1 /* 2 * Copyright (c) 2003, 2024, 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 25 #include "precompiled.hpp" 26 #include "cds/archiveBuilder.hpp" 27 #include "cds/archiveHeapLoader.inline.hpp" 28 #include "cds/archiveHeapWriter.hpp" 29 #include "cds/archiveUtils.inline.hpp" 30 #include "cds/cds_globals.hpp" 31 #include "cds/cdsConfig.hpp" 32 #include "cds/dynamicArchive.hpp" 33 #include "cds/filemap.hpp" 34 #include "cds/heapShared.hpp" 35 #include "cds/metaspaceShared.hpp" 36 #include "classfile/altHashing.hpp" 37 #include "classfile/classFileStream.hpp" 38 #include "classfile/classLoader.hpp" 39 #include "classfile/classLoader.inline.hpp" 40 #include "classfile/classLoaderData.inline.hpp" 41 #include "classfile/classLoaderExt.hpp" 42 #include "classfile/symbolTable.hpp" 43 #include "classfile/systemDictionaryShared.hpp" 44 #include "classfile/vmClasses.hpp" 45 #include "classfile/vmSymbols.hpp" 46 #include "jvm.h" 47 #include "logging/log.hpp" 48 #include "logging/logMessage.hpp" 49 #include "logging/logStream.hpp" 50 #include "memory/iterator.inline.hpp" 51 #include "memory/metadataFactory.hpp" 52 #include "memory/metaspaceClosure.hpp" 53 #include "memory/oopFactory.hpp" 54 #include "memory/universe.hpp" 55 #include "nmt/memTracker.hpp" 56 #include "oops/compressedOops.hpp" 57 #include "oops/compressedOops.inline.hpp" 58 #include "oops/objArrayOop.hpp" 59 #include "oops/oop.inline.hpp" 60 #include "prims/jvmtiExport.hpp" 61 #include "runtime/arguments.hpp" 62 #include "runtime/globals_extension.hpp" 63 #include "runtime/java.hpp" 64 #include "runtime/mutexLocker.hpp" 65 #include "runtime/os.hpp" 66 #include "runtime/vm_version.hpp" 67 #include "utilities/align.hpp" 68 #include "utilities/bitMap.inline.hpp" 69 #include "utilities/classpathStream.hpp" 70 #include "utilities/defaultStream.hpp" 71 #include "utilities/ostream.hpp" 72 #if INCLUDE_G1GC 73 #include "gc/g1/g1CollectedHeap.hpp" 74 #include "gc/g1/g1HeapRegion.hpp" 75 #endif 76 77 # include <sys/stat.h> 78 # include <errno.h> 79 80 #ifndef O_BINARY // if defined (Win32) use binary files. 81 #define O_BINARY 0 // otherwise do nothing. 82 #endif 83 84 // Fill in the fileMapInfo structure with data about this VM instance. 85 86 // This method copies the vm version info into header_version. If the version is too 87 // long then a truncated version, which has a hash code appended to it, is copied. 88 // 89 // Using a template enables this method to verify that header_version is an array of 90 // length JVM_IDENT_MAX. This ensures that the code that writes to the CDS file and 91 // the code that reads the CDS file will both use the same size buffer. Hence, will 92 // use identical truncation. This is necessary for matching of truncated versions. 93 template <int N> static void get_header_version(char (&header_version) [N]) { 94 assert(N == JVM_IDENT_MAX, "Bad header_version size"); 95 96 const char *vm_version = VM_Version::internal_vm_info_string(); 97 const int version_len = (int)strlen(vm_version); 98 99 memset(header_version, 0, JVM_IDENT_MAX); 100 101 if (version_len < (JVM_IDENT_MAX-1)) { 102 strcpy(header_version, vm_version); 103 104 } else { 105 // Get the hash value. Use a static seed because the hash needs to return the same 106 // value over multiple jvm invocations. 107 uint32_t hash = AltHashing::halfsiphash_32(8191, (const uint8_t*)vm_version, version_len); 108 109 // Truncate the ident, saving room for the 8 hex character hash value. 110 strncpy(header_version, vm_version, JVM_IDENT_MAX-9); 111 112 // Append the hash code as eight hex digits. 113 os::snprintf_checked(&header_version[JVM_IDENT_MAX-9], 9, "%08x", hash); 114 header_version[JVM_IDENT_MAX-1] = 0; // Null terminate. 115 } 116 117 assert(header_version[JVM_IDENT_MAX-1] == 0, "must be"); 118 } 119 120 FileMapInfo::FileMapInfo(const char* full_path, bool is_static) : 121 _is_static(is_static), _file_open(false), _is_mapped(false), _fd(-1), _file_offset(0), 122 _full_path(full_path), _base_archive_name(nullptr), _header(nullptr) { 123 if (_is_static) { 124 assert(_current_info == nullptr, "must be singleton"); // not thread safe 125 _current_info = this; 126 } else { 127 assert(_dynamic_archive_info == nullptr, "must be singleton"); // not thread safe 128 _dynamic_archive_info = this; 129 } 130 } 131 132 FileMapInfo::~FileMapInfo() { 133 if (_is_static) { 134 assert(_current_info == this, "must be singleton"); // not thread safe 135 _current_info = nullptr; 136 } else { 137 assert(_dynamic_archive_info == this, "must be singleton"); // not thread safe 138 _dynamic_archive_info = nullptr; 139 } 140 141 if (_header != nullptr) { 142 os::free(_header); 143 } 144 145 if (_file_open) { 146 ::close(_fd); 147 } 148 } 149 150 void FileMapInfo::populate_header(size_t core_region_alignment) { 151 assert(_header == nullptr, "Sanity check"); 152 size_t c_header_size; 153 size_t header_size; 154 size_t base_archive_name_size = 0; 155 size_t base_archive_name_offset = 0; 156 size_t longest_common_prefix_size = 0; 157 if (is_static()) { 158 c_header_size = sizeof(FileMapHeader); 159 header_size = c_header_size; 160 } else { 161 // dynamic header including base archive name for non-default base archive 162 c_header_size = sizeof(DynamicArchiveHeader); 163 header_size = c_header_size; 164 165 const char* default_base_archive_name = CDSConfig::default_archive_path(); 166 const char* current_base_archive_name = CDSConfig::static_archive_path(); 167 if (!os::same_files(current_base_archive_name, default_base_archive_name)) { 168 base_archive_name_size = strlen(current_base_archive_name) + 1; 169 header_size += base_archive_name_size; 170 base_archive_name_offset = c_header_size; 171 } 172 } 173 ResourceMark rm; 174 GrowableArray<const char*>* app_cp_array = create_dumptime_app_classpath_array(); 175 int len = app_cp_array->length(); 176 longest_common_prefix_size = longest_common_app_classpath_prefix_len(len, app_cp_array); 177 _header = (FileMapHeader*)os::malloc(header_size, mtInternal); 178 memset((void*)_header, 0, header_size); 179 _header->populate(this, 180 core_region_alignment, 181 header_size, 182 base_archive_name_size, 183 base_archive_name_offset, 184 longest_common_prefix_size); 185 } 186 187 void FileMapHeader::populate(FileMapInfo *info, size_t core_region_alignment, 188 size_t header_size, size_t base_archive_name_size, 189 size_t base_archive_name_offset, size_t common_app_classpath_prefix_size) { 190 // 1. We require _generic_header._magic to be at the beginning of the file 191 // 2. FileMapHeader also assumes that _generic_header is at the beginning of the file 192 assert(offset_of(FileMapHeader, _generic_header) == 0, "must be"); 193 set_header_size((unsigned int)header_size); 194 set_base_archive_name_offset((unsigned int)base_archive_name_offset); 195 set_base_archive_name_size((unsigned int)base_archive_name_size); 196 set_common_app_classpath_prefix_size((unsigned int)common_app_classpath_prefix_size); 197 set_magic(CDSConfig::is_dumping_dynamic_archive() ? CDS_DYNAMIC_ARCHIVE_MAGIC : CDS_ARCHIVE_MAGIC); 198 set_version(CURRENT_CDS_ARCHIVE_VERSION); 199 200 if (!info->is_static() && base_archive_name_size != 0) { 201 // copy base archive name 202 copy_base_archive_name(CDSConfig::static_archive_path()); 203 } 204 _core_region_alignment = core_region_alignment; 205 _obj_alignment = ObjectAlignmentInBytes; 206 _compact_strings = CompactStrings; 207 if (CDSConfig::is_dumping_heap()) { 208 _narrow_oop_mode = CompressedOops::mode(); 209 _narrow_oop_base = CompressedOops::base(); 210 _narrow_oop_shift = CompressedOops::shift(); 211 } 212 _compressed_oops = UseCompressedOops; 213 _compressed_class_ptrs = UseCompressedClassPointers; 214 _use_secondary_supers_table = UseSecondarySupersTable; 215 _max_heap_size = MaxHeapSize; 216 _use_optimized_module_handling = CDSConfig::is_using_optimized_module_handling(); 217 _has_preloaded_classes = PreloadSharedClasses; 218 _has_full_module_graph = CDSConfig::is_dumping_full_module_graph(); 219 _has_archived_invokedynamic = CDSConfig::is_dumping_invokedynamic(); 220 _has_archived_packages = CDSConfig::is_dumping_packages(); 221 _gc_kind = (int)Universe::heap()->kind(); 222 jio_snprintf(_gc_name, sizeof(_gc_name), Universe::heap()->name()); 223 224 // The following fields are for sanity checks for whether this archive 225 // will function correctly with this JVM and the bootclasspath it's 226 // invoked with. 227 228 // JVM version string ... changes on each build. 