1 /* 2 * Copyright (c) 1997, 2018, Oracle and/or its affiliates. All rights reserved. 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. 4 * 5 * This code is free software; you can redistribute it and/or modify it 6 * under the terms of the GNU General Public License version 2 only, as 7 * published by the Free Software Foundation. 8 * 9 * This code is distributed in the hope that it will be useful, but WITHOUT 10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or 11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 12 * version 2 for more details (a copy is included in the LICENSE file that 13 * accompanied this code). 14 * 15 * You should have received a copy of the GNU General Public License version 16 * 2 along with this work; if not, write to the Free Software Foundation, 17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. 18 * 19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA 20 * or visit www.oracle.com if you need additional information or have any 21 * questions. 22 * 23 */ 24 #include "precompiled.hpp" 25 #include "jvm.h" 26 #include "aot/aotLoader.hpp" 27 #include "classfile/classFileParser.hpp" 28 #include "classfile/classFileStream.hpp" 29 #include "classfile/classLoader.hpp" 30 #include "classfile/classLoaderData.inline.hpp" 31 #include "classfile/defaultMethods.hpp" 32 #include "classfile/dictionary.hpp" 33 #include "classfile/javaClasses.inline.hpp" 34 #include "classfile/moduleEntry.hpp" 35 #include "classfile/symbolTable.hpp" 36 #include "classfile/systemDictionary.hpp" 37 #include "classfile/verificationType.hpp" 38 #include "classfile/verifier.hpp" 39 #include "classfile/vmSymbols.hpp" 40 #include "gc/shared/gcLocker.hpp" 41 #include "logging/log.hpp" 42 #include "logging/logStream.hpp" 43 #include "memory/allocation.hpp" 44 #include "memory/metadataFactory.hpp" 45 #include "memory/oopFactory.hpp" 46 #include "memory/resourceArea.hpp" 47 #include "memory/universe.inline.hpp" 48 #include "oops/annotations.hpp" 49 #include "oops/fieldStreams.hpp" 50 #include "oops/instanceKlass.hpp" 51 #include "oops/instanceMirrorKlass.hpp" 52 #include "oops/klass.inline.hpp" 53 #include "oops/klassVtable.hpp" 54 #include "oops/metadata.hpp" 55 #include "oops/method.hpp" 56 #include "oops/oop.inline.hpp" 57 #include "oops/symbol.hpp" 58 #include "oops/valueKlass.hpp" 59 #include "prims/jvmtiExport.hpp" 60 #include "prims/jvmtiThreadState.hpp" 61 #include "runtime/javaCalls.hpp" 62 #include "runtime/perfData.hpp" 63 #include "runtime/reflection.hpp" 64 #include "runtime/signature.hpp" 65 #include "runtime/timer.hpp" 66 #include "services/classLoadingService.hpp" 67 #include "services/threadService.hpp" 68 #include "trace/traceMacros.hpp" 69 #include "utilities/align.hpp" 70 #include "utilities/bitMap.inline.hpp" 71 #include "utilities/exceptions.hpp" 72 #include "utilities/globalDefinitions.hpp" 73 #include "utilities/growableArray.hpp" 74 #include "utilities/macros.hpp" 75 #include "utilities/ostream.hpp" 76 #include "utilities/resourceHash.hpp" 77 #if INCLUDE_CDS 78 #include "classfile/systemDictionaryShared.hpp" 79 #endif 80 81 // We generally try to create the oops directly when parsing, rather than 82 // allocating temporary data structures and copying the bytes twice. A 83 // temporary area is only needed when parsing utf8 entries in the constant 84 // pool and when parsing line number tables. 85 86 // We add assert in debug mode when class format is not checked. 87 88 #define JAVA_CLASSFILE_MAGIC 0xCAFEBABE 89 #define JAVA_MIN_SUPPORTED_VERSION 45 90 #define JAVA_MAX_SUPPORTED_MINOR_VERSION 1 91 92 // Used for two backward compatibility reasons: 93 // - to check for new additions to the class file format in JDK1.5 94 // - to check for bug fixes in the format checker in JDK1.5 95 #define JAVA_1_5_VERSION 49 96 97 // Used for backward compatibility reasons: 98 // - to check for javac bug fixes that happened after 1.5 99 // - also used as the max version when running in jdk6 100 #define JAVA_6_VERSION 50 101 102 // Used for backward compatibility reasons: 103 // - to disallow argument and require ACC_STATIC for <clinit> methods 104 #define JAVA_7_VERSION 51 105 106 // Extension method support. 107 #define JAVA_8_VERSION 52 108 109 #define JAVA_9_VERSION 53 110 111 #define JAVA_10_VERSION 54 112 113 #define JAVA_11_VERSION 55 114 115 void ClassFileParser::set_class_bad_constant_seen(short bad_constant) { 116 assert((bad_constant == 19 || bad_constant == 20) && _major_version >= JAVA_9_VERSION, 117 "Unexpected bad constant pool entry"); 118 if (_bad_constant_seen == 0) _bad_constant_seen = bad_constant; 119 } 120 121 void ClassFileParser::parse_constant_pool_entries(const ClassFileStream* const stream, 122 ConstantPool* cp, 123 const int length, 124 TRAPS) { 125 assert(stream != NULL, "invariant"); 126 assert(cp != NULL, "invariant"); 127 128 // Use a local copy of ClassFileStream. It helps the C++ compiler to optimize 129 // this function (_current can be allocated in a register, with scalar 130 // replacement of aggregates). The _current pointer is copied back to 131 // stream() when this function returns. DON'T call another method within 132 // this method that uses stream(). 133 const ClassFileStream cfs1 = *stream; 134 const ClassFileStream* const cfs = &cfs1; 135 136 assert(cfs->allocated_on_stack(), "should be local"); 137 debug_only(const u1* const old_current = stream->current();) 138 139 // Used for batching symbol allocations. 140 const char* names[SymbolTable::symbol_alloc_batch_size]; 141 int lengths[SymbolTable::symbol_alloc_batch_size]; 142 int indices[SymbolTable::symbol_alloc_batch_size]; 143 unsigned int hashValues[SymbolTable::symbol_alloc_batch_size]; 144 int names_count = 0; 145 146 // parsing Index 0 is unused 147 for (int index = 1; index < length; index++) { 148 // Each of the following case guarantees one more byte in the stream 149 // for the following tag or the access_flags following constant pool, 150 // so we don't need bounds-check for reading tag. 151 const u1 tag = cfs->get_u1_fast(); 152 switch (tag) { 153 case JVM_CONSTANT_Class: { 154 cfs->guarantee_more(3, CHECK); // name_index, tag/access_flags 155 const u2 name_index = cfs->get_u2_fast(); 156 cp->klass_index_at_put(index, name_index); 157 break; 158 } 159 case JVM_CONSTANT_Fieldref: { 160 cfs->guarantee_more(5, CHECK); // class_index, name_and_type_index, tag/access_flags 161 const u2 class_index = cfs->get_u2_fast(); 162 const u2 name_and_type_index = cfs->get_u2_fast(); 163 cp->field_at_put(index, class_index, name_and_type_index); 164 break; 165 } 166 case JVM_CONSTANT_Methodref: { 167 cfs->guarantee_more(5, CHECK); // class_index, name_and_type_index, tag/access_flags 168 const u2 class_index = cfs->get_u2_fast(); 169 const u2 name_and_type_index = cfs->get_u2_fast(); 170 cp->method_at_put(index, class_index, name_and_type_index); 171 break; 172 } 173 case JVM_CONSTANT_InterfaceMethodref: { 174 cfs->guarantee_more(5, CHECK); // class_index, name_and_type_index, tag/access_flags 175 const u2 class_index = cfs->get_u2_fast(); 176 const u2 name_and_type_index = cfs->get_u2_fast(); 177 cp->interface_method_at_put(index, class_index, name_and_type_index); 178 break; 179 } 180 case JVM_CONSTANT_String : { 181 cfs->guarantee_more(3, CHECK); // string_index, tag/access_flags 182 const u2 string_index = cfs->get_u2_fast(); 183 cp->string_index_at_put(index, string_index); 184 break; 185 } 186 case JVM_CONSTANT_MethodHandle : 187 case JVM_CONSTANT_MethodType: { 188 if (_major_version < Verifier::INVOKEDYNAMIC_MAJOR_VERSION) { 189 classfile_parse_error( 190 "Class file version does not support constant tag %u in class file %s", 191 tag, CHECK); 192 } 193 if (tag == JVM_CONSTANT_MethodHandle) { 194 cfs->guarantee_more(4, CHECK); // ref_kind, method_index, tag/access_flags 195 const u1 ref_kind = cfs->get_u1_fast(); 196 const u2 method_index = cfs->get_u2_fast(); 197 cp->method_handle_index_at_put(index, ref_kind, method_index); 198 } 199 else if (tag == JVM_CONSTANT_MethodType) { 200 cfs->guarantee_more(3, CHECK); // signature_index, tag/access_flags 201 const u2 signature_index = cfs->get_u2_fast(); 202 cp->method_type_index_at_put(index, signature_index); 203 } 204 else { 205 ShouldNotReachHere(); 206 } 207 break; 208 } 209 case JVM_CONSTANT_Dynamic : { 210 if (_major_version < Verifier::DYNAMICCONSTANT_MAJOR_VERSION) { 211 classfile_parse_error( 212 "Class file version does not support constant tag %u in class file %s", 213 tag, CHECK); 214 } 215 cfs->guarantee_more(5, CHECK); // bsm_index, nt, tag/access_flags 216 const u2 bootstrap_specifier_index = cfs->get_u2_fast(); 217 const u2 name_and_type_index = cfs->get_u2_fast(); 218 if (_max_bootstrap_specifier_index < (int) bootstrap_specifier_index) { 219 _max_bootstrap_specifier_index = (int) bootstrap_specifier_index; // collect for later 220 } 221 cp->dynamic_constant_at_put(index, bootstrap_specifier_index, name_and_type_index); 222 break; 223 } 224 case JVM_CONSTANT_InvokeDynamic : { 225 if (_major_version < Verifier::INVOKEDYNAMIC_MAJOR_VERSION) { 226 classfile_parse_error( 227 "Class file version does not support constant tag %u in class file %s", 228 tag, CHECK); 229 } 230 cfs->guarantee_more(5, CHECK); // bsm_index, nt, tag/access_flags 231 const u2 bootstrap_specifier_index = cfs->get_u2_fast(); 232 const u2 name_and_type_index = cfs->get_u2_fast(); 233 if (_max_bootstrap_specifier_index < (int) bootstrap_specifier_index) { 234 _max_bootstrap_specifier_index = (int) bootstrap_specifier_index; // collect for later 235 } 236 cp->invoke_dynamic_at_put(index, bootstrap_specifier_index, name_and_type_index); 237 break; 238 } 239 case JVM_CONSTANT_Integer: { 240 cfs->guarantee_more(5, CHECK); // bytes, tag/access_flags 241 const u4 bytes = cfs->get_u4_fast(); 242 cp->int_at_put(index, (jint)bytes); 243 break; 244 } 245 case JVM_CONSTANT_Float: { 246 cfs->guarantee_more(5, CHECK); // bytes, tag/access_flags 247 const u4 bytes = cfs->get_u4_fast(); 248 cp->float_at_put(index, *(jfloat*)&bytes); 249 break; 250 } 251 case JVM_CONSTANT_Long: { 252 // A mangled type might cause you to overrun allocated memory 253 guarantee_property(index + 1 < length, 254 "Invalid constant pool entry %u in class file %s", 255 index, 256 CHECK); 257 cfs->guarantee_more(9, CHECK); // bytes, tag/access_flags 258 const u8 bytes = cfs->get_u8_fast(); 259 cp->long_at_put(index, bytes); 260 index++; // Skip entry following eigth-byte constant, see JVM book p. 98 261 break; 262 } 263 case JVM_CONSTANT_Double: { 264 // A mangled type might cause you to overrun allocated memory 265 guarantee_property(index+1 < length, 266 "Invalid constant pool entry %u in class file %s", 267 index, 268 CHECK); 269 cfs->guarantee_more(9, CHECK); // bytes, tag/access_flags 270 const u8 bytes = cfs->get_u8_fast(); 271 cp->double_at_put(index, *(jdouble*)&bytes); 272 index++; // Skip entry following eigth-byte constant, see JVM book p. 98 273 break; 274 } 275 case JVM_CONSTANT_NameAndType: { 276 cfs->guarantee_more(5, CHECK); // name_index, signature_index, tag/access_flags 277 const u2 name_index = cfs->get_u2_fast(); 278 const u2 signature_index = cfs->get_u2_fast(); 279 cp->name_and_type_at_put(index, name_index, signature_index); 280 break; 281 } 282 case JVM_CONSTANT_Utf8 : { 283 cfs->guarantee_more(2, CHECK); // utf8_length 284 u2 utf8_length = cfs->get_u2_fast(); 285 const u1* utf8_buffer = cfs->current(); 286 assert(utf8_buffer != NULL, "null utf8 buffer"); 287 // Got utf8 string, guarantee utf8_length+1 bytes, set stream position forward. 288 cfs->guarantee_more(utf8_length+1, CHECK); // utf8 string, tag/access_flags 289 cfs->skip_u1_fast(utf8_length); 290 291 // Before storing the symbol, make sure it's legal 292 if (_need_verify) { 293 verify_legal_utf8(utf8_buffer, utf8_length, CHECK); 294 } 295 296 if (has_cp_patch_at(index)) { 297 Handle patch = clear_cp_patch_at(index); 298 guarantee_property(java_lang_String::is_instance(patch()), 299 "Illegal utf8 patch at %d in class file %s", 300 index, 301 CHECK); 302 const char* const str = java_lang_String::as_utf8_string(patch()); 303 // (could use java_lang_String::as_symbol instead, but might as well batch them) 304 utf8_buffer = (const u1*) str; 305 utf8_length = (int) strlen(str); 306 } 307 308 unsigned int hash; 309 Symbol* const result = SymbolTable::lookup_only((const char*)utf8_buffer, 310 utf8_length, 311 hash); 312 if (result == NULL) { 313 names[names_count] = (const char*)utf8_buffer; 314 lengths[names_count] = utf8_length; 315 indices[names_count] = index; 316 hashValues[names_count++] = hash; 317 if (names_count == SymbolTable::symbol_alloc_batch_size) { 318 SymbolTable::new_symbols(_loader_data, 319 cp, 320 names_count, 321 names, 322 lengths, 323 indices, 324 hashValues, 325 CHECK); 326 names_count = 0; 327 } 328 } else { 329 cp->symbol_at_put(index, result); 330 } 331 break; 332 } 333 case 19: 334 case 20: { 335 // Record that an error occurred in these two cases but keep parsing so 336 // that ACC_Module can be checked for in the access_flags. Need to 337 // throw NoClassDefFoundError in that case. 338 if (_major_version >= JAVA_9_VERSION) { 339 cfs->guarantee_more(3, CHECK); 340 cfs->get_u2_fast(); 341 set_class_bad_constant_seen(tag); 342 break; 343 } 344 } 345 default: { 346 classfile_parse_error("Unknown constant tag %u in class file %s", 347 tag, 348 CHECK); 349 break; 350 } 351 } // end of switch(tag) 352 } // end of for 353 354 // Allocate the remaining symbols 355 if (names_count > 0) { 356 SymbolTable::new_symbols(_loader_data, 357 cp, 358 names_count, 359 names, 360 lengths, 361 indices, 362 hashValues, 363 CHECK); 364 } 365 366 // Copy _current pointer of local copy back to stream. 367 assert(stream->current() == old_current, "non-exclusive use of stream"); 368 stream->set_current(cfs1.current()); 369 370 } 371 372 static inline bool valid_cp_range(int index, int length) { 373 return (index > 0 && index < length); 374 } 375 376 static inline Symbol* check_symbol_at(const ConstantPool* cp, int index) { 377 assert(cp != NULL, "invariant"); 378 if (valid_cp_range(index, cp->length()) && cp->tag_at(index).is_utf8()) { 379 return cp->symbol_at(index); 380 } 381 return NULL; 382 } 383 384 #ifdef ASSERT 385 PRAGMA_DIAG_PUSH 386 PRAGMA_FORMAT_NONLITERAL_IGNORED 387 void ClassFileParser::report_assert_property_failure(const char* msg, TRAPS) const { 388 ResourceMark rm(THREAD); 389 fatal(msg, _class_name->as_C_string()); 390 } 391 392 void ClassFileParser::report_assert_property_failure(const char* msg, 393 int index, 394 TRAPS) const { 395 ResourceMark rm(THREAD); 396 fatal(msg, index, _class_name->as_C_string()); 397 } 398 PRAGMA_DIAG_POP 399 #endif 400 401 void ClassFileParser::parse_constant_pool(const ClassFileStream* const stream, 402 ConstantPool* const cp, 403 const int length, 404 TRAPS) { 405 assert(cp != NULL, "invariant"); 406 assert(stream != NULL, "invariant"); 407 408 // parsing constant pool entries 409 parse_constant_pool_entries(stream, cp, length, CHECK); 410 if (class_bad_constant_seen() != 0) { 411 // a bad CP entry has been detected previously so stop parsing and just return. 412 return; 413 } 414 415 int index = 1; // declared outside of loops for portability 416 int num_klasses = 0; 417 418 // first verification pass - validate cross references 419 // and fixup class and string constants 420 for (index = 1; index < length; index++) { // Index 0 is unused 421 const jbyte tag = cp->tag_at(index).value(); 422 switch (tag) { 423 case JVM_CONSTANT_Class: { 424 ShouldNotReachHere(); // Only JVM_CONSTANT_ClassIndex should be present 425 break; 426 } 427 case JVM_CONSTANT_Fieldref: 428 // fall through 429 case JVM_CONSTANT_Methodref: 430 // fall through 431 case JVM_CONSTANT_InterfaceMethodref: { 432 if (!_need_verify) break; 433 const int klass_ref_index = cp->klass_ref_index_at(index); 434 const int name_and_type_ref_index = cp->name_and_type_ref_index_at(index); 435 check_property(valid_klass_reference_at(klass_ref_index), 436 "Invalid constant pool index %u in class file %s", 437 klass_ref_index, CHECK); 438 check_property(valid_cp_range(name_and_type_ref_index, length) && 439 cp->tag_at(name_and_type_ref_index).is_name_and_type(), 440 "Invalid constant pool index %u in class file %s", 441 name_and_type_ref_index, CHECK); 442 break; 443 } 444 case JVM_CONSTANT_String: { 445 ShouldNotReachHere(); // Only JVM_CONSTANT_StringIndex should be present 446 break; 447 } 448 case JVM_CONSTANT_Integer: 449 break; 450 case JVM_CONSTANT_Float: 451 break; 452 case JVM_CONSTANT_Long: 453 case JVM_CONSTANT_Double: { 454 index++; 455 check_property( 456 (index < length && cp->tag_at(index).is_invalid()), 457 "Improper constant pool long/double index %u in class file %s", 458 index, CHECK); 459 break; 460 } 461 case JVM_CONSTANT_NameAndType: { 462 if (!_need_verify) break; 463 const int name_ref_index = cp->name_ref_index_at(index); 464 const int signature_ref_index = cp->signature_ref_index_at(index); 465 check_property(valid_symbol_at(name_ref_index), 466 "Invalid constant pool index %u in class file %s", 467 name_ref_index, CHECK); 468 check_property(valid_symbol_at(signature_ref_index), 469 "Invalid constant pool index %u in class file %s", 470 signature_ref_index, CHECK); 471 break; 472 } 473 case JVM_CONSTANT_Utf8: 474 break; 475 case JVM_CONSTANT_UnresolvedClass: // fall-through 476 case JVM_CONSTANT_UnresolvedClassInError: { 477 ShouldNotReachHere(); // Only JVM_CONSTANT_ClassIndex should be present 478 break; 479 } 480 case JVM_CONSTANT_ClassIndex: { 481 const int class_index = cp->klass_index_at(index); 482 check_property(valid_symbol_at(class_index), 483 "Invalid constant pool index %u in class file %s", 484 class_index, CHECK); 485 486 Symbol* const name = cp->symbol_at(class_index); 487 const unsigned int name_len = name->utf8_length(); 488 489 cp->unresolved_klass_at_put(index, class_index, num_klasses++); 490 break; 491 } 492 case JVM_CONSTANT_StringIndex: { 493 const int string_index = cp->string_index_at(index); 494 check_property(valid_symbol_at(string_index), 495 "Invalid constant pool index %u in class file %s", 496 string_index, CHECK); 497 Symbol* const sym = cp->symbol_at(string_index); 498 cp->unresolved_string_at_put(index, sym); 499 break; 500 } 501 case JVM_CONSTANT_MethodHandle: { 502 const int ref_index = cp->method_handle_index_at(index); 503 check_property(valid_cp_range(ref_index, length), 504 "Invalid constant pool index %u in class file %s", 505 ref_index, CHECK); 506 const constantTag tag = cp->tag_at(ref_index); 507 const int ref_kind = cp->method_handle_ref_kind_at(index); 508 509 switch (ref_kind) { 510 case JVM_REF_getField: 511 case JVM_REF_getStatic: 512 case JVM_REF_putField: 513 case JVM_REF_putStatic: { 514 check_property( 515 tag.is_field(), 516 "Invalid constant pool index %u in class file %s (not a field)", 517 ref_index, CHECK); 518 break; 519 } 520 case JVM_REF_invokeVirtual: 521 case JVM_REF_newInvokeSpecial: { 522 check_property( 523 tag.is_method(), 524 "Invalid constant pool index %u in class file %s (not a method)", 525 ref_index, CHECK); 526 break; 527 } 528 case JVM_REF_invokeStatic: 529 case JVM_REF_invokeSpecial: { 530 check_property( 531 tag.is_method() || 532 ((_major_version >= JAVA_8_VERSION) && tag.is_interface_method()), 533 "Invalid constant pool index %u in class file %s (not a method)", 534 ref_index, CHECK); 535 break; 536 } 537 case JVM_REF_invokeInterface: { 538 check_property( 539 tag.is_interface_method(), 540 "Invalid constant pool index %u in class file %s (not an interface method)", 541 ref_index, CHECK); 542 break; 543 } 544 default: { 545 classfile_parse_error( 546 "Bad method handle kind at constant pool index %u in class file %s", 547 index, CHECK); 548 } 549 } // switch(refkind) 550 // Keep the ref_index unchanged. It will be indirected at link-time. 551 break; 552 } // case MethodHandle 553 case JVM_CONSTANT_MethodType: { 554 const int ref_index = cp->method_type_index_at(index); 555 check_property(valid_symbol_at(ref_index), 556 "Invalid constant pool index %u in class file %s", 557 ref_index, CHECK); 558 break; 559 } 560 case JVM_CONSTANT_Dynamic: { 561 const int name_and_type_ref_index = 562 cp->invoke_dynamic_name_and_type_ref_index_at(index); 563 564 check_property(valid_cp_range(name_and_type_ref_index, length) && 565 cp->tag_at(name_and_type_ref_index).is_name_and_type(), 566 "Invalid constant pool index %u in class file %s", 567 name_and_type_ref_index, CHECK); 568 // bootstrap specifier index must be checked later, 569 // when BootstrapMethods attr is available 570 571 // Mark the constant pool as having a CONSTANT_Dynamic_info structure 572 cp->set_has_dynamic_constant(); 573 break; 574 } 575 case JVM_CONSTANT_InvokeDynamic: { 576 const int name_and_type_ref_index = 577 cp->invoke_dynamic_name_and_type_ref_index_at(index); 578 579 check_property(valid_cp_range(name_and_type_ref_index, length) && 580 cp->tag_at(name_and_type_ref_index).is_name_and_type(), 581 "Invalid constant pool index %u in class file %s", 582 name_and_type_ref_index, CHECK); 583 // bootstrap specifier index must be checked later, 584 // when BootstrapMethods attr is available 585 break; 586 } 587 default: { 588 fatal("bad constant pool tag value %u", cp->tag_at(index).value()); 589 ShouldNotReachHere(); 590 break; 591 } 592 } // switch(tag) 593 } // end of for 594 595 _first_patched_klass_resolved_index = num_klasses; 596 cp->allocate_resolved_klasses(_loader_data, num_klasses + _max_num_patched_klasses, CHECK); 597 598 if (_cp_patches != NULL) { 599 // need to treat this_class specially... 600 601 // Add dummy utf8 entries in the space reserved for names of patched classes. We'll use "*" 602 // for now. These will be replaced with actual names of the patched classes in patch_class(). 603 Symbol* s = vmSymbols::star_name(); 604 for (int n=_orig_cp_size; n<cp->length(); n++) { 605 cp->symbol_at_put(n, s); 606 } 607 608 int this_class_index; 609 { 610 stream->guarantee_more(8, CHECK); // flags, this_class, super_class, infs_len 611 const u1* const mark = stream->current(); 612 stream->skip_u2_fast(1); // skip flags 613 this_class_index = stream->get_u2_fast(); 614 stream->set_current(mark); // revert to mark 615 } 616 617 for (index = 1; index < length; index++) { // Index 0 is unused 618 if (has_cp_patch_at(index)) { 619 guarantee_property(index != this_class_index, 620 "Illegal constant pool patch to self at %d in class file %s", 621 index, CHECK); 622 patch_constant_pool(cp, index, cp_patch_at(index), CHECK); 623 } 624 } 625 } 626 627 if (!_need_verify) { 628 return; 629 } 630 631 // second verification pass - checks the strings are of the right format. 632 // but not yet to the other entries 633 for (index = 1; index < length; index++) { 634 const jbyte tag = cp->tag_at(index).value(); 635 switch (tag) { 636 case JVM_CONSTANT_UnresolvedClass: { 637 const Symbol* const class_name = cp->klass_name_at(index); 638 // check the name, even if _cp_patches will overwrite it 639 verify_legal_class_name(class_name, CHECK); 640 break; 641 } 642 case JVM_CONSTANT_NameAndType: { 643 if (_need_verify) { 644 const int sig_index = cp->signature_ref_index_at(index); 645 const int name_index = cp->name_ref_index_at(index); 646 const Symbol* const name = cp->symbol_at(name_index); 647 const Symbol* const sig = cp->symbol_at(sig_index); 648 guarantee_property(sig->utf8_length() != 0, 649 "Illegal zero length constant pool entry at %d in class %s", 650 sig_index, CHECK); 651 guarantee_property(name->utf8_length() != 0, 652 "Illegal zero length constant pool entry at %d in class %s", 653 name_index, CHECK); 654 655 if (sig->byte_at(0) == JVM_SIGNATURE_FUNC) { 656 // Format check method name and signature 657 verify_legal_method_name(name, CHECK); 658 verify_legal_method_signature(name, sig, CHECK); 659 } else { 660 // Format check field name and signature 661 verify_legal_field_name(name, CHECK); 662 verify_legal_field_signature(name, sig, CHECK); 663 } 664 } 665 break; 666 } 667 case JVM_CONSTANT_Dynamic: { 668 const int name_and_type_ref_index = 669 cp->name_and_type_ref_index_at(index); 670 // already verified to be utf8 671 const int name_ref_index = 672 cp->name_ref_index_at(name_and_type_ref_index); 673 // already verified to be utf8 674 const int signature_ref_index = 675 cp->signature_ref_index_at(name_and_type_ref_index); 676 const Symbol* const name = cp->symbol_at(name_ref_index); 677 const Symbol* const signature = cp->symbol_at(signature_ref_index); 678 if (_need_verify) { 679 // CONSTANT_Dynamic's name and signature are verified above, when iterating NameAndType_info. 680 // Need only to be sure signature is non-zero length and the right type. 681 if (signature->utf8_length() == 0 || 682 signature->byte_at(0) == JVM_SIGNATURE_FUNC) { 683 throwIllegalSignature("CONSTANT_Dynamic", name, signature, CHECK); 684 } 685 } 686 break; 687 } 688 case JVM_CONSTANT_InvokeDynamic: 689 case JVM_CONSTANT_Fieldref: 690 case JVM_CONSTANT_Methodref: 691 case JVM_CONSTANT_InterfaceMethodref: { 692 const int name_and_type_ref_index = 693 cp->name_and_type_ref_index_at(index); 694 // already verified to be utf8 695 const int name_ref_index = 696 cp->name_ref_index_at(name_and_type_ref_index); 697 // already verified to be utf8 698 const int signature_ref_index = 699 cp->signature_ref_index_at(name_and_type_ref_index); 700 const Symbol* const name = cp->symbol_at(name_ref_index); 701 const Symbol* const signature = cp->symbol_at(signature_ref_index); 702 if (tag == JVM_CONSTANT_Fieldref) { 703 if (_need_verify) { 704 // Field name and signature are verified above, when iterating NameAndType_info. 705 // Need only to be sure signature is non-zero length and the right type. 706 if (signature->utf8_length() == 0 || 707 signature->byte_at(0) == JVM_SIGNATURE_FUNC) { 708 throwIllegalSignature("Field", name, signature, CHECK); 709 } 710 } 711 } else { 712 if (_need_verify) { 713 // Method name and signature are verified above, when iterating NameAndType_info. 714 // Need only to be sure signature is non-zero length and the right type. 715 if (signature->utf8_length() == 0 || 716 signature->byte_at(0) != JVM_SIGNATURE_FUNC) { 717 throwIllegalSignature("Method", name, signature, CHECK); 718 } 719 } 720 // 4509014: If a class method name begins with '<', it must be "<init>" 721 const unsigned int name_len = name->utf8_length(); 722 if (tag == JVM_CONSTANT_Methodref && 723 name_len != 0 && 724 name->byte_at(0) == '<' && 725 name != vmSymbols::object_initializer_name()) { 726 classfile_parse_error( 727 "Bad method name at constant pool index %u in class file %s", 728 name_ref_index, CHECK); 729 } 730 } 731 break; 732 } 733 case JVM_CONSTANT_MethodHandle: { 734 const int ref_index = cp->method_handle_index_at(index); 735 const int ref_kind = cp->method_handle_ref_kind_at(index); 736 switch (ref_kind) { 737 case JVM_REF_invokeVirtual: 738 case JVM_REF_invokeStatic: 739 case JVM_REF_invokeSpecial: 740 case JVM_REF_newInvokeSpecial: { 741 const int name_and_type_ref_index = 742 cp->name_and_type_ref_index_at(ref_index); 743 const int name_ref_index = 744 cp->name_ref_index_at(name_and_type_ref_index); 745 const Symbol* const name = cp->symbol_at(name_ref_index); 746 if (ref_kind == JVM_REF_newInvokeSpecial) { 747 if (name != vmSymbols::object_initializer_name()) { 748 classfile_parse_error( 749 "Bad constructor name at constant pool index %u in class file %s", 750 name_ref_index, CHECK); 751 } 752 } else { 753 if (name == vmSymbols::object_initializer_name()) { 754 classfile_parse_error( 755 "Bad method name at constant pool index %u in class file %s", 756 name_ref_index, CHECK); 757 } 758 } 759 break; 760 } 761 // Other ref_kinds are already fully checked in previous pass. 762 } // switch(ref_kind) 763 break; 764 } 765 case JVM_CONSTANT_MethodType: { 766 const Symbol* const no_name = vmSymbols::type_name(); // place holder 767 const Symbol* const signature = cp->method_type_signature_at(index); 768 verify_legal_method_signature(no_name, signature, CHECK); 769 break; 770 } 771 case JVM_CONSTANT_Utf8: { 772 assert(cp->symbol_at(index)->refcount() != 0, "count corrupted"); 773 } 774 } // switch(tag) 775 } // end of for 776 } 777 778 void ClassFileParser::patch_class(ConstantPool* cp, int class_index, Klass* k, Symbol* name) { 779 int name_index = _orig_cp_size + _num_patched_klasses; 780 int resolved_klass_index = _first_patched_klass_resolved_index + _num_patched_klasses; 781 782 cp->klass_at_put(class_index, name_index, resolved_klass_index, k, name); 783 _num_patched_klasses ++; 784 } 785 786 void ClassFileParser::patch_constant_pool(ConstantPool* cp, 787 int index, 788 Handle patch, 789 TRAPS) { 790 assert(cp != NULL, "invariant"); 791 792 BasicType patch_type = T_VOID; 793 794 switch (cp->tag_at(index).value()) { 795 796 case JVM_CONSTANT_UnresolvedClass: { 797 // Patching a class means pre-resolving it. 798 // The name in the constant pool is ignored. 799 if (java_lang_Class::is_instance(patch())) { 800 guarantee_property(!java_lang_Class::is_primitive(patch()), 801 "Illegal class patch at %d in class file %s", 802 index, CHECK); 803 Klass* k = java_lang_Class::as_Klass(patch()); 804 patch_class(cp, index, k, k->name()); 805 } else { 806 guarantee_property(java_lang_String::is_instance(patch()), 807 "Illegal class patch at %d in class file %s", 808 index, CHECK); 809 Symbol* const name = java_lang_String::as_symbol(patch(), CHECK); 810 patch_class(cp, index, NULL, name); 811 } 812 break; 813 } 814 815 case JVM_CONSTANT_String: { 816 // skip this patch and don't clear it. Needs the oop array for resolved 817 // references to be created first. 818 return; 819 } 820 case JVM_CONSTANT_Integer: patch_type = T_INT; goto patch_prim; 821 case JVM_CONSTANT_Float: patch_type = T_FLOAT; goto patch_prim; 822 case JVM_CONSTANT_Long: patch_type = T_LONG; goto patch_prim; 823 case JVM_CONSTANT_Double: patch_type = T_DOUBLE; goto patch_prim; 824 patch_prim: 825 { 826 jvalue value; 827 BasicType value_type = java_lang_boxing_object::get_value(patch(), &value); 828 guarantee_property(value_type == patch_type, 829 "Illegal primitive patch at %d in class file %s", 830 index, CHECK); 831 switch (value_type) { 832 case T_INT: cp->int_at_put(index, value.i); break; 833 case T_FLOAT: cp->float_at_put(index, value.f); break; 834 case T_LONG: cp->long_at_put(index, value.j); break; 835 case T_DOUBLE: cp->double_at_put(index, value.d); break; 836 default: assert(false, ""); 837 } 838 } // end patch_prim label 839 break; 840 841 default: { 842 // %%% TODO: put method handles into CONSTANT_InterfaceMethodref, etc. 843 guarantee_property(!has_cp_patch_at(index), 844 "Illegal unexpected patch at %d in class file %s", 845 index, CHECK); 846 return; 847 } 848 } // end of switch(tag) 849 850 // On fall-through, mark the patch as used. 851 clear_cp_patch_at(index); 852 } 853 class NameSigHash: public ResourceObj { 854 public: 855 const Symbol* _name; // name 856 const Symbol* _sig; // signature 857 NameSigHash* _next; // Next entry in hash table 858 }; 859 860 static const int HASH_ROW_SIZE = 256; 861 862 static unsigned int hash(const Symbol* name, const Symbol* sig) { 863 unsigned int raw_hash = 0; 864 raw_hash += ((unsigned int)(uintptr_t)name) >> (LogHeapWordSize + 2); 865 raw_hash += ((unsigned int)(uintptr_t)sig) >> LogHeapWordSize; 866 867 return (raw_hash + (unsigned int)(uintptr_t)name) % HASH_ROW_SIZE; 868 } 869 870 871 static void initialize_hashtable(NameSigHash** table) { 872 memset((void*)table, 0, sizeof(NameSigHash*) * HASH_ROW_SIZE); 873 } 874 // Return false if the name/sig combination is found in table. 