } } // Check the hard-coded field offsets of all the classes in this file void JavaClasses::check_offsets() { bool valid = true; #define CHECK_OFFSET(klass_name, cpp_klass_name, field_name, field_sig) \ valid &= check_offset(klass_name, cpp_klass_name :: field_name ## _offset, #field_name, field_sig) #define CHECK_LONG_OFFSET(klass_name, cpp_klass_name, field_name, field_sig) \ valid &= check_offset(klass_name, cpp_klass_name :: long_ ## field_name ## _offset, #field_name, field_sig) // Boxed primitive objects (java_lang_boxing_object) CHECK_OFFSET("java/lang/Boolean", java_lang_boxing_object, value, "Z"); CHECK_OFFSET("java/lang/Character", java_lang_boxing_object, value, "C"); CHECK_OFFSET("java/lang/Float", java_lang_boxing_object, value, "F"); CHECK_LONG_OFFSET("java/lang/Double", java_lang_boxing_object, value, "D"); CHECK_OFFSET("java/lang/Byte", java_lang_boxing_object, value, "B"); CHECK_OFFSET("java/lang/Short", java_lang_boxing_object, value, "S"); CHECK_OFFSET("java/lang/Integer", java_lang_boxing_object, value, "I"); CHECK_LONG_OFFSET("java/lang/Long", java_lang_boxing_object, value, "J"); // java.lang.ref.Reference CHECK_OFFSET("java/lang/ref/Reference", java_lang_ref_Reference, referent, "Ljava/lang/Object;"); CHECK_OFFSET("java/lang/ref/Reference", java_lang_ref_Reference, queue, "Ljava/lang/ref/ReferenceQueue;"); CHECK_OFFSET("java/lang/ref/Reference", java_lang_ref_Reference, next, "Ljava/lang/ref/Reference;"); // Fake field //CHECK_OFFSET("java/lang/ref/Reference", java_lang_ref_Reference, discovered, "Ljava/lang/ref/Reference;"); if (!valid) vm_exit_during_initialization("Hard-coded field offset verification failed"); } #endif // PRODUCT int InjectedField::compute_offset() { InstanceKlass* ik = InstanceKlass::cast(klass()); for (AllFieldStream fs(ik); !fs.done(); fs.next()) { if (!may_be_java && !fs.access_flags().is_internal()) { // Only look at injected fields continue; } if (fs.name() == name() && fs.signature() == signature()) { return fs.offset(); } } ResourceMark rm; tty->print_cr("Invalid layout of %s at %s/%s%s", ik->external_name(), name()->as_C_string(), signature()->as_C_string(), may_be_java ? " (may_be_java)" : ""); #ifndef PRODUCT ik->print(); tty->print_cr("all fields:"); for (AllFieldStream fs(ik); !fs.done(); fs.next()) { tty->print_cr(" name: %s, sig: %s, flags: %08x", fs.name()->as_C_string(), fs.signature()->as_C_string(), fs.access_flags().as_int()); } #endif //PRODUCT vm_exit_during_initialization("Invalid layout of preloaded class: use -Xlog:class+load=info to see the origin of the problem class"); return -1; } void javaClasses_init() { JavaClasses::compute_offsets(); JavaClasses::check_offsets(); FilteredFieldsMap::initialize(); // must be done after computing offsets. }