229 get_header_version(_jvm_ident); 230 231 _app_class_paths_start_index = ClassLoaderExt::app_class_paths_start_index(); 232 _app_module_paths_start_index = ClassLoaderExt::app_module_paths_start_index(); 233 _max_used_path_index = ClassLoaderExt::max_used_path_index(); 234 _num_module_paths = ClassLoader::num_module_path_entries(); 235 236 _verify_local = BytecodeVerificationLocal; 237 _verify_remote = BytecodeVerificationRemote; 238 _has_platform_or_app_classes = ClassLoaderExt::has_platform_or_app_classes(); 239 _has_non_jar_in_classpath = ClassLoaderExt::has_non_jar_in_classpath(); 240 _requested_base_address = (char*)SharedBaseAddress; 241 _mapped_base_address = (char*)SharedBaseAddress; 242 _allow_archiving_with_java_agent = AllowArchivingWithJavaAgent; 243 244 if (!CDSConfig::is_dumping_dynamic_archive()) { 245 set_shared_path_table(info->_shared_path_table); 246 } 247 } 248 249 void FileMapHeader::copy_base_archive_name(const char* archive) { 250 assert(base_archive_name_size() != 0, "_base_archive_name_size not set"); 251 assert(base_archive_name_offset() != 0, "_base_archive_name_offset not set"); 252 assert(header_size() > sizeof(*this), "_base_archive_name_size not included in header size?"); 253 memcpy((char*)this + base_archive_name_offset(), archive, base_archive_name_size()); 254 } 255 256 void FileMapHeader::print(outputStream* st) { 257 ResourceMark rm; 258 259 st->print_cr("- magic: 0x%08x", magic()); 260 st->print_cr("- crc: 0x%08x", crc()); 261 st->print_cr("- version: 0x%x", version()); 262 st->print_cr("- header_size: " UINT32_FORMAT, header_size()); 263 st->print_cr("- common_app_classpath_size: " UINT32_FORMAT, common_app_classpath_prefix_size()); 264 st->print_cr("- base_archive_name_offset: " UINT32_FORMAT, base_archive_name_offset()); 265 st->print_cr("- base_archive_name_size: " UINT32_FORMAT, base_archive_name_size()); 266 267 for (int i = 0; i < NUM_CDS_REGIONS; i++) { 268 FileMapRegion* r = region_at(i); 269 r->print(st, i); 270 } 271 st->print_cr("============ end regions ======== "); 272 273 st->print_cr("- core_region_alignment: " SIZE_FORMAT, _core_region_alignment); 274 st->print_cr("- obj_alignment: %d", _obj_alignment); 275 st->print_cr("- narrow_oop_base: " INTPTR_FORMAT, p2i(_narrow_oop_base)); 276 st->print_cr("- narrow_oop_base: " INTPTR_FORMAT, p2i(_narrow_oop_base)); 277 st->print_cr("- narrow_oop_shift %d", _narrow_oop_shift); 278 st->print_cr("- compact_strings: %d", _compact_strings); 279 st->print_cr("- max_heap_size: " UINTX_FORMAT, _max_heap_size); 280 st->print_cr("- narrow_oop_mode: %d", _narrow_oop_mode); 281 st->print_cr("- compressed_oops: %d", _compressed_oops); 282 st->print_cr("- compressed_class_ptrs: %d", _compressed_class_ptrs); 283 st->print_cr("- use_secondary_supers_table: %d", _use_secondary_supers_table); 284 st->print_cr("- cloned_vtables_offset: " SIZE_FORMAT_X, _cloned_vtables_offset); 285 st->print_cr("- serialized_data_offset: " SIZE_FORMAT_X, _serialized_data_offset); 286 st->print_cr("- jvm_ident: %s", _jvm_ident); 287 st->print_cr("- shared_path_table_offset: " SIZE_FORMAT_X, _shared_path_table_offset); 288 st->print_cr("- app_class_paths_start_index: %d", _app_class_paths_start_index); 289 st->print_cr("- app_module_paths_start_index: %d", _app_module_paths_start_index); 290 st->print_cr("- num_module_paths: %d", _num_module_paths); 291 st->print_cr("- max_used_path_index: %d", _max_used_path_index); 292 st->print_cr("- verify_local: %d", _verify_local); 293 st->print_cr("- verify_remote: %d", _verify_remote); 294 st->print_cr("- has_platform_or_app_classes: %d", _has_platform_or_app_classes); 295 st->print_cr("- has_non_jar_in_classpath: %d", _has_non_jar_in_classpath); 296 st->print_cr("- requested_base_address: " INTPTR_FORMAT, p2i(_requested_base_address)); 297 st->print_cr("- mapped_base_address: " INTPTR_FORMAT, p2i(_mapped_base_address)); 298 st->print_cr("- heap_roots_offset: " SIZE_FORMAT, _heap_roots_offset); 299 st->print_cr("- _heap_oopmap_start_pos: " SIZE_FORMAT, _heap_oopmap_start_pos); 300 st->print_cr("- _heap_ptrmap_start_pos: " SIZE_FORMAT, _heap_ptrmap_start_pos); 301 st->print_cr("- _rw_ptrmap_start_pos: " SIZE_FORMAT, _rw_ptrmap_start_pos); 302 st->print_cr("- _ro_ptrmap_start_pos: " SIZE_FORMAT, _ro_ptrmap_start_pos); 303 st->print_cr("- allow_archiving_with_java_agent:%d", _allow_archiving_with_java_agent); 304 st->print_cr("- use_optimized_module_handling: %d", _use_optimized_module_handling); 305 st->print_cr("- has_full_module_graph %d", _has_full_module_graph); 306 st->print_cr("- has_archived_invokedynamic %d", _has_archived_invokedynamic); 307 st->print_cr("- has_archived_packages %d", _has_archived_packages); 308 st->print_cr("- ptrmap_size_in_bits: " SIZE_FORMAT, _ptrmap_size_in_bits); 309 } 310 311 void SharedClassPathEntry::init_as_non_existent(const char* path, TRAPS) { 312 _type = non_existent_entry; 313 set_name(path, CHECK); 314 } 315 316 void SharedClassPathEntry::init(bool is_modules_image, 317 bool is_module_path, 318 ClassPathEntry* cpe, TRAPS) { 319 assert(CDSConfig::is_dumping_archive(), "sanity"); 320 _timestamp = 0; 321 _filesize = 0; 322 _from_class_path_attr = false; 323 324 struct stat st; 325 if (os::stat(cpe->name(), &st) == 0) { 326 if ((st.st_mode & S_IFMT) == S_IFDIR) { 327 _type = dir_entry; 328 } else { 329 // The timestamp of the modules_image is not checked at runtime. 330 if (is_modules_image) { 331 _type = modules_image_entry; 332 } else { 333 _type = jar_entry; 334 _timestamp = st.st_mtime; 335 _from_class_path_attr = cpe->from_class_path_attr(); 336 } 337 _filesize = st.st_size; 338 _is_module_path = is_module_path; 339 } 340 } else { 341 // The file/dir must exist, or it would not have been added 342 // into ClassLoader::classpath_entry(). 343 // 344 // If we can't access a jar file in the boot path, then we can't 345 // make assumptions about where classes get loaded from. 346 log_error(cds)("Unable to open file %s.", cpe->name()); 347 MetaspaceShared::unrecoverable_loading_error(); 348 } 349 350 // No need to save the name of the module file, as it will be computed at run time 351 // to allow relocation of the JDK directory. 352 const char* name = is_modules_image ? "" : cpe->name(); 353 set_name(name, CHECK); 354 } 355 356 void SharedClassPathEntry::set_name(const char* name, TRAPS) { 357 size_t len = strlen(name) + 1; 358 _name = MetadataFactory::new_array<char>(ClassLoaderData::the_null_class_loader_data(), (int)len, CHECK); 359 strcpy(_name->data(), name); 360 } 361 362 void SharedClassPathEntry::copy_from(SharedClassPathEntry* ent, ClassLoaderData* loader_data, TRAPS) { 363 assert(ent != nullptr, "sanity"); 364 _type = ent->_type; 365 _is_module_path = ent->_is_module_path; 366 _timestamp = ent->_timestamp; 367 _filesize = ent->_filesize; 368 _from_class_path_attr = ent->_from_class_path_attr; 369 set_name(ent->name(), CHECK); 370 371 if (ent->is_jar() && ent->manifest() != nullptr) { 372 Array<u1>* buf = MetadataFactory::new_array<u1>(loader_data, 373 ent->manifest_size(), 374 CHECK); 375 char* p = (char*)(buf->data()); 376 memcpy(p, ent->manifest(), ent->manifest_size()); 377 set_manifest(buf); 378 } 379 } 380 381 const char* SharedClassPathEntry::name() const { 382 if (UseSharedSpaces && is_modules_image()) { 383 // In order to validate the runtime modules image file size against the archived 384 // size information, we need to obtain the runtime modules image path. The recorded 385 // dump time modules image path in the archive may be different from the runtime path 386 // if the JDK image has beed moved after generating the archive. 387 return ClassLoader::get_jrt_entry()->name(); 388 } else { 389 return _name->data(); 390 } 391 } 392 393 bool SharedClassPathEntry::validate(bool is_class_path) const { 394 assert(UseSharedSpaces, "runtime only"); 395 396 struct stat st; 397 const char* name = this->name(); 398 399 bool ok = true; 400 log_info(class, path)("checking shared classpath entry: %s", name); 401 if (os::stat(name, &st) != 0 && is_class_path) { 402 // If the archived module path entry does not exist at runtime, it is not fatal 403 // (no need to invalid the shared archive) because the shared runtime visibility check 404 // filters out any archived module classes that do not have a matching runtime 405 // module path location. 