875 // Return true if no duplicate is found. And name/sig is added as a new entry in table. 876 // The old format checker uses heap sort to find duplicates. 877 // NOTE: caller should guarantee that GC doesn't happen during the life cycle 878 // of table since we don't expect Symbol*'s to move. 879 static bool put_after_lookup(const Symbol* name, const Symbol* sig, NameSigHash** table) { 880 assert(name != NULL, "name in constant pool is NULL"); 881 882 // First lookup for duplicates 883 int index = hash(name, sig); 884 NameSigHash* entry = table[index]; 885 while (entry != NULL) { 886 if (entry->_name == name && entry->_sig == sig) { 887 return false; 888 } 889 entry = entry->_next; 890 } 891 892 // No duplicate is found, allocate a new entry and fill it. 893 entry = new NameSigHash(); 894 entry->_name = name; 895 entry->_sig = sig; 896 897 // Insert into hash table 898 entry->_next = table[index]; 899 table[index] = entry; 900 901 return true; 902 } 903 904 // Side-effects: populates the _local_interfaces field 905 void ClassFileParser::parse_interfaces(const ClassFileStream* const stream, 906 const int itfs_len, 907 ConstantPool* const cp, 908 bool* const has_nonstatic_concrete_methods, 909 TRAPS) { 910 assert(stream != NULL, "invariant"); 911 assert(cp != NULL, "invariant"); 912 assert(has_nonstatic_concrete_methods != NULL, "invariant"); 913 914 if (itfs_len == 0) { 915 _local_interfaces = Universe::the_empty_klass_array(); 916 } else { 917 assert(itfs_len > 0, "only called for len>0"); 918 _local_interfaces = MetadataFactory::new_array<Klass*>(_loader_data, itfs_len, NULL, CHECK); 919 920 int index; 921 for (index = 0; index < itfs_len; index++) { 922 const u2 interface_index = stream->get_u2(CHECK); 923 Klass* interf; 924 check_property( 925 valid_klass_reference_at(interface_index), 926 "Interface name has bad constant pool index %u in class file %s", 927 interface_index, CHECK); 928 if (cp->tag_at(interface_index).is_klass()) { 929 interf = cp->resolved_klass_at(interface_index); 930 } else { 931 Symbol* const unresolved_klass = cp->klass_name_at(interface_index); 932 933 // Don't need to check legal name because it's checked when parsing constant pool. 934 // But need to make sure it's not an array type. 935 guarantee_property(unresolved_klass->byte_at(0) != JVM_SIGNATURE_ARRAY, 936 "Bad interface name in class file %s", CHECK); 937 938 // Call resolve_super so classcircularity is checked 939 interf = SystemDictionary::resolve_super_or_fail( 940 _class_name, 941 unresolved_klass, 942 Handle(THREAD, _loader_data->class_loader()), 943 _protection_domain, 944 false, 945 CHECK); 946 } 947 948 if (!interf->is_interface()) { 949 THROW_MSG(vmSymbols::java_lang_IncompatibleClassChangeError(), 950 "Implementing class"); 951 } 952 953 if (InstanceKlass::cast(interf)->has_nonstatic_concrete_methods()) { 954 *has_nonstatic_concrete_methods = true; 955 } 956 _local_interfaces->at_put(index, interf); 957 } 958 959 if (!_need_verify || itfs_len <= 1) { 960 return; 961 } 962 963 // Check if there's any duplicates in interfaces 964 ResourceMark rm(THREAD); 965 NameSigHash** interface_names = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, 966 NameSigHash*, 967 HASH_ROW_SIZE); 968 initialize_hashtable(interface_names); 969 bool dup = false; 970 const Symbol* name = NULL; 971 { 972 debug_only(NoSafepointVerifier nsv;) 973 for (index = 0; index < itfs_len; index++) { 974 const Klass* const k = _local_interfaces->at(index); 975 name = InstanceKlass::cast(k)->name(); 976 // If no duplicates, add (name, NULL) in hashtable interface_names. 977 if (!put_after_lookup(name, NULL, interface_names)) { 978 dup = true; 979 break; 980 } 981 } 982 } 983 if (dup) { 984 classfile_parse_error("Duplicate interface name \"%s\" in class file %s", 985 name->as_C_string(), CHECK); 986 } 987 } 988 } 989 990 void ClassFileParser::verify_constantvalue(const ConstantPool* const cp, 991 int constantvalue_index, 992 int signature_index, 993 TRAPS) const { 994 // Make sure the constant pool entry is of a type appropriate to this field 995 guarantee_property( 996 (constantvalue_index > 0 && 997 constantvalue_index < cp->length()), 998 "Bad initial value index %u in ConstantValue attribute in class file %s", 999 constantvalue_index, CHECK); 1000 1001 const constantTag value_type = cp->tag_at(constantvalue_index); 1002 switch(cp->basic_type_for_signature_at(signature_index)) { 1003 case T_LONG: { 1004 guarantee_property(value_type.is_long(), 1005 "Inconsistent constant value type in class file %s", 1006 CHECK); 1007 break; 1008 } 1009 case T_FLOAT: { 1010 guarantee_property(value_type.is_float(), 1011 "Inconsistent constant value type in class file %s", 1012 CHECK); 1013 break; 1014 } 1015 case T_DOUBLE: { 1016 guarantee_property(value_type.is_double(), 1017 "Inconsistent constant value type in class file %s", 1018 CHECK); 1019 break; 1020 } 1021 case T_BYTE: 1022 case T_CHAR: 1023 case T_SHORT: 1024 case T_BOOLEAN: 1025 case T_INT: { 1026 guarantee_property(value_type.is_int(), 1027 "Inconsistent constant value type in class file %s", 1028 CHECK); 1029 break; 1030 } 1031 case T_OBJECT: { 1032 guarantee_property((cp->symbol_at(signature_index)->equals("Ljava/lang/String;") 1033 && value_type.is_string()), 1034 "Bad string initial value in class file %s", 1035 CHECK); 1036 break; 1037 } 1038 default: { 1039 classfile_parse_error("Unable to set initial value %u in class file %s", 1040 constantvalue_index, 1041 CHECK); 1042 } 1043 } 1044 } 1045 1046 class AnnotationCollector : public ResourceObj{ 1047 public: 1048 enum Location { _in_field, _in_method, _in_class }; 1049 enum ID { 1050 _unknown = 0, 1051 _method_CallerSensitive, 1052 _method_ForceInline, 1053 _method_DontInline, 1054 _method_InjectedProfile, 1055 _method_LambdaForm_Compiled, 1056 _method_LambdaForm_Hidden, 1057 _method_HotSpotIntrinsicCandidate, 1058 _jdk_internal_vm_annotation_Contended, 1059 _field_Stable, 1060 _jdk_internal_vm_annotation_ReservedStackAccess, 1061 _annotation_LIMIT 1062 }; 1063 const Location _location; 1064 int _annotations_present; 1065 u2 _contended_group; 1066 1067 AnnotationCollector(Location location) 1068 : _location(location), _annotations_present(0) 1069 { 1070 assert((int)_annotation_LIMIT <= (int)sizeof(_annotations_present) * BitsPerByte, ""); 1071 } 1072 // If this annotation name has an ID, report it (or _none). 1073 ID annotation_index(const ClassLoaderData* loader_data, const Symbol* name); 1074 // Set the annotation name: 1075 void set_annotation(ID id) { 1076 assert((int)id >= 0 && (int)id < (int)_annotation_LIMIT, "oob"); 1077 _annotations_present |= nth_bit((int)id); 1078 } 1079 1080 void remove_annotation(ID id) { 1081 assert((int)id >= 0 && (int)id < (int)_annotation_LIMIT, "oob"); 1082 _annotations_present &= ~nth_bit((int)id); 1083 } 1084 1085 // Report if the annotation is present. 1086 bool has_any_annotations() const { return _annotations_present != 0; } 1087 bool has_annotation(ID id) const { return (nth_bit((int)id) & _annotations_present) != 0; } 1088 1089 void set_contended_group(u2 group) { _contended_group = group; } 1090 u2 contended_group() const { return _contended_group; } 1091 1092 bool is_contended() const { return has_annotation(_jdk_internal_vm_annotation_Contended); } 1093 1094 void set_stable(bool stable) { set_annotation(_field_Stable); } 1095 bool is_stable() const { return has_annotation(_field_Stable); } 1096 }; 1097 1098 // This class also doubles as a holder for metadata cleanup. 1099 class ClassFileParser::FieldAnnotationCollector : public AnnotationCollector { 1100 private: 1101 ClassLoaderData* _loader_data; 1102 AnnotationArray* _field_annotations; 1103 AnnotationArray* _field_type_annotations; 1104 public: 1105 FieldAnnotationCollector(ClassLoaderData* loader_data) : 1106 AnnotationCollector(_in_field), 1107 _loader_data(loader_data), 1108 _field_annotations(NULL), 1109 _field_type_annotations(NULL) {} 1110 ~FieldAnnotationCollector(); 1111 void apply_to(FieldInfo* f); 1112 AnnotationArray* field_annotations() { return _field_annotations; } 1113 AnnotationArray* field_type_annotations() { return _field_type_annotations; } 1114 1115 void set_field_annotations(AnnotationArray* a) { _field_annotations = a; } 1116 void set_field_type_annotations(AnnotationArray* a) { _field_type_annotations = a; } 1117 }; 1118 1119 class MethodAnnotationCollector : public AnnotationCollector{ 1120 public: 1121 MethodAnnotationCollector() : AnnotationCollector(_in_method) { } 1122 void apply_to(const methodHandle& m); 1123 }; 1124 1125 class ClassFileParser::ClassAnnotationCollector : public AnnotationCollector{ 1126 public: 1127 ClassAnnotationCollector() : AnnotationCollector(_in_class) { } 1128 void apply_to(InstanceKlass* ik); 1129 }; 1130 1131 1132 static int skip_annotation_value(const u1*, int, int); // fwd decl 1133 1134 // Safely increment index by val if does not pass limit 1135 #define SAFE_ADD(index, limit, val) \ 1136 if (index >= limit - val) return limit; \ 1137 index += val; 1138 1139 // Skip an annotation. Return >=limit if there is any problem. 1140 static int skip_annotation(const u1* buffer, int limit, int index) { 1141 assert(buffer != NULL, "invariant"); 1142 // annotation := atype:u2 do(nmem:u2) {member:u2 value} 1143 // value := switch (tag:u1) { ... } 1144 SAFE_ADD(index, limit, 4); // skip atype and read nmem 1145 int nmem = Bytes::get_Java_u2((address)buffer + index - 2); 1146 while (--nmem >= 0 && index < limit) { 1147 SAFE_ADD(index, limit, 2); // skip member 1148 index = skip_annotation_value(buffer, limit, index); 1149 } 1150 return index; 1151 } 1152 1153 // Skip an annotation value. Return >=limit if there is any problem. 1154 static int skip_annotation_value(const u1* buffer, int limit, int index) { 1155 assert(buffer != NULL, "invariant"); 1156 1157 // value := switch (tag:u1) { 1158 // case B, C, I, S, Z, D, F, J, c: con:u2; 1159 // case e: e_class:u2 e_name:u2; 1160 // case s: s_con:u2; 1161 // case [: do(nval:u2) {value}; 1162 // case @: annotation; 1163 // case s: s_con:u2; 1164 // } 1165 SAFE_ADD(index, limit, 1); // read tag 1166 const u1 tag = buffer[index - 1]; 1167 switch (tag) { 1168 case 'B': 1169 case 'C': 1170 case 'I': 1171 case 'S': 1172 case 'Z': 1173 case 'D': 1174 case 'F': 1175 case 'J': 1176 case 'c': 1177 case 's': 1178 SAFE_ADD(index, limit, 2); // skip con or s_con 1179 break; 1180 case 'e': 1181 SAFE_ADD(index, limit, 4); // skip e_class, e_name 1182 break; 1183 case '[': 1184 { 1185 SAFE_ADD(index, limit, 2); // read nval 1186 int nval = Bytes::get_Java_u2((address)buffer + index - 2); 1187 while (--nval >= 0 && index < limit) { 1188 index = skip_annotation_value(buffer, limit, index); 1189 } 1190 } 1191 break; 1192 case '@': 1193 index = skip_annotation(buffer, limit, index); 1194 break; 1195 default: 1196 return limit; // bad tag byte 1197 } 1198 return index; 1199 } 1200 1201 // Sift through annotations, looking for those significant to the VM: 1202 static void parse_annotations(const ConstantPool* const cp, 1203 const u1* buffer, int limit, 1204 AnnotationCollector* coll, 1205 ClassLoaderData* loader_data, 1206 TRAPS) { 1207 1208 assert(cp != NULL, "invariant"); 1209 assert(buffer != NULL, "invariant"); 1210 assert(coll != NULL, "invariant"); 1211 assert(loader_data != NULL, "invariant"); 1212 1213 // annotations := do(nann:u2) {annotation} 1214 int index = 2; // read nann 1215 if (index >= limit) return; 1216 int nann = Bytes::get_Java_u2((address)buffer + index - 2); 1217 enum { // initial annotation layout 1218 atype_off = 0, // utf8 such as 'Ljava/lang/annotation/Retention;' 1219 count_off = 2, // u2 such as 1 (one value) 1220 member_off = 4, // utf8 such as 'value' 1221 tag_off = 6, // u1 such as 'c' (type) or 'e' (enum) 1222 e_tag_val = 'e', 1223 e_type_off = 7, // utf8 such as 'Ljava/lang/annotation/RetentionPolicy;' 1224 e_con_off = 9, // utf8 payload, such as 'SOURCE', 'CLASS', 'RUNTIME' 1225 e_size = 11, // end of 'e' annotation 1226 c_tag_val = 'c', // payload is type 1227 c_con_off = 7, // utf8 payload, such as 'I' 1228 c_size = 9, // end of 'c' annotation 1229 s_tag_val = 's', // payload is String 1230 s_con_off = 7, // utf8 payload, such as 'Ljava/lang/String;' 1231 s_size = 9, 1232 min_size = 6 // smallest possible size (zero members) 1233 }; 1234 // Cannot add min_size to index in case of overflow MAX_INT 1235 while ((--nann) >= 0 && (index - 2 <= limit - min_size)) { 1236 int index0 = index; 1237 index = skip_annotation(buffer, limit, index); 1238 const u1* const abase = buffer + index0; 1239 const int atype = Bytes::get_Java_u2((address)abase + atype_off); 1240 const int count = Bytes::get_Java_u2((address)abase + count_off); 1241 const Symbol* const aname = check_symbol_at(cp, atype); 1242 if (aname == NULL) break; // invalid annotation name 1243 const Symbol* member = NULL; 1244 if (count >= 1) { 1245 const int member_index = Bytes::get_Java_u2((address)abase + member_off); 1246 member = check_symbol_at(cp, member_index); 1247 if (member == NULL) break; // invalid member name 1248 } 1249 1250 // Here is where parsing particular annotations will take place. 1251 AnnotationCollector::ID id = coll->annotation_index(loader_data, aname); 1252 if (AnnotationCollector::_unknown == id) continue; 1253 coll->set_annotation(id); 1254 1255 if (AnnotationCollector::_jdk_internal_vm_annotation_Contended == id) { 1256 // @Contended can optionally specify the contention group. 1257 // 1258 // Contended group defines the equivalence class over the fields: 1259 // the fields within the same contended group are not treated distinct. 1260 // The only exception is default group, which does not incur the 1261 // equivalence. Naturally, contention group for classes is meaningless. 1262 // 1263 // While the contention group is specified as String, annotation 1264 // values are already interned, and we might as well use the constant 1265 // pool index as the group tag. 1266 // 1267 u2 group_index = 0; // default contended group 1268 if (count == 1 1269 && s_size == (index - index0) // match size 1270 && s_tag_val == *(abase + tag_off) 1271 && member == vmSymbols::value_name()) { 1272 group_index = Bytes::get_Java_u2((address)abase + s_con_off); 1273 if (cp->symbol_at(group_index)->utf8_length() == 0) { 1274 group_index = 0; // default contended group 1275 } 1276 } 1277 coll->set_contended_group(group_index); 1278 } 1279 } 1280 } 1281 1282 1283 // Parse attributes for a field. 1284 void ClassFileParser::parse_field_attributes(const ClassFileStream* const cfs, 1285 u2 attributes_count, 1286 bool is_static, u2 signature_index, 1287 u2* const constantvalue_index_addr, 1288 bool* const is_synthetic_addr, 1289 u2* const generic_signature_index_addr, 1290 ClassFileParser::FieldAnnotationCollector* parsed_annotations, 1291 TRAPS) { 1292 assert(cfs != NULL, "invariant"); 1293 assert(constantvalue_index_addr != NULL, "invariant"); 1294 assert(is_synthetic_addr != NULL, "invariant"); 1295 assert(generic_signature_index_addr != NULL, "invariant"); 1296 assert(parsed_annotations != NULL, "invariant"); 1297 assert(attributes_count > 0, "attributes_count should be greater than 0"); 1298 1299 u2 constantvalue_index = 0; 1300 u2 generic_signature_index = 0; 1301 bool is_synthetic = false; 1302 const u1* runtime_visible_annotations = NULL; 1303 int runtime_visible_annotations_length = 0; 1304 const u1* runtime_invisible_annotations = NULL; 1305 int runtime_invisible_annotations_length = 0; 1306 const u1* runtime_visible_type_annotations = NULL; 1307 int runtime_visible_type_annotations_length = 0; 1308 const u1* runtime_invisible_type_annotations = NULL; 1309 int runtime_invisible_type_annotations_length = 0; 1310 bool runtime_invisible_annotations_exists = false; 1311 bool runtime_invisible_type_annotations_exists = false; 1312 const ConstantPool* const cp = _cp; 1313 1314 while (attributes_count--) { 1315 cfs->guarantee_more(6, CHECK); // attribute_name_index, attribute_length 1316 const u2 attribute_name_index = cfs->get_u2_fast(); 1317 const u4 attribute_length = cfs->get_u4_fast(); 1318 check_property(valid_symbol_at(attribute_name_index), 1319 "Invalid field attribute index %u in class file %s", 1320 attribute_name_index, 1321 CHECK); 1322 1323 const Symbol* const attribute_name = cp->symbol_at(attribute_name_index); 1324 if (is_static && attribute_name == vmSymbols::tag_constant_value()) { 1325 // ignore if non-static 1326 if (constantvalue_index != 0) { 1327 classfile_parse_error("Duplicate ConstantValue attribute in class file %s", CHECK); 1328 } 1329 check_property( 1330 attribute_length == 2, 1331 "Invalid ConstantValue field attribute length %u in class file %s", 1332 attribute_length, CHECK); 1333 1334 constantvalue_index = cfs->get_u2(CHECK); 1335 if (_need_verify) { 1336 verify_constantvalue(cp, constantvalue_index, signature_index, CHECK); 1337 } 1338 } else if (attribute_name == vmSymbols::tag_synthetic()) { 1339 if (attribute_length != 0) { 1340 classfile_parse_error( 1341 "Invalid Synthetic field attribute length %u in class file %s", 1342 attribute_length, CHECK); 1343 } 1344 is_synthetic = true; 1345 } else if (attribute_name == vmSymbols::tag_deprecated()) { // 4276120 1346 if (attribute_length != 0) { 1347 classfile_parse_error( 1348 "Invalid Deprecated field attribute length %u in class file %s", 1349 attribute_length, CHECK); 1350 } 1351 } else if (_major_version >= JAVA_1_5_VERSION) { 1352 if (attribute_name == vmSymbols::tag_signature()) { 1353 if (generic_signature_index != 0) { 1354 classfile_parse_error( 1355 "Multiple Signature attributes for field in class file %s", CHECK); 1356 } 1357 if (attribute_length != 2) { 1358 classfile_parse_error( 1359 "Wrong size %u for field's Signature attribute in class file %s", 1360 attribute_length, CHECK); 1361 } 1362 generic_signature_index = parse_generic_signature_attribute(cfs, CHECK); 1363 } else if (attribute_name == vmSymbols::tag_runtime_visible_annotations()) { 1364 if (runtime_visible_annotations != NULL) { 1365 classfile_parse_error( 1366 "Multiple RuntimeVisibleAnnotations attributes for field in class file %s", CHECK); 1367 } 1368 runtime_visible_annotations_length = attribute_length; 1369 runtime_visible_annotations = cfs->current(); 1370 assert(runtime_visible_annotations != NULL, "null visible annotations"); 1371 cfs->guarantee_more(runtime_visible_annotations_length, CHECK); 1372 parse_annotations(cp, 1373 runtime_visible_annotations, 1374 runtime_visible_annotations_length, 1375 parsed_annotations, 1376 _loader_data, 1377 CHECK); 1378 cfs->skip_u1_fast(runtime_visible_annotations_length); 1379 } else if (attribute_name == vmSymbols::tag_runtime_invisible_annotations()) { 1380 if (runtime_invisible_annotations_exists) { 1381 classfile_parse_error( 1382 "Multiple RuntimeInvisibleAnnotations attributes for field in class file %s", CHECK); 1383 } 1384 runtime_invisible_annotations_exists = true; 1385 if (PreserveAllAnnotations) { 1386 runtime_invisible_annotations_length = attribute_length; 1387 runtime_invisible_annotations = cfs->current(); 1388 assert(runtime_invisible_annotations != NULL, "null invisible annotations"); 1389 } 1390 cfs->skip_u1(attribute_length, CHECK); 1391 } else if (attribute_name == vmSymbols::tag_runtime_visible_type_annotations()) { 1392 if (runtime_visible_type_annotations != NULL) { 1393 classfile_parse_error( 1394 "Multiple RuntimeVisibleTypeAnnotations attributes for field in class file %s", CHECK); 1395 } 1396 runtime_visible_type_annotations_length = attribute_length; 1397 runtime_visible_type_annotations = cfs->current(); 1398 assert(runtime_visible_type_annotations != NULL, "null visible type annotations"); 1399 cfs->skip_u1(runtime_visible_type_annotations_length, CHECK); 1400 } else if (attribute_name == vmSymbols::tag_runtime_invisible_type_annotations()) { 1401 if (runtime_invisible_type_annotations_exists) { 1402 classfile_parse_error( 1403 "Multiple RuntimeInvisibleTypeAnnotations attributes for field in class file %s", CHECK); 1404 } else { 1405 runtime_invisible_type_annotations_exists = true; 1406 } 1407 if (PreserveAllAnnotations) { 1408 runtime_invisible_type_annotations_length = attribute_length; 1409 runtime_invisible_type_annotations = cfs->current(); 1410 assert(runtime_invisible_type_annotations != NULL, "null invisible type annotations"); 1411 } 1412 cfs->skip_u1(attribute_length, CHECK); 1413 } else { 1414 cfs->skip_u1(attribute_length, CHECK); // Skip unknown attributes 1415 } 1416 } else { 1417 cfs->skip_u1(attribute_length, CHECK); // Skip unknown attributes 1418 } 1419 } 1420 1421 *constantvalue_index_addr = constantvalue_index; 1422 *is_synthetic_addr = is_synthetic; 1423 *generic_signature_index_addr = generic_signature_index; 1424 AnnotationArray* a = assemble_annotations(runtime_visible_annotations, 1425 runtime_visible_annotations_length, 1426 runtime_invisible_annotations, 1427 runtime_invisible_annotations_length, 1428 CHECK); 1429 parsed_annotations->set_field_annotations(a); 1430 a = assemble_annotations(runtime_visible_type_annotations, 1431 runtime_visible_type_annotations_length, 1432 runtime_invisible_type_annotations, 1433 runtime_invisible_type_annotations_length, 1434 CHECK); 1435 parsed_annotations->set_field_type_annotations(a); 1436 return; 1437 } 1438 1439 1440 // Field allocation types. Used for computing field offsets. 1441 1442 enum FieldAllocationType { 1443 STATIC_OOP, // Oops 1444 STATIC_BYTE, // Boolean, Byte, char 1445 STATIC_SHORT, // shorts 1446 STATIC_WORD, // ints 1447 STATIC_DOUBLE, // aligned long or double 1448 STATIC_FLATTENABLE, // flattenable field 1449 NONSTATIC_OOP, 1450 NONSTATIC_BYTE, 1451 NONSTATIC_SHORT, 1452 NONSTATIC_WORD, 1453 NONSTATIC_DOUBLE, 1454 NONSTATIC_FLATTENABLE, 1455 MAX_FIELD_ALLOCATION_TYPE, 1456 BAD_ALLOCATION_TYPE = -1 1457 }; 1458 1459 static FieldAllocationType _basic_type_to_atype[2 * (T_CONFLICT + 1)] = { 1460 BAD_ALLOCATION_TYPE, // 0 1461 BAD_ALLOCATION_TYPE, // 1 1462 BAD_ALLOCATION_TYPE, // 2 1463 BAD_ALLOCATION_TYPE, // 3 1464 NONSTATIC_BYTE , // T_BOOLEAN = 4, 1465 NONSTATIC_SHORT, // T_CHAR = 5, 1466 NONSTATIC_WORD, // T_FLOAT = 6, 1467 NONSTATIC_DOUBLE, // T_DOUBLE = 7, 1468 NONSTATIC_BYTE, // T_BYTE = 8, 1469 NONSTATIC_SHORT, // T_SHORT = 9, 1470 NONSTATIC_WORD, // T_INT = 10, 1471 NONSTATIC_DOUBLE, // T_LONG = 11, 1472 NONSTATIC_OOP, // T_OBJECT = 12, 1473 NONSTATIC_OOP, // T_ARRAY = 13, 1474 NONSTATIC_OOP, // T_VALUETYPE = 14, 1475 BAD_ALLOCATION_TYPE, // T_VOID = 15, 1476 BAD_ALLOCATION_TYPE, // T_ADDRESS = 16, 1477 BAD_ALLOCATION_TYPE, // T_NARROWOOP = 17, 1478 BAD_ALLOCATION_TYPE, // T_METADATA = 18, 1479 BAD_ALLOCATION_TYPE, // T_NARROWKLASS = 19, 1480 BAD_ALLOCATION_TYPE, // T_VALUETYPEPTR= 20, 1481 BAD_ALLOCATION_TYPE, // T_CONFLICT = 21, 1482 BAD_ALLOCATION_TYPE, // 0 1483 BAD_ALLOCATION_TYPE, // 1 1484 BAD_ALLOCATION_TYPE, // 2 1485 BAD_ALLOCATION_TYPE, // 3 1486 STATIC_BYTE , // T_BOOLEAN = 4, 1487 STATIC_SHORT, // T_CHAR = 5, 1488 STATIC_WORD, // T_FLOAT = 6, 1489 STATIC_DOUBLE, // T_DOUBLE = 7, 1490 STATIC_BYTE, // T_BYTE = 8, 1491 STATIC_SHORT, // T_SHORT = 9, 1492 STATIC_WORD, // T_INT = 10, 1493 STATIC_DOUBLE, // T_LONG = 11, 1494 STATIC_OOP, // T_OBJECT = 12, 1495 STATIC_OOP, // T_ARRAY = 13, 1496 STATIC_OOP, // T_VALUETYPE = 14, 1497 BAD_ALLOCATION_TYPE, // T_VOID = 15, 1498 BAD_ALLOCATION_TYPE, // T_ADDRESS = 16, 1499 BAD_ALLOCATION_TYPE, // T_NARROWOOP = 17, 1500 BAD_ALLOCATION_TYPE, // T_METADATA = 18, 1501 BAD_ALLOCATION_TYPE, // T_NARROWKLASS = 19, 1502 BAD_ALLOCATION_TYPE, // T_VALUETYPEPTR= 20, 1503 BAD_ALLOCATION_TYPE, // T_CONFLICT = 21, 1504 }; 1505 1506 static FieldAllocationType basic_type_to_atype(bool is_static, BasicType type, bool is_flattenable) { 1507 assert(type >= T_BOOLEAN && type < T_VOID, "only allowable values"); 1508 FieldAllocationType result = _basic_type_to_atype[type + (is_static ? (T_CONFLICT + 1) : 0)]; 1509 assert(result != BAD_ALLOCATION_TYPE, "bad type"); 1510 if (is_flattenable) { 1511 result = is_static ? STATIC_FLATTENABLE : NONSTATIC_FLATTENABLE; 1512 } 1513 return result; 1514 } 1515 1516 class ClassFileParser::FieldAllocationCount : public ResourceObj { 1517 public: 1518 u2 count[MAX_FIELD_ALLOCATION_TYPE]; 1519 1520 FieldAllocationCount() { 1521 for (int i = 0; i < MAX_FIELD_ALLOCATION_TYPE; i++) { 1522 count[i] = 0; 1523 } 1524 } 1525 1526 FieldAllocationType update(bool is_static, BasicType type, bool is_flattenable) { 1527 FieldAllocationType atype = basic_type_to_atype(is_static, type, is_flattenable); 1528 if (atype != BAD_ALLOCATION_TYPE) { 1529 // Make sure there is no overflow with injected fields. 1530 assert(count[atype] < 0xFFFF, "More than 65535 fields"); 1531 count[atype]++; 1532 } 1533 return atype; 1534 } 1535 }; 1536 1537 // Side-effects: populates the _fields, _fields_annotations, 1538 // _fields_type_annotations fields 1539 void ClassFileParser::parse_fields(const ClassFileStream* const cfs, 1540 bool is_interface, 1541 bool is_value_type, 1542 FieldAllocationCount* const fac, 1543 ConstantPool* cp, 1544 const int cp_size, 1545 u2* const java_fields_count_ptr, 1546 TRAPS) { 1547 1548 assert(cfs != NULL, "invariant"); 1549 assert(fac != NULL, "invariant"); 1550 assert(cp != NULL, "invariant"); 1551 assert(java_fields_count_ptr != NULL, "invariant"); 1552 1553 assert(NULL == _fields, "invariant"); 1554 assert(NULL == _fields_annotations, "invariant"); 1555 assert(NULL == _fields_type_annotations, "invariant"); 1556 1557 cfs->guarantee_more(2, CHECK); // length 1558 const u2 length = cfs->get_u2_fast(); 1559 *java_fields_count_ptr = length; 1560 1561 int num_injected = 0; 1562 const InjectedField* const injected = JavaClasses::get_injected(_class_name, 1563 &num_injected); 1564 1565 const int total_fields = length + num_injected + (is_value_type ? 1 : 0); 1566 1567 // The field array starts with tuples of shorts 1568 // [access, name index, sig index, initial value index, byte offset]. 1569 // A generic signature slot only exists for field with generic 1570 // signature attribute. And the access flag is set with 1571 // JVM_ACC_FIELD_HAS_GENERIC_SIGNATURE for that field. The generic 1572 // signature slots are at the end of the field array and after all 1573 // other fields data. 1574 // 1575 // f1: [access, name index, sig index, initial value index, low_offset, high_offset] 1576 // f2: [access, name index, sig index, initial value index, low_offset, high_offset] 1577 // ... 1578 // fn: [access, name index, sig index, initial value index, low_offset, high_offset] 1579 // [generic signature index] 1580 // [generic signature index] 1581 // ... 1582 // 1583 // Allocate a temporary resource array for field data. For each field, 1584 // a slot is reserved in the temporary array for the generic signature 1585 // index. After parsing all fields, the data are copied to a permanent 1586 // array and any unused slots will be discarded. 1587 ResourceMark rm(THREAD); 1588 u2* const fa = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, 1589 u2, 1590 total_fields * (FieldInfo::field_slots + 1)); 1591 1592 // The generic signature slots start after all other fields' data. 1593 int generic_signature_slot = total_fields * FieldInfo::field_slots; 1594 int num_generic_signature = 0; 1595 for (int n = 0; n < length; n++) { 1596 // access_flags, name_index, descriptor_index, attributes_count 1597 cfs->guarantee_more(8, CHECK); 1598 1599 jint recognized_modifiers = JVM_RECOGNIZED_FIELD_MODIFIERS; 1600 // JVM_ACC_FLATTENABLE is defined for class file version 55 and later 1601 if (supports_value_types()) { 1602 recognized_modifiers |= JVM_ACC_FLATTENABLE; 1603 } 1604 1605 const jint flags = cfs->get_u2_fast() & recognized_modifiers; 1606 verify_legal_field_modifiers(flags, is_interface, is_value_type, CHECK); 1607 AccessFlags access_flags; 1608 access_flags.set_flags(flags); 1609 1610 const u2 name_index = cfs->get_u2_fast(); 1611 check_property(valid_symbol_at(name_index), 1612 "Invalid constant pool index %u for field name in class file %s", 1613 name_index, CHECK); 1614 const Symbol* const name = cp->symbol_at(name_index); 1615 verify_legal_field_name(name, CHECK); 1616 1617 const u2 signature_index = cfs->get_u2_fast(); 1618 check_property(valid_symbol_at(signature_index), 1619 "Invalid constant pool index %u for field signature in class file %s", 1620 signature_index, CHECK); 1621 const Symbol* const sig = cp->symbol_at(signature_index); 1622 verify_legal_field_signature(name, sig, CHECK); 1623 if (access_flags.is_flattenable()) { 1624 // Array flattenability cannot be specified. Arrays of value classes are 1625 // are always flattenable. Arrays of other classes are not flattenable. 1626 if (sig->utf8_length() > 1 && sig->byte_at(0) == '[') { 1627 classfile_parse_error( 1628 "Field \"%s\" with signature \"%s\" in class file %s is invalid." 1629 " ACC_FLATTENABLE cannot be specified for an array", 1630 name->as_C_string(), sig->as_klass_external_name(), CHECK); 1631 } 1632 _has_flattenable_fields = true; 1633 } 1634 1635 u2 constantvalue_index = 0; 1636 bool is_synthetic = false; 1637 u2 generic_signature_index = 0; 1638 const bool is_static = access_flags.is_static(); 1639 FieldAnnotationCollector parsed_annotations(_loader_data); 1640 1641 const u2 attributes_count = cfs->get_u2_fast(); 1642 if (attributes_count > 0) { 1643 parse_field_attributes(cfs, 1644 attributes_count, 1645 is_static, 1646 signature_index, 1647 &constantvalue_index, 1648 &is_synthetic, 1649 &generic_signature_index, 1650 &parsed_annotations, 1651 CHECK); 1652 1653 if (parsed_annotations.field_annotations() != NULL) { 1654 if (_fields_annotations == NULL) { 1655 _fields_annotations = MetadataFactory::new_array<AnnotationArray*>( 1656 _loader_data, length, NULL, 1657 CHECK); 1658 } 1659 _fields_annotations->at_put(n, parsed_annotations.field_annotations()); 1660 parsed_annotations.set_field_annotations(NULL); 1661 } 1662 if (parsed_annotations.field_type_annotations() != NULL) { 1663 if (_fields_type_annotations == NULL) { 1664 _fields_type_annotations = 1665 MetadataFactory::new_array<AnnotationArray*>(_loader_data, 1666 length, 1667 NULL, 1668 CHECK); 1669 } 1670 _fields_type_annotations->at_put(n, parsed_annotations.field_type_annotations()); 1671 parsed_annotations.set_field_type_annotations(NULL); 1672 } 1673 1674 if (is_synthetic) { 1675 access_flags.set_is_synthetic(); 1676 } 1677 if (generic_signature_index != 0) { 1678 access_flags.set_field_has_generic_signature(); 1679 fa[generic_signature_slot] = generic_signature_index; 1680 generic_signature_slot ++; 1681 num_generic_signature ++; 1682 } 1683 } 1684 1685 FieldInfo* const field = FieldInfo::from_field_array(fa, n); 1686 field->initialize(access_flags.as_short(), 1687 name_index, 1688 signature_index, 1689 constantvalue_index); 1690 const BasicType type = cp->basic_type_for_signature_at(signature_index); 1691 1692 // Remember how many oops we encountered and compute allocation type 1693 const FieldAllocationType atype = fac->update(is_static, type, access_flags.is_flattenable()); 1694 field->set_allocation_type(atype); 1695 1696 // After field is initialized with type, we can augment it with aux info 1697 if (parsed_annotations.has_any_annotations()) 1698 parsed_annotations.apply_to(field); 1699 } 1700 1701 int index = length; 1702 if (num_injected != 0) { 1703 for (int n = 0; n < num_injected; n++) { 1704 // Check for duplicates 1705 if (injected[n].may_be_java) { 1706 const Symbol* const name = injected[n].name(); 1707 const Symbol* const signature = injected[n].signature(); 1708 bool duplicate = false; 1709 for (int i = 0; i < length; i++) { 1710 const FieldInfo* const f = FieldInfo::from_field_array(fa, i); 1711 if (name == cp->symbol_at(f->name_index()) && 1712 signature == cp->symbol_at(f->signature_index())) { 1713 // Symbol is desclared in Java so skip this one 1714 duplicate = true; 1715 break; 1716 } 1717 } 1718 if (duplicate) { 1719 // These will be removed from the field array at the end 1720 continue; 1721 } 1722 } 1723 1724 // Injected field 1725 FieldInfo* const field = FieldInfo::from_field_array(fa, index); 1726 field->initialize(JVM_ACC_FIELD_INTERNAL, 1727 injected[n].name_index, 1728 injected[n].signature_index, 1729 0); 1730 1731 const BasicType type = FieldType::basic_type(injected[n].signature()); 1732 1733 // Remember how many oops we encountered and compute allocation type 1734 const FieldAllocationType atype = fac->update(false, type, false); 1735 field->set_allocation_type(atype); 1736 index++; 1737 } 1738 } 1739 1740 if (is_value_type) { 1741 index = length + num_injected; 1742 FieldInfo* const field = FieldInfo::from_field_array(fa, index); 1743 field->initialize(JVM_ACC_FIELD_INTERNAL | JVM_ACC_STATIC, 1744 vmSymbols::default_value_name_enum, 1745 vmSymbols::java_lang_Object_enum, 1746 0); 1747 const BasicType type = FieldType::basic_type(vmSymbols::object_signature()); 1748 const FieldAllocationType atype = fac->update(true, type, false); 1749 field->set_allocation_type(atype); 1750 index++; 1751 } 1752 1753 assert(NULL == _fields, "invariant"); 1754 1755 _fields = 1756 MetadataFactory::new_array<u2>(_loader_data, 1757 index * FieldInfo::field_slots + num_generic_signature, 1758 CHECK); 1759 // Sometimes injected fields already exist in the Java source so 1760 // the fields array could be too long. In that case the 1761 // fields array is trimed. Also unused slots that were reserved 1762 // for generic signature indexes are discarded. 1763 { 1764 int i = 0; 1765 for (; i < index * FieldInfo::field_slots; i++) { 1766 _fields->at_put(i, fa[i]); 1767 } 1768 for (int j = total_fields * FieldInfo::field_slots; 1769 j < generic_signature_slot; j++) { 1770 _fields->at_put(i++, fa[j]); 1771 } 1772 assert(_fields->length() == i, ""); 1773 } 1774 1775 if (_need_verify && length > 1) { 1776 // Check duplicated fields 1777 ResourceMark rm(THREAD); 1778 NameSigHash** names_and_sigs = NEW_RESOURCE_ARRAY_IN_THREAD( 1779 THREAD, NameSigHash*, HASH_ROW_SIZE); 1780 initialize_hashtable(names_and_sigs); 1781 bool dup = false; 1782 const Symbol* name = NULL; 1783 const Symbol* sig = NULL; 1784 { 1785 debug_only(NoSafepointVerifier nsv;) 1786 for (AllFieldStream fs(_fields, cp); !fs.done(); fs.next()) { 1787 name = fs.name(); 1788 sig = fs.signature(); 1789 // If no duplicates, add name/signature in hashtable names_and_sigs. 1790 if (!put_after_lookup(name, sig, names_and_sigs)) { 1791 dup = true; 1792 break; 1793 } 1794 } 1795 } 1796 if (dup) { 1797 classfile_parse_error("Duplicate field name \"%s\" with signature \"%s\" in class file %s", 1798 name->as_C_string(), sig->as_klass_external_name(), CHECK); 1799 } 1800 } 1801 } 1802 1803 1804 const ClassFileParser::unsafe_u2* ClassFileParser::parse_exception_table(const ClassFileStream* const cfs, 1805 u4 code_length, 1806 u4 exception_table_length, 1807 TRAPS) { 1808 assert(cfs != NULL, "invariant"); 1809 1810 const unsafe_u2* const exception_table_start = cfs->current(); 1811 assert(exception_table_start != NULL, "null exception table"); 1812 1813 cfs->guarantee_more(8 * exception_table_length, CHECK_NULL); // start_pc, 1814 // end_pc, 1815 // handler_pc, 1816 // catch_type_index 1817 1818 // Will check legal target after parsing code array in verifier. 1819 if (_need_verify) { 1820 for (unsigned int i = 0; i < exception_table_length; i++) { 1821 const u2 start_pc = cfs->get_u2_fast(); 1822 const u2 end_pc = cfs->get_u2_fast(); 1823 const u2 handler_pc = cfs->get_u2_fast(); 1824 const u2 catch_type_index = cfs->get_u2_fast(); 1825 guarantee_property((start_pc < end_pc) && (end_pc <= code_length), 1826 "Illegal exception table range in class file %s", 1827 CHECK_NULL); 1828 guarantee_property(handler_pc < code_length, 1829 "Illegal exception table handler in class file %s", 1830 CHECK_NULL); 1831 if (catch_type_index != 0) { 1832 guarantee_property(valid_klass_reference_at(catch_type_index), 1833 "Catch type in exception table has bad constant type in class file %s", CHECK_NULL); 1834 } 1835 } 1836 } else { 1837 cfs->skip_u2_fast(exception_table_length * 4); 1838 } 1839 return exception_table_start; 1840 } 1841 1842 void ClassFileParser::parse_linenumber_table(u4 code_attribute_length, 1843 u4 code_length, 1844 CompressedLineNumberWriteStream**const write_stream, 1845 TRAPS) { 1846 1847 const ClassFileStream* const cfs = _stream; 1848 unsigned int num_entries = cfs->get_u2(CHECK); 1849 1850 // Each entry is a u2 start_pc, and a u2 line_number 1851 const unsigned int length_in_bytes = num_entries * (sizeof(u2) * 2); 1852 1853 // Verify line number attribute and table length 1854 check_property( 1855 code_attribute_length == sizeof(u2) + length_in_bytes, 1856 "LineNumberTable attribute has wrong length in class file %s", CHECK); 1857 1858 cfs->guarantee_more(length_in_bytes, CHECK); 1859 1860 if ((*write_stream) == NULL) { 1861 if (length_in_bytes > fixed_buffer_size) { 1862 (*write_stream) = new CompressedLineNumberWriteStream(length_in_bytes); 1863 } else { 1864 (*write_stream) = new CompressedLineNumberWriteStream( 1865 _linenumbertable_buffer, fixed_buffer_size); 1866 } 1867 } 1868 1869 while (num_entries-- > 0) { 1870 const u2 bci = cfs->get_u2_fast(); // start_pc 1871 const u2 line = cfs->get_u2_fast(); // line_number 1872 guarantee_property(bci < code_length, 1873 "Invalid pc in LineNumberTable in class file %s", CHECK); 1874 (*write_stream)->write_pair(bci, line); 1875 } 1876 } 1877 1878 1879 class LVT_Hash : public AllStatic { 1880 public: 1881 1882 static bool equals(LocalVariableTableElement const& e0, LocalVariableTableElement const& e1) { 1883 /* 1884 * 3-tuple start_bci/length/slot has to be unique key, 1885 * so the following comparison seems to be redundant: 1886 * && elem->name_cp_index == entry->_elem->name_cp_index 1887 */ 1888 return (e0.start_bci == e1.start_bci && 1889 e0.length == e1.length && 1890 e0.name_cp_index == e1.name_cp_index && 1891 e0.slot == e1.slot); 1892 } 1893 1894 static unsigned int hash(LocalVariableTableElement const& e0) { 1895 unsigned int raw_hash = e0.start_bci; 1896 1897 raw_hash = e0.length + raw_hash * 37; 1898 raw_hash = e0.name_cp_index + raw_hash * 37; 1899 raw_hash = e0.slot + raw_hash * 37; 1900 1901 return raw_hash; 1902 } 1903 }; 1904 1905 1906 // Class file LocalVariableTable elements. 1907 class Classfile_LVT_Element VALUE_OBJ_CLASS_SPEC { 1908 public: 1909 u2 start_bci; 1910 u2 length; 1911 u2 name_cp_index; 1912 u2 descriptor_cp_index; 1913 u2 slot; 1914 }; 1915 1916 static void copy_lvt_element(const Classfile_LVT_Element* const src, 1917 LocalVariableTableElement* const lvt) { 1918 lvt->start_bci = Bytes::get_Java_u2((u1*) &src->start_bci); 1919 lvt->length = Bytes::get_Java_u2((u1*) &src->length); 1920 lvt->name_cp_index = Bytes::get_Java_u2((u1*) &src->name_cp_index); 1921 lvt->descriptor_cp_index = Bytes::get_Java_u2((u1*) &src->descriptor_cp_index); 1922 lvt->signature_cp_index = 0; 1923 lvt->slot = Bytes::get_Java_u2((u1*) &src->slot); 1924 } 1925 1926 // Function is used to parse both attributes: 1927 // LocalVariableTable (LVT) and LocalVariableTypeTable (LVTT) 1928 const ClassFileParser::unsafe_u2* ClassFileParser::parse_localvariable_table(const ClassFileStream* cfs, 1929 u4 code_length, 1930 u2 max_locals, 1931 u4 code_attribute_length, 1932 u2* const localvariable_table_length, 1933 bool isLVTT, 1934 TRAPS) { 1935 const char* const tbl_name = (isLVTT) ? "LocalVariableTypeTable" : "LocalVariableTable"; 1936 *localvariable_table_length = cfs->get_u2(CHECK_NULL); 1937 const unsigned int size = 1938 (*localvariable_table_length) * sizeof(Classfile_LVT_Element) / sizeof(u2); 1939 1940 const ConstantPool* const cp = _cp; 1941 1942 // Verify local variable table attribute has right length 1943 if (_need_verify) { 1944 guarantee_property(code_attribute_length == (sizeof(*localvariable_table_length) + size * sizeof(u2)), 1945 "%s has wrong length in class file %s", tbl_name, CHECK_NULL); 1946 } 1947 1948 const unsafe_u2* const localvariable_table_start = cfs->current(); 1949 assert(localvariable_table_start != NULL, "null local variable table"); 1950 if (!_need_verify) { 1951 cfs->skip_u2_fast(size); 1952 } else { 1953 cfs->guarantee_more(size * 2, CHECK_NULL); 1954 for(int i = 0; i < (*localvariable_table_length); i++) { 1955 const u2 start_pc = cfs->get_u2_fast(); 1956 const u2 length = cfs->get_u2_fast(); 1957 const u2 name_index = cfs->get_u2_fast(); 1958 const u2 descriptor_index = cfs->get_u2_fast(); 1959 const u2 index = cfs->get_u2_fast(); 1960 // Assign to a u4 to avoid overflow 1961 const u4 end_pc = (u4)start_pc + (u4)length; 1962 1963 if (start_pc >= code_length) { 1964 classfile_parse_error( 1965 "Invalid start_pc %u in %s in class file %s", 1966 start_pc, tbl_name, CHECK_NULL); 1967 } 1968 if (end_pc > code_length) { 1969 classfile_parse_error( 1970 "Invalid length %u in %s in class file %s", 1971 length, tbl_name, CHECK_NULL); 1972 } 1973 const int cp_size = cp->length(); 1974 guarantee_property(valid_symbol_at(name_index), 1975 "Name index %u in %s has bad constant type in class file %s", 1976 name_index, tbl_name, CHECK_NULL); 1977 guarantee_property(valid_symbol_at(descriptor_index), 1978 "Signature index %u in %s has bad constant type in class file %s", 1979 descriptor_index, tbl_name, CHECK_NULL); 1980 1981 const Symbol* const name = cp->symbol_at(name_index); 1982 const Symbol* const sig = cp->symbol_at(descriptor_index); 1983 verify_legal_field_name(name, CHECK_NULL); 1984 u2 extra_slot = 0; 1985 if (!isLVTT) { 1986 verify_legal_field_signature(name, sig, CHECK_NULL); 1987 1988 // 4894874: check special cases for double and long local variables 1989 if (sig == vmSymbols::type_signature(T_DOUBLE) || 1990 sig == vmSymbols::type_signature(T_LONG)) { 1991 extra_slot = 1; 1992 } 1993 } 1994 guarantee_property((index + extra_slot) < max_locals, 1995 "Invalid index %u in %s in class file %s", 1996 index, tbl_name, CHECK_NULL); 1997 } 1998 } 1999 return localvariable_table_start; 2000 } 2001 2002 2003 void ClassFileParser::parse_type_array(u2 array_length, 2004 u4 code_length, 2005 u4* const u1_index, 2006 u4* const u2_index, 2007 u1* const u1_array, 2008 u2* const u2_array, 2009 TRAPS) { 2010 const ClassFileStream* const cfs = _stream; 2011 u2 index = 0; // index in the array with long/double occupying two slots 2012 u4 i1 = *u1_index; 2013 u4 i2 = *u2_index + 1; 2014 for(int i = 0; i < array_length; i++) { 2015 const u1 tag = u1_array[i1++] = cfs->get_u1(CHECK); 2016 index++; 2017 if (tag == ITEM_Long || tag == ITEM_Double) { 2018 index++; 2019 } else if (tag == ITEM_Object) { 2020 const u2 class_index = u2_array[i2++] = cfs->get_u2(CHECK); 2021 guarantee_property(valid_klass_reference_at(class_index), 2022 "Bad class index %u in StackMap in class file %s", 2023 class_index, CHECK); 2024 } else if (tag == ITEM_Uninitialized) { 2025 const u2 offset = u2_array[i2++] = cfs->get_u2(CHECK); 2026 guarantee_property( 2027 offset < code_length, 2028 "Bad uninitialized type offset %u in StackMap in class file %s", 2029 offset, CHECK); 2030 } else { 2031 guarantee_property( 2032 tag <= (u1)ITEM_Uninitialized, 2033 "Unknown variable type %u in StackMap in class file %s", 2034 tag, CHECK); 2035 } 2036 } 2037 u2_array[*u2_index] = index; 2038 *u1_index = i1; 2039 *u2_index = i2; 2040 } 2041 2042 static const u1* parse_stackmap_table(const ClassFileStream* const cfs, 2043 u4 code_attribute_length, 2044 bool need_verify, 2045 TRAPS) { 2046 assert(cfs != NULL, "invariant"); 2047 2048 if (0 == code_attribute_length) { 2049 return NULL; 2050 } 2051 2052 const u1* const stackmap_table_start = cfs->current(); 2053 assert(stackmap_table_start != NULL, "null stackmap table"); 2054 2055 // check code_attribute_length first 2056 cfs->skip_u1(code_attribute_length, CHECK_NULL); 2057 2058 if (!need_verify && !DumpSharedSpaces) { 2059 return NULL; 2060 } 2061 return stackmap_table_start; 2062 } 2063 2064 const ClassFileParser::unsafe_u2* ClassFileParser::parse_checked_exceptions(const ClassFileStream* const cfs, 2065 u2* const checked_exceptions_length, 2066 u4 method_attribute_length, 2067 TRAPS) { 2068 assert(cfs != NULL, "invariant"); 2069 assert(checked_exceptions_length != NULL, "invariant"); 2070 2071 cfs->guarantee_more(2, CHECK_NULL); // checked_exceptions_length 2072 *checked_exceptions_length = cfs->get_u2_fast(); 2073 const unsigned int size = 2074 (*checked_exceptions_length) * sizeof(CheckedExceptionElement) / sizeof(u2); 2075 const unsafe_u2* const checked_exceptions_start = cfs->current(); 2076 assert(checked_exceptions_start != NULL, "null checked exceptions"); 2077 if (!_need_verify) { 2078 cfs->skip_u2_fast(size); 2079 } else { 2080 // Verify each value in the checked exception table 2081 u2 checked_exception; 2082 const u2 len = *checked_exceptions_length; 2083 cfs->guarantee_more(2 * len, CHECK_NULL); 2084 for (int i = 0; i < len; i++) { 2085 checked_exception = cfs->get_u2_fast(); 2086 check_property( 2087 valid_klass_reference_at(checked_exception), 2088 "Exception name has bad type at constant pool %u in class file %s", 2089 checked_exception, CHECK_NULL); 2090 } 2091 } 2092 // check exceptions attribute length 2093 if (_need_verify) { 2094 guarantee_property(method_attribute_length == (sizeof(*checked_exceptions_length) + 2095 sizeof(u2) * size), 2096 "Exceptions attribute has wrong length in class file %s", CHECK_NULL); 2097 } 2098 return checked_exceptions_start; 2099 } 2100 2101 void ClassFileParser::throwIllegalSignature(const char* type, 2102 const Symbol* name, 2103 const Symbol* sig, 2104 TRAPS) const { 2105 assert(name != NULL, "invariant"); 2106 assert(sig != NULL, "invariant"); 2107 2108 ResourceMark rm(THREAD); 2109 Exceptions::fthrow(THREAD_AND_LOCATION, 2110 vmSymbols::java_lang_ClassFormatError(), 2111 "%s \"%s\" in class %s has illegal signature \"%s\"", type, 2112 name->as_C_string(), _class_name->as_C_string(), sig->as_C_string()); 2113 } 2114 2115 AnnotationCollector::ID 2116 AnnotationCollector::annotation_index(const ClassLoaderData* loader_data, 2117 const Symbol* name) { 2118 const vmSymbols::SID sid = vmSymbols::find_sid(name); 2119 // Privileged code can use all annotations. Other code silently drops some. 2120 const bool privileged = loader_data->is_the_null_class_loader_data() || 2121 loader_data->is_platform_class_loader_data() || 2122 loader_data->is_anonymous(); 2123 switch (sid) { 2124 case vmSymbols::VM_SYMBOL_ENUM_NAME(reflect_CallerSensitive_signature): { 2125 if (_location != _in_method) break; // only allow for methods 2126 if (!privileged) break; // only allow in privileged code 2127 return _method_CallerSensitive; 2128 } 2129 case vmSymbols::VM_SYMBOL_ENUM_NAME(jdk_internal_vm_annotation_ForceInline_signature): { 2130 if (_location != _in_method) break; // only allow for methods 2131 if (!privileged) break; // only allow in privileged code 2132 return _method_ForceInline; 2133 } 2134 case vmSymbols::VM_SYMBOL_ENUM_NAME(jdk_internal_vm_annotation_DontInline_signature): { 2135 if (_location != _in_method) break; // only allow for methods 2136 if (!privileged) break; // only allow in privileged code 2137 return _method_DontInline; 2138 } 2139 case vmSymbols::VM_SYMBOL_ENUM_NAME(java_lang_invoke_InjectedProfile_signature): { 2140 if (_location != _in_method) break; // only allow for methods 2141 if (!privileged) break; // only allow in privileged code 2142 return _method_InjectedProfile; 2143 } 2144 case vmSymbols::VM_SYMBOL_ENUM_NAME(java_lang_invoke_LambdaForm_Compiled_signature): { 2145 if (_location != _in_method) break; // only allow for methods 2146 if (!privileged) break; // only allow in privileged code 2147 return _method_LambdaForm_Compiled; 2148 } 2149 case vmSymbols::VM_SYMBOL_ENUM_NAME(java_lang_invoke_LambdaForm_Hidden_signature): { 2150 if (_location != _in_method) break; // only allow for methods 2151 if (!privileged) break; // only allow in privileged code 2152 return _method_LambdaForm_Hidden; 2153 } 2154 case vmSymbols::VM_SYMBOL_ENUM_NAME(jdk_internal_HotSpotIntrinsicCandidate_signature): { 2155 if (_location != _in_method) break; // only allow for methods 2156 if (!privileged) break; // only allow in privileged code 2157 return _method_HotSpotIntrinsicCandidate; 2158 } 2159 case vmSymbols::VM_SYMBOL_ENUM_NAME(jdk_internal_vm_annotation_Stable_signature): { 2160 if (_location != _in_field) break; // only allow for fields 2161 if (!privileged) break; // only allow in privileged code 2162 return _field_Stable; 2163 } 2164 case vmSymbols::VM_SYMBOL_ENUM_NAME(jdk_internal_vm_annotation_Contended_signature): { 2165 if (_location != _in_field && _location != _in_class) { 2166 break; // only allow for fields and classes 2167 } 2168 if (!EnableContended || (RestrictContended && !privileged)) { 2169 break; // honor privileges 2170 } 2171 return _jdk_internal_vm_annotation_Contended; 2172 } 2173 case vmSymbols::VM_SYMBOL_ENUM_NAME(jdk_internal_vm_annotation_ReservedStackAccess_signature): { 2174 if (_location != _in_method) break; // only allow for methods 2175 if (RestrictReservedStack && !privileged) break; // honor privileges 2176 return _jdk_internal_vm_annotation_ReservedStackAccess; 2177 } 2178 default: { 2179 break; 2180 } 2181 } 2182 return AnnotationCollector::_unknown; 2183 } 2184 2185 void ClassFileParser::FieldAnnotationCollector::apply_to(FieldInfo* f) { 2186 if (is_contended()) 2187 f->set_contended_group(contended_group()); 2188 if (is_stable()) 2189 f->set_stable(true); 2190 } 2191 2192 ClassFileParser::FieldAnnotationCollector::~FieldAnnotationCollector() { 2193 // If there's an error deallocate metadata for field annotations 2194 MetadataFactory::free_array<u1>(_loader_data, _field_annotations); 2195 MetadataFactory::free_array<u1>(_loader_data, _field_type_annotations); 2196 } 2197 2198 void MethodAnnotationCollector::apply_to(const methodHandle& m) { 2199 if (has_annotation(_method_CallerSensitive)) 2200 m->set_caller_sensitive(true); 2201 if (has_annotation(_method_ForceInline)) 2202 m->set_force_inline(true); 2203 if (has_annotation(_method_DontInline)) 2204 m->set_dont_inline(true); 2205 if (has_annotation(_method_InjectedProfile)) 2206 m->set_has_injected_profile(true); 2207 if (has_annotation(_method_LambdaForm_Compiled) && m->intrinsic_id() == vmIntrinsics::_none) 2208 m->set_intrinsic_id(vmIntrinsics::_compiledLambdaForm); 2209 if (has_annotation(_method_LambdaForm_Hidden)) 2210 m->set_hidden(true); 2211 if (has_annotation(_method_HotSpotIntrinsicCandidate) && !m->is_synthetic()) 2212 m->set_intrinsic_candidate(true); 2213 if (has_annotation(_jdk_internal_vm_annotation_ReservedStackAccess)) 2214 m->set_has_reserved_stack_access(true); 2215 } 2216 2217 void ClassFileParser::ClassAnnotationCollector::apply_to(InstanceKlass* ik) { 2218 assert(ik != NULL, "invariant"); 2219 ik->set_is_contended(is_contended()); 2220 } 2221 2222 #define MAX_ARGS_SIZE 255 2223 #define MAX_CODE_SIZE 65535 2224 #define INITIAL_MAX_LVT_NUMBER 256 2225 2226 /* Copy class file LVT's/LVTT's into the HotSpot internal LVT. 2227 * 2228 * Rules for LVT's and LVTT's are: 2229 * - There can be any number of LVT's and LVTT's. 2230 * - If there are n LVT's, it is the same as if there was just 2231 * one LVT containing all the entries from the n LVT's. 2232 * - There may be no more than one LVT entry per local variable. 2233 * Two LVT entries are 'equal' if these fields are the same: 2234 * start_pc, length, name, slot 2235 * - There may be no more than one LVTT entry per each LVT entry. 2236 * Each LVTT entry has to match some LVT entry. 2237 * - HotSpot internal LVT keeps natural ordering of class file LVT entries. 2238 */ 2239 void ClassFileParser::copy_localvariable_table(const ConstMethod* cm, 2240 int lvt_cnt, 2241 u2* const localvariable_table_length, 2242 const unsafe_u2** const localvariable_table_start, 2243 int lvtt_cnt, 2244 u2* const localvariable_type_table_length, 2245 const unsafe_u2** const localvariable_type_table_start, 2246 TRAPS) { 2247 2248 ResourceMark rm(THREAD); 2249 2250 typedef ResourceHashtable<LocalVariableTableElement, LocalVariableTableElement*, 2251 &LVT_Hash::hash, &LVT_Hash::equals> LVT_HashTable; 2252 2253 LVT_HashTable* const table = new LVT_HashTable(); 2254 2255 // To fill LocalVariableTable in 2256 const Classfile_LVT_Element* cf_lvt; 2257 LocalVariableTableElement* lvt = cm->localvariable_table_start(); 2258 2259 for (int tbl_no = 0; tbl_no < lvt_cnt; tbl_no++) { 2260 cf_lvt = (Classfile_LVT_Element *) localvariable_table_start[tbl_no]; 2261 for (int idx = 0; idx < localvariable_table_length[tbl_no]; idx++, lvt++) { 2262 copy_lvt_element(&cf_lvt[idx], lvt); 2263 // If no duplicates, add LVT elem in hashtable. 2264 if (table->put(*lvt, lvt) == false 2265 && _need_verify 2266 && _major_version >= JAVA_1_5_VERSION) { 2267 classfile_parse_error("Duplicated LocalVariableTable attribute " 2268 "entry for '%s' in class file %s", 2269 _cp->symbol_at(lvt->name_cp_index)->as_utf8(), 2270 CHECK); 2271 } 2272 } 2273 } 2274 2275 // To merge LocalVariableTable and LocalVariableTypeTable 2276 const Classfile_LVT_Element* cf_lvtt; 2277 LocalVariableTableElement lvtt_elem; 2278 2279 for (int tbl_no = 0; tbl_no < lvtt_cnt; tbl_no++) { 2280 cf_lvtt = (Classfile_LVT_Element *) localvariable_type_table_start[tbl_no]; 2281 for (int idx = 0; idx < localvariable_type_table_length[tbl_no]; idx++) { 2282 copy_lvt_element(&cf_lvtt[idx], &lvtt_elem); 2283 LocalVariableTableElement** entry = table->get(lvtt_elem); 2284 if (entry == NULL) { 2285 if (_need_verify) { 2286 classfile_parse_error("LVTT entry for '%s' in class file %s " 2287 "does not match any LVT entry", 2288 _cp->symbol_at(lvtt_elem.name_cp_index)->as_utf8(), 2289 CHECK); 2290 } 2291 } else if ((*entry)->signature_cp_index != 0 && _need_verify) { 2292 classfile_parse_error("Duplicated LocalVariableTypeTable attribute " 2293 "entry for '%s' in class file %s", 2294 _cp->symbol_at(lvtt_elem.name_cp_index)->as_utf8(), 2295 CHECK); 2296 } else { 2297 // to add generic signatures into LocalVariableTable 2298 (*entry)->signature_cp_index = lvtt_elem.descriptor_cp_index; 2299 } 2300 } 2301 } 2302 } 2303 2304 2305 void ClassFileParser::copy_method_annotations(ConstMethod* cm, 2306 const u1* runtime_visible_annotations, 2307 int runtime_visible_annotations_length, 2308 const u1* runtime_invisible_annotations, 2309 int runtime_invisible_annotations_length, 2310 const u1* runtime_visible_parameter_annotations, 2311 int runtime_visible_parameter_annotations_length, 2312 const u1* runtime_invisible_parameter_annotations, 2313 int runtime_invisible_parameter_annotations_length, 2314 const u1* runtime_visible_type_annotations, 2315 int runtime_visible_type_annotations_length, 2316 const u1* runtime_invisible_type_annotations, 2317 int runtime_invisible_type_annotations_length, 2318 const u1* annotation_default, 2319 int annotation_default_length, 2320 TRAPS) { 2321 2322 AnnotationArray* a; 2323 2324 if (runtime_visible_annotations_length + 2325 runtime_invisible_annotations_length > 0) { 2326 a = assemble_annotations(runtime_visible_annotations, 2327 runtime_visible_annotations_length, 2328 runtime_invisible_annotations, 2329 runtime_invisible_annotations_length, 2330 CHECK); 2331 cm->set_method_annotations(a); 2332 } 2333 2334 if (runtime_visible_parameter_annotations_length + 2335 runtime_invisible_parameter_annotations_length > 0) { 2336 a = assemble_annotations(runtime_visible_parameter_annotations, 2337 runtime_visible_parameter_annotations_length, 2338 runtime_invisible_parameter_annotations, 2339 runtime_invisible_parameter_annotations_length, 2340 CHECK); 2341 cm->set_parameter_annotations(a); 2342 } 2343 2344 if (annotation_default_length > 0) { 2345 a = assemble_annotations(annotation_default, 2346 annotation_default_length, 2347 NULL, 2348 0, 2349 CHECK); 2350 cm->set_default_annotations(a); 2351 } 2352 2353 if (runtime_visible_type_annotations_length + 2354 runtime_invisible_type_annotations_length > 0) { 2355 a = assemble_annotations(runtime_visible_type_annotations, 2356 runtime_visible_type_annotations_length, 2357 runtime_invisible_type_annotations, 2358 runtime_invisible_type_annotations_length, 2359 CHECK); 2360 cm->set_type_annotations(a); 2361 } 2362 } 2363 2364 2365 // Note: the parse_method below is big and clunky because all parsing of the code and exceptions 2366 // attribute is inlined. This is cumbersome to avoid since we inline most of the parts in the 2367 // Method* to save footprint, so we only know the size of the resulting Method* when the 2368 // entire method attribute is parsed. 2369 // 2370 // The promoted_flags parameter is used to pass relevant access_flags 2371 // from the method back up to the containing klass. These flag values 2372 // are added to klass's access_flags. 2373 2374 Method* ClassFileParser::parse_method(const ClassFileStream* const cfs, 2375 bool is_interface, 2376 bool is_value_type, 2377 const ConstantPool* cp, 2378 AccessFlags* const promoted_flags, 2379 TRAPS) { 2380 assert(cfs != NULL, "invariant"); 2381 assert(cp != NULL, "invariant"); 2382 assert(promoted_flags != NULL, "invariant"); 2383 2384 ResourceMark rm(THREAD); 2385 // Parse fixed parts: 2386 // access_flags, name_index, descriptor_index, attributes_count 2387 cfs->guarantee_more(8, CHECK_NULL); 2388 2389 int flags = cfs->get_u2_fast(); 2390 const u2 name_index = cfs->get_u2_fast(); 2391 const int cp_size = cp->length(); 2392 check_property( 2393 valid_symbol_at(name_index), 2394 "Illegal constant pool index %u for method name in class file %s", 2395 name_index, CHECK_NULL); 2396 const Symbol* const name = cp->symbol_at(name_index); 2397 verify_legal_method_name(name, CHECK_NULL); 2398 2399 const u2 signature_index = cfs->get_u2_fast(); 2400 guarantee_property( 2401 valid_symbol_at(signature_index), 2402 "Illegal constant pool index %u for method signature in class file %s", 2403 signature_index, CHECK_NULL); 2404 const Symbol* const signature = cp->symbol_at(signature_index); 2405 2406 if (name == vmSymbols::class_initializer_name()) { 2407 // We ignore the other access flags for a valid class initializer. 2408 // (JVM Spec 2nd ed., chapter 4.6) 2409 if (_major_version < 51) { // backward compatibility 2410 flags = JVM_ACC_STATIC; 2411 } else if ((flags & JVM_ACC_STATIC) == JVM_ACC_STATIC) { 2412 flags &= JVM_ACC_STATIC | JVM_ACC_STRICT; 2413 } else { 2414 classfile_parse_error("Method <clinit> is not static in class file %s", CHECK_NULL); 2415 } 2416 } else { 2417 verify_legal_method_modifiers(flags, is_interface, is_value_type, name, CHECK_NULL); 2418 } 2419 2420 if (name == vmSymbols::object_initializer_name()) { 2421 if (is_interface) { 2422 classfile_parse_error("Interface cannot have a method named <init>, class file %s", CHECK_NULL); 2423 /* TBD: uncomment when javac stops generating <init>() for value types. 2424 } else if (is_value_type) { 2425 classfile_parse_error("Value Type cannot have a method named <init>, class file %s", CHECK_NULL); 2426 */ 2427 } 2428 } 2429 2430 int args_size = -1; // only used when _need_verify is true 2431 if (_need_verify) { 2432 args_size = ((flags & JVM_ACC_STATIC) ? 