406 log_warning(cds)("Required classpath entry does not exist: %s", name); 407 ok = false; 408 } else if (is_dir()) { 409 if (!os::dir_is_empty(name)) { 410 log_warning(cds)("directory is not empty: %s", name); 411 ok = false; 412 } 413 } else { 414 bool size_differs = _filesize != st.st_size; 415 bool time_differs = has_timestamp() && _timestamp != st.st_mtime; 416 if (time_differs || size_differs) { 417 ok = false; 418 if (PrintSharedArchiveAndExit) { 419 log_warning(cds)(time_differs ? "Timestamp mismatch" : "File size mismatch"); 420 } else { 421 const char* bad_file_msg = "This file is not the one used while building the shared archive file:"; 422 log_warning(cds)("%s %s", bad_file_msg, name); 423 if (!log_is_enabled(Info, cds)) { 424 log_warning(cds)("%s %s", bad_file_msg, name); 425 } 426 if (time_differs) { 427 log_warning(cds)("%s timestamp has changed.", name); 428 } 429 if (size_differs) { 430 log_warning(cds)("%s size has changed.", name); 431 } 432 } 433 } 434 } 435 436 if (PrintSharedArchiveAndExit && !ok) { 437 // If PrintSharedArchiveAndExit is enabled, don't report failure to the 438 // caller. Please see above comments for more details. 439 ok = true; 440 MetaspaceShared::set_archive_loading_failed(); 441 } 442 return ok; 443 } 444 445 bool SharedClassPathEntry::check_non_existent() const { 446 assert(_type == non_existent_entry, "must be"); 447 log_info(class, path)("should be non-existent: %s", name()); 448 struct stat st; 449 if (os::stat(name(), &st) != 0) { 450 log_info(class, path)("ok"); 451 return true; // file doesn't exist 452 } else { 453 return false; 454 } 455 } 456 457 void SharedClassPathEntry::metaspace_pointers_do(MetaspaceClosure* it) { 458 it->push(&_name); 459 it->push(&_manifest); 460 } 461 462 void SharedPathTable::metaspace_pointers_do(MetaspaceClosure* it) { 463 it->push(&_entries); 464 } 465 466 void SharedPathTable::dumptime_init(ClassLoaderData* loader_data, TRAPS) { 467 const int num_entries = 468 ClassLoader::num_boot_classpath_entries() + 469 ClassLoader::num_app_classpath_entries() + 470 ClassLoader::num_module_path_entries() + 471 FileMapInfo::num_non_existent_class_paths(); 472 _entries = MetadataFactory::new_array<SharedClassPathEntry*>(loader_data, num_entries, CHECK); 473 for (int i = 0; i < num_entries; i++) { 474 SharedClassPathEntry* ent = 475 new (loader_data, SharedClassPathEntry::size(), MetaspaceObj::SharedClassPathEntryType, THREAD) SharedClassPathEntry; 476 _entries->at_put(i, ent); 477 } 478 } 479 480 void FileMapInfo::allocate_shared_path_table(TRAPS) { 481 assert(CDSConfig::is_dumping_archive(), "sanity"); 482 483 ClassLoaderData* loader_data = ClassLoaderData::the_null_class_loader_data(); 484 ClassPathEntry* jrt = ClassLoader::get_jrt_entry(); 485 486 assert(jrt != nullptr, 487 "No modular java runtime image present when allocating the CDS classpath entry table"); 488 489 _shared_path_table.dumptime_init(loader_data, CHECK); 490 491 // 1. boot class path 492 int i = 0; 493 i = add_shared_classpaths(i, "boot", jrt, CHECK); 494 i = add_shared_classpaths(i, "app", ClassLoader::app_classpath_entries(), CHECK); 495 i = add_shared_classpaths(i, "module", ClassLoader::module_path_entries(), CHECK); 496 497 for (int x = 0; x < num_non_existent_class_paths(); x++, i++) { 498 const char* path = _non_existent_class_paths->at(x); 499 shared_path(i)->init_as_non_existent(path, CHECK); 500 } 501 502 assert(i == _shared_path_table.size(), "number of shared path entry mismatch"); 503 } 504 505 int FileMapInfo::add_shared_classpaths(int i, const char* which, ClassPathEntry *cpe, TRAPS) { 506 while (cpe != nullptr) { 507 bool is_jrt = (cpe == ClassLoader::get_jrt_entry()); 508 bool is_module_path = i >= ClassLoaderExt::app_module_paths_start_index(); 509 const char* type = (is_jrt ? "jrt" : (cpe->is_jar_file() ? "jar" : "dir")); 510 log_info(class, path)("add %s shared path (%s) %s", which, type, cpe->name()); 511 SharedClassPathEntry* ent = shared_path(i); 512 ent->init(is_jrt, is_module_path, cpe, CHECK_0); 513 if (cpe->is_jar_file()) { 514 update_jar_manifest(cpe, ent, CHECK_0); 515 } 516 if (is_jrt) { 517 cpe = ClassLoader::get_next_boot_classpath_entry(cpe); 518 } else { 519 cpe = cpe->next(); 520 } 521 i++; 522 } 523 524 return i; 525 } 526 527 void FileMapInfo::check_nonempty_dir_in_shared_path_table() { 528 assert(CDSConfig::is_dumping_archive(), "sanity"); 529 530 bool has_nonempty_dir = false; 531 532 int last = _shared_path_table.size() - 1; 533 if (last > ClassLoaderExt::max_used_path_index()) { 534 // no need to check any path beyond max_used_path_index 535 last = ClassLoaderExt::max_used_path_index(); 536 } 537 538 for (int i = 0; i <= last; i++) { 539 SharedClassPathEntry *e = shared_path(i); 540 if (e->is_dir()) { 541 const char* path = e->name(); 542 if (!os::dir_is_empty(path)) { 543 log_error(cds)("Error: non-empty directory '%s'", path); 544 has_nonempty_dir = true; 545 } 546 } 547 } 548 549 if (has_nonempty_dir) { 550 ClassLoader::exit_with_path_failure("Cannot have non-empty directory in paths", nullptr); 551 } 552 } 553 554 void FileMapInfo::record_non_existent_class_path_entry(const char* path) { 555 assert(CDSConfig::is_dumping_archive(), "sanity"); 556 log_info(class, path)("non-existent Class-Path entry %s", path); 557 if (_non_existent_class_paths == nullptr) { 558 _non_existent_class_paths = new (mtClass) GrowableArray<const char*>(10, mtClass); 559 } 560 _non_existent_class_paths->append(os::strdup(path)); 561 } 562 563 int FileMapInfo::num_non_existent_class_paths() { 564 assert(CDSConfig::is_dumping_archive(), "sanity"); 565 if (_non_existent_class_paths != nullptr) { 566 return _non_existent_class_paths->length(); 567 } else { 568 return 0; 569 } 570 } 571 572 int FileMapInfo::get_module_shared_path_index(Symbol* location) { 573 if (location == nullptr) { 574 return 0; // Used by java/lang/reflect/Proxy$ProxyBuilder 575 } 576 if (location->starts_with("jrt:", 4) && get_number_of_shared_paths() > 0) { 577 assert(shared_path(0)->is_modules_image(), "first shared_path must be the modules image"); 578 return 0; 579 } 580 581 if (ClassLoaderExt::app_module_paths_start_index() >= get_number_of_shared_paths()) { 582 // The archive(s) were created without --module-path option 583 return -1; 584 } 585 586 if (!location->starts_with("file:", 5)) { 587 return -1; 588 } 589 590 // skip_uri_protocol was also called during dump time -- see ClassLoaderExt::process_module_table() 591 ResourceMark rm; 592 const char* file = ClassLoader::skip_uri_protocol(location->as_C_string()); 593 for (int i = ClassLoaderExt::app_module_paths_start_index(); i < get_number_of_shared_paths(); i++) { 594 SharedClassPathEntry* ent = shared_path(i); 595 if (!ent->is_non_existent()) { 596 assert(ent->in_named_module(), "must be"); 597 bool cond = strcmp(file, ent->name()) == 0; 598 log_debug(class, path)("get_module_shared_path_index (%d) %s : %s = %s", i, 599 location->as_C_string(), ent->name(), cond ? "same" : "different"); 600 if (cond) { 601 return i; 602 } 603 } 604 } 605 606 return -1; 607 } 608 609 class ManifestStream: public ResourceObj { 610 private: 611 u1* _buffer_start; // Buffer bottom 612 u1* _buffer_end; // Buffer top (one past last element) 613 u1* _current; // Current buffer position 614 615 public: 616 // Constructor 617 ManifestStream(u1* buffer, int length) : _buffer_start(buffer), 618 _current(buffer) { 619 _buffer_end = buffer + length; 620 } 621 622 static bool is_attr(u1* attr, const char* name) { 623 return strncmp((const char*)attr, name, strlen(name)) == 0; 624 } 625 626 static char* copy_attr(u1* value, size_t len) { 627 char* buf = NEW_RESOURCE_ARRAY(char, len + 1); 628 strncpy(buf, (char*)value, len); 629 buf[len] = 0; 630 return buf; 631 } 632 }; 633 634 void FileMapInfo::update_jar_manifest(ClassPathEntry *cpe, SharedClassPathEntry* ent, TRAPS) { 635 ClassLoaderData* loader_data = ClassLoaderData::the_null_class_loader_data(); 636 ResourceMark rm(THREAD); 637 jint manifest_size; 638 639 assert(cpe->is_jar_file() && ent->is_jar(), "the shared class path entry is not a JAR file"); 640 char* manifest = ClassLoaderExt::read_manifest(THREAD, cpe, &manifest_size); 641 if (manifest != nullptr) { 642 ManifestStream* stream = new ManifestStream((u1*)manifest, 643 manifest_size); 644 // Copy the manifest into the shared archive 645 manifest = ClassLoaderExt::read_raw_manifest(THREAD, cpe, &manifest_size); 646 Array<u1>* buf = MetadataFactory::new_array<u1>(loader_data, 647 manifest_size, 648 CHECK); 649 char* p = (char*)(buf->data()); 650 memcpy(p, manifest, manifest_size); 651 ent->set_manifest(buf); 652 } 653 } 654 655 char* FileMapInfo::skip_first_path_entry(const char* path) { 656 size_t path_sep_len = strlen(os::path_separator()); 657 char* p = strstr((char*)path, os::path_separator()); 658 if (p != nullptr) { 659 debug_only( { 660 size_t image_name_len = strlen(MODULES_IMAGE_NAME); 661 assert(strncmp(p - image_name_len, MODULES_IMAGE_NAME, image_name_len) == 0, 662 "first entry must be the modules image"); 663 } ); 664 p += path_sep_len; 665 } else { 666 debug_only( { 667 assert(ClassLoader::string_ends_with(path, MODULES_IMAGE_NAME), 668 "first entry must be the modules image"); 669 } ); 670 } 671 return p; 672 } 673 674 int FileMapInfo::num_paths(const char* path) { 675 if (path == nullptr) { 676 return 0; 677 } 678 int npaths = 1; 679 char* p = (char*)path; 680 while (p != nullptr) { 681 char* prev = p; 682 p = strstr((char*)p, os::path_separator()); 683 if (p != nullptr) { 684 p++; 685 // don't count empty path 686 if ((p - prev) > 1) { 687 npaths++; 688 } 689 } 690 } 691 return npaths; 692 } 693 694 // Returns true if a path within the paths exists and has non-zero size. 695 bool FileMapInfo::check_paths_existence(const char* paths) { 696 ClasspathStream cp_stream(paths); 697 bool exist = false; 698 struct stat st; 699 while (cp_stream.has_next()) { 700 const char* path = cp_stream.get_next(); 701 if (os::stat(path, &st) == 0 && st.st_size > 0) { 702 exist = true; 703 break; 704 } 705 } 706 return exist; 707 } 708 709 GrowableArray<const char*>* FileMapInfo::create_dumptime_app_classpath_array() { 710 assert(CDSConfig::is_dumping_archive(), "sanity"); 711 GrowableArray<const char*>* path_array = new GrowableArray<const char*>(10); 712 ClassPathEntry* cpe = ClassLoader::app_classpath_entries(); 713 while (cpe != nullptr) { 714 path_array->append(cpe->name()); 715 cpe = cpe->next(); 716 } 717 return path_array; 718 } 719 720 GrowableArray<const char*>* FileMapInfo::create_path_array(const char* paths) { 721 GrowableArray<const char*>* path_array = new GrowableArray<const char*>(10); 722 JavaThread* current = JavaThread::current(); 723 ClasspathStream cp_stream(paths); 724 bool non_jar_in_cp = header()->has_non_jar_in_classpath(); 725 while (cp_stream.has_next()) { 726 const char* path = cp_stream.get_next(); 727 if (!non_jar_in_cp) { 728 struct stat st; 729 if (os::stat(path, &st) == 0) { 730 path_array->append(path); 731 } 732 } else { 733 const char* canonical_path = ClassLoader::get_canonical_path(path, current); 734 if (canonical_path != nullptr) { 735 char* error_msg = nullptr; 736 jzfile* zip = ClassLoader::open_zip_file(canonical_path, &error_msg, current); 737 if (zip != nullptr && error_msg == nullptr) { 738 path_array->append(path); 739 } 740 } 741 } 742 } 743 return path_array; 744 } 745 746 bool FileMapInfo::classpath_failure(const char* msg, const char* name) { 747 ClassLoader::trace_class_path(msg, name); 748 if (PrintSharedArchiveAndExit) { 749 MetaspaceShared::set_archive_loading_failed(); 750 } 751 return false; 752 } 753 754 unsigned int FileMapInfo::longest_common_app_classpath_prefix_len(int num_paths, 755 GrowableArray<const char*>* rp_array) { 756 if (num_paths == 0) { 757 return 0; 758 } 759 unsigned int pos; 760 for (pos = 0; ; pos++) { 761 for (int i = 0; i < num_paths; i++) { 762 if (rp_array->at(i)[pos] != '\0' && rp_array->at(i)[pos] == rp_array->at(0)[pos]) { 763 continue; 764 } 765 // search backward for the pos before the file separator char 766 while (pos > 0) { 767 if (rp_array->at(0)[--pos] == *os::file_separator()) { 768 return pos + 1; 769 } 770 } 771 return 0; 772 } 773 } 774 return 0; 775 } 776 777 bool FileMapInfo::check_paths(int shared_path_start_idx, int num_paths, GrowableArray<const char*>* rp_array, 778 unsigned int dumptime_prefix_len, unsigned int runtime_prefix_len) { 779 int i = 0; 780 int j = shared_path_start_idx; 781 while (i < num_paths) { 782 while (shared_path(j)->from_class_path_attr()) { 783 // shared_path(j) was expanded from the JAR file attribute "Class-Path:" 784 // during dump time. It's not included in the -classpath VM argument. 785 j++; 786 } 787 assert(strlen(shared_path(j)->name()) > (size_t)dumptime_prefix_len, "sanity"); 788 const char* dumptime_path = shared_path(j)->name() + dumptime_prefix_len; 789 assert(strlen(rp_array->at(i)) > (size_t)runtime_prefix_len, "sanity"); 790 const char* runtime_path = rp_array->at(i) + runtime_prefix_len; 791 if (!os::same_files(dumptime_path, runtime_path)) { 792 return true; 793 } 794 i++; 795 j++; 796 } 797 return false; 798 } 799 800 bool FileMapInfo::validate_boot_class_paths() { 801 // 802 // - Archive contains boot classes only - relaxed boot path check: 803 // Extra path elements appended to the boot path at runtime are allowed. 804 // 805 // - Archive contains application or platform classes - strict boot path check: 806 // Validate the entire runtime boot path, which must be compatible 807 // with the dump time boot path. Appending boot path at runtime is not 808 // allowed. 809 // 810 811 // The first entry in boot path is the modules_image (guaranteed by 812 // ClassLoader::setup_boot_search_path()). Skip the first entry. The 813 // path of the runtime modules_image may be different from the dump 814 // time path (e.g. the JDK image is copied to a different location 815 // after generating the shared archive), which is acceptable. For most 816 // common cases, the dump time boot path might contain modules_image only. 817 char* runtime_boot_path = Arguments::get_boot_class_path(); 818 char* rp = skip_first_path_entry(runtime_boot_path); 819 assert(shared_path(0)->is_modules_image(), "first shared_path must be the modules image"); 820 int dp_len = header()->app_class_paths_start_index() - 1; // ignore the first path to the module image 821 bool mismatch = false; 822 823 bool relaxed_check = !header()->has_platform_or_app_classes(); 824 if (dp_len == 0 && rp == nullptr) { 825 return true; // ok, both runtime and dump time boot paths have modules_images only 826 } else if (dp_len == 0 && rp != nullptr) { 827 if (relaxed_check) { 828 return true; // ok, relaxed check, runtime has extra boot append path entries 829 } else { 830 ResourceMark rm; 831 if (check_paths_existence(rp)) { 832 // If a path exists in the runtime boot paths, it is considered a mismatch 833 // since there's no boot path specified during dump time. 834 mismatch = true; 835 } 836 } 837 } else if (dp_len > 0 && rp != nullptr) { 838 int num; 839 ResourceMark rm; 840 GrowableArray<const char*>* rp_array = create_path_array(rp); 841 int rp_len = rp_array->length(); 842 if (rp_len >= dp_len) { 843 if (relaxed_check) { 844 // only check the leading entries in the runtime boot path, up to 845 // the length of the dump time boot path 846 num = dp_len; 847 } else { 848 // check the full runtime boot path, must match with dump time 849 num = rp_len; 850 } 851 mismatch = check_paths(1, num, rp_array, 0, 0); 852 } else { 853 // create_path_array() ignores non-existing paths. Although the dump time and runtime boot classpath lengths 854 // are the same initially, after the call to create_path_array(), the runtime boot classpath length could become 855 // shorter. We consider boot classpath mismatch in this case. 856 mismatch = true; 857 } 858 } 859 860 if (mismatch) { 861 // The paths are different 862 return classpath_failure("[BOOT classpath mismatch, actual =", runtime_boot_path); 863 } 864 return true; 865 } 866 867 bool FileMapInfo::validate_app_class_paths(int shared_app_paths_len) { 868 const char *appcp = Arguments::get_appclasspath(); 869 assert(appcp != nullptr, "null app classpath"); 870 int rp_len = num_paths(appcp); 871 bool mismatch = false; 872 if (rp_len < shared_app_paths_len) { 873 return classpath_failure("Run time APP classpath is shorter than the one at dump time: ", appcp); 874 } 875 if (shared_app_paths_len != 0 && rp_len != 0) { 876 // Prefix is OK: E.g., dump with -cp foo.jar, but run with -cp foo.jar:bar.jar. 877 ResourceMark rm; 878 GrowableArray<const char*>* rp_array = create_path_array(appcp); 879 if (rp_array->length() == 0) { 880 // None of the jar file specified in the runtime -cp exists. 881 return classpath_failure("None of the jar file specified in the runtime -cp exists: -Djava.class.path=", appcp); 882 } 883 if (rp_array->length() < shared_app_paths_len) { 884 // create_path_array() ignores non-existing paths. Although the dump time and runtime app classpath lengths 885 // are the same initially, after the call to create_path_array(), the runtime app classpath length could become 886 // shorter. We consider app classpath mismatch in this case. 887 return classpath_failure("[APP classpath mismatch, actual: -Djava.class.path=", appcp); 888 } 889 890 // Handling of non-existent entries in the classpath: we eliminate all the non-existent 891 // entries from both the dump time classpath (ClassLoader::update_class_path_entry_list) 892 // and the runtime classpath (FileMapInfo::create_path_array), and check the remaining 893 // entries. E.g.: 894 // 895 // dump : -cp a.jar:NE1:NE2:b.jar -> a.jar:b.jar -> recorded in archive. 