0 : 1) + 2433 verify_legal_method_signature(name, signature, CHECK_NULL); 2434 if (args_size > MAX_ARGS_SIZE) { 2435 classfile_parse_error("Too many arguments in method signature in class file %s", CHECK_NULL); 2436 } 2437 } 2438 2439 AccessFlags access_flags(flags & JVM_RECOGNIZED_METHOD_MODIFIERS); 2440 2441 // Default values for code and exceptions attribute elements 2442 u2 max_stack = 0; 2443 u2 max_locals = 0; 2444 u4 code_length = 0; 2445 const u1* code_start = 0; 2446 u2 exception_table_length = 0; 2447 const unsafe_u2* exception_table_start = NULL; // (potentially unaligned) pointer to array of u2 elements 2448 Array<int>* exception_handlers = Universe::the_empty_int_array(); 2449 u2 checked_exceptions_length = 0; 2450 const unsafe_u2* checked_exceptions_start = NULL; // (potentially unaligned) pointer to array of u2 elements 2451 CompressedLineNumberWriteStream* linenumber_table = NULL; 2452 int linenumber_table_length = 0; 2453 int total_lvt_length = 0; 2454 u2 lvt_cnt = 0; 2455 u2 lvtt_cnt = 0; 2456 bool lvt_allocated = false; 2457 u2 max_lvt_cnt = INITIAL_MAX_LVT_NUMBER; 2458 u2 max_lvtt_cnt = INITIAL_MAX_LVT_NUMBER; 2459 u2* localvariable_table_length = NULL; 2460 const unsafe_u2** localvariable_table_start = NULL; // (potentially unaligned) pointer to array of LVT attributes 2461 u2* localvariable_type_table_length = NULL; 2462 const unsafe_u2** localvariable_type_table_start = NULL; // (potentially unaligned) pointer to LVTT attributes 2463 int method_parameters_length = -1; 2464 const u1* method_parameters_data = NULL; 2465 bool method_parameters_seen = false; 2466 bool parsed_code_attribute = false; 2467 bool parsed_checked_exceptions_attribute = false; 2468 bool parsed_stackmap_attribute = false; 2469 // stackmap attribute - JDK1.5 2470 const u1* stackmap_data = NULL; 2471 int stackmap_data_length = 0; 2472 u2 generic_signature_index = 0; 2473 MethodAnnotationCollector parsed_annotations; 2474 const u1* runtime_visible_annotations = NULL; 2475 int runtime_visible_annotations_length = 0; 2476 const u1* runtime_invisible_annotations = NULL; 2477 int runtime_invisible_annotations_length = 0; 2478 const u1* runtime_visible_parameter_annotations = NULL; 2479 int runtime_visible_parameter_annotations_length = 0; 2480 const u1* runtime_invisible_parameter_annotations = NULL; 2481 int runtime_invisible_parameter_annotations_length = 0; 2482 const u1* runtime_visible_type_annotations = NULL; 2483 int runtime_visible_type_annotations_length = 0; 2484 const u1* runtime_invisible_type_annotations = NULL; 2485 int runtime_invisible_type_annotations_length = 0; 2486 bool runtime_invisible_annotations_exists = false; 2487 bool runtime_invisible_type_annotations_exists = false; 2488 bool runtime_invisible_parameter_annotations_exists = false; 2489 const u1* annotation_default = NULL; 2490 int annotation_default_length = 0; 2491 2492 // Parse code and exceptions attribute 2493 u2 method_attributes_count = cfs->get_u2_fast(); 2494 while (method_attributes_count--) { 2495 cfs->guarantee_more(6, CHECK_NULL); // method_attribute_name_index, method_attribute_length 2496 const u2 method_attribute_name_index = cfs->get_u2_fast(); 2497 const u4 method_attribute_length = cfs->get_u4_fast(); 2498 check_property( 2499 valid_symbol_at(method_attribute_name_index), 2500 "Invalid method attribute name index %u in class file %s", 2501 method_attribute_name_index, CHECK_NULL); 2502 2503 const Symbol* const method_attribute_name = cp->symbol_at(method_attribute_name_index); 2504 if (method_attribute_name == vmSymbols::tag_code()) { 2505 // Parse Code attribute 2506 if (_need_verify) { 2507 guarantee_property( 2508 !access_flags.is_native() && !access_flags.is_abstract(), 2509 "Code attribute in native or abstract methods in class file %s", 2510 CHECK_NULL); 2511 } 2512 if (parsed_code_attribute) { 2513 classfile_parse_error("Multiple Code attributes in class file %s", 2514 CHECK_NULL); 2515 } 2516 parsed_code_attribute = true; 2517 2518 // Stack size, locals size, and code size 2519 if (_major_version == 45 && _minor_version <= 2) { 2520 cfs->guarantee_more(4, CHECK_NULL); 2521 max_stack = cfs->get_u1_fast(); 2522 max_locals = cfs->get_u1_fast(); 2523 code_length = cfs->get_u2_fast(); 2524 } else { 2525 cfs->guarantee_more(8, CHECK_NULL); 2526 max_stack = cfs->get_u2_fast(); 2527 max_locals = cfs->get_u2_fast(); 2528 code_length = cfs->get_u4_fast(); 2529 } 2530 if (_need_verify) { 2531 guarantee_property(args_size <= max_locals, 2532 "Arguments can't fit into locals in class file %s", 2533 CHECK_NULL); 2534 guarantee_property(code_length > 0 && code_length <= MAX_CODE_SIZE, 2535 "Invalid method Code length %u in class file %s", 2536 code_length, CHECK_NULL); 2537 } 2538 // Code pointer 2539 code_start = cfs->current(); 2540 assert(code_start != NULL, "null code start"); 2541 cfs->guarantee_more(code_length, CHECK_NULL); 2542 cfs->skip_u1_fast(code_length); 2543 2544 // Exception handler table 2545 cfs->guarantee_more(2, CHECK_NULL); // exception_table_length 2546 exception_table_length = cfs->get_u2_fast(); 2547 if (exception_table_length > 0) { 2548 exception_table_start = parse_exception_table(cfs, 2549 code_length, 2550 exception_table_length, 2551 CHECK_NULL); 2552 } 2553 2554 // Parse additional attributes in code attribute 2555 cfs->guarantee_more(2, CHECK_NULL); // code_attributes_count 2556 u2 code_attributes_count = cfs->get_u2_fast(); 2557 2558 unsigned int calculated_attribute_length = 0; 2559 2560 if (_major_version > 45 || (_major_version == 45 && _minor_version > 2)) { 2561 calculated_attribute_length = 2562 sizeof(max_stack) + sizeof(max_locals) + sizeof(code_length); 2563 } else { 2564 // max_stack, locals and length are smaller in pre-version 45.2 classes 2565 calculated_attribute_length = sizeof(u1) + sizeof(u1) + sizeof(u2); 2566 } 2567 calculated_attribute_length += 2568 code_length + 2569 sizeof(exception_table_length) + 2570 sizeof(code_attributes_count) + 2571 exception_table_length * 2572 ( sizeof(u2) + // start_pc 2573 sizeof(u2) + // end_pc 2574 sizeof(u2) + // handler_pc 2575 sizeof(u2) ); // catch_type_index 2576 2577 while (code_attributes_count--) { 2578 cfs->guarantee_more(6, CHECK_NULL); // code_attribute_name_index, code_attribute_length 2579 const u2 code_attribute_name_index = cfs->get_u2_fast(); 2580 const u4 code_attribute_length = cfs->get_u4_fast(); 2581 calculated_attribute_length += code_attribute_length + 2582 sizeof(code_attribute_name_index) + 2583 sizeof(code_attribute_length); 2584 check_property(valid_symbol_at(code_attribute_name_index), 2585 "Invalid code attribute name index %u in class file %s", 2586 code_attribute_name_index, 2587 CHECK_NULL); 2588 if (LoadLineNumberTables && 2589 cp->symbol_at(code_attribute_name_index) == vmSymbols::tag_line_number_table()) { 2590 // Parse and compress line number table 2591 parse_linenumber_table(code_attribute_length, 2592 code_length, 2593 &linenumber_table, 2594 CHECK_NULL); 2595 2596 } else if (LoadLocalVariableTables && 2597 cp->symbol_at(code_attribute_name_index) == vmSymbols::tag_local_variable_table()) { 2598 // Parse local variable table 2599 if (!lvt_allocated) { 2600 localvariable_table_length = NEW_RESOURCE_ARRAY_IN_THREAD( 2601 THREAD, u2, INITIAL_MAX_LVT_NUMBER); 2602 localvariable_table_start = NEW_RESOURCE_ARRAY_IN_THREAD( 2603 THREAD, const unsafe_u2*, INITIAL_MAX_LVT_NUMBER); 2604 localvariable_type_table_length = NEW_RESOURCE_ARRAY_IN_THREAD( 2605 THREAD, u2, INITIAL_MAX_LVT_NUMBER); 2606 localvariable_type_table_start = NEW_RESOURCE_ARRAY_IN_THREAD( 2607 THREAD, const unsafe_u2*, INITIAL_MAX_LVT_NUMBER); 2608 lvt_allocated = true; 2609 } 2610 if (lvt_cnt == max_lvt_cnt) { 2611 max_lvt_cnt <<= 1; 2612 localvariable_table_length = REALLOC_RESOURCE_ARRAY(u2, localvariable_table_length, lvt_cnt, max_lvt_cnt); 2613 localvariable_table_start = REALLOC_RESOURCE_ARRAY(const unsafe_u2*, localvariable_table_start, lvt_cnt, max_lvt_cnt); 2614 } 2615 localvariable_table_start[lvt_cnt] = 2616 parse_localvariable_table(cfs, 2617 code_length, 2618 max_locals, 2619 code_attribute_length, 2620 &localvariable_table_length[lvt_cnt], 2621 false, // is not LVTT 2622 CHECK_NULL); 2623 total_lvt_length += localvariable_table_length[lvt_cnt]; 2624 lvt_cnt++; 2625 } else if (LoadLocalVariableTypeTables && 2626 _major_version >= JAVA_1_5_VERSION && 2627 cp->symbol_at(code_attribute_name_index) == vmSymbols::tag_local_variable_type_table()) { 2628 if (!lvt_allocated) { 2629 localvariable_table_length = NEW_RESOURCE_ARRAY_IN_THREAD( 2630 THREAD, u2, INITIAL_MAX_LVT_NUMBER); 2631 localvariable_table_start = NEW_RESOURCE_ARRAY_IN_THREAD( 2632 THREAD, const unsafe_u2*, INITIAL_MAX_LVT_NUMBER); 2633 localvariable_type_table_length = NEW_RESOURCE_ARRAY_IN_THREAD( 2634 THREAD, u2, INITIAL_MAX_LVT_NUMBER); 2635 localvariable_type_table_start = NEW_RESOURCE_ARRAY_IN_THREAD( 2636 THREAD, const unsafe_u2*, INITIAL_MAX_LVT_NUMBER); 2637 lvt_allocated = true; 2638 } 2639 // Parse local variable type table 2640 if (lvtt_cnt == max_lvtt_cnt) { 2641 max_lvtt_cnt <<= 1; 2642 localvariable_type_table_length = REALLOC_RESOURCE_ARRAY(u2, localvariable_type_table_length, lvtt_cnt, max_lvtt_cnt); 2643 localvariable_type_table_start = REALLOC_RESOURCE_ARRAY(const unsafe_u2*, localvariable_type_table_start, lvtt_cnt, max_lvtt_cnt); 2644 } 2645 localvariable_type_table_start[lvtt_cnt] = 2646 parse_localvariable_table(cfs, 2647 code_length, 2648 max_locals, 2649 code_attribute_length, 2650 &localvariable_type_table_length[lvtt_cnt], 2651 true, // is LVTT 2652 CHECK_NULL); 2653 lvtt_cnt++; 2654 } else if (_major_version >= Verifier::STACKMAP_ATTRIBUTE_MAJOR_VERSION && 2655 cp->symbol_at(code_attribute_name_index) == vmSymbols::tag_stack_map_table()) { 2656 // Stack map is only needed by the new verifier in JDK1.5. 2657 if (parsed_stackmap_attribute) { 2658 classfile_parse_error("Multiple StackMapTable attributes in class file %s", CHECK_NULL); 2659 } 2660 stackmap_data = parse_stackmap_table(cfs, code_attribute_length, _need_verify, CHECK_NULL); 2661 stackmap_data_length = code_attribute_length; 2662 parsed_stackmap_attribute = true; 2663 } else { 2664 // Skip unknown attributes 2665 cfs->skip_u1(code_attribute_length, CHECK_NULL); 2666 } 2667 } 2668 // check method attribute length 2669 if (_need_verify) { 2670 guarantee_property(method_attribute_length == calculated_attribute_length, 2671 "Code segment has wrong length in class file %s", 2672 CHECK_NULL); 2673 } 2674 } else if (method_attribute_name == vmSymbols::tag_exceptions()) { 2675 // Parse Exceptions attribute 2676 if (parsed_checked_exceptions_attribute) { 2677 classfile_parse_error("Multiple Exceptions attributes in class file %s", 2678 CHECK_NULL); 2679 } 2680 parsed_checked_exceptions_attribute = true; 2681 checked_exceptions_start = 2682 parse_checked_exceptions(cfs, 2683 &checked_exceptions_length, 2684 method_attribute_length, 2685 CHECK_NULL); 2686 } else if (method_attribute_name == vmSymbols::tag_method_parameters()) { 2687 // reject multiple method parameters 2688 if (method_parameters_seen) { 2689 classfile_parse_error("Multiple MethodParameters attributes in class file %s", 2690 CHECK_NULL); 2691 } 2692 method_parameters_seen = true; 2693 method_parameters_length = cfs->get_u1_fast(); 2694 const u2 real_length = (method_parameters_length * 4u) + 1u; 2695 if (method_attribute_length != real_length) { 2696 classfile_parse_error( 2697 "Invalid MethodParameters method attribute length %u in class file", 2698 method_attribute_length, CHECK_NULL); 2699 } 2700 method_parameters_data = cfs->current(); 2701 cfs->skip_u2_fast(method_parameters_length); 2702 cfs->skip_u2_fast(method_parameters_length); 2703 // ignore this attribute if it cannot be reflected 2704 if (!SystemDictionary::Parameter_klass_loaded()) 2705 method_parameters_length = -1; 2706 } else if (method_attribute_name == vmSymbols::tag_synthetic()) { 2707 if (method_attribute_length != 0) { 2708 classfile_parse_error( 2709 "Invalid Synthetic method attribute length %u in class file %s", 2710 method_attribute_length, CHECK_NULL); 2711 } 2712 // Should we check that there hasn't already been a synthetic attribute? 2713 access_flags.set_is_synthetic(); 2714 } else if (method_attribute_name == vmSymbols::tag_deprecated()) { // 4276120 2715 if (method_attribute_length != 0) { 2716 classfile_parse_error( 2717 "Invalid Deprecated method attribute length %u in class file %s", 2718 method_attribute_length, CHECK_NULL); 2719 } 2720 } else if (_major_version >= JAVA_1_5_VERSION) { 2721 if (method_attribute_name == vmSymbols::tag_signature()) { 2722 if (generic_signature_index != 0) { 2723 classfile_parse_error( 2724 "Multiple Signature attributes for method in class file %s", 2725 CHECK_NULL); 2726 } 2727 if (method_attribute_length != 2) { 2728 classfile_parse_error( 2729 "Invalid Signature attribute length %u in class file %s", 2730 method_attribute_length, CHECK_NULL); 2731 } 2732 generic_signature_index = parse_generic_signature_attribute(cfs, CHECK_NULL); 2733 } else if (method_attribute_name == vmSymbols::tag_runtime_visible_annotations()) { 2734 if (runtime_visible_annotations != NULL) { 2735 classfile_parse_error( 2736 "Multiple RuntimeVisibleAnnotations attributes for method in class file %s", 2737 CHECK_NULL); 2738 } 2739 runtime_visible_annotations_length = method_attribute_length; 2740 runtime_visible_annotations = cfs->current(); 2741 assert(runtime_visible_annotations != NULL, "null visible annotations"); 2742 cfs->guarantee_more(runtime_visible_annotations_length, CHECK_NULL); 2743 parse_annotations(cp, 2744 runtime_visible_annotations, 2745 runtime_visible_annotations_length, 2746 &parsed_annotations, 2747 _loader_data, 2748 CHECK_NULL); 2749 cfs->skip_u1_fast(runtime_visible_annotations_length); 2750 } else if (method_attribute_name == vmSymbols::tag_runtime_invisible_annotations()) { 2751 if (runtime_invisible_annotations_exists) { 2752 classfile_parse_error( 2753 "Multiple RuntimeInvisibleAnnotations attributes for method in class file %s", 2754 CHECK_NULL); 2755 } 2756 runtime_invisible_annotations_exists = true; 2757 if (PreserveAllAnnotations) { 2758 runtime_invisible_annotations_length = method_attribute_length; 2759 runtime_invisible_annotations = cfs->current(); 2760 assert(runtime_invisible_annotations != NULL, "null invisible annotations"); 2761 } 2762 cfs->skip_u1(method_attribute_length, CHECK_NULL); 2763 } else if (method_attribute_name == vmSymbols::tag_runtime_visible_parameter_annotations()) { 2764 if (runtime_visible_parameter_annotations != NULL) { 2765 classfile_parse_error( 2766 "Multiple RuntimeVisibleParameterAnnotations attributes for method in class file %s", 2767 CHECK_NULL); 2768 } 2769 runtime_visible_parameter_annotations_length = method_attribute_length; 2770 runtime_visible_parameter_annotations = cfs->current(); 2771 assert(runtime_visible_parameter_annotations != NULL, "null visible parameter annotations"); 2772 cfs->skip_u1(runtime_visible_parameter_annotations_length, CHECK_NULL); 2773 } else if (method_attribute_name == vmSymbols::tag_runtime_invisible_parameter_annotations()) { 2774 if (runtime_invisible_parameter_annotations_exists) { 2775 classfile_parse_error( 2776 "Multiple RuntimeInvisibleParameterAnnotations attributes for method in class file %s", 2777 CHECK_NULL); 2778 } 2779 runtime_invisible_parameter_annotations_exists = true; 2780 if (PreserveAllAnnotations) { 2781 runtime_invisible_parameter_annotations_length = method_attribute_length; 2782 runtime_invisible_parameter_annotations = cfs->current(); 2783 assert(runtime_invisible_parameter_annotations != NULL, 2784 "null invisible parameter annotations"); 2785 } 2786 cfs->skip_u1(method_attribute_length, CHECK_NULL); 2787 } else if (method_attribute_name == vmSymbols::tag_annotation_default()) { 2788 if (annotation_default != NULL) { 2789 classfile_parse_error( 2790 "Multiple AnnotationDefault attributes for method in class file %s", 2791 CHECK_NULL); 2792 } 2793 annotation_default_length = method_attribute_length; 2794 annotation_default = cfs->current(); 2795 assert(annotation_default != NULL, "null annotation default"); 2796 cfs->skip_u1(annotation_default_length, CHECK_NULL); 2797 } else if (method_attribute_name == vmSymbols::tag_runtime_visible_type_annotations()) { 2798 if (runtime_visible_type_annotations != NULL) { 2799 classfile_parse_error( 2800 "Multiple RuntimeVisibleTypeAnnotations attributes for method in class file %s", 2801 CHECK_NULL); 2802 } 2803 runtime_visible_type_annotations_length = method_attribute_length; 2804 runtime_visible_type_annotations = cfs->current(); 2805 assert(runtime_visible_type_annotations != NULL, "null visible type annotations"); 2806 // No need for the VM to parse Type annotations 2807 cfs->skip_u1(runtime_visible_type_annotations_length, CHECK_NULL); 2808 } else if (method_attribute_name == vmSymbols::tag_runtime_invisible_type_annotations()) { 2809 if (runtime_invisible_type_annotations_exists) { 2810 classfile_parse_error( 2811 "Multiple RuntimeInvisibleTypeAnnotations attributes for method in class file %s", 2812 CHECK_NULL); 2813 } else { 2814 runtime_invisible_type_annotations_exists = true; 2815 } 2816 if (PreserveAllAnnotations) { 2817 runtime_invisible_type_annotations_length = method_attribute_length; 2818 runtime_invisible_type_annotations = cfs->current(); 2819 assert(runtime_invisible_type_annotations != NULL, "null invisible type annotations"); 2820 } 2821 cfs->skip_u1(method_attribute_length, CHECK_NULL); 2822 } else { 2823 // Skip unknown attributes 2824 cfs->skip_u1(method_attribute_length, CHECK_NULL); 2825 } 2826 } else { 2827 // Skip unknown attributes 2828 cfs->skip_u1(method_attribute_length, CHECK_NULL); 2829 } 2830 } 2831 2832 if (linenumber_table != NULL) { 2833 linenumber_table->write_terminator(); 2834 linenumber_table_length = linenumber_table->position(); 2835 } 2836 2837 // Make sure there's at least one Code attribute in non-native/non-abstract method 2838 if (_need_verify) { 2839 guarantee_property(access_flags.is_native() || 2840 access_flags.is_abstract() || 2841 parsed_code_attribute, 2842 "Absent Code attribute in method that is not native or abstract in class file %s", 2843 CHECK_NULL); 2844 } 2845 2846 // All sizing information for a Method* is finally available, now create it 2847 InlineTableSizes sizes( 2848 total_lvt_length, 2849 linenumber_table_length, 2850 exception_table_length, 2851 checked_exceptions_length, 2852 method_parameters_length, 2853 generic_signature_index, 2854 runtime_visible_annotations_length + 2855 runtime_invisible_annotations_length, 2856 runtime_visible_parameter_annotations_length + 2857 runtime_invisible_parameter_annotations_length, 2858 runtime_visible_type_annotations_length + 2859 runtime_invisible_type_annotations_length, 2860 annotation_default_length, 2861 0); 2862 2863 Method* const m = Method::allocate(_loader_data, 2864 code_length, 2865 access_flags, 2866 &sizes, 2867 ConstMethod::NORMAL, 2868 CHECK_NULL); 2869 2870 ClassLoadingService::add_class_method_size(m->size()*wordSize); 2871 2872 // Fill in information from fixed part (access_flags already set) 2873 m->set_constants(_cp); 2874 m->set_name_index(name_index); 2875 m->set_signature_index(signature_index); 2876 2877 ResultTypeFinder rtf(cp->symbol_at(signature_index)); 2878 m->constMethod()->set_result_type(rtf.type()); 2879 2880 if (args_size >= 0) { 2881 m->set_size_of_parameters(args_size); 2882 } else { 2883 m->compute_size_of_parameters(THREAD); 2884 } 2885 #ifdef ASSERT 2886 if (args_size >= 0) { 2887 m->compute_size_of_parameters(THREAD); 2888 assert(args_size == m->size_of_parameters(), ""); 2889 } 2890 #endif 2891 2892 // Fill in code attribute information 2893 m->set_max_stack(max_stack); 2894 m->set_max_locals(max_locals); 2895 if (stackmap_data != NULL) { 2896 m->constMethod()->copy_stackmap_data(_loader_data, 2897 (u1*)stackmap_data, 2898 stackmap_data_length, 2899 CHECK_NULL); 2900 } 2901 2902 // Copy byte codes 2903 m->set_code((u1*)code_start); 2904 2905 // Copy line number table 2906 if (linenumber_table != NULL) { 2907 memcpy(m->compressed_linenumber_table(), 2908 linenumber_table->buffer(), 2909 linenumber_table_length); 2910 } 2911 2912 // Copy exception table 2913 if (exception_table_length > 0) { 2914 Copy::conjoint_swap_if_needed<Endian::JAVA>(exception_table_start, 2915 m->exception_table_start(), 2916 exception_table_length * sizeof(ExceptionTableElement), 2917 sizeof(u2)); 2918 } 2919 2920 // Copy method parameters 2921 if (method_parameters_length > 0) { 2922 MethodParametersElement* elem = m->constMethod()->method_parameters_start(); 2923 for (int i = 0; i < method_parameters_length; i++) { 2924 elem[i].name_cp_index = Bytes::get_Java_u2((address)method_parameters_data); 2925 method_parameters_data += 2; 2926 elem[i].flags = Bytes::get_Java_u2((address)method_parameters_data); 2927 method_parameters_data += 2; 2928 } 2929 } 2930 2931 // Copy checked exceptions 2932 if (checked_exceptions_length > 0) { 2933 Copy::conjoint_swap_if_needed<Endian::JAVA>(checked_exceptions_start, 2934 m->checked_exceptions_start(), 2935 checked_exceptions_length * sizeof(CheckedExceptionElement), 2936 sizeof(u2)); 2937 } 2938 2939 // Copy class file LVT's/LVTT's into the HotSpot internal LVT. 2940 if (total_lvt_length > 0) { 2941 promoted_flags->set_has_localvariable_table(); 2942 copy_localvariable_table(m->constMethod(), 2943 lvt_cnt, 2944 localvariable_table_length, 2945 localvariable_table_start, 2946 lvtt_cnt, 2947 localvariable_type_table_length, 2948 localvariable_type_table_start, 2949 CHECK_NULL); 2950 } 2951 2952 if (parsed_annotations.has_any_annotations()) 2953 parsed_annotations.apply_to(m); 2954 2955 // Copy annotations 2956 copy_method_annotations(m->constMethod(), 2957 runtime_visible_annotations, 2958 runtime_visible_annotations_length, 2959 runtime_invisible_annotations, 2960 runtime_invisible_annotations_length, 2961 runtime_visible_parameter_annotations, 2962 runtime_visible_parameter_annotations_length, 2963 runtime_invisible_parameter_annotations, 2964 runtime_invisible_parameter_annotations_length, 2965 runtime_visible_type_annotations, 2966 runtime_visible_type_annotations_length, 2967 runtime_invisible_type_annotations, 2968 runtime_invisible_type_annotations_length, 2969 annotation_default, 2970 annotation_default_length, 2971 CHECK_NULL); 2972 2973 if (name == vmSymbols::finalize_method_name() && 2974 signature == vmSymbols::void_method_signature()) { 2975 if (m->is_empty_method()) { 2976 _has_empty_finalizer = true; 2977 } else { 2978 _has_finalizer = true; 2979 } 2980 } 2981 if (name == vmSymbols::object_initializer_name() && 2982 signature == vmSymbols::void_method_signature() && 2983 m->is_vanilla_constructor()) { 2984 _has_vanilla_constructor = true; 2985 } 2986 2987 NOT_PRODUCT(m->verify()); 2988 return m; 2989 } 2990 2991 2992 // The promoted_flags parameter is used to pass relevant access_flags 2993 // from the methods back up to the containing klass. These flag values 2994 // are added to klass's access_flags. 2995 // Side-effects: populates the _methods field in the parser 2996 void ClassFileParser::parse_methods(const ClassFileStream* const cfs, 2997 bool is_interface, 2998 bool is_value_type, 2999 AccessFlags* promoted_flags, 3000 bool* has_final_method, 3001 bool* declares_nonstatic_concrete_methods, 3002 TRAPS) { 3003 assert(cfs != NULL, "invariant"); 3004 assert(promoted_flags != NULL, "invariant"); 3005 assert(has_final_method != NULL, "invariant"); 3006 assert(declares_nonstatic_concrete_methods != NULL, "invariant"); 3007 3008 assert(NULL == _methods, "invariant"); 3009 3010 cfs->guarantee_more(2, CHECK); // length 3011 const u2 length = cfs->get_u2_fast(); 3012 if (length == 0) { 3013 _methods = Universe::the_empty_method_array(); 3014 } else { 3015 _methods = MetadataFactory::new_array<Method*>(_loader_data, 3016 length, 3017 NULL, 3018 CHECK); 3019 3020 for (int index = 0; index < length; index++) { 3021 Method* method = parse_method(cfs, 3022 is_interface, 3023 is_value_type, 3024 _cp, 3025 promoted_flags, 3026 CHECK); 3027 3028 if (method->is_final()) { 3029 *has_final_method = true; 3030 } 3031 // declares_nonstatic_concrete_methods: declares concrete instance methods, any access flags 3032 // used for interface initialization, and default method inheritance analysis 3033 if (is_interface && !(*declares_nonstatic_concrete_methods) 3034 && !method->is_abstract() && !method->is_static()) { 3035 *declares_nonstatic_concrete_methods = true; 3036 } 3037 _methods->at_put(index, method); 3038 } 3039 3040 if (_need_verify && length > 1) { 3041 // Check duplicated methods 3042 ResourceMark rm(THREAD); 3043 NameSigHash** names_and_sigs = NEW_RESOURCE_ARRAY_IN_THREAD( 3044 THREAD, NameSigHash*, HASH_ROW_SIZE); 3045 initialize_hashtable(names_and_sigs); 3046 bool dup = false; 3047 const Symbol* name = NULL; 3048 const Symbol* sig = NULL; 3049 { 3050 debug_only(NoSafepointVerifier nsv;) 3051 for (int i = 0; i < length; i++) { 3052 const Method* const m = _methods->at(i); 3053 name = m->name(); 3054 sig = m->signature(); 3055 // If no duplicates, add name/signature in hashtable names_and_sigs. 3056 if (!put_after_lookup(name, sig, names_and_sigs)) { 3057 dup = true; 3058 break; 3059 } 3060 } 3061 } 3062 if (dup) { 3063 classfile_parse_error("Duplicate method name \"%s\" with signature \"%s\" in class file %s", 3064 name->as_C_string(), sig->as_klass_external_name(), CHECK); 3065 } 3066 } 3067 } 3068 } 3069 3070 static const intArray* sort_methods(Array<Method*>* methods) { 3071 const int length = methods->length(); 3072 // If JVMTI original method ordering or sharing is enabled we have to 3073 // remember the original class file ordering. 3074 // We temporarily use the vtable_index field in the Method* to store the 3075 // class file index, so we can read in after calling qsort. 3076 // Put the method ordering in the shared archive. 3077 if (JvmtiExport::can_maintain_original_method_order() || DumpSharedSpaces) { 3078 for (int index = 0; index < length; index++) { 3079 Method* const m = methods->at(index); 3080 assert(!m->valid_vtable_index(), "vtable index should not be set"); 3081 m->set_vtable_index(index); 3082 } 3083 } 3084 // Sort method array by ascending method name (for faster lookups & vtable construction) 3085 // Note that the ordering is not alphabetical, see Symbol::fast_compare 3086 Method::sort_methods(methods); 3087 3088 intArray* method_ordering = NULL; 3089 // If JVMTI original method ordering or sharing is enabled construct int 3090 // array remembering the original ordering 3091 if (JvmtiExport::can_maintain_original_method_order() || DumpSharedSpaces) { 3092 method_ordering = new intArray(length, length, -1); 3093 for (int index = 0; index < length; index++) { 3094 Method* const m = methods->at(index); 3095 const int old_index = m->vtable_index(); 3096 assert(old_index >= 0 && old_index < length, "invalid method index"); 3097 method_ordering->at_put(index, old_index); 3098 m->set_vtable_index(Method::invalid_vtable_index); 3099 } 3100 } 3101 return method_ordering; 3102 } 3103 3104 // Parse generic_signature attribute for methods and fields 3105 u2 ClassFileParser::parse_generic_signature_attribute(const ClassFileStream* const cfs, 3106 TRAPS) { 3107 assert(cfs != NULL, "invariant"); 3108 3109 cfs->guarantee_more(2, CHECK_0); // generic_signature_index 3110 const u2 generic_signature_index = cfs->get_u2_fast(); 3111 check_property( 3112 valid_symbol_at(generic_signature_index), 3113 "Invalid Signature attribute at constant pool index %u in class file %s", 3114 generic_signature_index, CHECK_0); 3115 return generic_signature_index; 3116 } 3117 3118 void ClassFileParser::parse_classfile_sourcefile_attribute(const ClassFileStream* const cfs, 3119 TRAPS) { 3120 3121 assert(cfs != NULL, "invariant"); 3122 3123 cfs->guarantee_more(2, CHECK); // sourcefile_index 3124 const u2 sourcefile_index = cfs->get_u2_fast(); 3125 check_property( 3126 valid_symbol_at(sourcefile_index), 3127 "Invalid SourceFile attribute at constant pool index %u in class file %s", 3128 sourcefile_index, CHECK); 3129 set_class_sourcefile_index(sourcefile_index); 3130 } 3131 3132 void ClassFileParser::parse_classfile_source_debug_extension_attribute(const ClassFileStream* const cfs, 3133 int length, 3134 TRAPS) { 3135 assert(cfs != NULL, "invariant"); 3136 3137 const u1* const sde_buffer = cfs->current(); 3138 assert(sde_buffer != NULL, "null sde buffer"); 3139 3140 // Don't bother storing it if there is no way to retrieve it 3141 if (JvmtiExport::can_get_source_debug_extension()) { 3142 assert((length+1) > length, "Overflow checking"); 3143 u1* const sde = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, u1, length+1); 3144 for (int i = 0; i < length; i++) { 3145 sde[i] = sde_buffer[i]; 3146 } 3147 sde[length] = '\0'; 3148 set_class_sde_buffer((const char*)sde, length); 3149 } 3150 // Got utf8 string, set stream position forward 3151 cfs->skip_u1(length, CHECK); 3152 } 3153 3154 3155 // Inner classes can be static, private or protected (classic VM does this) 3156 #define RECOGNIZED_INNER_CLASS_MODIFIERS ( JVM_RECOGNIZED_CLASS_MODIFIERS | \ 3157 JVM_ACC_PRIVATE | \ 3158 JVM_ACC_PROTECTED | \ 3159 JVM_ACC_STATIC \ 3160 ) 3161 3162 // Return number of classes in the inner classes attribute table 3163 u2 ClassFileParser::parse_classfile_inner_classes_attribute(const ClassFileStream* const cfs, 3164 const u1* const inner_classes_attribute_start, 3165 bool parsed_enclosingmethod_attribute, 3166 u2 enclosing_method_class_index, 3167 u2 enclosing_method_method_index, 3168 TRAPS) { 3169 const u1* const current_mark = cfs->current(); 3170 u2 length = 0; 3171 if (inner_classes_attribute_start != NULL) { 3172 cfs->set_current(inner_classes_attribute_start); 3173 cfs->guarantee_more(2, CHECK_0); // length 3174 length = cfs->get_u2_fast(); 3175 } 3176 3177 // 4-tuples of shorts of inner classes data and 2 shorts of enclosing 3178 // method data: 3179 // [inner_class_info_index, 3180 // outer_class_info_index, 3181 // inner_name_index, 3182 // inner_class_access_flags, 3183 // ... 3184 // enclosing_method_class_index, 3185 // enclosing_method_method_index] 3186 const int size = length * 4 + (parsed_enclosingmethod_attribute ? 2 : 0); 3187 Array<u2>* const inner_classes = MetadataFactory::new_array<u2>(_loader_data, size, CHECK_0); 3188 _inner_classes = inner_classes; 3189 3190 int index = 0; 3191 const int cp_size = _cp->length(); 3192 cfs->guarantee_more(8 * length, CHECK_0); // 4-tuples of u2 3193 for (int n = 0; n < length; n++) { 3194 // Inner class index 3195 const u2 inner_class_info_index = cfs->get_u2_fast(); 3196 check_property( 3197 valid_klass_reference_at(inner_class_info_index), 3198 "inner_class_info_index %u has bad constant type in class file %s", 3199 inner_class_info_index, CHECK_0); 3200 // Outer class index 3201 const u2 outer_class_info_index = cfs->get_u2_fast(); 3202 check_property( 3203 outer_class_info_index == 0 || 3204 valid_klass_reference_at(outer_class_info_index), 3205 "outer_class_info_index %u has bad constant type in class file %s", 3206 outer_class_info_index, CHECK_0); 3207 // Inner class name 3208 const u2 inner_name_index = cfs->get_u2_fast(); 3209 check_property( 3210 inner_name_index == 0 || valid_symbol_at(inner_name_index), 3211 "inner_name_index %u has bad constant type in class file %s", 3212 inner_name_index, CHECK_0); 3213 if (_need_verify) { 3214 guarantee_property(inner_class_info_index != outer_class_info_index, 3215 "Class is both outer and inner class in class file %s", CHECK_0); 3216 } 3217 3218 jint recognized_modifiers = RECOGNIZED_INNER_CLASS_MODIFIERS; 3219 // JVM_ACC_MODULE is defined in JDK-9 and later. 3220 if (_major_version >= JAVA_9_VERSION) { 3221 recognized_modifiers |= JVM_ACC_MODULE; 3222 } 3223 // JVM_ACC_VALUE is defined for class file version 55 and later 3224 if (supports_value_types()) { 3225 recognized_modifiers |= JVM_ACC_VALUE; 3226 } 3227 3228 // Access flags 3229 jint flags = cfs->get_u2_fast() & recognized_modifiers; 3230 3231 if ((flags & JVM_ACC_INTERFACE) && _major_version < JAVA_6_VERSION) { 3232 // Set abstract bit for old class files for backward compatibility 3233 flags |= JVM_ACC_ABSTRACT; 3234 } 3235 verify_legal_class_modifiers(flags, CHECK_0); 3236 AccessFlags inner_access_flags(flags); 3237 3238 inner_classes->at_put(index++, inner_class_info_index); 3239 inner_classes->at_put(index++, outer_class_info_index); 3240 inner_classes->at_put(index++, inner_name_index); 3241 inner_classes->at_put(index++, inner_access_flags.as_short()); 3242 } 3243 3244 // 4347400: make sure there's no duplicate entry in the classes array 3245 if (_need_verify && _major_version >= JAVA_1_5_VERSION) { 3246 for(int i = 0; i < length * 4; i += 4) { 3247 for(int j = i + 4; j < length * 4; j += 4) { 3248 guarantee_property((inner_classes->at(i) != inner_classes->at(j) || 3249 inner_classes->at(i+1) != inner_classes->at(j+1) || 3250 inner_classes->at(i+2) != inner_classes->at(j+2) || 3251 inner_classes->at(i+3) != inner_classes->at(j+3)), 3252 "Duplicate entry in InnerClasses in class file %s", 3253 CHECK_0); 3254 } 3255 } 3256 } 3257 3258 // Set EnclosingMethod class and method indexes. 3259 if (parsed_enclosingmethod_attribute) { 3260 inner_classes->at_put(index++, enclosing_method_class_index); 3261 inner_classes->at_put(index++, enclosing_method_method_index); 3262 } 3263 assert(index == size, "wrong size"); 3264 3265 // Restore buffer's current position. 