896 // run 1: -cp NE3:a.jar:NE4:b.jar -> a.jar:b.jar -> matched 897 // run 2: -cp x.jar:NE4:b.jar -> x.jar:b.jar -> mismatched 898 899 int j = header()->app_class_paths_start_index(); 900 mismatch = check_paths(j, shared_app_paths_len, rp_array, 0, 0); 901 if (mismatch) { 902 // To facilitate app deployment, we allow the JAR files to be moved *together* to 903 // a different location, as long as they are still stored under the same directory 904 // structure. E.g., the following is OK. 905 // java -Xshare:dump -cp /a/Foo.jar:/a/b/Bar.jar ... 906 // java -Xshare:auto -cp /x/y/Foo.jar:/x/y/b/Bar.jar ... 907 unsigned int dumptime_prefix_len = header()->common_app_classpath_prefix_size(); 908 unsigned int runtime_prefix_len = longest_common_app_classpath_prefix_len(shared_app_paths_len, rp_array); 909 if (dumptime_prefix_len != 0 || runtime_prefix_len != 0) { 910 log_info(class, path)("LCP length for app classpath (dumptime: %u, runtime: %u)", 911 dumptime_prefix_len, runtime_prefix_len); 912 mismatch = check_paths(j, shared_app_paths_len, rp_array, 913 dumptime_prefix_len, runtime_prefix_len); 914 } 915 if (mismatch) { 916 return classpath_failure("[APP classpath mismatch, actual: -Djava.class.path=", appcp); 917 } 918 } 919 } 920 return true; 921 } 922 923 void FileMapInfo::log_paths(const char* msg, int start_idx, int end_idx) { 924 LogTarget(Info, class, path) lt; 925 if (lt.is_enabled()) { 926 LogStream ls(lt); 927 ls.print("%s", msg); 928 const char* prefix = ""; 929 for (int i = start_idx; i < end_idx; i++) { 930 ls.print("%s%s", prefix, shared_path(i)->name()); 931 prefix = os::path_separator(); 932 } 933 ls.cr(); 934 } 935 } 936 937 bool FileMapInfo::check_module_paths() { 938 const char* rp = Arguments::get_property("jdk.module.path"); 939 int num_paths = CDSConfig::num_archives(rp); 940 if (num_paths != header()->num_module_paths()) { 941 return false; 942 } 943 ResourceMark rm; 944 GrowableArray<const char*>* rp_array = create_path_array(rp); 945 return check_paths(header()->app_module_paths_start_index(), num_paths, rp_array, 0, 0); 946 } 947 948 bool FileMapInfo::validate_shared_path_table() { 949 assert(UseSharedSpaces, "runtime only"); 950 951 _validating_shared_path_table = true; 952 953 // Load the shared path table info from the archive header 954 _shared_path_table = header()->shared_path_table(); 955 if (CDSConfig::is_dumping_dynamic_archive()) { 956 // Only support dynamic dumping with the usage of the default CDS archive 957 // or a simple base archive. 958 // If the base layer archive contains additional path component besides 959 // the runtime image and the -cp, dynamic dumping is disabled. 960 // 961 // When dynamic archiving is enabled, the _shared_path_table is overwritten 962 // to include the application path and stored in the top layer archive. 963 assert(shared_path(0)->is_modules_image(), "first shared_path must be the modules image"); 964 if (header()->app_class_paths_start_index() > 1) { 965 CDSConfig::disable_dumping_dynamic_archive(); 966 log_warning(cds)( 967 "Dynamic archiving is disabled because base layer archive has appended boot classpath"); 968 } 969 if (header()->num_module_paths() > 0) { 970 if (!check_module_paths()) { 971 CDSConfig::disable_dumping_dynamic_archive(); 972 log_warning(cds)( 973 "Dynamic archiving is disabled because base layer archive has a different module path"); 974 } 975 } 976 } 977 978 log_paths("Expecting BOOT path=", 0, header()->app_class_paths_start_index()); 979 log_paths("Expecting -Djava.class.path=", header()->app_class_paths_start_index(), header()->app_module_paths_start_index()); 980 981 int module_paths_start_index = header()->app_module_paths_start_index(); 982 int shared_app_paths_len = 0; 983 984 // validate the path entries up to the _max_used_path_index 985 for (int i=0; i < header()->max_used_path_index() + 1; i++) { 986 if (i < module_paths_start_index) { 987 if (shared_path(i)->validate()) { 988 // Only count the app class paths not from the "Class-path" attribute of a jar manifest. 989 if (!shared_path(i)->from_class_path_attr() && i >= header()->app_class_paths_start_index()) { 990 shared_app_paths_len++; 991 } 992 log_info(class, path)("ok"); 993 } else { 994 if (_dynamic_archive_info != nullptr && _dynamic_archive_info->_is_static) { 995 assert(!UseSharedSpaces, "UseSharedSpaces should be disabled"); 996 } 997 return false; 998 } 999 } else if (i >= module_paths_start_index) { 1000 if (shared_path(i)->validate(false /* not a class path entry */)) { 1001 log_info(class, path)("ok"); 1002 } else { 1003 if (_dynamic_archive_info != nullptr && _dynamic_archive_info->_is_static) { 1004 assert(!UseSharedSpaces, "UseSharedSpaces should be disabled"); 1005 } 1006 return false; 1007 } 1008 } 1009 } 1010 1011 if (header()->max_used_path_index() == 0) { 1012 // default archive only contains the module image in the bootclasspath 1013 assert(shared_path(0)->is_modules_image(), "first shared_path must be the modules image"); 1014 } else { 1015 if (!validate_boot_class_paths() || !validate_app_class_paths(shared_app_paths_len)) { 1016 const char* mismatch_msg = "shared class paths mismatch"; 1017 const char* hint_msg = log_is_enabled(Info, class, path) ? 1018 "" : " (hint: enable -Xlog:class+path=info to diagnose the failure)"; 1019 if (RequireSharedSpaces) { 1020 log_error(cds)("%s%s", mismatch_msg, hint_msg); 1021 MetaspaceShared::unrecoverable_loading_error(); 1022 } else { 1023 log_warning(cds)("%s%s", mismatch_msg, hint_msg); 1024 } 1025 return false; 1026 } 1027 } 1028 1029 validate_non_existent_class_paths(); 1030 1031 _validating_shared_path_table = false; 1032 1033 #if INCLUDE_JVMTI 1034 if (_classpath_entries_for_jvmti != nullptr) { 1035 os::free(_classpath_entries_for_jvmti); 1036 } 1037 size_t sz = sizeof(ClassPathEntry*) * get_number_of_shared_paths(); 1038 _classpath_entries_for_jvmti = (ClassPathEntry**)os::malloc(sz, mtClass); 1039 memset((void*)_classpath_entries_for_jvmti, 0, sz); 1040 #endif 1041 1042 return true; 1043 } 1044 1045 void FileMapInfo::validate_non_existent_class_paths() { 1046 // All of the recorded non-existent paths came from the Class-Path: attribute from the JAR 1047 // files on the app classpath. If any of these are found to exist during runtime, 1048 // it will change how classes are loading for the app loader. For safety, disable 1049 // loading of archived platform/app classes (currently there's no way to disable just the 1050 // app classes). 1051 1052 assert(UseSharedSpaces, "runtime only"); 1053 for (int i = header()->app_module_paths_start_index() + header()->num_module_paths(); 1054 i < get_number_of_shared_paths(); 1055 i++) { 1056 SharedClassPathEntry* ent = shared_path(i); 1057 if (!ent->check_non_existent()) { 1058 log_warning(cds)("Archived non-system classes are disabled because the " 1059 "file %s exists", ent->name()); 1060 header()->set_has_platform_or_app_classes(false); 1061 } 1062 } 1063 } 1064 1065 // A utility class for reading/validating the GenericCDSFileMapHeader portion of 1066 // a CDS archive's header. The file header of all CDS archives with versions from 1067 // CDS_GENERIC_HEADER_SUPPORTED_MIN_VERSION (12) are guaranteed to always start 1068 // with GenericCDSFileMapHeader. This makes it possible to read important information 1069 // from a CDS archive created by a different version of HotSpot, so that we can 1070 // automatically regenerate the archive as necessary (JDK-8261455). 1071 class FileHeaderHelper { 1072 int _fd; 1073 bool _is_valid; 1074 bool _is_static; 1075 GenericCDSFileMapHeader* _header; 1076 const char* _archive_name; 1077 const char* _base_archive_name; 1078 1079 public: 1080 FileHeaderHelper(const char* archive_name, bool is_static) { 1081 _fd = -1; 1082 _is_valid = false; 1083 _header = nullptr; 1084 _base_archive_name = nullptr; 1085 _archive_name = archive_name; 1086 _is_static = is_static; 1087 } 1088 1089 ~FileHeaderHelper() { 1090 if (_header != nullptr) { 1091 FREE_C_HEAP_ARRAY(char, _header); 1092 } 1093 if (_fd != -1) { 1094 ::close(_fd); 1095 } 1096 } 1097 1098 bool initialize() { 1099 assert(_archive_name != nullptr, "Archive name is null"); 1100 _fd = os::open(_archive_name, O_RDONLY | O_BINARY, 0); 1101 if (_fd < 0) { 1102 log_info(cds)("Specified shared archive not found (%s)", _archive_name); 1103 return false; 1104 } 1105 return initialize(_fd); 1106 } 1107 1108 // for an already opened file, do not set _fd 1109 bool initialize(int fd) { 1110 assert(_archive_name != nullptr, "Archive name is null"); 1111 assert(fd != -1, "Archive must be opened already"); 1112 // First read the generic header so we know the exact size of the actual header. 