3266 cfs->set_current(current_mark); 3267 3268 return length; 3269 } 3270 3271 void ClassFileParser::parse_classfile_synthetic_attribute(TRAPS) { 3272 set_class_synthetic_flag(true); 3273 } 3274 3275 void ClassFileParser::parse_classfile_signature_attribute(const ClassFileStream* const cfs, TRAPS) { 3276 assert(cfs != NULL, "invariant"); 3277 3278 const u2 signature_index = cfs->get_u2(CHECK); 3279 check_property( 3280 valid_symbol_at(signature_index), 3281 "Invalid constant pool index %u in Signature attribute in class file %s", 3282 signature_index, CHECK); 3283 set_class_generic_signature_index(signature_index); 3284 } 3285 3286 void ClassFileParser::parse_classfile_bootstrap_methods_attribute(const ClassFileStream* const cfs, 3287 ConstantPool* cp, 3288 u4 attribute_byte_length, 3289 TRAPS) { 3290 assert(cfs != NULL, "invariant"); 3291 assert(cp != NULL, "invariant"); 3292 3293 const u1* const current_start = cfs->current(); 3294 3295 guarantee_property(attribute_byte_length >= sizeof(u2), 3296 "Invalid BootstrapMethods attribute length %u in class file %s", 3297 attribute_byte_length, 3298 CHECK); 3299 3300 cfs->guarantee_more(attribute_byte_length, CHECK); 3301 3302 const int attribute_array_length = cfs->get_u2_fast(); 3303 3304 guarantee_property(_max_bootstrap_specifier_index < attribute_array_length, 3305 "Short length on BootstrapMethods in class file %s", 3306 CHECK); 3307 3308 3309 // The attribute contains a counted array of counted tuples of shorts, 3310 // represending bootstrap specifiers: 3311 // length*{bootstrap_method_index, argument_count*{argument_index}} 3312 const int operand_count = (attribute_byte_length - sizeof(u2)) / sizeof(u2); 3313 // operand_count = number of shorts in attr, except for leading length 3314 3315 // The attribute is copied into a short[] array. 3316 // The array begins with a series of short[2] pairs, one for each tuple. 3317 const int index_size = (attribute_array_length * 2); 3318 3319 Array<u2>* const operands = 3320 MetadataFactory::new_array<u2>(_loader_data, index_size + operand_count, CHECK); 3321 3322 // Eagerly assign operands so they will be deallocated with the constant 3323 // pool if there is an error. 3324 cp->set_operands(operands); 3325 3326 int operand_fill_index = index_size; 3327 const int cp_size = cp->length(); 3328 3329 for (int n = 0; n < attribute_array_length; n++) { 3330 // Store a 32-bit offset into the header of the operand array. 3331 ConstantPool::operand_offset_at_put(operands, n, operand_fill_index); 3332 3333 // Read a bootstrap specifier. 3334 cfs->guarantee_more(sizeof(u2) * 2, CHECK); // bsm, argc 3335 const u2 bootstrap_method_index = cfs->get_u2_fast(); 3336 const u2 argument_count = cfs->get_u2_fast(); 3337 check_property( 3338 valid_cp_range(bootstrap_method_index, cp_size) && 3339 cp->tag_at(bootstrap_method_index).is_method_handle(), 3340 "bootstrap_method_index %u has bad constant type in class file %s", 3341 bootstrap_method_index, 3342 CHECK); 3343 3344 guarantee_property((operand_fill_index + 1 + argument_count) < operands->length(), 3345 "Invalid BootstrapMethods num_bootstrap_methods or num_bootstrap_arguments value in class file %s", 3346 CHECK); 3347 3348 operands->at_put(operand_fill_index++, bootstrap_method_index); 3349 operands->at_put(operand_fill_index++, argument_count); 3350 3351 cfs->guarantee_more(sizeof(u2) * argument_count, CHECK); // argv[argc] 3352 for (int j = 0; j < argument_count; j++) { 3353 const u2 argument_index = cfs->get_u2_fast(); 3354 check_property( 3355 valid_cp_range(argument_index, cp_size) && 3356 cp->tag_at(argument_index).is_loadable_constant(), 3357 "argument_index %u has bad constant type in class file %s", 3358 argument_index, 3359 CHECK); 3360 operands->at_put(operand_fill_index++, argument_index); 3361 } 3362 } 3363 guarantee_property(current_start + attribute_byte_length == cfs->current(), 3364 "Bad length on BootstrapMethods in class file %s", 3365 CHECK); 3366 } 3367 3368 void ClassFileParser::parse_classfile_attributes(const ClassFileStream* const cfs, 3369 ConstantPool* cp, 3370 ClassFileParser::ClassAnnotationCollector* parsed_annotations, 3371 TRAPS) { 3372 assert(cfs != NULL, "invariant"); 3373 assert(cp != NULL, "invariant"); 3374 assert(parsed_annotations != NULL, "invariant"); 3375 3376 // Set inner classes attribute to default sentinel 3377 _inner_classes = Universe::the_empty_short_array(); 3378 cfs->guarantee_more(2, CHECK); // attributes_count 3379 u2 attributes_count = cfs->get_u2_fast(); 3380 bool parsed_sourcefile_attribute = false; 3381 bool parsed_innerclasses_attribute = false; 3382 bool parsed_enclosingmethod_attribute = false; 3383 bool parsed_bootstrap_methods_attribute = false; 3384 const u1* runtime_visible_annotations = NULL; 3385 int runtime_visible_annotations_length = 0; 3386 const u1* runtime_invisible_annotations = NULL; 3387 int runtime_invisible_annotations_length = 0; 3388 const u1* runtime_visible_type_annotations = NULL; 3389 int runtime_visible_type_annotations_length = 0; 3390 const u1* runtime_invisible_type_annotations = NULL; 3391 int runtime_invisible_type_annotations_length = 0; 3392 bool runtime_invisible_type_annotations_exists = false; 3393 bool runtime_invisible_annotations_exists = false; 3394 bool parsed_source_debug_ext_annotations_exist = false; 3395 const u1* inner_classes_attribute_start = NULL; 3396 u4 inner_classes_attribute_length = 0; 3397 u2 enclosing_method_class_index = 0; 3398 u2 enclosing_method_method_index = 0; 3399 // Iterate over attributes 3400 while (attributes_count--) { 3401 cfs->guarantee_more(6, CHECK); // attribute_name_index, attribute_length 3402 const u2 attribute_name_index = cfs->get_u2_fast(); 3403 const u4 attribute_length = cfs->get_u4_fast(); 3404 check_property( 3405 valid_symbol_at(attribute_name_index), 3406 "Attribute name has bad constant pool index %u in class file %s", 3407 attribute_name_index, CHECK); 3408 const Symbol* const tag = cp->symbol_at(attribute_name_index); 3409 if (tag == vmSymbols::tag_source_file()) { 3410 // Check for SourceFile tag 3411 if (_need_verify) { 3412 guarantee_property(attribute_length == 2, "Wrong SourceFile attribute length in class file %s", CHECK); 3413 } 3414 if (parsed_sourcefile_attribute) { 3415 classfile_parse_error("Multiple SourceFile attributes in class file %s", CHECK); 3416 } else { 3417 parsed_sourcefile_attribute = true; 3418 } 3419 parse_classfile_sourcefile_attribute(cfs, CHECK); 3420 } else if (tag == vmSymbols::tag_source_debug_extension()) { 3421 // Check for SourceDebugExtension tag 3422 if (parsed_source_debug_ext_annotations_exist) { 3423 classfile_parse_error( 3424 "Multiple SourceDebugExtension attributes in class file %s", CHECK); 3425 } 3426 parsed_source_debug_ext_annotations_exist = true; 3427 parse_classfile_source_debug_extension_attribute(cfs, (int)attribute_length, CHECK); 3428 } else if (tag == vmSymbols::tag_inner_classes()) { 3429 // Check for InnerClasses tag 3430 if (parsed_innerclasses_attribute) { 3431 classfile_parse_error("Multiple InnerClasses attributes in class file %s", CHECK); 3432 } else { 3433 parsed_innerclasses_attribute = true; 3434 } 3435 inner_classes_attribute_start = cfs->current(); 3436 inner_classes_attribute_length = attribute_length; 3437 cfs->skip_u1(inner_classes_attribute_length, CHECK); 3438 } else if (tag == vmSymbols::tag_synthetic()) { 3439 // Check for Synthetic tag 3440 // Shouldn't we check that the synthetic flags wasn't already set? - not required in spec 3441 if (attribute_length != 0) { 3442 classfile_parse_error( 3443 "Invalid Synthetic classfile attribute length %u in class file %s", 3444 attribute_length, CHECK); 3445 } 3446 parse_classfile_synthetic_attribute(CHECK); 3447 } else if (tag == vmSymbols::tag_deprecated()) { 3448 // Check for Deprecatd tag - 4276120 3449 if (attribute_length != 0) { 3450 classfile_parse_error( 3451 "Invalid Deprecated classfile attribute length %u in class file %s", 3452 attribute_length, CHECK); 3453 } 3454 } else if (_major_version >= JAVA_1_5_VERSION) { 3455 if (tag == vmSymbols::tag_signature()) { 3456 if (_generic_signature_index != 0) { 3457 classfile_parse_error( 3458 "Multiple Signature attributes in class file %s", CHECK); 3459 } 3460 if (attribute_length != 2) { 3461 classfile_parse_error( 3462 "Wrong Signature attribute length %u in class file %s", 3463 attribute_length, CHECK); 3464 } 3465 parse_classfile_signature_attribute(cfs, CHECK); 3466 } else if (tag == vmSymbols::tag_runtime_visible_annotations()) { 3467 if (runtime_visible_annotations != NULL) { 3468 classfile_parse_error( 3469 "Multiple RuntimeVisibleAnnotations attributes in class file %s", CHECK); 3470 } 3471 runtime_visible_annotations_length = attribute_length; 3472 runtime_visible_annotations = cfs->current(); 3473 assert(runtime_visible_annotations != NULL, "null visible annotations"); 3474 cfs->guarantee_more(runtime_visible_annotations_length, CHECK); 3475 parse_annotations(cp, 3476 runtime_visible_annotations, 3477 runtime_visible_annotations_length, 3478 parsed_annotations, 3479 _loader_data, 3480 CHECK); 3481 cfs->skip_u1_fast(runtime_visible_annotations_length); 3482 } else if (tag == vmSymbols::tag_runtime_invisible_annotations()) { 3483 if (runtime_invisible_annotations_exists) { 3484 classfile_parse_error( 3485 "Multiple RuntimeInvisibleAnnotations attributes in class file %s", CHECK); 3486 } 3487 runtime_invisible_annotations_exists = true; 3488 if (PreserveAllAnnotations) { 3489 runtime_invisible_annotations_length = attribute_length; 3490 runtime_invisible_annotations = cfs->current(); 3491 assert(runtime_invisible_annotations != NULL, "null invisible annotations"); 3492 } 3493 cfs->skip_u1(attribute_length, CHECK); 3494 } else if (tag == vmSymbols::tag_enclosing_method()) { 3495 if (parsed_enclosingmethod_attribute) { 3496 classfile_parse_error("Multiple EnclosingMethod attributes in class file %s", CHECK); 3497 } else { 3498 parsed_enclosingmethod_attribute = true; 3499 } 3500 guarantee_property(attribute_length == 4, 3501 "Wrong EnclosingMethod attribute length %u in class file %s", 3502 attribute_length, CHECK); 3503 cfs->guarantee_more(4, CHECK); // class_index, method_index 3504 enclosing_method_class_index = cfs->get_u2_fast(); 3505 enclosing_method_method_index = cfs->get_u2_fast(); 3506 if (enclosing_method_class_index == 0) { 3507 classfile_parse_error("Invalid class index in EnclosingMethod attribute in class file %s", CHECK); 3508 } 3509 // Validate the constant pool indices and types 3510 check_property(valid_klass_reference_at(enclosing_method_class_index), 3511 "Invalid or out-of-bounds class index in EnclosingMethod attribute in class file %s", CHECK); 3512 if (enclosing_method_method_index != 0 && 3513 (!cp->is_within_bounds(enclosing_method_method_index) || 3514 !cp->tag_at(enclosing_method_method_index).is_name_and_type())) { 3515 classfile_parse_error("Invalid or out-of-bounds method index in EnclosingMethod attribute in class file %s", CHECK); 3516 } 3517 } else if (tag == vmSymbols::tag_bootstrap_methods() && 3518 _major_version >= Verifier::INVOKEDYNAMIC_MAJOR_VERSION) { 3519 if (parsed_bootstrap_methods_attribute) { 3520 classfile_parse_error("Multiple BootstrapMethods attributes in class file %s", CHECK); 3521 } 3522 parsed_bootstrap_methods_attribute = true; 3523 parse_classfile_bootstrap_methods_attribute(cfs, cp, attribute_length, CHECK); 3524 } else if (tag == vmSymbols::tag_runtime_visible_type_annotations()) { 3525 if (runtime_visible_type_annotations != NULL) { 3526 classfile_parse_error( 3527 "Multiple RuntimeVisibleTypeAnnotations attributes in class file %s", CHECK); 3528 } 3529 runtime_visible_type_annotations_length = attribute_length; 3530 runtime_visible_type_annotations = cfs->current(); 3531 assert(runtime_visible_type_annotations != NULL, "null visible type annotations"); 3532 // No need for the VM to parse Type annotations 3533 cfs->skip_u1(runtime_visible_type_annotations_length, CHECK); 3534 } else if (tag == vmSymbols::tag_runtime_invisible_type_annotations()) { 3535 if (runtime_invisible_type_annotations_exists) { 3536 classfile_parse_error( 3537 "Multiple RuntimeInvisibleTypeAnnotations attributes in class file %s", CHECK); 3538 } else { 3539 runtime_invisible_type_annotations_exists = true; 3540 } 3541 if (PreserveAllAnnotations) { 3542 runtime_invisible_type_annotations_length = attribute_length; 3543 runtime_invisible_type_annotations = cfs->current(); 3544 assert(runtime_invisible_type_annotations != NULL, "null invisible type annotations"); 3545 } 3546 cfs->skip_u1(attribute_length, CHECK); 3547 } else { 3548 // Unknown attribute 3549 cfs->skip_u1(attribute_length, CHECK); 3550 } 3551 } else { 3552 // Unknown attribute 3553 cfs->skip_u1(attribute_length, CHECK); 3554 } 3555 } 3556 _annotations = assemble_annotations(runtime_visible_annotations, 3557 runtime_visible_annotations_length, 3558 runtime_invisible_annotations, 3559 runtime_invisible_annotations_length, 3560 CHECK); 3561 _type_annotations = assemble_annotations(runtime_visible_type_annotations, 3562 runtime_visible_type_annotations_length, 3563 runtime_invisible_type_annotations, 3564 runtime_invisible_type_annotations_length, 3565 CHECK); 3566 3567 if (parsed_innerclasses_attribute || parsed_enclosingmethod_attribute) { 3568 const u2 num_of_classes = parse_classfile_inner_classes_attribute( 3569 cfs, 3570 inner_classes_attribute_start, 3571 parsed_innerclasses_attribute, 3572 enclosing_method_class_index, 3573 enclosing_method_method_index, 3574 CHECK); 3575 if (parsed_innerclasses_attribute &&_need_verify && _major_version >= JAVA_1_5_VERSION) { 3576 guarantee_property( 3577 inner_classes_attribute_length == sizeof(num_of_classes) + 4 * sizeof(u2) * num_of_classes, 3578 "Wrong InnerClasses attribute length in class file %s", CHECK); 3579 } 3580 } 3581 3582 if (_max_bootstrap_specifier_index >= 0) { 3583 guarantee_property(parsed_bootstrap_methods_attribute, 3584 "Missing BootstrapMethods attribute in class file %s", CHECK); 3585 } 3586 } 3587 3588 void ClassFileParser::apply_parsed_class_attributes(InstanceKlass* k) { 3589 assert(k != NULL, "invariant"); 3590 3591 if (_synthetic_flag) 3592 k->set_is_synthetic(); 3593 if (_sourcefile_index != 0) { 3594 k->set_source_file_name_index(_sourcefile_index); 3595 } 3596 if (_generic_signature_index != 0) { 3597 k->set_generic_signature_index(_generic_signature_index); 3598 } 3599 if (_sde_buffer != NULL) { 3600 k->set_source_debug_extension(_sde_buffer, _sde_length); 3601 } 3602 } 3603 3604 // Create the Annotations object that will 3605 // hold the annotations array for the Klass. 3606 void ClassFileParser::create_combined_annotations(TRAPS) { 3607 if (_annotations == NULL && 3608 _type_annotations == NULL && 3609 _fields_annotations == NULL && 3610 _fields_type_annotations == NULL) { 3611 // Don't create the Annotations object unnecessarily. 3612 return; 3613 } 3614 3615 Annotations* const annotations = Annotations::allocate(_loader_data, CHECK); 3616 annotations->set_class_annotations(_annotations); 3617 annotations->set_class_type_annotations(_type_annotations); 3618 annotations->set_fields_annotations(_fields_annotations); 3619 annotations->set_fields_type_annotations(_fields_type_annotations); 3620 3621 // This is the Annotations object that will be 3622 // assigned to InstanceKlass being constructed. 3623 _combined_annotations = annotations; 3624 3625 // The annotations arrays below has been transfered the 3626 // _combined_annotations so these fields can now be cleared. 3627 _annotations = NULL; 3628 _type_annotations = NULL; 3629 _fields_annotations = NULL; 3630 _fields_type_annotations = NULL; 3631 } 3632 3633 // Transfer ownership of metadata allocated to the InstanceKlass. 3634 void ClassFileParser::apply_parsed_class_metadata( 3635 InstanceKlass* this_klass, 3636 int java_fields_count, TRAPS) { 3637 assert(this_klass != NULL, "invariant"); 3638 3639 _cp->set_pool_holder(this_klass); 3640 this_klass->set_constants(_cp); 3641 this_klass->set_fields(_fields, java_fields_count); 3642 this_klass->set_methods(_methods); 3643 this_klass->set_inner_classes(_inner_classes); 3644 this_klass->set_local_interfaces(_local_interfaces); 3645 this_klass->set_transitive_interfaces(_transitive_interfaces); 3646 this_klass->set_annotations(_combined_annotations); 3647 3648 // Clear out these fields so they don't get deallocated by the destructor 3649 clear_class_metadata(); 3650 } 3651 3652 AnnotationArray* ClassFileParser::assemble_annotations(const u1* const runtime_visible_annotations, 3653 int runtime_visible_annotations_length, 3654 const u1* const runtime_invisible_annotations, 3655 int runtime_invisible_annotations_length, 3656 TRAPS) { 3657 AnnotationArray* annotations = NULL; 3658 if (runtime_visible_annotations != NULL || 3659 runtime_invisible_annotations != NULL) { 3660 annotations = MetadataFactory::new_array<u1>(_loader_data, 3661 runtime_visible_annotations_length + 3662 runtime_invisible_annotations_length, 3663 CHECK_(annotations)); 3664 if (runtime_visible_annotations != NULL) { 3665 for (int i = 0; i < runtime_visible_annotations_length; i++) { 3666 annotations->at_put(i, runtime_visible_annotations[i]); 3667 } 3668 } 3669 if (runtime_invisible_annotations != NULL) { 3670 for (int i = 0; i < runtime_invisible_annotations_length; i++) { 3671 int append = runtime_visible_annotations_length+i; 3672 annotations->at_put(append, runtime_invisible_annotations[i]); 3673 } 3674 } 3675 } 3676 return annotations; 3677 } 3678 3679 const InstanceKlass* ClassFileParser::parse_super_class(ConstantPool* const cp, 3680 const int super_class_index, 3681 const bool need_verify, 3682 TRAPS) { 3683 assert(cp != NULL, "invariant"); 3684 const InstanceKlass* super_klass = NULL; 3685 3686 if (super_class_index == 0) { 3687 check_property(_class_name == vmSymbols::java_lang_Object() 3688 || (_access_flags.get_flags() & JVM_ACC_VALUE), 3689 "Invalid superclass index %u in class file %s", 3690 super_class_index, 3691 CHECK_NULL); 3692 } else { 3693 check_property(valid_klass_reference_at(super_class_index), 3694 "Invalid superclass index %u in class file %s", 3695 super_class_index, 3696 CHECK_NULL); 3697 // The class name should be legal because it is checked when parsing constant pool. 3698 // However, make sure it is not an array type. 3699 bool is_array = false; 3700 if (cp->tag_at(super_class_index).is_klass()) { 3701 super_klass = InstanceKlass::cast(cp->resolved_klass_at(super_class_index)); 3702 if (need_verify) 3703 is_array = super_klass->is_array_klass(); 3704 } else if (need_verify) { 3705 is_array = (cp->klass_name_at(super_class_index)->byte_at(0) == JVM_SIGNATURE_ARRAY); 3706 } 3707 if (need_verify) { 3708 guarantee_property(!is_array, 3709 "Bad superclass name in class file %s", CHECK_NULL); 3710 } 3711 } 3712 return super_klass; 3713 } 3714 3715 #ifndef PRODUCT 3716 static void print_field_layout(const Symbol* name, 3717 Array<u2>* fields, 3718 const constantPoolHandle& cp, 3719 int instance_size, 3720 int instance_fields_start, 3721 int instance_fields_end, 3722 int static_fields_end) { 3723 3724 assert(name != NULL, "invariant"); 3725 3726 tty->print("%s: field layout\n", name->as_klass_external_name()); 3727 tty->print(" @%3d %s\n", instance_fields_start, "--- instance fields start ---"); 3728 for (AllFieldStream fs(fields, cp); !fs.done(); fs.next()) { 3729 if (!fs.access_flags().is_static()) { 3730 tty->print(" @%3d \"%s\" %s\n", 3731 fs.offset(), 3732 fs.name()->as_klass_external_name(), 3733 fs.signature()->as_klass_external_name()); 3734 } 3735 } 3736 tty->print(" @%3d %s\n", instance_fields_end, "--- instance fields end ---"); 3737 tty->print(" @%3d %s\n", instance_size * wordSize, "--- instance ends ---"); 3738 tty->print(" @%3d %s\n", InstanceMirrorKlass::offset_of_static_fields(), "--- static fields start ---"); 3739 for (AllFieldStream fs(fields, cp); !fs.done(); fs.next()) { 3740 if (fs.access_flags().is_static()) { 3741 tty->print(" @%3d \"%s\" %s\n", 3742 fs.offset(), 3743 fs.name()->as_klass_external_name(), 3744 fs.signature()->as_klass_external_name()); 3745 } 3746 } 3747 tty->print(" @%3d %s\n", static_fields_end, "--- static fields end ---"); 3748 tty->print("\n"); 3749 } 3750 #endif 3751 3752 // Values needed for oopmap and InstanceKlass creation 3753 class ClassFileParser::FieldLayoutInfo : public ResourceObj { 3754 public: 3755 OopMapBlocksBuilder* oop_map_blocks; 3756 int instance_size; 3757 int nonstatic_field_size; 3758 int static_field_size; 3759 bool has_nonstatic_fields; 3760 }; 3761 3762 // Utility to collect and compact oop maps during layout 3763 class ClassFileParser::OopMapBlocksBuilder : public ResourceObj { 3764 public: 3765 OopMapBlock* nonstatic_oop_maps; 3766 unsigned int nonstatic_oop_map_count; 3767 unsigned int max_nonstatic_oop_maps; 3768 3769 public: 3770 OopMapBlocksBuilder(unsigned int max_blocks, TRAPS) { 3771 max_nonstatic_oop_maps = max_blocks; 3772 nonstatic_oop_map_count = 0; 3773 if (max_blocks == 0) { 3774 nonstatic_oop_maps = NULL; 3775 } else { 3776 nonstatic_oop_maps = NEW_RESOURCE_ARRAY_IN_THREAD( 3777 THREAD, OopMapBlock, max_nonstatic_oop_maps); 3778 memset(nonstatic_oop_maps, 0, sizeof(OopMapBlock) * max_blocks); 3779 } 3780 } 3781 3782 OopMapBlock* last_oop_map() const { 3783 assert(nonstatic_oop_map_count > 0, "Has no oop maps"); 3784 return nonstatic_oop_maps + (nonstatic_oop_map_count - 1); 3785 } 3786 3787 // addition of super oop maps 3788 void initialize_inherited_blocks(OopMapBlock* blocks, unsigned int nof_blocks) { 3789 assert(nof_blocks && nonstatic_oop_map_count == 0 && 3790 nof_blocks <= max_nonstatic_oop_maps, "invariant"); 3791 3792 memcpy(nonstatic_oop_maps, blocks, sizeof(OopMapBlock) * nof_blocks); 3793 nonstatic_oop_map_count += nof_blocks; 3794 } 3795 3796 // collection of oops 3797 void add(int offset, int count) { 3798 if (nonstatic_oop_map_count == 0) { 3799 nonstatic_oop_map_count++; 3800 } 3801 OopMapBlock* nonstatic_oop_map = last_oop_map(); 3802 if (nonstatic_oop_map->count() == 0) { // Unused map, set it up 3803 nonstatic_oop_map->set_offset(offset); 3804 nonstatic_oop_map->set_count(count); 3805 } else if (nonstatic_oop_map->is_contiguous(offset)) { // contiguous, add 3806 nonstatic_oop_map->increment_count(count); 3807 } else { // Need a new one... 3808 nonstatic_oop_map_count++; 3809 assert(nonstatic_oop_map_count <= max_nonstatic_oop_maps, "range check"); 3810 nonstatic_oop_map = last_oop_map(); 3811 nonstatic_oop_map->set_offset(offset); 3812 nonstatic_oop_map->set_count(count); 3813 } 3814 } 3815 3816 // general purpose copy, e.g. into allocated instanceKlass 3817 void copy(OopMapBlock* dst) { 3818 if (nonstatic_oop_map_count != 0) { 3819 memcpy(dst, nonstatic_oop_maps, sizeof(OopMapBlock) * nonstatic_oop_map_count); 3820 } 3821 } 3822 3823 // Sort and compact adjacent blocks 3824 void compact(TRAPS) { 3825 if (nonstatic_oop_map_count <= 1) { 3826 return; 3827 } 3828 /* 3829 * Since field layout sneeks in oops before values, we will be able to condense 3830 * blocks. There is potential to compact between super, own refs and values 3831 * containing refs. 3832 * 3833 * Currently compaction is slightly limited due to values being 8 byte aligned. 3834 * This may well change: FixMe if doesn't, the code below is fairly general purpose 3835 * and maybe it doesn't need to be. 3836 */ 3837 qsort(nonstatic_oop_maps, nonstatic_oop_map_count, sizeof(OopMapBlock), 3838 (_sort_Fn)OopMapBlock::compare_offset); 3839 if (nonstatic_oop_map_count < 2) { 3840 return; 3841 } 3842 3843 //Make a temp copy, and iterate through and copy back into the orig 3844 ResourceMark rm(THREAD); 3845 OopMapBlock* oop_maps_copy = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, OopMapBlock, 3846 nonstatic_oop_map_count); 3847 OopMapBlock* oop_maps_copy_end = oop_maps_copy + nonstatic_oop_map_count; 3848 copy(oop_maps_copy); 3849 OopMapBlock* nonstatic_oop_map = nonstatic_oop_maps; 3850 unsigned int new_count = 1; 3851 oop_maps_copy++; 3852 while(oop_maps_copy < oop_maps_copy_end) { 3853 assert(nonstatic_oop_map->offset() < oop_maps_copy->offset(), "invariant"); 3854 if (nonstatic_oop_map->is_contiguous(oop_maps_copy->offset())) { 3855 nonstatic_oop_map->increment_count(oop_maps_copy->count()); 3856 } else { 3857 nonstatic_oop_map++; 3858 new_count++; 3859 nonstatic_oop_map->set_offset(oop_maps_copy->offset()); 3860 nonstatic_oop_map->set_count(oop_maps_copy->count()); 3861 } 3862 oop_maps_copy++; 3863 } 3864 assert(new_count <= nonstatic_oop_map_count, "end up with more maps after compact() ?"); 3865 nonstatic_oop_map_count = new_count; 3866 } 3867 3868 void print_on(outputStream* st) const { 3869 st->print_cr(" OopMapBlocks: %3d /%3d", nonstatic_oop_map_count, max_nonstatic_oop_maps); 3870 if (nonstatic_oop_map_count > 0) { 3871 OopMapBlock* map = nonstatic_oop_maps; 3872 OopMapBlock* last_map = last_oop_map(); 3873 assert(map <= last_map, "Last less than first"); 3874 while (map <= last_map) { 3875 st->print_cr(" Offset: %3d -%3d Count: %3d", map->offset(), 3876 map->offset() + map->offset_span() - heapOopSize, map->count()); 3877 map++; 3878 } 3879 } 3880 } 3881 3882 void print_value_on(outputStream* st) const { 3883 print_on(st); 3884 } 3885 3886 }; 3887 3888 void ClassFileParser::throwValueTypeLimitation(THREAD_AND_LOCATION_DECL, 3889 const char* msg, 3890 const Symbol* name, 3891 const Symbol* sig) const { 3892 3893 ResourceMark rm(THREAD); 3894 if (name == NULL || sig == NULL) { 3895 Exceptions::fthrow(THREAD_AND_LOCATION_ARGS, 3896 vmSymbols::java_lang_ClassFormatError(), 3897 "class: %s - %s", _class_name->as_C_string(), msg); 3898 } 3899 else { 3900 Exceptions::fthrow(THREAD_AND_LOCATION_ARGS, 3901 vmSymbols::java_lang_ClassFormatError(), 3902 "\"%s\" sig: \"%s\" class: %s - %s", name->as_C_string(), sig->as_C_string(), 3903 _class_name->as_C_string(), msg); 3904 } 3905 } 3906 3907 // Layout fields and fill in FieldLayoutInfo. Could use more refactoring! 3908 void ClassFileParser::layout_fields(ConstantPool* cp, 3909 const FieldAllocationCount* fac, 3910 const ClassAnnotationCollector* parsed_annotations, 3911 FieldLayoutInfo* info, 3912 TRAPS) { 3913 3914 assert(cp != NULL, "invariant"); 3915 3916 // Field size and offset computation 3917 int nonstatic_field_size = _super_klass == NULL ? 0 : 3918 _super_klass->nonstatic_field_size(); 3919 int next_nonstatic_valuetype_offset = 0; 3920 int first_nonstatic_valuetype_offset = 0; 3921 3922 // Fields that are value types are handled differently depending if they are static or not: 3923 // - static fields are oops 3924 // - non-static fields are embedded 3925 3926 // Count the contended fields by type. 3927 // 3928 // We ignore static fields, because @Contended is not supported for them. 3929 // The layout code below will also ignore the static fields. 3930 int nonstatic_contended_count = 0; 3931 FieldAllocationCount fac_contended; 3932 for (AllFieldStream fs(_fields, cp); !fs.done(); fs.next()) { 3933 FieldAllocationType atype = (FieldAllocationType) fs.allocation_type(); 3934 if (fs.is_contended()) { 3935 fac_contended.count[atype]++; 3936 if (!fs.access_flags().is_static()) { 3937 nonstatic_contended_count++; 3938 } 3939 } 3940 } 3941 3942 3943 // Calculate the starting byte offsets 3944 int next_static_oop_offset = InstanceMirrorKlass::offset_of_static_fields(); 3945 // Value types in static fields are not embedded, they are handled with oops 3946 int next_static_double_offset = next_static_oop_offset + 3947 ((fac->count[STATIC_OOP] + fac->count[STATIC_FLATTENABLE]) * heapOopSize); 3948 if ( fac->count[STATIC_DOUBLE] && 3949 (Universe::field_type_should_be_aligned(T_DOUBLE) || 3950 Universe::field_type_should_be_aligned(T_LONG)) ) { 3951 next_static_double_offset = align_up(next_static_double_offset, BytesPerLong); 3952 } 3953 3954 int next_static_word_offset = next_static_double_offset + 3955 ((fac->count[STATIC_DOUBLE]) * BytesPerLong); 3956 int next_static_short_offset = next_static_word_offset + 3957 ((fac->count[STATIC_WORD]) * BytesPerInt); 3958 int next_static_byte_offset = next_static_short_offset + 3959 ((fac->count[STATIC_SHORT]) * BytesPerShort); 3960 3961 int nonstatic_fields_start = instanceOopDesc::base_offset_in_bytes() + 3962 nonstatic_field_size * heapOopSize; 3963 3964 // First field of value types is aligned on a long boundary in order to ease 3965 // in-lining of value types (with header removal) in packed arrays and 3966 // flatten value types 3967 int initial_value_type_padding = 0; 3968 if (is_value_type()) { 3969 int old = nonstatic_fields_start; 3970 nonstatic_fields_start = align_up(nonstatic_fields_start, BytesPerLong); 3971 initial_value_type_padding = nonstatic_fields_start - old; 3972 } 3973 3974 int next_nonstatic_field_offset = nonstatic_fields_start; 3975 3976 const bool is_contended_class = parsed_annotations->is_contended(); 3977 3978 // Class is contended, pad before all the fields 3979 if (is_contended_class) { 3980 next_nonstatic_field_offset += ContendedPaddingWidth; 3981 } 3982 3983 // Temporary value types restrictions 3984 if (is_value_type()) { 3985 if (is_contended_class) { 3986 throwValueTypeLimitation(THREAD_AND_LOCATION, "Value Types do not support @Contended annotation yet"); 3987 return; 3988 } 3989 } 3990 3991 // Compute the non-contended fields count. 3992 // The packing code below relies on these counts to determine if some field 3993 // can be squeezed into the alignment gap. Contended fields are obviously 3994 // exempt from that. 3995 unsigned int nonstatic_double_count = fac->count[NONSTATIC_DOUBLE] - fac_contended.count[NONSTATIC_DOUBLE]; 3996 unsigned int nonstatic_word_count = fac->count[NONSTATIC_WORD] - fac_contended.count[NONSTATIC_WORD]; 3997 unsigned int nonstatic_short_count = fac->count[NONSTATIC_SHORT] - fac_contended.count[NONSTATIC_SHORT]; 3998 unsigned int nonstatic_byte_count = fac->count[NONSTATIC_BYTE] - fac_contended.count[NONSTATIC_BYTE]; 3999 unsigned int nonstatic_oop_count = fac->count[NONSTATIC_OOP] - fac_contended.count[NONSTATIC_OOP]; 4000 4001 int static_value_type_count = 0; 4002 int nonstatic_value_type_count = 0; 4003 int* nonstatic_value_type_indexes = NULL; 4004 Klass** nonstatic_value_type_klasses = NULL; 4005 unsigned int value_type_oop_map_count = 0; 4006 int not_flattened_value_types = 0; 4007 4008 int max_nonstatic_value_type = fac->count[NONSTATIC_FLATTENABLE] + 1; 4009 4010 nonstatic_value_type_indexes = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, int, 4011 max_nonstatic_value_type); 4012 for (int i = 0; i < max_nonstatic_value_type; i++) { 4013 nonstatic_value_type_indexes[i] = -1; 4014 } 4015 nonstatic_value_type_klasses = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, Klass*, 4016 max_nonstatic_value_type); 4017 4018 for (AllFieldStream fs(_fields, _cp); !fs.done(); fs.next()) { 4019 if (fs.allocation_type() == STATIC_FLATTENABLE) { 4020 // Pre-resolve the flattenable field and check for value type circularity 4021 // issues. Note that super-class circularity checks are not needed here 4022 // because flattenable fields can only be in value types and value types 4023 // only have java.lang.Object as their super class. 