1113 GenericCDSFileMapHeader gen_header; 1114 size_t size = sizeof(GenericCDSFileMapHeader); 1115 os::lseek(fd, 0, SEEK_SET); 1116 size_t n = ::read(fd, (void*)&gen_header, (unsigned int)size); 1117 if (n != size) { 1118 log_warning(cds)("Unable to read generic CDS file map header from shared archive"); 1119 return false; 1120 } 1121 1122 if (gen_header._magic != CDS_ARCHIVE_MAGIC && 1123 gen_header._magic != CDS_DYNAMIC_ARCHIVE_MAGIC) { 1124 log_warning(cds)("The shared archive file has a bad magic number: %#x", gen_header._magic); 1125 return false; 1126 } 1127 1128 if (gen_header._version < CDS_GENERIC_HEADER_SUPPORTED_MIN_VERSION) { 1129 log_warning(cds)("Cannot handle shared archive file version 0x%x. Must be at least 0x%x.", 1130 gen_header._version, CDS_GENERIC_HEADER_SUPPORTED_MIN_VERSION); 1131 return false; 1132 } 1133 1134 if (gen_header._version != CURRENT_CDS_ARCHIVE_VERSION) { 1135 log_warning(cds)("The shared archive file version 0x%x does not match the required version 0x%x.", 1136 gen_header._version, CURRENT_CDS_ARCHIVE_VERSION); 1137 } 1138 1139 size_t filelen = os::lseek(fd, 0, SEEK_END); 1140 if (gen_header._header_size >= filelen) { 1141 log_warning(cds)("Archive file header larger than archive file"); 1142 return false; 1143 } 1144 1145 // Read the actual header and perform more checks 1146 size = gen_header._header_size; 1147 _header = (GenericCDSFileMapHeader*)NEW_C_HEAP_ARRAY(char, size, mtInternal); 1148 os::lseek(fd, 0, SEEK_SET); 1149 n = ::read(fd, (void*)_header, (unsigned int)size); 1150 if (n != size) { 1151 log_warning(cds)("Unable to read actual CDS file map header from shared archive"); 1152 return false; 1153 } 1154 1155 if (!check_header_crc()) { 1156 return false; 1157 } 1158 1159 if (!check_and_init_base_archive_name()) { 1160 return false; 1161 } 1162 1163 // All fields in the GenericCDSFileMapHeader has been validated. 1164 _is_valid = true; 1165 return true; 1166 } 1167 1168 GenericCDSFileMapHeader* get_generic_file_header() { 1169 assert(_header != nullptr && _is_valid, "must be a valid archive file"); 1170 return _header; 1171 } 1172 1173 const char* base_archive_name() { 1174 assert(_header != nullptr && _is_valid, "must be a valid archive file"); 1175 return _base_archive_name; 1176 } 1177 1178 private: 1179 bool check_header_crc() const { 1180 if (VerifySharedSpaces) { 1181 FileMapHeader* header = (FileMapHeader*)_header; 1182 int actual_crc = header->compute_crc(); 1183 if (actual_crc != header->crc()) { 1184 log_info(cds)("_crc expected: %d", header->crc()); 1185 log_info(cds)(" actual: %d", actual_crc); 1186 log_warning(cds)("Header checksum verification failed."); 1187 return false; 1188 } 1189 } 1190 return true; 1191 } 1192 1193 bool check_and_init_base_archive_name() { 1194 unsigned int name_offset = _header->_base_archive_name_offset; 1195 unsigned int name_size = _header->_base_archive_name_size; 1196 unsigned int header_size = _header->_header_size; 1197 1198 if (name_offset + name_size < name_offset) { 1199 log_warning(cds)("base_archive_name offset/size overflow: " UINT32_FORMAT "/" UINT32_FORMAT, 1200 name_offset, name_size); 1201 return false; 1202 } 1203 if (_header->_magic == CDS_ARCHIVE_MAGIC) { 1204 if (name_offset != 0) { 1205 log_warning(cds)("static shared archive must have zero _base_archive_name_offset"); 1206 return false; 1207 } 1208 if (name_size != 0) { 1209 log_warning(cds)("static shared archive must have zero _base_archive_name_size"); 1210 return false; 1211 } 1212 } else { 1213 assert(_header->_magic == CDS_DYNAMIC_ARCHIVE_MAGIC, "must be"); 1214 if ((name_size == 0 && name_offset != 0) || 1215 (name_size != 0 && name_offset == 0)) { 1216 // If either is zero, both must be zero. This indicates that we are using the default base archive. 1217 log_warning(cds)("Invalid base_archive_name offset/size: " UINT32_FORMAT "/" UINT32_FORMAT, 1218 name_offset, name_size); 1219 return false; 1220 } 1221 if (name_size > 0) { 1222 if (name_offset + name_size > header_size) { 1223 log_warning(cds)("Invalid base_archive_name offset/size (out of range): " 1224 UINT32_FORMAT " + " UINT32_FORMAT " > " UINT32_FORMAT , 1225 name_offset, name_size, header_size); 1226 return false; 1227 } 1228 const char* name = ((const char*)_header) + _header->_base_archive_name_offset; 1229 if (name[name_size - 1] != '\0' || strlen(name) != name_size - 1) { 1230 log_warning(cds)("Base archive name is damaged"); 1231 return false; 1232 } 1233 if (!os::file_exists(name)) { 1234 log_warning(cds)("Base archive %s does not exist", name); 1235 return false; 1236 } 1237 _base_archive_name = name; 1238 } 1239 } 1240 1241 return true; 1242 } 1243 }; 1244 1245 // Return value: 1246 // false: 1247 // <archive_name> is not a valid archive. *base_archive_name is set to null. 1248 // true && (*base_archive_name) == nullptr: 1249 // <archive_name> is a valid static archive. 1250 // true && (*base_archive_name) != nullptr: 1251 // <archive_name> is a valid dynamic archive. 1252 bool FileMapInfo::get_base_archive_name_from_header(const char* archive_name, 1253 char** base_archive_name) { 1254 FileHeaderHelper file_helper(archive_name, false); 1255 *base_archive_name = nullptr; 1256 1257 if (!file_helper.initialize()) { 1258 return false; 1259 } 1260 GenericCDSFileMapHeader* header = file_helper.get_generic_file_header(); 1261 if (header->_magic != CDS_DYNAMIC_ARCHIVE_MAGIC) { 1262 assert(header->_magic == CDS_ARCHIVE_MAGIC, "must be"); 1263 if (AutoCreateSharedArchive) { 1264 log_warning(cds)("AutoCreateSharedArchive is ignored because %s is a static archive", archive_name); 1265 } 1266 return true; 1267 } 1268 1269 const char* base = file_helper.base_archive_name(); 1270 if (base == nullptr) { 1271 *base_archive_name = CDSConfig::default_archive_path(); 1272 } else { 1273 *base_archive_name = os::strdup_check_oom(base); 1274 } 1275 1276 return true; 1277 } 1278 1279 // Read the FileMapInfo information from the file. 1280 1281 bool FileMapInfo::init_from_file(int fd) { 1282 FileHeaderHelper file_helper(_full_path, _is_static); 1283 if (!file_helper.initialize(fd)) { 1284 log_warning(cds)("Unable to read the file header."); 1285 return false; 1286 } 1287 GenericCDSFileMapHeader* gen_header = file_helper.get_generic_file_header(); 1288 1289 if (_is_static) { 1290 if (gen_header->_magic != CDS_ARCHIVE_MAGIC) { 1291 log_warning(cds)("Not a base shared archive: %s", _full_path); 1292 return false; 1293 } 1294 } else { 1295 if (gen_header->_magic != CDS_DYNAMIC_ARCHIVE_MAGIC) { 1296 log_warning(cds)("Not a top shared archive: %s", _full_path); 1297 return false; 1298 } 1299 } 1300 1301 _header = (FileMapHeader*)os::malloc(gen_header->_header_size, mtInternal); 1302 os::lseek(fd, 0, SEEK_SET); // reset to begin of the archive 1303 size_t size = gen_header->_header_size; 1304 size_t n = ::read(fd, (void*)_header, (unsigned int)size); 1305 if (n != size) { 1306 log_warning(cds)("Failed to read file header from the top archive file\n"); 1307 return false; 1308 } 1309 1310 if (header()->version() != CURRENT_CDS_ARCHIVE_VERSION) { 1311 log_info(cds)("_version expected: 0x%x", CURRENT_CDS_ARCHIVE_VERSION); 1312 log_info(cds)(" actual: 0x%x", header()->version()); 1313 log_warning(cds)("The shared archive file has the wrong version."); 1314 return false; 1315 } 1316 1317 int common_path_size = header()->common_app_classpath_prefix_size(); 1318 if (common_path_size < 0) { 1319 log_warning(cds)("common app classpath prefix len < 0"); 1320 return false; 1321 } 1322 1323 unsigned int base_offset = header()->base_archive_name_offset(); 1324 unsigned int name_size = header()->base_archive_name_size(); 1325 unsigned int header_size = header()->header_size(); 1326 if (base_offset != 0 && name_size != 0) { 1327 if (header_size != base_offset + name_size) { 1328 log_info(cds)("_header_size: " UINT32_FORMAT, header_size); 1329 log_info(cds)("common_app_classpath_size: " UINT32_FORMAT, header()->common_app_classpath_prefix_size()); 1330 log_info(cds)("base_archive_name_size: " UINT32_FORMAT, header()->base_archive_name_size()); 1331 log_info(cds)("base_archive_name_offset: " UINT32_FORMAT, header()->base_archive_name_offset()); 1332 log_warning(cds)("The shared archive file has an incorrect header size."); 1333 return false; 1334 } 1335 } 1336 1337 const char* actual_ident = header()->jvm_ident(); 1338 