4024 // Also, note that super-interface circularity checks are not needed 4025 // because interfaces cannot be value types. 4026 Klass* klass = 4027 SystemDictionary::resolve_flattenable_field_or_fail(&fs, 4028 Handle(THREAD, _loader_data->class_loader()), 4029 _protection_domain, true, CHECK); 4030 assert(klass != NULL, "Sanity check"); 4031 assert(klass->access_flags().is_value_type(), "Value type expected"); 4032 static_value_type_count++; 4033 } else if (fs.allocation_type() == NONSTATIC_FLATTENABLE) { 4034 // Pre-resolve the flattenable field and check for value type circularity issues. 4035 Klass* klass = 4036 SystemDictionary::resolve_flattenable_field_or_fail(&fs, 4037 Handle(THREAD, _loader_data->class_loader()), 4038 _protection_domain, true, CHECK); 4039 assert(klass != NULL, "Sanity check"); 4040 assert(klass->access_flags().is_value_type(), "Value type expected"); 4041 ValueKlass* vk = ValueKlass::cast(klass); 4042 // Conditions to apply flattening or not should be defined in a single place 4043 if ((ValueFieldMaxFlatSize < 0) || (vk->size_helper() * HeapWordSize) <= ValueFieldMaxFlatSize) { 4044 nonstatic_value_type_indexes[nonstatic_value_type_count] = fs.index(); 4045 nonstatic_value_type_klasses[nonstatic_value_type_count] = klass; 4046 nonstatic_value_type_count++; 4047 4048 ValueKlass* vklass = ValueKlass::cast(klass); 4049 if (vklass->contains_oops()) { 4050 value_type_oop_map_count += vklass->nonstatic_oop_map_count(); 4051 } 4052 fs.set_flattened(true); 4053 } else { 4054 not_flattened_value_types++; 4055 fs.set_flattened(false); 4056 } 4057 } 4058 } 4059 4060 // Adjusting non_static_oop_count to take into account not flattened value types; 4061 nonstatic_oop_count += not_flattened_value_types; 4062 4063 // Total non-static fields count, including every contended field 4064 unsigned int nonstatic_fields_count = fac->count[NONSTATIC_DOUBLE] + fac->count[NONSTATIC_WORD] + 4065 fac->count[NONSTATIC_SHORT] + fac->count[NONSTATIC_BYTE] + 4066 fac->count[NONSTATIC_OOP] + fac->count[NONSTATIC_FLATTENABLE]; 4067 4068 const bool super_has_nonstatic_fields = 4069 (_super_klass != NULL && _super_klass->has_nonstatic_fields()); 4070 const bool has_nonstatic_fields = 4071 super_has_nonstatic_fields || (nonstatic_fields_count != 0); 4072 const bool has_nonstatic_value_fields = nonstatic_value_type_count > 0; 4073 4074 if (is_value_type() && (!has_nonstatic_fields)) { 4075 // There are a number of fixes required throughout the type system and JIT 4076 throwValueTypeLimitation(THREAD_AND_LOCATION, "Value Types do not support zero instance size yet"); 4077 } 4078 4079 // Prepare list of oops for oop map generation. 4080 // 4081 // "offset" and "count" lists are describing the set of contiguous oop 4082 // regions. offset[i] is the start of the i-th region, which then has 4083 // count[i] oops following. Before we know how many regions are required, 4084 // we pessimistically allocate the maps to fit all the oops into the 4085 // distinct regions. 4086 // 4087 int super_oop_map_count = (_super_klass == NULL) ? 0 :_super_klass->nonstatic_oop_map_count(); 4088 int max_oop_map_count = 4089 super_oop_map_count + 4090 fac->count[NONSTATIC_OOP] + 4091 value_type_oop_map_count + 4092 not_flattened_value_types; 4093 4094 OopMapBlocksBuilder* nonstatic_oop_maps = new OopMapBlocksBuilder(max_oop_map_count, THREAD); 4095 if (super_oop_map_count > 0) { 4096 nonstatic_oop_maps->initialize_inherited_blocks(_super_klass->start_of_nonstatic_oop_maps(), 4097 _super_klass->nonstatic_oop_map_count()); 4098 } 4099 4100 int first_nonstatic_oop_offset = 0; // will be set for first oop field 4101 4102 bool compact_fields = CompactFields; 4103 int allocation_style = FieldsAllocationStyle; 4104 if( allocation_style < 0 || allocation_style > 2 ) { // Out of range? 4105 assert(false, "0 <= FieldsAllocationStyle <= 2"); 4106 allocation_style = 1; // Optimistic 4107 } 4108 4109 // The next classes have predefined hard-coded fields offsets 4110 // (see in JavaClasses::compute_hard_coded_offsets()). 4111 // Use default fields allocation order for them. 4112 if( (allocation_style != 0 || compact_fields ) && _loader_data->class_loader() == NULL && 4113 (_class_name == vmSymbols::java_lang_AssertionStatusDirectives() || 4114 _class_name == vmSymbols::java_lang_Class() || 4115 _class_name == vmSymbols::java_lang_ClassLoader() || 4116 _class_name == vmSymbols::java_lang_ref_Reference() || 4117 _class_name == vmSymbols::java_lang_ref_SoftReference() || 4118 _class_name == vmSymbols::java_lang_StackTraceElement() || 4119 _class_name == vmSymbols::java_lang_String() || 4120 _class_name == vmSymbols::java_lang_Throwable() || 4121 _class_name == vmSymbols::java_lang_Boolean() || 4122 _class_name == vmSymbols::java_lang_Character() || 4123 _class_name == vmSymbols::java_lang_Float() || 4124 _class_name == vmSymbols::java_lang_Double() || 4125 _class_name == vmSymbols::java_lang_Byte() || 4126 _class_name == vmSymbols::java_lang_Short() || 4127 _class_name == vmSymbols::java_lang_Integer() || 4128 _class_name == vmSymbols::java_lang_Long())) { 4129 allocation_style = 0; // Allocate oops first 4130 compact_fields = false; // Don't compact fields 4131 } 4132 4133 int next_nonstatic_oop_offset = 0; 4134 int next_nonstatic_double_offset = 0; 4135 4136 // Rearrange fields for a given allocation style 4137 if( allocation_style == 0 ) { 4138 // Fields order: oops, longs/doubles, ints, shorts/chars, bytes, padded fields 4139 next_nonstatic_oop_offset = next_nonstatic_field_offset; 4140 next_nonstatic_double_offset = next_nonstatic_oop_offset + 4141 (nonstatic_oop_count * heapOopSize); 4142 } else if( allocation_style == 1 ) { 4143 // Fields order: longs/doubles, ints, shorts/chars, bytes, oops, padded fields 4144 next_nonstatic_double_offset = next_nonstatic_field_offset; 4145 } else if( allocation_style == 2 ) { 4146 // Fields allocation: oops fields in super and sub classes are together. 4147 if( nonstatic_field_size > 0 && super_oop_map_count > 0 ) { 4148 if (next_nonstatic_field_offset == nonstatic_oop_maps->last_oop_map()->end_offset()) { 4149 allocation_style = 0; // allocate oops first 4150 next_nonstatic_oop_offset = next_nonstatic_field_offset; 4151 next_nonstatic_double_offset = next_nonstatic_oop_offset + 4152 (nonstatic_oop_count * heapOopSize); 4153 } 4154 } 4155 if( allocation_style == 2 ) { 4156 allocation_style = 1; // allocate oops last 4157 next_nonstatic_double_offset = next_nonstatic_field_offset; 4158 } 4159 } else { 4160 ShouldNotReachHere(); 4161 } 4162 4163 int nonstatic_oop_space_count = 0; 4164 int nonstatic_word_space_count = 0; 4165 int nonstatic_short_space_count = 0; 4166 int nonstatic_byte_space_count = 0; 4167 int nonstatic_oop_space_offset = 0; 4168 int nonstatic_word_space_offset = 0; 4169 int nonstatic_short_space_offset = 0; 4170 int nonstatic_byte_space_offset = 0; 4171 4172 // Try to squeeze some of the fields into the gaps due to 4173 // long/double alignment. 4174 if (nonstatic_double_count > 0) { 4175 int offset = next_nonstatic_double_offset; 4176 next_nonstatic_double_offset = align_up(offset, BytesPerLong); 4177 if (compact_fields && offset != next_nonstatic_double_offset) { 4178 // Allocate available fields into the gap before double field. 4179 int length = next_nonstatic_double_offset - offset; 4180 assert(length == BytesPerInt, ""); 4181 nonstatic_word_space_offset = offset; 4182 if (nonstatic_word_count > 0) { 4183 nonstatic_word_count -= 1; 4184 nonstatic_word_space_count = 1; // Only one will fit 4185 length -= BytesPerInt; 4186 offset += BytesPerInt; 4187 } 4188 nonstatic_short_space_offset = offset; 4189 while (length >= BytesPerShort && nonstatic_short_count > 0) { 4190 nonstatic_short_count -= 1; 4191 nonstatic_short_space_count += 1; 4192 length -= BytesPerShort; 4193 offset += BytesPerShort; 4194 } 4195 nonstatic_byte_space_offset = offset; 4196 while (length > 0 && nonstatic_byte_count > 0) { 4197 nonstatic_byte_count -= 1; 4198 nonstatic_byte_space_count += 1; 4199 length -= 1; 4200 } 4201 // Allocate oop field in the gap if there are no other fields for that. 4202 nonstatic_oop_space_offset = offset; 4203 if (length >= heapOopSize && nonstatic_oop_count > 0 && 4204 allocation_style != 0) { // when oop fields not first 4205 nonstatic_oop_count -= 1; 4206 nonstatic_oop_space_count = 1; // Only one will fit 4207 length -= heapOopSize; 4208 offset += heapOopSize; 4209 } 4210 } 4211 } 4212 4213 int next_nonstatic_word_offset = next_nonstatic_double_offset + 4214 (nonstatic_double_count * BytesPerLong); 4215 int next_nonstatic_short_offset = next_nonstatic_word_offset + 4216 (nonstatic_word_count * BytesPerInt); 4217 int next_nonstatic_byte_offset = next_nonstatic_short_offset + 4218 (nonstatic_short_count * BytesPerShort); 4219 int next_nonstatic_padded_offset = next_nonstatic_byte_offset + 4220 nonstatic_byte_count; 4221 4222 // let oops jump before padding with this allocation style 4223 if( allocation_style == 1 ) { 4224 next_nonstatic_oop_offset = next_nonstatic_padded_offset; 4225 if( nonstatic_oop_count > 0 ) { 4226 next_nonstatic_oop_offset = align_up(next_nonstatic_oop_offset, heapOopSize); 4227 } 4228 next_nonstatic_padded_offset = next_nonstatic_oop_offset + (nonstatic_oop_count * heapOopSize); 4229 } 4230 4231 // Aligning embedded value types 4232 // bug below, the current algorithm to layout embedded value types always put them at the 4233 // end of the layout, which doesn't match the different allocation policies the VM is 4234 // supposed to provide => FixMe 4235 // Note also that the current alignment policy is to make each value type starting on a 4236 // 64 bits boundary. This could be optimized later. For instance, it could be nice to 4237 // align value types according to their most constrained internal type. 4238 next_nonstatic_valuetype_offset = align_up(next_nonstatic_padded_offset, BytesPerLong); 4239 int next_value_type_index = 0; 4240 4241 // Iterate over fields again and compute correct offsets. 4242 // The field allocation type was temporarily stored in the offset slot. 4243 // oop fields are located before non-oop fields (static and non-static). 4244 for (AllFieldStream fs(_fields, cp); !fs.done(); fs.next()) { 4245 4246 // skip already laid out fields 4247 if (fs.is_offset_set()) continue; 4248 4249 // contended instance fields are handled below 4250 if (fs.is_contended() && !fs.access_flags().is_static()) continue; 4251 4252 int real_offset = 0; 4253 const FieldAllocationType atype = (const FieldAllocationType) fs.allocation_type(); 4254 4255 // pack the rest of the fields 4256 switch (atype) { 4257 // Value types in static fields are handled with oops 4258 case STATIC_FLATTENABLE: // Fallthrough 4259 case STATIC_OOP: 4260 real_offset = next_static_oop_offset; 4261 next_static_oop_offset += heapOopSize; 4262 break; 4263 case STATIC_BYTE: 4264 real_offset = next_static_byte_offset; 4265 next_static_byte_offset += 1; 4266 break; 4267 case STATIC_SHORT: 4268 real_offset = next_static_short_offset; 4269 next_static_short_offset += BytesPerShort; 4270 break; 4271 case STATIC_WORD: 4272 real_offset = next_static_word_offset; 4273 next_static_word_offset += BytesPerInt; 4274 break; 4275 case STATIC_DOUBLE: 4276 real_offset = next_static_double_offset; 4277 next_static_double_offset += BytesPerLong; 4278 break; 4279 case NONSTATIC_FLATTENABLE: 4280 if (fs.is_flattened()) { 4281 Klass* klass = nonstatic_value_type_klasses[next_value_type_index]; 4282 assert(klass != NULL, "Klass should have been loaded and resolved earlier"); 4283 assert(klass->access_flags().is_value_type(),"Must be a value type"); 4284 ValueKlass* vklass = ValueKlass::cast(klass); 4285 real_offset = next_nonstatic_valuetype_offset; 4286 next_nonstatic_valuetype_offset += (vklass->size_helper()) * wordSize - vklass->first_field_offset(); 4287 // aligning next value type on a 64 bits boundary 4288 next_nonstatic_valuetype_offset = align_up(next_nonstatic_valuetype_offset, BytesPerLong); 4289 next_value_type_index += 1; 4290 4291 if (vklass->contains_oops()) { // add flatten oop maps 4292 int diff = real_offset - vklass->first_field_offset(); 4293 const OopMapBlock* map = vklass->start_of_nonstatic_oop_maps(); 4294 const OopMapBlock* const last_map = map + vklass->nonstatic_oop_map_count(); 4295 while (map < last_map) { 4296 nonstatic_oop_maps->add(map->offset() + diff, map->count()); 4297 map++; 4298 } 4299 } 4300 break; 4301 } else { 4302 // Fall through 4303 } 4304 case NONSTATIC_OOP: 4305 if( nonstatic_oop_space_count > 0 ) { 4306 real_offset = nonstatic_oop_space_offset; 4307 nonstatic_oop_space_offset += heapOopSize; 4308 nonstatic_oop_space_count -= 1; 4309 } else { 4310 real_offset = next_nonstatic_oop_offset; 4311 next_nonstatic_oop_offset += heapOopSize; 4312 } 4313 nonstatic_oop_maps->add(real_offset, 1); 4314 break; 4315 case NONSTATIC_BYTE: 4316 if( nonstatic_byte_space_count > 0 ) { 4317 real_offset = nonstatic_byte_space_offset; 4318 nonstatic_byte_space_offset += 1; 4319 nonstatic_byte_space_count -= 1; 4320 } else { 4321 real_offset = next_nonstatic_byte_offset; 4322 next_nonstatic_byte_offset += 1; 4323 } 4324 break; 4325 case NONSTATIC_SHORT: 4326 if( nonstatic_short_space_count > 0 ) { 4327 real_offset = nonstatic_short_space_offset; 4328 nonstatic_short_space_offset += BytesPerShort; 4329 nonstatic_short_space_count -= 1; 4330 } else { 4331 real_offset = next_nonstatic_short_offset; 4332 next_nonstatic_short_offset += BytesPerShort; 4333 } 4334 break; 4335 case NONSTATIC_WORD: 4336 if( nonstatic_word_space_count > 0 ) { 4337 real_offset = nonstatic_word_space_offset; 4338 nonstatic_word_space_offset += BytesPerInt; 4339 nonstatic_word_space_count -= 1; 4340 } else { 4341 real_offset = next_nonstatic_word_offset; 4342 next_nonstatic_word_offset += BytesPerInt; 4343 } 4344 break; 4345 case NONSTATIC_DOUBLE: 4346 real_offset = next_nonstatic_double_offset; 4347 next_nonstatic_double_offset += BytesPerLong; 4348 break; 4349 default: 4350 ShouldNotReachHere(); 4351 } 4352 fs.set_offset(real_offset); 4353 } 4354 4355 4356 // Handle the contended cases. 4357 // 4358 // Each contended field should not intersect the cache line with another contended field. 4359 // In the absence of alignment information, we end up with pessimistically separating 4360 // the fields with full-width padding. 4361 // 4362 // Additionally, this should not break alignment for the fields, so we round the alignment up 4363 // for each field. 4364 if (nonstatic_contended_count > 0) { 4365 4366 // if there is at least one contended field, we need to have pre-padding for them 4367 next_nonstatic_padded_offset += ContendedPaddingWidth; 4368 4369 // collect all contended groups 4370 ResourceBitMap bm(cp->size()); 4371 for (AllFieldStream fs(_fields, cp); !fs.done(); fs.next()) { 4372 // skip already laid out fields 4373 if (fs.is_offset_set()) continue; 4374 4375 if (fs.is_contended()) { 4376 bm.set_bit(fs.contended_group()); 4377 } 4378 } 4379 4380 int current_group = -1; 4381 while ((current_group = (int)bm.get_next_one_offset(current_group + 1)) != (int)bm.size()) { 4382 4383 for (AllFieldStream fs(_fields, cp); !fs.done(); fs.next()) { 4384 4385 // skip already laid out fields 4386 if (fs.is_offset_set()) continue; 4387 4388 // skip non-contended fields and fields from different group 4389 if (!fs.is_contended() || (fs.contended_group() != current_group)) continue; 4390 4391 // handle statics below 4392 if (fs.access_flags().is_static()) continue; 4393 4394 int real_offset = 0; 4395 FieldAllocationType atype = (FieldAllocationType) fs.allocation_type(); 4396 4397 switch (atype) { 4398 case NONSTATIC_BYTE: 4399 next_nonstatic_padded_offset = align_up(next_nonstatic_padded_offset, 1); 4400 real_offset = next_nonstatic_padded_offset; 4401 next_nonstatic_padded_offset += 1; 4402 break; 4403 4404 case NONSTATIC_SHORT: 4405 next_nonstatic_padded_offset = align_up(next_nonstatic_padded_offset, BytesPerShort); 4406 real_offset = next_nonstatic_padded_offset; 4407 next_nonstatic_padded_offset += BytesPerShort; 4408 break; 4409 4410 case NONSTATIC_WORD: 4411 next_nonstatic_padded_offset = align_up(next_nonstatic_padded_offset, BytesPerInt); 4412 real_offset = next_nonstatic_padded_offset; 4413 next_nonstatic_padded_offset += BytesPerInt; 4414 break; 4415 4416 case NONSTATIC_DOUBLE: 4417 next_nonstatic_padded_offset = align_up(next_nonstatic_padded_offset, BytesPerLong); 4418 real_offset = next_nonstatic_padded_offset; 4419 next_nonstatic_padded_offset += BytesPerLong; 4420 break; 4421 4422 // Value types in static fields are handled with oops 4423 case NONSTATIC_FLATTENABLE: 4424 throwValueTypeLimitation(THREAD_AND_LOCATION, 4425 "@Contended annotation not supported for value types yet", fs.name(), fs.signature()); 4426 return; 4427 4428 case NONSTATIC_OOP: 4429 next_nonstatic_padded_offset = align_up(next_nonstatic_padded_offset, heapOopSize); 4430 real_offset = next_nonstatic_padded_offset; 4431 next_nonstatic_padded_offset += heapOopSize; 4432 nonstatic_oop_maps->add(real_offset, 1); 4433 break; 4434 4435 default: 4436 ShouldNotReachHere(); 4437 } 4438 4439 if (fs.contended_group() == 0) { 4440 // Contended group defines the equivalence class over the fields: 4441 // the fields within the same contended group are not inter-padded. 4442 // The only exception is default group, which does not incur the 4443 // equivalence, and so requires intra-padding. 4444 next_nonstatic_padded_offset += ContendedPaddingWidth; 4445 } 4446 4447 fs.set_offset(real_offset); 4448 } // for 4449 4450 // Start laying out the next group. 4451 // Note that this will effectively pad the last group in the back; 4452 // this is expected to alleviate memory contention effects for 4453 // subclass fields and/or adjacent object. 4454 // If this was the default group, the padding is already in place. 4455 if (current_group != 0) { 4456 next_nonstatic_padded_offset += ContendedPaddingWidth; 4457 } 4458 } 4459 4460 // handle static fields 4461 } 4462 4463 // Entire class is contended, pad in the back. 4464 // This helps to alleviate memory contention effects for subclass fields 4465 // and/or adjacent object. 4466 if (is_contended_class) { 4467 assert(!is_value_type(), "@Contended not supported for value types yet"); 4468 next_nonstatic_padded_offset += ContendedPaddingWidth; 4469 } 4470 4471 int notaligned_nonstatic_fields_end; 4472 if (nonstatic_value_type_count != 0) { 4473 notaligned_nonstatic_fields_end = next_nonstatic_valuetype_offset; 4474 } else { 4475 notaligned_nonstatic_fields_end = next_nonstatic_padded_offset; 4476 } 4477 4478 int nonstatic_field_sz_align = heapOopSize; 4479 if (is_value_type()) { 4480 if ((notaligned_nonstatic_fields_end - nonstatic_fields_start) > heapOopSize) { 4481 nonstatic_field_sz_align = BytesPerLong; // value copy of fields only uses jlong copy 4482 } 4483 } 4484 int nonstatic_fields_end = align_up(notaligned_nonstatic_fields_end, nonstatic_field_sz_align); 4485 int instance_end = align_up(notaligned_nonstatic_fields_end, wordSize); 4486 int static_fields_end = align_up(next_static_byte_offset, wordSize); 4487 4488 int static_field_size = (static_fields_end - 4489 InstanceMirrorKlass::offset_of_static_fields()) / wordSize; 4490 nonstatic_field_size = nonstatic_field_size + 4491 (nonstatic_fields_end - nonstatic_fields_start) / heapOopSize; 4492 4493 int instance_size = align_object_size(instance_end / wordSize); 4494 4495 assert(instance_size == align_object_size(align_up( 4496 (instanceOopDesc::base_offset_in_bytes() + nonstatic_field_size*heapOopSize) 4497 + initial_value_type_padding, wordSize) / wordSize), "consistent layout helper value"); 4498 4499 4500 // Invariant: nonstatic_field end/start should only change if there are 4501 // nonstatic fields in the class, or if the class is contended. We compare 4502 // against the non-aligned value, so that end alignment will not fail the 4503 // assert without actually having the fields. 4504 assert((notaligned_nonstatic_fields_end == nonstatic_fields_start) || 4505 is_contended_class || 4506 (nonstatic_fields_count > 0), "double-check nonstatic start/end"); 4507 4508 // Number of non-static oop map blocks allocated at end of klass. 4509 nonstatic_oop_maps->compact(THREAD); 4510 4511 #ifndef PRODUCT 4512 if ((PrintFieldLayout && !is_value_type()) || 4513 (PrintValueLayout && (is_value_type() || has_nonstatic_value_fields))) { 4514 print_field_layout(_class_name, 4515 _fields, 4516 cp, 4517 instance_size, 4518 nonstatic_fields_start, 4519 nonstatic_fields_end, 4520 static_fields_end); 4521 nonstatic_oop_maps->print_on(tty); 4522 tty->print("\n"); 4523 } 4524 4525 #endif 4526 // Pass back information needed for InstanceKlass creation 4527 info->oop_map_blocks = nonstatic_oop_maps; 4528 info->instance_size = instance_size; 4529 info->static_field_size = static_field_size; 4530 info->nonstatic_field_size = nonstatic_field_size; 4531 info->has_nonstatic_fields = has_nonstatic_fields; 4532 } 4533 4534 void ClassFileParser::set_precomputed_flags(InstanceKlass* ik) { 4535 assert(ik != NULL, "invariant"); 4536 4537 const Klass* const super = ik->super(); 4538 4539 // Check if this klass has an empty finalize method (i.e. one with return bytecode only), 4540 // in which case we don't have to register objects as finalizable 4541 if (!_has_empty_finalizer) { 4542 if (_has_finalizer || 4543 (super != NULL && super->has_finalizer())) { 4544 ik->set_has_finalizer(); 4545 } 4546 } 4547 4548 #ifdef ASSERT 4549 bool f = false; 4550 const Method* const m = ik->lookup_method(vmSymbols::finalize_method_name(), 4551 vmSymbols::void_method_signature()); 4552 if (m != NULL && !m->is_empty_method()) { 4553 f = true; 4554 } 4555 4556 // Spec doesn't prevent agent from redefinition of empty finalizer. 4557 // Despite the fact that it's generally bad idea and redefined finalizer 4558 // will not work as expected we shouldn't abort vm in this case 4559 if (!ik->has_redefined_this_or_super()) { 4560 assert(ik->has_finalizer() == f, "inconsistent has_finalizer"); 4561 } 4562 #endif 4563 4564 // Check if this klass supports the java.lang.Cloneable interface 4565 if (SystemDictionary::Cloneable_klass_loaded()) { 4566 if (ik->is_subtype_of(SystemDictionary::Cloneable_klass())) { 4567 ik->set_is_cloneable(); 4568 } 4569 } 4570 4571 // Check if this klass has a vanilla default constructor 4572 if (super == NULL) { 4573 // java.lang.Object has empty default constructor 4574 ik->set_has_vanilla_constructor(); 4575 } else { 4576 if (super->has_vanilla_constructor() && 4577 _has_vanilla_constructor) { 4578 ik->set_has_vanilla_constructor(); 4579 } 4580 #ifdef ASSERT 4581 bool v = false; 4582 if (super->has_vanilla_constructor()) { 4583 const Method* const constructor = 4584 ik->find_method(vmSymbols::object_initializer_name(), 4585 vmSymbols::void_method_signature()); 4586 if (constructor != NULL && constructor->is_vanilla_constructor()) { 4587 v = true; 4588 } 4589 } 4590 assert(v == ik->has_vanilla_constructor(), "inconsistent has_vanilla_constructor"); 4591 #endif 4592 } 4593 4594 // If it cannot be fast-path allocated, set a bit in the layout helper. 4595 // See documentation of InstanceKlass::can_be_fastpath_allocated(). 4596 assert(ik->size_helper() > 0, "layout_helper is initialized"); 4597 if ((!RegisterFinalizersAtInit && ik->has_finalizer()) 4598 || ik->is_abstract() || ik->is_interface() 4599 || (ik->name() == vmSymbols::java_lang_Class() && ik->class_loader() == NULL) 4600 || ik->size_helper() >= FastAllocateSizeLimit) { 4601 // Forbid fast-path allocation. 4602 const jint lh = Klass::instance_layout_helper(ik->size_helper(), true); 4603 ik->set_layout_helper(lh); 4604 } 4605 } 4606 4607 bool ClassFileParser::supports_value_types() const { 4608 // Value types are only supported by class file version 55 and later 4609 return _major_version >= JAVA_11_VERSION; 4610 } 4611 4612 // Attach super classes and interface classes to class loader data 4613 static void record_defined_class_dependencies(const InstanceKlass* defined_klass, 4614 TRAPS) { 4615 assert(defined_klass != NULL, "invariant"); 4616 4617 ClassLoaderData* const defining_loader_data = defined_klass->class_loader_data(); 4618 if (defining_loader_data->is_the_null_class_loader_data()) { 4619 // Dependencies to null class loader data are implicit. 4620 return; 4621 } else { 4622 // add super class dependency 4623 Klass* const super = defined_klass->super(); 4624 if (super != NULL) { 4625 defining_loader_data->record_dependency(super, CHECK); 4626 } 4627 4628 // add super interface dependencies 4629 const Array<Klass*>* const local_interfaces = defined_klass->local_interfaces(); 4630 if (local_interfaces != NULL) { 4631 const int length = local_interfaces->length(); 4632 for (int i = 0; i < length; i++) { 4633 defining_loader_data->record_dependency(local_interfaces->at(i), CHECK); 4634 } 4635 } 4636 4637 for(int i = 0; i < defined_klass->java_fields_count(); i++) { 4638 if ((defined_klass->field_access_flags(i) & JVM_ACC_FLATTENABLE) != 0) { 4639 const Klass* klass = defined_klass->get_value_field_klass(i); 4640 defining_loader_data->record_dependency(klass, CHECK); 4641 } 4642 } 4643 } 4644 } 4645 4646 // utility methods for appending an array with check for duplicates 4647 4648 static void append_interfaces(GrowableArray<Klass*>* result, 4649 const Array<Klass*>* const ifs) { 4650 // iterate over new interfaces 4651 for (int i = 0; i < ifs->length(); i++) { 4652 Klass* const e = ifs->at(i); 4653 assert(e->is_klass() && InstanceKlass::cast(e)->is_interface(), "just checking"); 4654 // add new interface 4655 result->append_if_missing(e); 4656 } 4657 } 4658 4659 static Array<Klass*>* compute_transitive_interfaces(const InstanceKlass* super, 4660 Array<Klass*>* local_ifs, 4661 ClassLoaderData* loader_data, 4662 TRAPS) { 4663 assert(local_ifs != NULL, "invariant"); 4664 assert(loader_data != NULL, "invariant"); 4665 4666 // Compute maximum size for transitive interfaces 4667 int max_transitive_size = 0; 4668 int super_size = 0; 4669 // Add superclass transitive interfaces size 4670 if (super != NULL) { 4671 super_size = super->transitive_interfaces()->length(); 4672 max_transitive_size += super_size; 4673 } 4674 // Add local interfaces' super interfaces 4675 const int local_size = local_ifs->length(); 4676 for (int i = 0; i < local_size; i++) { 4677 Klass* const l = local_ifs->at(i); 4678 max_transitive_size += InstanceKlass::cast(l)->transitive_interfaces()->length(); 4679 } 4680 // Finally add local interfaces 4681 max_transitive_size += local_size; 4682 // Construct array 4683 if (max_transitive_size == 0) { 4684 // no interfaces, use canonicalized array 4685 return Universe::the_empty_klass_array(); 4686 } else if (max_transitive_size == super_size) { 4687 // no new local interfaces added, share superklass' transitive interface array 4688 return super->transitive_interfaces(); 4689 } else if (max_transitive_size == local_size) { 4690 // only local interfaces added, share local interface array 4691 return local_ifs; 4692 } else { 4693 ResourceMark rm; 4694 GrowableArray<Klass*>* const result = new GrowableArray<Klass*>(max_transitive_size); 4695 4696 // Copy down from superclass 4697 if (super != NULL) { 4698 append_interfaces(result, super->transitive_interfaces()); 4699 } 4700 4701 // Copy down from local interfaces' superinterfaces 4702 for (int i = 0; i < local_size; i++) { 4703 Klass* const l = local_ifs->at(i); 4704 append_interfaces(result, InstanceKlass::cast(l)->transitive_interfaces()); 4705 } 4706 // Finally add local interfaces 4707 append_interfaces(result, local_ifs); 4708 4709 // length will be less than the max_transitive_size if duplicates were removed 4710 const int length = result->length(); 4711 assert(length <= max_transitive_size, "just checking"); 4712 Array<Klass*>* const new_result = 4713 MetadataFactory::new_array<Klass*>(loader_data, length, CHECK_NULL); 4714 for (int i = 0; i < length; i++) { 4715 Klass* const e = result->at(i); 4716 assert(e != NULL, "just checking"); 4717 new_result->at_put(i, e); 4718 } 4719 return new_result; 4720 } 4721 } 4722 4723 static void check_super_class_access(const InstanceKlass* this_klass, TRAPS) { 4724 assert(this_klass != NULL, "invariant"); 4725 const Klass* const super = this_klass->super(); 4726 if (super != NULL) { 4727 4728 // If the loader is not the boot loader then throw an exception if its 4729 // superclass is in package jdk.internal.reflect and its loader is not a 4730 // special reflection class loader 4731 if (!this_klass->class_loader_data()->is_the_null_class_loader_data()) { 4732 assert(super->is_instance_klass(), "super is not instance klass"); 4733 PackageEntry* super_package = super->package(); 4734 if (super_package != NULL && 4735 super_package->name()->fast_compare(vmSymbols::jdk_internal_reflect()) == 0 && 4736 !java_lang_ClassLoader::is_reflection_class_loader(this_klass->class_loader())) { 4737 ResourceMark rm(THREAD); 4738 Exceptions::fthrow( 4739 THREAD_AND_LOCATION, 4740 vmSymbols::java_lang_IllegalAccessError(), 4741 "class %s loaded by %s cannot access jdk/internal/reflect superclass %s", 4742 this_klass->external_name(), 4743 this_klass->class_loader_data()->loader_name(), 4744 super->external_name()); 4745 return; 4746 } 4747 } 4748 4749 Reflection::VerifyClassAccessResults vca_result = 4750 Reflection::verify_class_access(this_klass, InstanceKlass::cast(super), false); 4751 if (vca_result != Reflection::ACCESS_OK) { 4752 ResourceMark rm(THREAD); 4753 char* msg = Reflection::verify_class_access_msg(this_klass, 4754 InstanceKlass::cast(super), 4755 vca_result); 4756 if (msg == NULL) { 4757 Exceptions::fthrow( 4758 THREAD_AND_LOCATION, 4759 vmSymbols::java_lang_IllegalAccessError(), 4760 "class %s cannot access its superclass %s", 4761 this_klass->external_name(), 4762 super->external_name()); 4763 } else { 4764 // Add additional message content. 4765 Exceptions::fthrow( 4766 THREAD_AND_LOCATION, 4767 vmSymbols::java_lang_IllegalAccessError(), 4768 "superclass access check failed: %s", 4769 msg); 4770 } 4771 } 4772 } 4773 } 4774 4775 4776 static void check_super_interface_access(const InstanceKlass* this_klass, TRAPS) { 4777 assert(this_klass != NULL, "invariant"); 4778 const Array<Klass*>* const local_interfaces = this_klass->local_interfaces(); 4779 const int lng = local_interfaces->length(); 4780 for (int i = lng - 1; i >= 0; i--) { 4781 Klass* const k = local_interfaces->at(i); 4782 assert (k != NULL && k->is_interface(), "invalid interface"); 4783 Reflection::VerifyClassAccessResults vca_result = 4784 Reflection::verify_class_access(this_klass, InstanceKlass::cast(k), false); 4785 if (vca_result != Reflection::ACCESS_OK) { 4786 ResourceMark rm(THREAD); 4787 char* msg = Reflection::verify_class_access_msg(this_klass, 4788 InstanceKlass::cast(k), 4789 vca_result); 4790 if (msg == NULL) { 4791 Exceptions::fthrow( 4792 THREAD_AND_LOCATION, 4793 vmSymbols::java_lang_IllegalAccessError(), 4794 "class %s cannot access its superinterface %s", 4795 this_klass->external_name(), 4796 k->external_name()); 4797 } else { 4798 // Add additional message content. 4799 Exceptions::fthrow( 4800 THREAD_AND_LOCATION, 4801 vmSymbols::java_lang_IllegalAccessError(), 4802 "superinterface check failed: %s", 4803 msg); 4804 } 4805 } 4806 } 4807 } 4808 4809 4810 static void check_final_method_override(const InstanceKlass* this_klass, TRAPS) { 4811 assert(this_klass != NULL, "invariant"); 4812 const Array<Method*>* const methods = this_klass->methods(); 4813 const int num_methods = methods->length(); 4814 4815 // go thru each method and check if it overrides a final method 4816 for (int index = 0; index < num_methods; index++) { 4817 const Method* const m = methods->at(index); 4818 4819 // skip private, static, and <init> methods 4820 if ((!m->is_private() && !m->is_static()) && 4821 (m->name() != vmSymbols::object_initializer_name())) { 4822 4823 const Symbol* const name = m->name(); 4824 const Symbol* const signature = m->signature(); 4825 const Klass* k = this_klass->super(); 4826 const Method* super_m = NULL; 4827 while (k != NULL) { 4828 // skip supers that don't have final methods. 4829 if (k->has_final_method()) { 4830 // lookup a matching method in the super class hierarchy 4831 super_m = InstanceKlass::cast(k)->lookup_method(name, signature); 4832 if (super_m == NULL) { 4833 break; // didn't find any match; get out 4834 } 4835 4836 if (super_m->is_final() && !super_m->is_static() && 4837 // matching method in super is final, and not static 4838 (Reflection::verify_field_access(this_klass, 4839 super_m->method_holder(), 4840 super_m->method_holder(), 4841 super_m->access_flags(), false)) 4842 // this class can access super final method and therefore override 4843 ) { 4844 ResourceMark rm(THREAD); 4845 Exceptions::fthrow( 4846 THREAD_AND_LOCATION, 4847 vmSymbols::java_lang_VerifyError(), 4848 "class %s overrides final method %s.%s%s", 4849 this_klass->external_name(), 4850 super_m->method_holder()->external_name(), 4851 name->as_C_string(), 4852 signature->as_C_string() 4853 ); 4854 return; 4855 } 4856 4857 // continue to look from super_m's holder's super. 4858 k = super_m->method_holder()->super(); 4859 continue; 4860 } 4861 4862 k = k->super(); 4863 } 4864 } 4865 } 4866 } 4867 4868 4869 // assumes that this_klass is an interface 4870 static void check_illegal_static_method(const InstanceKlass* this_klass, TRAPS) { 4871 assert(this_klass != NULL, "invariant"); 4872 assert(this_klass->is_interface(), "not an interface"); 4873 const Array<Method*>* methods = this_klass->methods(); 4874 const int num_methods = methods->length(); 4875 4876 for (int index = 0; index < num_methods; index++) { 4877 const Method* const m = methods->at(index); 4878 // if m is static and not the init method, throw a verify error 4879 if ((m->is_static()) && (m->name() != vmSymbols::class_initializer_name())) { 4880 ResourceMark rm(THREAD); 4881 Exceptions::fthrow( 4882 THREAD_AND_LOCATION, 4883 vmSymbols::java_lang_VerifyError(), 4884 "Illegal static method %s in interface %s", 4885 m->name()->as_C_string(), 4886 this_klass->external_name() 4887 ); 4888 return; 4889 } 4890 } 4891 } 4892 4893 // utility methods for format checking 4894 4895 void ClassFileParser::verify_legal_class_modifiers(jint flags, TRAPS) const { 4896 const bool is_module = (flags & JVM_ACC_MODULE) != 0; 4897 const bool is_value_type = (flags & JVM_ACC_VALUE) != 0; 4898 assert(_major_version >= JAVA_9_VERSION || !is_module, "JVM_ACC_MODULE should not be set"); 4899 assert(supports_value_types() || !is_value_type, "JVM_ACC_VALUE should not be set"); 4900 if (is_module) { 4901 ResourceMark rm(THREAD); 4902 Exceptions::fthrow( 4903 THREAD_AND_LOCATION, 4904 vmSymbols::java_lang_NoClassDefFoundError(), 4905 "%s is not a class because access_flag ACC_MODULE is set", 4906 _class_name->as_C_string()); 4907 return; 4908 } 4909 4910 if (!_need_verify) { return; } 4911 4912 const bool is_interface = (flags & JVM_ACC_INTERFACE) != 0; 4913 const bool is_abstract = (flags & JVM_ACC_ABSTRACT) != 0; 4914 const bool is_final = (flags & JVM_ACC_FINAL) != 0; 4915 const bool is_super = (flags & JVM_ACC_SUPER) != 0; 4916 const bool is_enum = (flags & JVM_ACC_ENUM) != 0; 4917 const bool is_annotation = (flags & JVM_ACC_ANNOTATION) != 0; 4918 const bool major_gte_15 = _major_version >= JAVA_1_5_VERSION; 4919 4920 if ((is_abstract && is_final) || 4921 (is_interface && !is_abstract) || 4922 (is_interface && major_gte_15 && (is_super || is_enum)) || 4923 (!is_interface && major_gte_15 && is_annotation) || 4924 (is_value_type && (is_interface || is_abstract || is_enum || !is_final))) { 4925 ResourceMark rm(THREAD); 4926 Exceptions::fthrow( 4927 THREAD_AND_LOCATION, 4928 vmSymbols::java_lang_ClassFormatError(), 4929 "Illegal class modifiers in class %s: 0x%X", 4930 _class_name->as_C_string(), flags 4931 ); 4932 return; 4933 } 4934 } 4935 4936 static bool has_illegal_visibility(jint flags) { 4937 const bool is_public = (flags & JVM_ACC_PUBLIC) != 0; 4938 const bool is_protected = (flags & JVM_ACC_PROTECTED) != 0; 4939 const bool is_private = (flags & JVM_ACC_PRIVATE) != 0; 4940 4941 return ((is_public && is_protected) || 4942 (is_public && is_private) || 4943 (is_protected && is_private)); 4944 } 4945 4946 static bool is_supported_version(u2 major, u2 minor) { 4947 const u2 max_version = JVM_CLASSFILE_MAJOR_VERSION; 4948 return (major >= JAVA_MIN_SUPPORTED_VERSION) && 4949 (major <= max_version) && 4950 ((major != max_version) || 4951 (minor <= JVM_CLASSFILE_MINOR_VERSION)); 4952 } 4953 4954 void ClassFileParser::verify_legal_field_modifiers(jint flags, 4955 bool is_interface, 4956 bool is_value_type, 4957 TRAPS) const { 4958 if (!_need_verify) { return; } 4959 4960 const bool is_public = (flags & JVM_ACC_PUBLIC) != 0; 4961 const bool is_protected = (flags & JVM_ACC_PROTECTED) != 0; 4962 const bool is_private = (flags & JVM_ACC_PRIVATE) != 0; 4963 const bool is_static = (flags & JVM_ACC_STATIC) != 0; 4964 const bool is_final = (flags & JVM_ACC_FINAL) != 0; 4965 const bool is_volatile = (flags & JVM_ACC_VOLATILE) != 0; 4966 const bool is_transient = (flags & JVM_ACC_TRANSIENT) != 0; 4967 const bool is_enum = (flags & JVM_ACC_ENUM) != 0; 4968 const bool major_gte_15 = _major_version >= JAVA_1_5_VERSION; 4969 4970 bool is_illegal = false; 4971 4972 if (is_interface) { 4973 if (!is_public || !is_static || !is_final || is_private || 4974 is_protected || is_volatile || is_transient || 4975 (major_gte_15 && is_enum)) { 4976 is_illegal = true; 4977 } 4978 } else { // not interface 4979 if (has_illegal_visibility(flags) || (is_final && is_volatile)) { 4980 is_illegal = true; 4981 } else { 4982 if (is_value_type && !is_static && !is_final) { 4983 is_illegal = true; 4984 } 4985 } 4986 } 4987 4988 if (is_illegal) { 4989 ResourceMark rm(THREAD); 4990 Exceptions::fthrow( 4991 THREAD_AND_LOCATION, 4992 vmSymbols::java_lang_ClassFormatError(), 4993 "Illegal field modifiers in class %s: 0x%X", 4994 _class_name->as_C_string(), flags); 4995 return; 4996 } 4997 } 4998 4999 void ClassFileParser::verify_legal_method_modifiers(jint flags, 5000 bool is_interface, 5001 bool is_value_type, 5002 const Symbol* name, 5003 TRAPS) const { 5004 if (!_need_verify) { return; } 5005 5006 const bool is_public = (flags & JVM_ACC_PUBLIC) != 0; 5007 const bool is_private = (flags & JVM_ACC_PRIVATE) != 0; 5008 const bool is_static = (flags & JVM_ACC_STATIC) != 0; 5009 const bool is_final = (flags & JVM_ACC_FINAL) != 0; 5010 const bool is_native = (flags & JVM_ACC_NATIVE) != 0; 5011 const bool is_abstract = (flags & JVM_ACC_ABSTRACT) != 0; 5012 const bool is_bridge = (flags & JVM_ACC_BRIDGE) != 0; 5013 const bool is_strict = (flags & JVM_ACC_STRICT) != 0; 5014 const bool is_synchronized = (flags & JVM_ACC_SYNCHRONIZED) != 0; 5015 const bool is_protected = (flags & JVM_ACC_PROTECTED) != 0; 5016 const bool major_gte_15 = _major_version >= JAVA_1_5_VERSION; 5017 const bool major_gte_8 = _major_version >= JAVA_8_VERSION; 5018 const bool is_initializer = (name == vmSymbols::object_initializer_name()); 5019 5020 bool is_illegal = false; 5021 5022 if (is_interface) { 5023 if (major_gte_8) { 5024 // Class file version is JAVA_8_VERSION or later Methods of 5025 // interfaces may set any of the flags except ACC_PROTECTED, 5026 // ACC_FINAL, ACC_NATIVE, and ACC_SYNCHRONIZED; they must 5027 // have exactly one of the ACC_PUBLIC or ACC_PRIVATE flags set. 5028 if ((is_public == is_private) || /* Only one of private and public should be true - XNOR */ 5029 (is_native || is_protected || is_final || is_synchronized) || 5030 // If a specific method of a class or interface has its 5031 // ACC_ABSTRACT flag set, it must not have any of its 5032 // ACC_FINAL, ACC_NATIVE, ACC_PRIVATE, ACC_STATIC, 5033 // ACC_STRICT, or ACC_SYNCHRONIZED flags set. No need to 5034 // check for ACC_FINAL, ACC_NATIVE or ACC_SYNCHRONIZED as 5035 // those flags are illegal irrespective of ACC_ABSTRACT being set or not. 5036 (is_abstract && (is_private || is_static || is_strict))) { 5037 is_illegal = true; 5038 } 5039 } else if (major_gte_15) { 5040 // Class file version in the interval [JAVA_1_5_VERSION, JAVA_8_VERSION) 5041 if (!is_public || is_private || is_protected || is_static || is_final || 5042 is_synchronized || is_native || !is_abstract || is_strict) { 5043 is_illegal = true; 5044 } 5045 } else { 5046 // Class file version is pre-JAVA_1_5_VERSION 5047 if (!is_public || is_static || is_final || is_native || !is_abstract) { 5048 is_illegal = true; 5049 } 5050 } 5051 } else { // not interface 5052 if (has_illegal_visibility(flags)) { 5053 is_illegal = true; 5054 } else { 5055 if (is_initializer) { 5056 if (is_static || is_final || is_synchronized || is_native || 5057 is_abstract || (major_gte_15 && is_bridge)) { 5058 is_illegal = true; 5059 } 5060 } else { // not initializer 5061 if (is_value_type && is_synchronized && !is_static) { 5062 is_illegal = true; 5063 } else { 5064 if (is_abstract) { 5065 if ((is_final || is_native || is_private || is_static || 5066 (major_gte_15 && (is_synchronized || is_strict)))) { 5067 is_illegal = true; 5068 } 5069 } 5070 } 5071 } 5072 } 5073 } 5074 5075 if (is_illegal) { 5076 ResourceMark rm(THREAD); 5077 Exceptions::fthrow( 5078 THREAD_AND_LOCATION, 5079 vmSymbols::java_lang_ClassFormatError(), 5080 "Method %s in class %s has illegal modifiers: 0x%X", 5081 name->as_C_string(), _class_name->as_C_string(), flags); 5082 return; 5083 } 5084 } 5085 5086 void ClassFileParser::verify_legal_utf8(const unsigned char* buffer, 5087 int length, 5088 TRAPS) const { 5089 assert(_need_verify, "only called when _need_verify is true"); 5090 if (!UTF8::is_legal_utf8(buffer, length, _major_version <= 47)) { 5091 classfile_parse_error("Illegal UTF8 string in constant pool in class file %s", CHECK); 5092 } 5093 } 5094 5095 // Unqualified names may not contain the characters '.', ';', '[', or '/'. 5096 // In class names, '/' separates unqualified names. This is verified in this function also. 5097 // Method names also may not contain the characters '<' or '>', unless <init> 5098 // or <clinit>. Note that method names may not be <init> or <clinit> in this 5099 // method. Because these names have been checked as special cases before 5100 // calling this method in verify_legal_method_name. 5101 // 5102 // This method is also called from the modular system APIs in modules.cpp 5103 // to verify the validity of module and package names. 5104 bool ClassFileParser::verify_unqualified_name(const char* name, 5105 unsigned int length, 5106 int type) { 5107 for (const char* p = name; p != name + length;) { 5108 jchar ch = *p; 5109 if (ch < 128) { 5110 if (ch == '.' || ch == ';' || ch == '[' ) { 5111 return false; // do not permit '.', ';', or '[' 5112 } 5113 if (ch == '/') { 5114 // check for '//' or leading or trailing '/' which are not legal 5115 // unqualified name must not be empty 5116 if (type == ClassFileParser::LegalClass) { 5117 if (p == name || p+1 >= name+length || *(p+1) == '/') { 5118 return false; 5119 } 5120 } else { 5121 return false; // do not permit '/' unless it's class name 5122 } 5123 } 5124 if (type == ClassFileParser::LegalMethod && (ch == '<' || ch == '>')) { 5125 return false; // do not permit '<' or '>' in method names 5126 } 5127 p++; 5128 } else { 5129 char* tmp_p = UTF8::next(p, &ch); 5130 p = tmp_p; 5131 } 5132 } 5133 return true; 5134 } 5135 5136 // Take pointer to a string. Skip over the longest part of the string that could 5137 // be taken as a fieldname. Allow '/' if slash_ok is true. 5138 // Return a pointer to just past the fieldname. 5139 // Return NULL if no fieldname at all was found, or in the case of slash_ok 5140 // being true, we saw consecutive slashes (meaning we were looking for a 5141 // qualified path but found something that was badly-formed). 5142 static const char* skip_over_field_name(const char* name, 5143 bool slash_ok, 5144 unsigned int length) { 5145 const char* p; 5146 jboolean last_is_slash = false; 5147 jboolean not_first_ch = false; 5148 5149 for (p = name; p != name + length; not_first_ch = true) { 5150 const char* old_p = p; 5151 jchar ch = *p; 5152 if (ch < 128) { 5153 p++; 5154 // quick check for ascii 5155 if ((ch >= 'a' && ch <= 'z') || 5156 (ch >= 'A' && ch <= 'Z') || 5157 (ch == '_' || ch == '$') || 5158 (not_first_ch && ch >= '0' && ch <= '9')) { 5159 last_is_slash = false; 5160 continue; 5161 } 5162 if (slash_ok && ch == '/') { 5163 if (last_is_slash) { 5164 return NULL; // Don't permit consecutive slashes 5165 } 5166 last_is_slash = true; 5167 continue; 5168 } 5169 } 5170 else { 5171 jint unicode_ch; 5172 char* tmp_p = UTF8::next_character(p, &unicode_ch); 5173 p = tmp_p; 5174 last_is_slash = false; 5175 // Check if ch is Java identifier start or is Java identifier part 5176 // 4672820: call java.lang.Character methods directly without generating separate tables. 5177 EXCEPTION_MARK; 5178 5179 // return value 5180 JavaValue result(T_BOOLEAN); 5181 // Set up the arguments to isJavaIdentifierStart and isJavaIdentifierPart 5182 JavaCallArguments args; 5183 args.push_int(unicode_ch); 5184 5185 // public static boolean isJavaIdentifierStart(char ch); 5186 JavaCalls::call_static(&result, 5187 SystemDictionary::Character_klass(), 5188 vmSymbols::isJavaIdentifierStart_name(), 5189 vmSymbols::int_bool_signature(), 5190 &args, 5191 THREAD); 5192 5193 if (HAS_PENDING_EXCEPTION) { 5194 CLEAR_PENDING_EXCEPTION; 5195 return 0; 5196 } 5197 if (result.get_jboolean()) { 5198 continue; 5199 } 5200 5201 if (not_first_ch) { 5202 // public static boolean isJavaIdentifierPart(char ch); 5203 JavaCalls::call_static(&result, 5204 SystemDictionary::Character_klass(), 5205 vmSymbols::isJavaIdentifierPart_name(), 5206 vmSymbols::int_bool_signature(), 5207 &args, 5208 THREAD); 5209 5210 if (HAS_PENDING_EXCEPTION) { 5211 CLEAR_PENDING_EXCEPTION; 5212 return 0; 5213 } 5214 5215 if (result.get_jboolean()) { 5216 continue; 5217 } 5218 } 5219 } 5220 return (not_first_ch) ? old_p : NULL; 5221 } 5222 return (not_first_ch) ? p : NULL; 5223 } 5224 5225 // Take pointer to a string. Skip over the longest part of the string that could 5226 // be taken as a field signature. Allow "void" if void_ok. 5227 // Return a pointer to just past the signature. 5228 // Return NULL if no legal signature is found. 5229 const char* ClassFileParser::skip_over_field_signature(const char* signature, 5230 bool void_ok, 5231 unsigned int length, 5232 TRAPS) const { 5233 unsigned int array_dim = 0; 5234 while (length > 0) { 5235 switch (signature[0]) { 5236 case JVM_SIGNATURE_VOID: if (!void_ok) { return NULL; } 5237 case JVM_SIGNATURE_BOOLEAN: 5238 case JVM_SIGNATURE_BYTE: 5239 case JVM_SIGNATURE_CHAR: 5240 case JVM_SIGNATURE_SHORT: 5241 case JVM_SIGNATURE_INT: 5242 case JVM_SIGNATURE_FLOAT: 5243 case JVM_SIGNATURE_LONG: 5244 case JVM_SIGNATURE_DOUBLE: 5245 return signature + 1; 5246 case JVM_SIGNATURE_CLASS: 5247 { 5248 if (_major_version < JAVA_1_5_VERSION) { 5249 // Skip over the class name if one is there 5250 const char* const p = skip_over_field_name(signature + 1, true, --length); 5251 5252 // The next character better be a semicolon 5253 if (p && (p - signature) > 1 && p[0] == ';') { 5254 return p + 1; 5255 } 5256 } 5257 else { 5258 // Skip leading 'L' and ignore first appearance of ';' 5259 length--; 5260 signature++; 5261 char* c = strchr((char*) signature, ';'); 5262 // Format check signature 5263 if (c != NULL) { 5264 ResourceMark rm(THREAD); 5265 int newlen = c - (char*) signature; 5266 char* sig = NEW_RESOURCE_ARRAY(char, newlen + 1); 5267 strncpy(sig, signature, newlen); 5268 sig[newlen] = '\0'; 5269 5270 bool legal = verify_unqualified_name(sig, newlen, LegalClass); 5271 if (!legal) { 5272 classfile_parse_error("Class name contains illegal character " 5273 "in descriptor in class file %s", 5274 CHECK_0); 5275 return NULL; 5276 } 5277 return signature + newlen + 1; 5278 } 5279 } 5280 return NULL; 5281 } 5282 case JVM_SIGNATURE_ARRAY: 5283 array_dim++; 5284 if (array_dim > 255) { 5285 // 4277370: array descriptor is valid only if it represents 255 or fewer dimensions. 5286 classfile_parse_error("Array type descriptor has more than 255 dimensions in class file %s", CHECK_0); 5287 } 5288 // The rest of what's there better be a legal signature 5289 signature++; 5290 length--; 5291 void_ok = false; 5292 break; 5293 default: 5294 return NULL; 5295 } 5296 } 5297 return NULL; 5298 } 5299 5300 // Checks if name is a legal class name. 5301 void ClassFileParser::verify_legal_class_name(const Symbol* name, TRAPS) const { 5302 if (!_need_verify || _relax_verify) { return; } 5303 5304 char buf[fixed_buffer_size]; 5305 char* bytes = name->as_utf8_flexible_buffer(THREAD, buf, fixed_buffer_size); 5306 unsigned int length = name->utf8_length(); 5307 bool legal = false; 5308 5309 if (length > 0) { 5310 const char* p; 5311 if (bytes[0] == JVM_SIGNATURE_ARRAY) { 5312 p = skip_over_field_signature(bytes, false, length, CHECK); 5313 legal = (p != NULL) && ((p - bytes) == (int)length); 5314 } else if (_major_version < JAVA_1_5_VERSION) { 5315 if (bytes[0] != '<') { 5316 p = skip_over_field_name(bytes, true, length); 5317 legal = (p != NULL) && ((p - bytes) == (int)length); 5318 } 5319 } else { 5320 // 4900761: relax the constraints based on JSR202 spec 5321 // Class names may be drawn from the entire Unicode character set. 5322 // Identifiers between '/' must be unqualified names. 5323 // The utf8 string has been verified when parsing cpool entries. 5324 legal = verify_unqualified_name(bytes, length, LegalClass); 5325 } 5326 } 5327 if (!legal) { 5328 ResourceMark rm(THREAD); 5329 assert(_class_name != NULL, "invariant"); 5330 Exceptions::fthrow( 5331 THREAD_AND_LOCATION, 5332 vmSymbols::java_lang_ClassFormatError(), 5333 "Illegal class name \"%s\" in class file %s", bytes, 5334 _class_name->as_C_string() 5335 ); 5336 return; 5337 } 5338 } 5339 5340 // Checks if name is a legal field name. 5341 void ClassFileParser::verify_legal_field_name(const Symbol* name, TRAPS) const { 5342 if (!_need_verify || _relax_verify) { return; } 5343 5344 char buf[fixed_buffer_size]; 5345 char* bytes = name->as_utf8_flexible_buffer(THREAD, buf, fixed_buffer_size); 5346 unsigned int length = name->utf8_length(); 5347 bool legal = false; 5348 5349 if (length > 0) { 5350 if (_major_version < JAVA_1_5_VERSION) { 5351 if (bytes[0] != '<') { 5352 const char* p = skip_over_field_name(bytes, false, length); 5353 legal = (p != NULL) && ((p - bytes) == (int)length); 5354 } 5355 } else { 5356 // 4881221: relax the constraints based on JSR202 spec 5357 legal = verify_unqualified_name(bytes, length, LegalField); 5358 } 5359 } 5360 5361 if (!legal) { 5362 ResourceMark rm(THREAD); 5363 assert(_class_name != NULL, "invariant"); 5364 Exceptions::fthrow( 5365 THREAD_AND_LOCATION, 5366 vmSymbols::java_lang_ClassFormatError(), 5367 "Illegal field name \"%s\" in class %s", bytes, 5368 _class_name->as_C_string() 5369 ); 5370 return; 5371 } 5372 } 5373 5374 // Checks if name is a legal method name. 5375 void ClassFileParser::verify_legal_method_name(const Symbol* name, TRAPS) const { 5376 if (!_need_verify || _relax_verify) { return; } 5377 5378 assert(name != NULL, "method name is null"); 5379 char buf[fixed_buffer_size]; 5380 char* bytes = name->as_utf8_flexible_buffer(THREAD, buf, fixed_buffer_size); 5381 unsigned int length = name->utf8_length(); 5382 bool legal = false; 5383 5384 if (length > 0) { 5385 if (bytes[0] == '<') { 5386 if (name == vmSymbols::object_initializer_name() || name == vmSymbols::class_initializer_name()) { 5387 legal = true; 5388 } 5389 } else if (_major_version < JAVA_1_5_VERSION) { 5390 const char* p; 5391 p = skip_over_field_name(bytes, false, length); 5392 legal = (p != NULL) && ((p - bytes) == (int)length); 5393 } else { 5394 // 4881221: relax the constraints based on JSR202 spec 5395 legal = verify_unqualified_name(bytes, length, LegalMethod); 5396 } 5397 } 5398 5399 if (!legal) { 5400 ResourceMark rm(THREAD); 5401 assert(_class_name != NULL, "invariant"); 5402 Exceptions::fthrow( 5403 THREAD_AND_LOCATION, 5404 vmSymbols::java_lang_ClassFormatError(), 5405 "Illegal method name \"%s\" in class %s", bytes, 5406 _class_name->as_C_string() 5407 ); 5408 return; 5409 } 5410 } 5411 5412 5413 // Checks if signature is a legal field signature. 5414 void ClassFileParser::verify_legal_field_signature(const Symbol* name, 5415 const Symbol* signature, 5416 TRAPS) const { 5417 if (!_need_verify) { return; } 5418 5419 char buf[fixed_buffer_size]; 5420 const char* const bytes = signature->as_utf8_flexible_buffer(THREAD, buf, fixed_buffer_size); 5421 const unsigned int length = signature->utf8_length(); 5422 const char* const p = skip_over_field_signature(bytes, false, length, CHECK); 5423 5424 if (p == NULL || (p - bytes) != (int)length) { 5425 throwIllegalSignature("Field", name, signature, CHECK); 5426 } 5427 } 5428 5429 // Checks if signature is a legal method signature. 5430 // Returns number of parameters 5431 int ClassFileParser::verify_legal_method_signature(const Symbol* name, 5432 const Symbol* signature, 5433 TRAPS) const { 5434 if (!_need_verify) { 5435 // make sure caller's args_size will be less than 0 even for non-static 5436 // method so it will be recomputed in compute_size_of_parameters(). 5437 return -2; 5438 } 5439 5440 // Class initializers cannot have args for class format version >= 51. 5441 if (name == vmSymbols::class_initializer_name() && 5442 signature != vmSymbols::void_method_signature() && 5443 _major_version >= JAVA_7_VERSION) { 5444 throwIllegalSignature("Method", name, signature, CHECK_0); 5445 return 0; 5446 } 5447 5448 unsigned int args_size = 0; 5449 char buf[fixed_buffer_size]; 5450 const char* p = signature->as_utf8_flexible_buffer(THREAD, buf, fixed_buffer_size); 5451 unsigned int length = signature->utf8_length(); 5452 const char* nextp; 5453 5454 // The first character must be a '(' 5455 if ((length > 0) && (*p++ == JVM_SIGNATURE_FUNC)) { 5456 length--; 5457 // Skip over legal field signatures 5458 nextp = skip_over_field_signature(p, false, length, CHECK_0); 5459 while ((length > 0) && (nextp != NULL)) { 5460 args_size++; 5461 if (p[0] == 'J' || p[0] == 'D') { 5462 args_size++; 5463 } 5464 length -= nextp - p; 5465 p = nextp; 5466 nextp = skip_over_field_signature(p, false, length, CHECK_0); 5467 } 5468 // The first non-signature thing better be a ')' 5469 if ((length > 0) && (*p++ == JVM_SIGNATURE_ENDFUNC)) { 5470 length--; 5471 if (name->utf8_length() > 0 && name->byte_at(0) == '<') { 5472 // All internal methods must return void 5473 if ((length == 1) && (p[0] == JVM_SIGNATURE_VOID)) { 5474 return args_size; 5475 } 5476 } else { 5477 // Now we better just have a return value 5478 nextp = skip_over_field_signature(p, true, length, CHECK_0); 5479 if (nextp && ((int)length == (nextp - p))) { 5480 return args_size; 5481 } 5482 } 5483 } 5484 } 5485 // Report error 5486 throwIllegalSignature("Method", name, signature, CHECK_0); 5487 return 0; 5488 } 5489 5490 int ClassFileParser::static_field_size() const { 5491 assert(_field_info != NULL, "invariant"); 5492 return _field_info->static_field_size; 5493 } 5494 5495 int ClassFileParser::total_oop_map_count() const { 5496 assert(_field_info != NULL, "invariant"); 5497 return _field_info->oop_map_blocks->nonstatic_oop_map_count; 5498 } 5499 5500 jint ClassFileParser::layout_size() const { 5501 assert(_field_info != NULL, "invariant"); 5502 return _field_info->instance_size; 5503 } 5504 5505 static void check_methods_for_intrinsics(const InstanceKlass* ik, 5506 const Array<Method*>* methods) { 5507 assert(ik != NULL, "invariant"); 5508 assert(methods != NULL, "invariant"); 5509 5510 // Set up Method*::intrinsic_id as soon as we know the names of methods. 5511 // (We used to do this lazily, but now we query it in Rewriter, 5512 // which is eagerly done for every method, so we might as well do it now, 5513 // when everything is fresh in memory.) 5514 const vmSymbols::SID klass_id = Method::klass_id_for_intrinsics(ik); 5515 5516 if (klass_id != vmSymbols::NO_SID) { 5517 for (int j = 0; j < methods->length(); ++j) { 5518 Method* method = methods->at(j); 5519 method->init_intrinsic_id(); 5520 5521 if (CheckIntrinsics) { 5522 // Check if an intrinsic is defined for method 'method', 5523 // but the method is not annotated with @HotSpotIntrinsicCandidate. 5524 if (method->intrinsic_id() != vmIntrinsics::_none && 5525 !method->intrinsic_candidate()) { 5526 tty->print("Compiler intrinsic is defined for method [%s], " 5527 "but the method is not annotated with @HotSpotIntrinsicCandidate.%s", 5528 method->name_and_sig_as_C_string(), 5529 NOT_DEBUG(" Method will not be inlined.") DEBUG_ONLY(" Exiting.") 5530 ); 5531 tty->cr(); 5532 DEBUG_ONLY(vm_exit(1)); 5533 } 5534 // Check is the method 'method' is annotated with @HotSpotIntrinsicCandidate, 5535 // but there is no intrinsic available for it. 5536 if (method->intrinsic_candidate() && 5537 method->intrinsic_id() == vmIntrinsics::_none) { 5538 tty->print("Method [%s] is annotated with @HotSpotIntrinsicCandidate, " 5539 "but no compiler intrinsic is defined for the method.%s", 5540 method->name_and_sig_as_C_string(), 5541 NOT_DEBUG("") DEBUG_ONLY(" Exiting.") 5542 ); 5543 tty->cr(); 5544 DEBUG_ONLY(vm_exit(1)); 5545 } 5546 } 5547 } // end for 5548 5549 #ifdef ASSERT 5550 if (CheckIntrinsics) { 5551 // Check for orphan methods in the current class. A method m 5552 // of a class C is orphan if an intrinsic is defined for method m, 5553 // but class C does not declare m. 5554 // The check is potentially expensive, therefore it is available 5555 // only in debug builds. 5556 5557 for (int id = vmIntrinsics::FIRST_ID; id < (int)vmIntrinsics::ID_LIMIT; ++id) { 5558 if (vmIntrinsics::_compiledLambdaForm == id) { 5559 // The _compiledLamdbdaForm intrinsic is a special marker for bytecode 5560 // generated for the JVM from a LambdaForm and therefore no method 5561 // is defined for it. 5562 continue; 5563 } 5564 5565 if (vmIntrinsics::class_for(vmIntrinsics::ID_from(id)) == klass_id) { 5566 // Check if the current class contains a method with the same 5567 // name, flags, signature. 5568 bool match = false; 5569 for (int j = 0; j < methods->length(); ++j) { 5570 const Method* method = methods->at(j); 5571 if (method->intrinsic_id() == id) { 5572 match = true; 5573 break; 5574 } 5575 } 5576 5577 if (!match) { 5578 char buf[1000]; 5579 tty->print("Compiler intrinsic is defined for method [%s], " 5580 "but the method is not available in class [%s].%s", 5581 vmIntrinsics::short_name_as_C_string(vmIntrinsics::ID_from(id), 5582 buf, sizeof(buf)), 5583 ik->name()->as_C_string(), 5584 NOT_DEBUG("") DEBUG_ONLY(" Exiting.") 5585 ); 5586 tty->cr(); 5587 DEBUG_ONLY(vm_exit(1)); 5588 } 5589 } 5590 } // end for 5591 } // CheckIntrinsics 5592 #endif // ASSERT 5593 } 5594 } 5595 5596 InstanceKlass* ClassFileParser::create_instance_klass(bool changed_by_loadhook, TRAPS) { 5597 if (_klass != NULL) { 5598 return _klass; 5599 } 5600 5601 InstanceKlass* const ik = 5602 InstanceKlass::allocate_instance_klass(*this, CHECK_NULL); 5603 5604 fill_instance_klass(ik, changed_by_loadhook, CHECK_NULL); 5605 5606 assert(_klass == ik, "invariant"); 5607 5608 ik->set_has_passed_fingerprint_check(false); 5609 if (UseAOT && ik->supers_have_passed_fingerprint_checks()) { 5610 uint64_t aot_fp = AOTLoader::get_saved_fingerprint(ik); 5611 if (aot_fp != 0 && aot_fp == _stream->compute_fingerprint()) { 5612 // This class matches with a class saved in an AOT library 5613 ik->set_has_passed_fingerprint_check(true); 5614 } else { 5615 ResourceMark rm; 5616 log_info(class, fingerprint)("%s : expected = " PTR64_FORMAT " actual = " PTR64_FORMAT, 5617 ik->external_name(), aot_fp, _stream->compute_fingerprint()); 5618 } 5619 } 5620 5621 if (ik->is_value()) { 5622 ValueKlass* vk = ValueKlass::cast(ik); 5623 oop val = ik->allocate_instance(CHECK_NULL); 5624 vk->set_default_value(val); 5625 } 5626 5627 return ik; 5628 } 5629 5630 void ClassFileParser::fill_instance_klass(InstanceKlass* ik, bool changed_by_loadhook, TRAPS) { 5631 assert(ik != NULL, "invariant"); 5632 5633 set_klass_to_deallocate(ik); 5634 5635 assert(_field_info != NULL, "invariant"); 5636 assert(ik->static_field_size() == _field_info->static_field_size, "sanity"); 5637 assert(ik->nonstatic_oop_map_count() == _field_info->oop_map_blocks->nonstatic_oop_map_count, 5638 "sanity"); 5639 5640 assert(ik->is_instance_klass(), "sanity"); 5641 assert(ik->size_helper() == _field_info->instance_size, "sanity"); 5642 5643 // Fill in information already parsed 5644 ik->set_should_verify_class(_need_verify); 5645 5646 // Not yet: supers are done below to support the new subtype-checking fields 5647 ik->set_class_loader_data(_loader_data); 5648 ik->set_nonstatic_field_size(_field_info->nonstatic_field_size); 5649 ik->set_has_nonstatic_fields(_field_info->has_nonstatic_fields); 5650 assert(_fac != NULL, "invariant"); 5651 ik->set_static_oop_field_count(_fac->count[STATIC_OOP] + _fac->count[STATIC_FLATTENABLE]); 5652 5653 // this transfers ownership of a lot of arrays from 5654 // the parser onto the InstanceKlass* 5655 apply_parsed_class_metadata(ik, _java_fields_count, CHECK); 5656 5657 // note that is not safe to use the fields in the parser from this point on 5658 assert(NULL == _cp, "invariant"); 5659 assert(NULL == _fields, "invariant"); 5660 assert(NULL == _methods, "invariant"); 5661 assert(NULL == _inner_classes, "invariant"); 5662 assert(NULL == _local_interfaces, "invariant"); 5663 assert(NULL == _transitive_interfaces, "invariant"); 5664 assert(NULL == _combined_annotations, "invariant"); 5665 5666 if (_has_final_method) { 5667 ik->set_has_final_method(); 5668 } 5669 5670 ik->copy_method_ordering(_method_ordering, CHECK); 5671 // The InstanceKlass::_methods_jmethod_ids cache 5672 // is managed on the assumption that the initial cache 5673 // size is equal to the number of methods in the class. If 5674 // that changes, then InstanceKlass::idnum_can_increment() 5675 // has to be changed accordingly. 