1339 if (actual_ident[JVM_IDENT_MAX-1] != 0) { 1340 log_warning(cds)("JVM version identifier is corrupted."); 1341 return false; 1342 } 1343 1344 char expected_ident[JVM_IDENT_MAX]; 1345 get_header_version(expected_ident); 1346 if (strncmp(actual_ident, expected_ident, JVM_IDENT_MAX-1) != 0) { 1347 log_info(cds)("_jvm_ident expected: %s", expected_ident); 1348 log_info(cds)(" actual: %s", actual_ident); 1349 log_warning(cds)("The shared archive file was created by a different" 1350 " version or build of HotSpot"); 1351 return false; 1352 } 1353 1354 _file_offset = header()->header_size(); // accounts for the size of _base_archive_name 1355 1356 size_t len = os::lseek(fd, 0, SEEK_END); 1357 1358 for (int i = 0; i < MetaspaceShared::n_regions; i++) { 1359 FileMapRegion* r = region_at(i); 1360 if (r->file_offset() > len || len - r->file_offset() < r->used()) { 1361 log_warning(cds)("The shared archive file has been truncated."); 1362 return false; 1363 } 1364 } 1365 1366 return true; 1367 } 1368 1369 void FileMapInfo::seek_to_position(size_t pos) { 1370 if (os::lseek(_fd, (long)pos, SEEK_SET) < 0) { 1371 log_error(cds)("Unable to seek to position " SIZE_FORMAT, pos); 1372 MetaspaceShared::unrecoverable_loading_error(); 1373 } 1374 } 1375 1376 // Read the FileMapInfo information from the file. 1377 bool FileMapInfo::open_for_read() { 1378 if (_file_open) { 1379 return true; 1380 } 1381 log_info(cds)("trying to map %s", _full_path); 1382 int fd = os::open(_full_path, O_RDONLY | O_BINARY, 0); 1383 if (fd < 0) { 1384 if (errno == ENOENT) { 1385 log_info(cds)("Specified shared archive not found (%s)", _full_path); 1386 } else { 1387 log_warning(cds)("Failed to open shared archive file (%s)", 1388 os::strerror(errno)); 1389 } 1390 return false; 1391 } else { 1392 log_info(cds)("Opened archive %s.", _full_path); 1393 } 1394 1395 _fd = fd; 1396 _file_open = true; 1397 return true; 1398 } 1399 1400 // Write the FileMapInfo information to the file. 1401 1402 void FileMapInfo::open_for_write() { 1403 LogMessage(cds) msg; 1404 if (msg.is_info()) { 1405 msg.info("Dumping shared data to file: "); 1406 msg.info(" %s", _full_path); 1407 } 1408 1409 #ifdef _WINDOWS // On Windows, need WRITE permission to remove the file. 1410 chmod(_full_path, _S_IREAD | _S_IWRITE); 1411 #endif 1412 1413 // Use remove() to delete the existing file because, on Unix, this will 1414 // allow processes that have it open continued access to the file. 1415 remove(_full_path); 1416 int fd = os::open(_full_path, O_RDWR | O_CREAT | O_TRUNC | O_BINARY, 0444); 1417 if (fd < 0) { 1418 log_error(cds)("Unable to create shared archive file %s: (%s).", _full_path, 1419 os::strerror(errno)); 1420 MetaspaceShared::unrecoverable_writing_error(); 1421 } 1422 _fd = fd; 1423 _file_open = true; 1424 1425 // Seek past the header. We will write the header after all regions are written 1426 // and their CRCs computed. 1427 size_t header_bytes = header()->header_size(); 1428 1429 header_bytes = align_up(header_bytes, MetaspaceShared::core_region_alignment()); 1430 _file_offset = header_bytes; 1431 seek_to_position(_file_offset); 1432 } 1433 1434 // Write the header to the file, seek to the next allocation boundary. 1435 1436 void FileMapInfo::write_header() { 1437 _file_offset = 0; 1438 seek_to_position(_file_offset); 1439 assert(is_file_position_aligned(), "must be"); 1440 write_bytes(header(), header()->header_size()); 1441 } 1442 1443 size_t FileMapRegion::used_aligned() const { 1444 return align_up(used(), MetaspaceShared::core_region_alignment()); 1445 } 1446 1447 void FileMapRegion::init(int region_index, size_t mapping_offset, size_t size, bool read_only, 1448 bool allow_exec, int crc) { 1449 _is_heap_region = HeapShared::is_heap_region(region_index); 1450 _is_bitmap_region = (region_index == MetaspaceShared::bm); 1451 _mapping_offset = mapping_offset; 1452 _used = size; 1453 _read_only = read_only; 1454 _allow_exec = allow_exec; 1455 _crc = crc; 1456 _mapped_from_file = false; 1457 _mapped_base = nullptr; 1458 } 1459 1460 void FileMapRegion::init_oopmap(size_t offset, size_t size_in_bits) { 1461 _oopmap_offset = offset; 1462 _oopmap_size_in_bits = size_in_bits; 1463 } 1464 1465 void FileMapRegion::init_ptrmap(size_t offset, size_t size_in_bits) { 1466 _ptrmap_offset = offset; 1467 _ptrmap_size_in_bits = size_in_bits; 1468 } 1469 1470 bool FileMapRegion::check_region_crc(char* base) const { 1471 // This function should be called after the region has been properly 1472 // loaded into memory via FileMapInfo::map_region() or FileMapInfo::read_region(). 1473 // I.e., this->mapped_base() must be valid. 1474 size_t sz = used(); 1475 if (sz == 0) { 1476 return true; 1477 } 1478 1479 assert(base != nullptr, "must be initialized"); 1480 int crc = ClassLoader::crc32(0, base, (jint)sz); 1481 if (crc != this->crc()) { 1482 log_warning(cds)("Checksum verification failed."); 1483 return false; 1484 } 1485 return true; 1486 } 1487 1488 static const char* region_name(int region_index) { 1489 static const char* names[] = { 1490 "rw", "ro", "bm", "hp", "cc", 1491 }; 1492 const int num_regions = sizeof(names)/sizeof(names[0]); 1493 assert(0 <= region_index && region_index < num_regions, "sanity"); 1494 1495 return names[region_index]; 1496 } 1497 1498 BitMapView FileMapInfo::bitmap_view(int region_index, bool is_oopmap) { 1499 FileMapRegion* r = region_at(region_index); 1500 char* bitmap_base = is_static() ? FileMapInfo::current_info()->map_bitmap_region() : FileMapInfo::dynamic_info()->map_bitmap_region(); 1501 bitmap_base += is_oopmap ? r->oopmap_offset() : r->ptrmap_offset(); 1502 size_t size_in_bits = is_oopmap ? r->oopmap_size_in_bits() : r->ptrmap_size_in_bits(); 1503 1504 log_debug(cds, reloc)("mapped %s relocation %smap @ " INTPTR_FORMAT " (" SIZE_FORMAT " bits)", 1505 region_name(region_index), is_oopmap ? "oop" : "ptr", 1506 p2i(bitmap_base), size_in_bits); 1507 1508 return BitMapView((BitMap::bm_word_t*)(bitmap_base), size_in_bits); 1509 } 1510 1511 BitMapView FileMapInfo::oopmap_view(int region_index) { 1512 return bitmap_view(region_index, /*is_oopmap*/true); 1513 } 1514 1515 BitMapView FileMapInfo::ptrmap_view(int region_index) { 1516 return bitmap_view(region_index, /*is_oopmap*/false); 1517 } 1518 1519 void FileMapRegion::print(outputStream* st, int region_index) { 1520 st->print_cr("============ region ============= %d \"%s\"", region_index, region_name(region_index)); 1521 st->print_cr("- crc: 0x%08x", _crc); 1522 st->print_cr("- read_only: %d", _read_only); 1523 st->print_cr("- allow_exec: %d", _allow_exec); 1524 st->print_cr("- is_heap_region: %d", _is_heap_region); 1525 st->print_cr("- is_bitmap_region: %d", _is_bitmap_region); 1526 st->print_cr("- mapped_from_file: %d", _mapped_from_file); 1527 st->print_cr("- file_offset: " SIZE_FORMAT_X, _file_offset); 1528 st->print_cr("- mapping_offset: " SIZE_FORMAT_X, _mapping_offset); 1529 st->print_cr("- used: " SIZE_FORMAT, _used); 1530 st->print_cr("- oopmap_offset: " SIZE_FORMAT_X, _oopmap_offset); 1531 st->print_cr("- oopmap_size_in_bits: " SIZE_FORMAT, _oopmap_size_in_bits); 1532 st->print_cr("- ptrmap_offset: " SIZE_FORMAT_X, _ptrmap_offset); 1533 st->print_cr("- ptrmap_size_in_bits: " SIZE_FORMAT, _ptrmap_size_in_bits); 1534 st->print_cr("- mapped_base: " INTPTR_FORMAT, p2i(_mapped_base)); 1535 } 1536 1537 void FileMapInfo::write_region(int region, char* base, size_t size, 1538 bool read_only, bool allow_exec) { 1539 assert(CDSConfig::is_dumping_archive(), "sanity"); 1540 1541 FileMapRegion* r = region_at(region); 1542 char* requested_base; 1543 size_t mapping_offset = 0; 1544 1545 if (region == MetaspaceShared::bm) { 1546 requested_base = nullptr; // always null for bm region 1547 } else if (size == 0) { 1548 // This is an unused region (e.g., a heap region when !INCLUDE_CDS_JAVA_HEAP) 1549 requested_base = nullptr; 1550 } else if (HeapShared::is_heap_region(region)) { 1551 assert(HeapShared::can_write(), "sanity"); 1552 #if INCLUDE_CDS_JAVA_HEAP 1553 assert(!CDSConfig::is_dumping_dynamic_archive(), "must be"); 1554 requested_base = (char*)ArchiveHeapWriter::requested_address(); 1555 if (UseCompressedOops) { 1556 mapping_offset = (size_t)((address)requested_base - CompressedOops::base()); 1557 assert((mapping_offset >> CompressedOops::shift()) << CompressedOops::shift() == mapping_offset, "must be"); 1558 } else { 1559 mapping_offset = 0; // not used with !UseCompressedOops 1560 } 1561 #endif // INCLUDE_CDS_JAVA_HEAP 1562 } else { 1563 char* requested_SharedBaseAddress = (char*)MetaspaceShared::requested_base_address(); 1564 requested_base = ArchiveBuilder::current()->to_requested(base); 1565 assert(requested_base >= requested_SharedBaseAddress, "must be"); 1566 mapping_offset = requested_base - requested_SharedBaseAddress; 1567 } 1568 1569 r->set_file_offset(_file_offset); 1570 int crc = ClassLoader::crc32(0, base, (jint)size); 1571 if (size > 0) { 1572 log_info(cds)("Shared file region (%s) %d: " SIZE_FORMAT_W(8) 1573 " bytes, addr " INTPTR_FORMAT " file offset 0x%08" PRIxPTR 1574 " crc 0x%08x", 1575 region_name(region), region, size, p2i(requested_base), _file_offset, crc); 1576 } else { 1577 log_info(cds)("Shared file region (%s) %d: " SIZE_FORMAT_W(8) 1578 " bytes", region_name(region), region, size); 1579 } 1580 1581 r->init(region, mapping_offset, size, read_only, allow_exec, crc); 1582 1583 if (base != nullptr) { 1584 write_bytes_aligned(base, size); 1585 } 1586 } 1587 1588 static size_t write_bitmap(const CHeapBitMap* map, char* output, size_t offset) { 1589 size_t size_in_bytes = map->size_in_bytes(); 1590 map->write_to((BitMap::bm_word_t*)(output + offset), size_in_bytes); 1591 return offset + size_in_bytes; 1592 } 1593 1594 // The start of the archived heap has many primitive arrays (String 1595 // bodies) that are not marked by the oop/ptr maps. So we must have 1596 // lots of leading zeros. 