5676 ik->set_initial_method_idnum(ik->methods()->length()); 5677 5678 ik->set_name(_class_name); 5679 5680 if (is_anonymous()) { 5681 // _this_class_index is a CONSTANT_Class entry that refers to this 5682 // anonymous class itself. If this class needs to refer to its own methods or 5683 // fields, it would use a CONSTANT_MethodRef, etc, which would reference 5684 // _this_class_index. However, because this class is anonymous (it's 5685 // not stored in SystemDictionary), _this_class_index cannot be resolved 5686 // with ConstantPool::klass_at_impl, which does a SystemDictionary lookup. 5687 // Therefore, we must eagerly resolve _this_class_index now. 5688 ik->constants()->klass_at_put(_this_class_index, ik); 5689 } 5690 5691 ik->set_minor_version(_minor_version); 5692 ik->set_major_version(_major_version); 5693 ik->set_has_nonstatic_concrete_methods(_has_nonstatic_concrete_methods); 5694 ik->set_declares_nonstatic_concrete_methods(_declares_nonstatic_concrete_methods); 5695 5696 if (_host_klass != NULL) { 5697 assert (ik->is_anonymous(), "should be the same"); 5698 ik->set_host_klass(_host_klass); 5699 } 5700 5701 // Set PackageEntry for this_klass 5702 oop cl = ik->class_loader(); 5703 Handle clh = Handle(THREAD, java_lang_ClassLoader::non_reflection_class_loader(cl)); 5704 ClassLoaderData* cld = ClassLoaderData::class_loader_data_or_null(clh()); 5705 ik->set_package(cld, CHECK); 5706 5707 const Array<Method*>* const methods = ik->methods(); 5708 assert(methods != NULL, "invariant"); 5709 const int methods_len = methods->length(); 5710 5711 check_methods_for_intrinsics(ik, methods); 5712 5713 // Fill in field values obtained by parse_classfile_attributes 5714 if (_parsed_annotations->has_any_annotations()) { 5715 _parsed_annotations->apply_to(ik); 5716 } 5717 5718 apply_parsed_class_attributes(ik); 5719 5720 // Miranda methods 5721 if ((_num_miranda_methods > 0) || 5722 // if this class introduced new miranda methods or 5723 (_super_klass != NULL && _super_klass->has_miranda_methods()) 5724 // super class exists and this class inherited miranda methods 5725 ) { 5726 ik->set_has_miranda_methods(); // then set a flag 5727 } 5728 5729 // Fill in information needed to compute superclasses. 5730 ik->initialize_supers(const_cast<InstanceKlass*>(_super_klass), CHECK); 5731 5732 // Initialize itable offset tables 5733 klassItable::setup_itable_offset_table(ik); 5734 5735 // Compute transitive closure of interfaces this class implements 5736 // Do final class setup 5737 OopMapBlocksBuilder* oop_map_blocks = _field_info->oop_map_blocks; 5738 if (oop_map_blocks->nonstatic_oop_map_count > 0) { 5739 oop_map_blocks->copy(ik->start_of_nonstatic_oop_maps()); 5740 } 5741 5742 // Fill in has_finalizer, has_vanilla_constructor, and layout_helper 5743 set_precomputed_flags(ik); 5744 5745 // check if this class can access its super class 5746 check_super_class_access(ik, CHECK); 5747 5748 // check if this class can access its superinterfaces 5749 check_super_interface_access(ik, CHECK); 5750 5751 // check if this class overrides any final method 5752 check_final_method_override(ik, CHECK); 5753 5754 // reject static interface methods prior to Java 8 5755 if (ik->is_interface() && _major_version < JAVA_8_VERSION) { 5756 check_illegal_static_method(ik, CHECK); 5757 } 5758 5759 // Obtain this_klass' module entry 5760 ModuleEntry* module_entry = ik->module(); 5761 assert(module_entry != NULL, "module_entry should always be set"); 5762 5763 // Obtain java.lang.Module 5764 Handle module_handle(THREAD, module_entry->module()); 5765 5766 // Allocate mirror and initialize static fields 5767 // The create_mirror() call will also call compute_modifiers() 5768 java_lang_Class::create_mirror(ik, 5769 Handle(THREAD, _loader_data->class_loader()), 5770 module_handle, 5771 _protection_domain, 5772 CHECK); 5773 5774 assert(_all_mirandas != NULL, "invariant"); 5775 5776 // Generate any default methods - default methods are public interface methods 5777 // that have a default implementation. This is new with Java 8. 5778 if (_has_nonstatic_concrete_methods) { 5779 DefaultMethods::generate_default_methods(ik, 5780 _all_mirandas, 5781 CHECK); 5782 } 5783 5784 if (is_value_type()) { 5785 ValueKlass* vk = ValueKlass::cast(ik); 5786 vk->set_if_bufferable(); 5787 vk->initialize_calling_convention(); 5788 } 5789 5790 // Add read edges to the unnamed modules of the bootstrap and app class loaders. 5791 if (changed_by_loadhook && !module_handle.is_null() && module_entry->is_named() && 5792 !module_entry->has_default_read_edges()) { 5793 if (!module_entry->set_has_default_read_edges()) { 5794 // We won a potential race 5795 JvmtiExport::add_default_read_edges(module_handle, THREAD); 5796 } 5797 } 5798 5799 int nfields = ik->java_fields_count(); 5800 if (ik->is_value()) nfields++; 5801 for(int i = 0; i < nfields; i++) { 5802 if (ik->field_access_flags(i) & JVM_ACC_FLATTENABLE) { 5803 Klass* klass = SystemDictionary::resolve_or_fail(ik->field_signature(i), 5804 Handle(THREAD, ik->class_loader()), 5805 Handle(THREAD, ik->protection_domain()), true, CHECK); 5806 assert(klass != NULL, "Sanity check"); 5807 assert(klass->access_flags().is_value_type(), "Value type expected"); 5808 ik->set_value_field_klass(i, klass); 5809 } else if (is_value_type() && ((ik->field_access_flags(i) & JVM_ACC_FIELD_INTERNAL) != 0) 5810 && ((ik->field_access_flags(i) & JVM_ACC_STATIC) != 0)) { 5811 ValueKlass::cast(ik)->set_default_value_offset(ik->field_offset(i)); 5812 } 5813 } 5814 5815 // Update the loader_data graph. 5816 record_defined_class_dependencies(ik, CHECK); 5817 5818 ClassLoadingService::notify_class_loaded(ik, false /* not shared class */); 5819 5820 if (!is_internal()) { 5821 if (log_is_enabled(Info, class, load)) { 5822 ResourceMark rm; 5823 const char* module_name = (module_entry->name() == NULL) ? UNNAMED_MODULE : module_entry->name()->as_C_string(); 5824 ik->print_class_load_logging(_loader_data, module_name, _stream); 5825 } 5826 5827 if (log_is_enabled(Debug, class, resolve)) { 5828 ResourceMark rm; 5829 // print out the superclass. 5830 const char * from = ik->external_name(); 5831 if (ik->java_super() != NULL) { 5832 log_debug(class, resolve)("%s %s (super)", 5833 from, 5834 ik->java_super()->external_name()); 5835 } 5836 // print out each of the interface classes referred to by this class. 5837 const Array<Klass*>* const local_interfaces = ik->local_interfaces(); 5838 if (local_interfaces != NULL) { 5839 const int length = local_interfaces->length(); 5840 for (int i = 0; i < length; i++) { 5841 const Klass* const k = local_interfaces->at(i); 5842 const char * to = k->external_name(); 5843 log_debug(class, resolve)("%s %s (interface)", from, to); 5844 } 5845 } 5846 } 5847 } 5848 5849 TRACE_INIT_ID(ik); 5850 5851 // If we reach here, all is well. 5852 // Now remove the InstanceKlass* from the _klass_to_deallocate field 5853 // in order for it to not be destroyed in the ClassFileParser destructor. 5854 set_klass_to_deallocate(NULL); 5855 5856 // it's official 5857 set_klass(ik); 5858 5859 debug_only(ik->verify();) 5860 } 5861 5862 // For an anonymous class that is in the unnamed package, move it to its host class's 5863 // package by prepending its host class's package name to its class name and setting 5864 // its _class_name field. 5865 void ClassFileParser::prepend_host_package_name(const InstanceKlass* host_klass, TRAPS) { 5866 ResourceMark rm(THREAD); 5867 assert(strrchr(_class_name->as_C_string(), '/') == NULL, 5868 "Anonymous class should not be in a package"); 5869 const char* host_pkg_name = 5870 ClassLoader::package_from_name(host_klass->name()->as_C_string(), NULL); 5871 5872 if (host_pkg_name != NULL) { 5873 size_t host_pkg_len = strlen(host_pkg_name); 5874 int class_name_len = _class_name->utf8_length(); 5875 char* new_anon_name = 5876 NEW_RESOURCE_ARRAY(char, host_pkg_len + 1 + class_name_len); 5877 // Copy host package name and trailing /. 5878 strncpy(new_anon_name, host_pkg_name, host_pkg_len); 5879 new_anon_name[host_pkg_len] = '/'; 5880 // Append anonymous class name. The anonymous class name can contain odd 5881 // characters. So, do a strncpy instead of using sprintf("%s..."). 5882 strncpy(new_anon_name + host_pkg_len + 1, (char *)_class_name->base(), class_name_len); 5883 5884 // Create a symbol and update the anonymous class name. 5885 _class_name = SymbolTable::new_symbol(new_anon_name, 5886 (int)host_pkg_len + 1 + class_name_len, 5887 CHECK); 5888 } 5889 } 5890 5891 // If the host class and the anonymous class are in the same package then do 5892 // nothing. If the anonymous class is in the unnamed package then move it to its 5893 // host's package. If the classes are in different packages then throw an IAE 5894 // exception. 5895 void ClassFileParser::fix_anonymous_class_name(TRAPS) { 5896 assert(_host_klass != NULL, "Expected an anonymous class"); 5897 5898 const jbyte* anon_last_slash = UTF8::strrchr(_class_name->base(), 5899 _class_name->utf8_length(), '/'); 5900 if (anon_last_slash == NULL) { // Unnamed package 5901 prepend_host_package_name(_host_klass, CHECK); 5902 } else { 5903 if (!_host_klass->is_same_class_package(_host_klass->class_loader(), _class_name)) { 5904 ResourceMark rm(THREAD); 5905 THROW_MSG(vmSymbols::java_lang_IllegalArgumentException(), 5906 err_msg("Host class %s and anonymous class %s are in different packages", 5907 _host_klass->name()->as_C_string(), _class_name->as_C_string())); 5908 } 5909 } 5910 } 5911 5912 static bool relax_format_check_for(ClassLoaderData* loader_data) { 5913 bool trusted = (loader_data->is_the_null_class_loader_data() || 5914 SystemDictionary::is_platform_class_loader(loader_data->class_loader())); 5915 bool need_verify = 5916 // verifyAll 5917 (BytecodeVerificationLocal && BytecodeVerificationRemote) || 5918 // verifyRemote 5919 (!BytecodeVerificationLocal && BytecodeVerificationRemote && !trusted); 5920 return !need_verify; 5921 } 5922 5923 ClassFileParser::ClassFileParser(ClassFileStream* stream, 5924 Symbol* name, 5925 ClassLoaderData* loader_data, 5926 Handle protection_domain, 5927 const InstanceKlass* host_klass, 5928 GrowableArray<Handle>* cp_patches, 5929 Publicity pub_level, 5930 TRAPS) : 5931 _stream(stream), 5932 _requested_name(name), 5933 _loader_data(loader_data), 5934 _host_klass(host_klass), 5935 _cp_patches(cp_patches), 5936 _num_patched_klasses(0), 5937 _max_num_patched_klasses(0), 5938 _orig_cp_size(0), 5939 _first_patched_klass_resolved_index(0), 5940 _super_klass(), 5941 _cp(NULL), 5942 _fields(NULL), 5943 _methods(NULL), 5944 _inner_classes(NULL), 5945 _local_interfaces(NULL), 5946 _transitive_interfaces(NULL), 5947 _combined_annotations(NULL), 5948 _annotations(NULL), 5949 _type_annotations(NULL), 5950 _fields_annotations(NULL), 5951 _fields_type_annotations(NULL), 5952 _klass(NULL), 5953 _klass_to_deallocate(NULL), 5954 _parsed_annotations(NULL), 5955 _fac(NULL), 5956 _field_info(NULL), 5957 _method_ordering(NULL), 5958 _all_mirandas(NULL), 5959 _vtable_size(0), 5960 _itable_size(0), 5961 _num_miranda_methods(0), 5962 _rt(REF_NONE), 5963 _protection_domain(protection_domain), 5964 _access_flags(), 5965 _pub_level(pub_level), 5966 _bad_constant_seen(0), 5967 _synthetic_flag(false), 5968 _sde_length(false), 5969 _sde_buffer(NULL), 5970 _sourcefile_index(0), 5971 _generic_signature_index(0), 5972 _major_version(0), 5973 _minor_version(0), 5974 _this_class_index(0), 5975 _super_class_index(0), 5976 _itfs_len(0), 5977 _java_fields_count(0), 5978 _need_verify(false), 5979 _relax_verify(false), 5980 _has_nonstatic_concrete_methods(false), 5981 _declares_nonstatic_concrete_methods(false), 5982 _has_final_method(false), 5983 _has_finalizer(false), 5984 _has_empty_finalizer(false), 5985 _has_vanilla_constructor(false), 5986 _max_bootstrap_specifier_index(-1), 5987 _has_flattenable_fields(false) { 5988 5989 _class_name = name != NULL ? name : vmSymbols::unknown_class_name(); 5990 5991 assert(THREAD->is_Java_thread(), "invariant"); 5992 assert(_loader_data != NULL, "invariant"); 5993 assert(stream != NULL, "invariant"); 5994 assert(_stream != NULL, "invariant"); 5995 assert(_stream->buffer() == _stream->current(), "invariant"); 5996 assert(_class_name != NULL, "invariant"); 5997 assert(0 == _access_flags.as_int(), "invariant"); 5998 5999 // Figure out whether we can skip format checking (matching classic VM behavior) 6000 if (DumpSharedSpaces) { 6001 // verify == true means it's a 'remote' class (i.e., non-boot class) 6002 // Verification decision is based on BytecodeVerificationRemote flag 6003 // for those classes. 6004 _need_verify = (stream->need_verify()) ? BytecodeVerificationRemote : 6005 BytecodeVerificationLocal; 6006 } 6007 else { 6008 _need_verify = Verifier::should_verify_for(_loader_data->class_loader(), 6009 stream->need_verify()); 6010 } 6011 if (_cp_patches != NULL) { 6012 int len = _cp_patches->length(); 6013 for (int i=0; i<len; i++) { 6014 if (has_cp_patch_at(i)) { 6015 Handle patch = cp_patch_at(i); 6016 if (java_lang_String::is_instance(patch()) || java_lang_Class::is_instance(patch())) { 6017 // We need to append the names of the patched classes to the end of the constant pool, 6018 // because a patched class may have a Utf8 name that's not already included in the 6019 // original constant pool. These class names are used when patch_constant_pool() 6020 // calls patch_class(). 6021 // 6022 // Note that a String in cp_patch_at(i) may be used to patch a Utf8, a String, or a Class. 6023 // At this point, we don't know the tag for index i yet, because we haven't parsed the 6024 // constant pool. So we can only assume the worst -- every String is used to patch a Class. 6025 _max_num_patched_klasses++; 6026 } 6027 } 6028 } 6029 } 6030 6031 // synch back verification state to stream 6032 stream->set_verify(_need_verify); 6033 6034 // Check if verification needs to be relaxed for this class file 6035 // Do not restrict it to jdk1.0 or jdk1.1 to maintain backward compatibility (4982376) 6036 _relax_verify = relax_format_check_for(_loader_data); 6037 6038 parse_stream(stream, CHECK); 6039 6040 post_process_parsed_stream(stream, _cp, CHECK); 6041 } 6042 6043 void ClassFileParser::clear_class_metadata() { 6044 // metadata created before the instance klass is created. Must be 6045 // deallocated if classfile parsing returns an error. 6046 _cp = NULL; 6047 _fields = NULL; 6048 _methods = NULL; 6049 _inner_classes = NULL; 6050 _local_interfaces = NULL; 6051 _transitive_interfaces = NULL; 6052 _combined_annotations = NULL; 6053 _annotations = _type_annotations = NULL; 6054 _fields_annotations = _fields_type_annotations = NULL; 6055 } 6056 6057 // Destructor to clean up 6058 ClassFileParser::~ClassFileParser() { 6059 if (_cp != NULL) { 6060 MetadataFactory::free_metadata(_loader_data, _cp); 6061 } 6062 if (_fields != NULL) { 6063 MetadataFactory::free_array<u2>(_loader_data, _fields); 6064 } 6065 6066 if (_methods != NULL) { 6067 // Free methods 6068 InstanceKlass::deallocate_methods(_loader_data, _methods); 6069 } 6070 6071 // beware of the Universe::empty_blah_array!! 6072 if (_inner_classes != NULL && _inner_classes != Universe::the_empty_short_array()) { 6073 MetadataFactory::free_array<u2>(_loader_data, _inner_classes); 6074 } 6075 6076 // Free interfaces 6077 InstanceKlass::deallocate_interfaces(_loader_data, _super_klass, 6078 _local_interfaces, _transitive_interfaces); 6079 6080 if (_combined_annotations != NULL) { 6081 // After all annotations arrays have been created, they are installed into the 6082 // Annotations object that will be assigned to the InstanceKlass being created. 6083 6084 // Deallocate the Annotations object and the installed annotations arrays. 6085 _combined_annotations->deallocate_contents(_loader_data); 6086 6087 // If the _combined_annotations pointer is non-NULL, 6088 // then the other annotations fields should have been cleared. 6089 assert(_annotations == NULL, "Should have been cleared"); 6090 assert(_type_annotations == NULL, "Should have been cleared"); 6091 assert(_fields_annotations == NULL, "Should have been cleared"); 6092 assert(_fields_type_annotations == NULL, "Should have been cleared"); 6093 } else { 6094 // If the annotations arrays were not installed into the Annotations object, 6095 // then they have to be deallocated explicitly. 6096 MetadataFactory::free_array<u1>(_loader_data, _annotations); 6097 MetadataFactory::free_array<u1>(_loader_data, _type_annotations); 6098 Annotations::free_contents(_loader_data, _fields_annotations); 6099 Annotations::free_contents(_loader_data, _fields_type_annotations); 6100 } 6101 6102 clear_class_metadata(); 6103 6104 // deallocate the klass if already created. Don't directly deallocate, but add 6105 // to the deallocate list so that the klass is removed from the CLD::_klasses list 6106 // at a safepoint. 6107 if (_klass_to_deallocate != NULL) { 6108 _loader_data->add_to_deallocate_list(_klass_to_deallocate); 6109 } 6110 } 6111 6112 void ClassFileParser::parse_stream(const ClassFileStream* const stream, 6113 TRAPS) { 6114 6115 assert(stream != NULL, "invariant"); 6116 assert(_class_name != NULL, "invariant"); 6117 6118 // BEGIN STREAM PARSING 6119 stream->guarantee_more(8, CHECK); // magic, major, minor 6120 // Magic value 6121 const u4 magic = stream->get_u4_fast(); 6122 guarantee_property(magic == JAVA_CLASSFILE_MAGIC, 6123 "Incompatible magic value %u in class file %s", 6124 magic, CHECK); 6125 6126 // Version numbers 6127 _minor_version = stream->get_u2_fast(); 6128 _major_version = stream->get_u2_fast(); 6129 6130 if (DumpSharedSpaces && _major_version < JAVA_1_5_VERSION) { 6131 ResourceMark rm; 6132 warning("Pre JDK 1.5 class not supported by CDS: %u.%u %s", 6133 _major_version, _minor_version, _class_name->as_C_string()); 6134 Exceptions::fthrow( 6135 THREAD_AND_LOCATION, 6136 vmSymbols::java_lang_UnsupportedClassVersionError(), 6137 "Unsupported major.minor version for dump time %u.%u", 6138 _major_version, 6139 _minor_version); 6140 } 6141 6142 // Check version numbers - we check this even with verifier off 6143 if (!is_supported_version(_major_version, _minor_version)) { 6144 ResourceMark rm(THREAD); 6145 Exceptions::fthrow( 6146 THREAD_AND_LOCATION, 6147 vmSymbols::java_lang_UnsupportedClassVersionError(), 6148 "%s has been compiled by a more recent version of the Java Runtime (class file version %u.%u), " 6149 "this version of the Java Runtime only recognizes class file versions up to %u.%u", 6150 _class_name->as_C_string(), 6151 _major_version, 6152 _minor_version, 6153 JVM_CLASSFILE_MAJOR_VERSION, 6154 JVM_CLASSFILE_MINOR_VERSION); 6155 return; 6156 } 6157 6158 stream->guarantee_more(3, CHECK); // length, first cp tag 6159 u2 cp_size = stream->get_u2_fast(); 6160 6161 guarantee_property( 6162 cp_size >= 1, "Illegal constant pool size %u in class file %s", 6163 cp_size, CHECK); 6164 6165 _orig_cp_size = cp_size; 6166 if (int(cp_size) + _max_num_patched_klasses > 0xffff) { 6167 THROW_MSG(vmSymbols::java_lang_InternalError(), "not enough space for patched classes"); 6168 } 6169 cp_size += _max_num_patched_klasses; 6170 6171 _cp = ConstantPool::allocate(_loader_data, 6172 cp_size, 6173 CHECK); 6174 6175 ConstantPool* const cp = _cp; 6176 6177 parse_constant_pool(stream, cp, _orig_cp_size, CHECK); 6178 6179 assert(cp_size == (const u2)cp->length(), "invariant"); 6180 6181 // ACCESS FLAGS 6182 stream->guarantee_more(8, CHECK); // flags, this_class, super_class, infs_len 6183 6184 jint recognized_modifiers = JVM_RECOGNIZED_CLASS_MODIFIERS; 6185 // JVM_ACC_MODULE is defined in JDK-9 and later. 6186 if (_major_version >= JAVA_9_VERSION) { 6187 recognized_modifiers |= JVM_ACC_MODULE; 6188 } 6189 // JVM_ACC_VALUE is defined for class file version 55 and later 6190 if (supports_value_types()) { 6191 recognized_modifiers |= JVM_ACC_VALUE; 6192 } 6193 6194 // Access flags 6195 jint flags = stream->get_u2_fast() & recognized_modifiers; 6196 6197 if ((flags & JVM_ACC_INTERFACE) && _major_version < JAVA_6_VERSION) { 6198 // Set abstract bit for old class files for backward compatibility 6199 flags |= JVM_ACC_ABSTRACT; 6200 } 6201 6202 verify_legal_class_modifiers(flags, CHECK); 6203 6204 short bad_constant = class_bad_constant_seen(); 6205 if (bad_constant != 0) { 6206 // Do not throw CFE until after the access_flags are checked because if 6207 // ACC_MODULE is set in the access flags, then NCDFE must be thrown, not CFE. 6208 classfile_parse_error("Unknown constant tag %u in class file %s", bad_constant, CHECK); 6209 } 6210 6211 _access_flags.set_flags(flags); 6212 6213 // This class and superclass 6214 _this_class_index = stream->get_u2_fast(); 6215 check_property( 6216 valid_cp_range(_this_class_index, cp_size) && 6217 cp->tag_at(_this_class_index).is_unresolved_klass(), 6218 "Invalid this class index %u in constant pool in class file %s", 6219 _this_class_index, CHECK); 6220 6221 Symbol* const class_name_in_cp = cp->klass_name_at(_this_class_index); 6222 assert(class_name_in_cp != NULL, "class_name can't be null"); 6223 6224 // Update _class_name which could be null previously 6225 // to reflect the name in the constant pool 6226 _class_name = class_name_in_cp; 6227 6228 // Don't need to check whether this class name is legal or not. 6229 // It has been checked when constant pool is parsed. 6230 // However, make sure it is not an array type. 6231 if (_need_verify) { 6232 guarantee_property(_class_name->byte_at(0) != JVM_SIGNATURE_ARRAY, 6233 "Bad class name in class file %s", 6234 CHECK); 6235 } 6236 6237 // Checks if name in class file matches requested name 6238 if (_requested_name != NULL && _requested_name != _class_name) { 6239 ResourceMark rm(THREAD); 6240 Exceptions::fthrow( 6241 THREAD_AND_LOCATION, 6242 vmSymbols::java_lang_NoClassDefFoundError(), 6243 "%s (wrong name: %s)", 6244 _class_name->as_C_string(), 6245 _requested_name != NULL ? _requested_name->as_C_string() : "NoName" 6246 ); 6247 return; 6248 } 6249 6250 // if this is an anonymous class fix up its name if it's in the unnamed 6251 // package. Otherwise, throw IAE if it is in a different package than 6252 // its host class. 6253 if (_host_klass != NULL) { 6254 fix_anonymous_class_name(CHECK); 6255 } 6256 6257 // Verification prevents us from creating names with dots in them, this 6258 // asserts that that's the case. 6259 assert(is_internal_format(_class_name), "external class name format used internally"); 6260 6261 if (!is_internal()) { 6262 LogTarget(Debug, class, preorder) lt; 6263 if (lt.is_enabled()){ 6264 ResourceMark rm(THREAD); 6265 LogStream ls(lt); 6266 ls.print("%s", _class_name->as_klass_external_name()); 6267 if (stream->source() != NULL) { 6268 ls.print(" source: %s", stream->source()); 6269 } 6270 ls.cr(); 6271 } 6272 6273 #if INCLUDE_CDS 6274 if (DumpLoadedClassList != NULL && stream->source() != NULL && classlist_file->is_open()) { 6275 if (!ClassLoader::has_jrt_entry()) { 6276 warning("DumpLoadedClassList and CDS are not supported in exploded build"); 6277 DumpLoadedClassList = NULL; 6278 } else if (SystemDictionaryShared::is_sharing_possible(_loader_data) && 6279 _host_klass == NULL) { 6280 // Only dump the classes that can be stored into CDS archive. 6281 // Anonymous classes such as generated LambdaForm classes are also not included. 6282 oop class_loader = _loader_data->class_loader(); 6283 ResourceMark rm(THREAD); 6284 bool skip = false; 6285 if (class_loader == NULL || SystemDictionary::is_platform_class_loader(class_loader)) { 6286 // For the boot and platform class loaders, skip classes that are not found in the 6287 // java runtime image, such as those found in the --patch-module entries. 6288 // These classes can't be loaded from the archive during runtime. 6289 if (!ClassLoader::is_modules_image(stream->source()) && strncmp(stream->source(), "jrt:", 4) != 0) { 6290 skip = true; 6291 } 6292 6293 if (class_loader == NULL && ClassLoader::contains_append_entry(stream->source())) { 6294 // .. but don't skip the boot classes that are loaded from -Xbootclasspath/a 6295 // as they can be loaded from the archive during runtime. 6296 skip = false; 6297 } 6298 } 6299 if (skip) { 6300 tty->print_cr("skip writing class %s from source %s to classlist file", 6301 _class_name->as_C_string(), stream->source()); 6302 } else { 6303 classlist_file->print_cr("%s", _class_name->as_C_string()); 6304 classlist_file->flush(); 6305 } 6306 } 6307 } 6308 #endif 6309 } 6310 6311 // SUPERKLASS 6312 _super_class_index = stream->get_u2_fast(); 6313 _super_klass = parse_super_class(cp, 6314 _super_class_index, 6315 _need_verify, 6316 CHECK); 6317 6318 // Interfaces 6319 _itfs_len = stream->get_u2_fast(); 6320 parse_interfaces(stream, 6321 _itfs_len, 6322 cp, 6323 &_has_nonstatic_concrete_methods, 6324 CHECK); 6325 6326 assert(_local_interfaces != NULL, "invariant"); 6327 6328 // Fields (offsets are filled in later) 6329 _fac = new FieldAllocationCount(); 6330 parse_fields(stream, 6331 _access_flags.is_interface(), 6332 _access_flags.is_value_type(), 6333 _fac, 6334 cp, 6335 cp_size, 6336 &_java_fields_count, 6337 CHECK); 6338 6339 assert(_fields != NULL, "invariant"); 6340 6341 // Methods 6342 AccessFlags promoted_flags; 6343 parse_methods(stream, 6344 _access_flags.is_interface(), 6345 _access_flags.is_value_type(), 6346 &promoted_flags, 6347 &_has_final_method, 6348 &_declares_nonstatic_concrete_methods, 6349 CHECK); 6350 6351 assert(_methods != NULL, "invariant"); 6352 6353 // promote flags from parse_methods() to the klass' flags 6354 _access_flags.add_promoted_flags(promoted_flags.as_int()); 6355 6356 if (_declares_nonstatic_concrete_methods) { 6357 _has_nonstatic_concrete_methods = true; 6358 } 6359 6360 // Additional attributes/annotations 6361 _parsed_annotations = new ClassAnnotationCollector(); 6362 parse_classfile_attributes(stream, cp, _parsed_annotations, CHECK); 6363 6364 assert(_inner_classes != NULL, "invariant"); 6365 6366 // Finalize the Annotations metadata object, 6367 // now that all annotation arrays have been created. 6368 create_combined_annotations(CHECK); 6369 6370 // Make sure this is the end of class file stream 6371 guarantee_property(stream->at_eos(), 6372 "Extra bytes at the end of class file %s", 6373 CHECK); 6374 6375 // all bytes in stream read and parsed 6376 } 6377 6378 void ClassFileParser::post_process_parsed_stream(const ClassFileStream* const stream, 6379 ConstantPool* cp, 6380 TRAPS) { 6381 assert(stream != NULL, "invariant"); 6382 assert(stream->at_eos(), "invariant"); 6383 assert(cp != NULL, "invariant"); 6384 assert(_loader_data != NULL, "invariant"); 6385 6386 if (_class_name == vmSymbols::java_lang_Object()) { 6387 check_property(_local_interfaces == Universe::the_empty_klass_array(), 6388 "java.lang.Object cannot implement an interface in class file %s", 6389 CHECK); 6390 } 6391 // We check super class after class file is parsed and format is checked 6392 if (_super_class_index > 0 && NULL ==_super_klass) { 6393 Symbol* const super_class_name = cp->klass_name_at(_super_class_index); 6394 if (_access_flags.is_interface()) { 6395 // Before attempting to resolve the superclass, check for class format 6396 // errors not checked yet. 6397 guarantee_property(super_class_name == vmSymbols::java_lang_Object(), 6398 "Interfaces must have java.lang.Object as superclass in class file %s", 6399 CHECK); 6400 } 6401 Handle loader(THREAD, _loader_data->class_loader()); 6402 _super_klass = (const InstanceKlass*) 6403 SystemDictionary::resolve_super_or_fail(_class_name, 6404 super_class_name, 6405 loader, 6406 _protection_domain, 6407 true, 6408 CHECK); 6409 } 6410 6411 if (_super_klass != NULL) { 6412 if (_super_klass->has_nonstatic_concrete_methods()) { 6413 _has_nonstatic_concrete_methods = true; 6414 } 6415 6416 if (_super_klass->is_interface()) { 6417 ResourceMark rm(THREAD); 6418 Exceptions::fthrow( 6419 THREAD_AND_LOCATION, 6420 vmSymbols::java_lang_IncompatibleClassChangeError(), 6421 "class %s has interface %s as super class", 6422 _class_name->as_klass_external_name(), 6423 _super_klass->external_name() 6424 ); 6425 return; 6426 } 6427 6428 // For a value class, only java/lang/Object is an acceptable super class 6429 if (_access_flags.get_flags() & JVM_ACC_VALUE) { 6430 guarantee_property(_super_klass->name() == vmSymbols::java_lang_Object(), 6431 "Value type must have java.lang.Object as superclass in class file %s", 6432 CHECK); 6433 } 6434 6435 // Make sure super class is not final 6436 if (_super_klass->is_final()) { 6437 THROW_MSG(vmSymbols::java_lang_VerifyError(), "Cannot inherit from final class"); 6438 } 6439 } 6440 6441 // Compute the transitive list of all unique interfaces implemented by this class 6442 _transitive_interfaces = 6443 compute_transitive_interfaces(_super_klass, 6444 _local_interfaces, 6445 _loader_data, 6446 CHECK); 6447 6448 assert(_transitive_interfaces != NULL, "invariant"); 6449 6450 // sort methods 6451 _method_ordering = sort_methods(_methods); 6452 6453 _all_mirandas = new GrowableArray<Method*>(20); 6454 6455 Handle loader(THREAD, _loader_data->class_loader()); 6456 klassVtable::compute_vtable_size_and_num_mirandas(&_vtable_size, 6457 &_num_miranda_methods, 6458 _all_mirandas, 6459 _super_klass, 6460 _methods, 6461 _access_flags, 6462 _major_version, 6463 loader, 6464 _class_name, 6465 _local_interfaces, 6466 CHECK); 6467 6468 // Size of Java itable (in words) 6469 _itable_size = _access_flags.is_interface() ? 0 : 6470 klassItable::compute_itable_size(_transitive_interfaces); 6471 6472 assert(_fac != NULL, "invariant"); 6473 assert(_parsed_annotations != NULL, "invariant"); 6474 6475 _field_info = new FieldLayoutInfo(); 6476 layout_fields(cp, _fac, _parsed_annotations, _field_info, CHECK); 6477 6478 // Compute reference typ 6479 _rt = (NULL ==_super_klass) ? REF_NONE : _super_klass->reference_type(); 6480 6481 } 6482 6483 void ClassFileParser::set_klass(InstanceKlass* klass) { 6484 6485 #ifdef ASSERT 6486 if (klass != NULL) { 6487 assert(NULL == _klass, "leaking?"); 6488 } 6489 #endif 6490 6491 _klass = klass; 6492 } 6493 6494 void ClassFileParser::set_klass_to_deallocate(InstanceKlass* klass) { 6495 6496 #ifdef ASSERT 6497 if (klass != NULL) { 6498 assert(NULL == _klass_to_deallocate, "leaking?"); 6499 } 6500 #endif 6501 6502 _klass_to_deallocate = klass; 6503 } 6504 6505 // Caller responsible for ResourceMark 6506 // clone stream with rewound position 6507 const ClassFileStream* ClassFileParser::clone_stream() const { 6508 assert(_stream != NULL, "invariant"); 6509 6510 return _stream->clone(); 6511 } 6512 6513 // ---------------------------------------------------------------------------- 6514 // debugging 6515 6516 #ifdef ASSERT 6517 6518 // return true if class_name contains no '.' (internal format is '/') 6519 bool ClassFileParser::is_internal_format(Symbol* class_name) { 6520 if (class_name != NULL) { 6521 ResourceMark rm; 6522 char* name = class_name->as_C_string(); 6523 return strchr(name, '.') == NULL; 6524 } else { 6525 return true; 6526 } 6527 } 6528 6529 #endif