1597 size_t FileMapInfo::remove_bitmap_leading_zeros(CHeapBitMap* map) { 1598 size_t old_zeros = map->find_first_set_bit(0); 1599 size_t old_size = map->size(); 1600 1601 // Slice and resize bitmap 1602 map->truncate(old_zeros, map->size()); 1603 1604 DEBUG_ONLY( 1605 size_t new_zeros = map->find_first_set_bit(0); 1606 assert(new_zeros == 0, "Should have removed leading zeros"); 1607 ) 1608 assert(map->size() <= old_size, "sanity"); 1609 return old_zeros; 1610 } 1611 1612 char* FileMapInfo::write_bitmap_region(CHeapBitMap* rw_ptrmap, CHeapBitMap* ro_ptrmap, 1613 CHeapBitMap* cc_ptrmap, 1614 ArchiveHeapInfo* heap_info, 1615 size_t &size_in_bytes) { 1616 size_t removed_rw_zeros = remove_bitmap_leading_zeros(rw_ptrmap); 1617 size_t removed_ro_zeros = remove_bitmap_leading_zeros(ro_ptrmap); 1618 header()->set_rw_ptrmap_start_pos(removed_rw_zeros); 1619 header()->set_ro_ptrmap_start_pos(removed_ro_zeros); 1620 size_in_bytes = rw_ptrmap->size_in_bytes() + ro_ptrmap->size_in_bytes() + cc_ptrmap->size_in_bytes(); 1621 1622 if (heap_info->is_used()) { 1623 // Remove leading zeros 1624 size_t removed_oop_zeros = remove_bitmap_leading_zeros(heap_info->oopmap()); 1625 size_t removed_ptr_zeros = remove_bitmap_leading_zeros(heap_info->ptrmap()); 1626 1627 header()->set_heap_oopmap_start_pos(removed_oop_zeros); 1628 header()->set_heap_ptrmap_start_pos(removed_ptr_zeros); 1629 1630 size_in_bytes += heap_info->oopmap()->size_in_bytes(); 1631 size_in_bytes += heap_info->ptrmap()->size_in_bytes(); 1632 } 1633 1634 // The bitmap region contains up to 4 parts: 1635 // rw_ptrmap: metaspace pointers inside the read-write region 1636 // ro_ptrmap: metaspace pointers inside the read-only region 1637 // heap_info->oopmap(): Java oop pointers in the heap region 1638 // heap_info->ptrmap(): metaspace pointers in the heap region 1639 char* buffer = NEW_C_HEAP_ARRAY(char, size_in_bytes, mtClassShared); 1640 size_t written = 0; 1641 1642 region_at(MetaspaceShared::rw)->init_ptrmap(0, rw_ptrmap->size()); 1643 written = write_bitmap(rw_ptrmap, buffer, written); 1644 1645 region_at(MetaspaceShared::ro)->init_ptrmap(written, ro_ptrmap->size()); 1646 written = write_bitmap(ro_ptrmap, buffer, written); 1647 1648 region_at(MetaspaceShared::cc)->init_ptrmap(written, cc_ptrmap->size()); 1649 written = write_bitmap(cc_ptrmap, buffer, written); 1650 1651 if (heap_info->is_used()) { 1652 FileMapRegion* r = region_at(MetaspaceShared::hp); 1653 1654 r->init_oopmap(written, heap_info->oopmap()->size()); 1655 written = write_bitmap(heap_info->oopmap(), buffer, written); 1656 1657 r->init_ptrmap(written, heap_info->ptrmap()->size()); 1658 written = write_bitmap(heap_info->ptrmap(), buffer, written); 1659 } 1660 1661 write_region(MetaspaceShared::bm, (char*)buffer, size_in_bytes, /*read_only=*/true, /*allow_exec=*/false); 1662 return buffer; 1663 } 1664 1665 size_t FileMapInfo::write_heap_region(ArchiveHeapInfo* heap_info) { 1666 char* buffer_start = heap_info->buffer_start(); 1667 size_t buffer_size = heap_info->buffer_byte_size(); 1668 write_region(MetaspaceShared::hp, buffer_start, buffer_size, false, false); 1669 header()->set_heap_roots_offset(heap_info->heap_roots_offset()); 1670 return buffer_size; 1671 } 1672 1673 // Dump bytes to file -- at the current file position. 1674 1675 void FileMapInfo::write_bytes(const void* buffer, size_t nbytes) { 1676 assert(_file_open, "must be"); 1677 if (!os::write(_fd, buffer, nbytes)) { 1678 // If the shared archive is corrupted, close it and remove it. 1679 close(); 1680 remove(_full_path); 1681 MetaspaceShared::unrecoverable_writing_error("Unable to write to shared archive file."); 1682 } 1683 _file_offset += nbytes; 1684 } 1685 1686 bool FileMapInfo::is_file_position_aligned() const { 1687 return _file_offset == align_up(_file_offset, 1688 MetaspaceShared::core_region_alignment()); 1689 } 1690 1691 // Align file position to an allocation unit boundary. 1692 1693 void FileMapInfo::align_file_position() { 1694 assert(_file_open, "must be"); 1695 size_t new_file_offset = align_up(_file_offset, 1696 MetaspaceShared::core_region_alignment()); 1697 if (new_file_offset != _file_offset) { 1698 _file_offset = new_file_offset; 1699 // Seek one byte back from the target and write a byte to insure 1700 // that the written file is the correct length. 1701 _file_offset -= 1; 1702 seek_to_position(_file_offset); 1703 char zero = 0; 1704 write_bytes(&zero, 1); 1705 } 1706 } 1707 1708 1709 // Dump bytes to file -- at the current file position. 1710 1711 void FileMapInfo::write_bytes_aligned(const void* buffer, size_t nbytes) { 1712 align_file_position(); 1713 write_bytes(buffer, nbytes); 1714 align_file_position(); 1715 } 1716 1717 // Close the shared archive file. This does NOT unmap mapped regions. 1718 1719 void FileMapInfo::close() { 1720 if (_file_open) { 1721 if (::close(_fd) < 0) { 1722 MetaspaceShared::unrecoverable_loading_error("Unable to close the shared archive file."); 1723 } 1724 _file_open = false; 1725 _fd = -1; 1726 } 1727 } 1728 1729 /* 1730 * Same as os::map_memory() but also pretouches if AlwaysPreTouch is enabled. 1731 */ 1732 static char* map_memory(int fd, const char* file_name, size_t file_offset, 1733 char *addr, size_t bytes, bool read_only, 1734 bool allow_exec, MEMFLAGS flags = mtNone) { 1735 char* mem = os::map_memory(fd, file_name, file_offset, addr, bytes, 1736 AlwaysPreTouch ? false : read_only, 1737 allow_exec, flags); 1738 if (mem != nullptr && AlwaysPreTouch) { 1739 os::pretouch_memory(mem, mem + bytes); 1740 } 1741 return mem; 1742 } 1743 1744 // JVM/TI RedefineClasses() support: 1745 // Remap the shared readonly space to shared readwrite, private. 1746 bool FileMapInfo::remap_shared_readonly_as_readwrite() { 1747 int idx = MetaspaceShared::ro; 1748 FileMapRegion* r = region_at(idx); 1749 if (!r->read_only()) { 1750 // the space is already readwrite so we are done 1751 return true; 1752 } 1753 size_t size = r->used_aligned(); 1754 if (!open_for_read()) { 1755 return false; 1756 } 1757 char *addr = r->mapped_base(); 1758 // This path should not be reached for Windows; see JDK-8222379. 1759 assert(WINDOWS_ONLY(false) NOT_WINDOWS(true), "Don't call on Windows"); 1760 // Replace old mapping with new one that is writable. 1761 char *base = os::map_memory(_fd, _full_path, r->file_offset(), 1762 addr, size, false /* !read_only */, 1763 r->allow_exec()); 1764 close(); 1765 // These have to be errors because the shared region is now unmapped. 1766 if (base == nullptr) { 1767 log_error(cds)("Unable to remap shared readonly space (errno=%d).", errno); 1768 vm_exit(1); 1769 } 1770 if (base != addr) { 1771 log_error(cds)("Unable to remap shared readonly space (errno=%d).", errno); 1772 vm_exit(1); 1773 } 1774 r->set_read_only(false); 1775 return true; 1776 } 1777 1778 // Memory map a region in the address space. 1779 static const char* shared_region_name[] = { "ReadWrite", "ReadOnly", "Bitmap", "Heap", "Code" }; 1780 1781 MapArchiveResult FileMapInfo::map_regions(int regions[], int num_regions, char* mapped_base_address, ReservedSpace rs) { 1782 DEBUG_ONLY(FileMapRegion* last_region = nullptr); 1783 intx addr_delta = mapped_base_address - header()->requested_base_address(); 1784 1785 // Make sure we don't attempt to use header()->mapped_base_address() unless 1786 // it's been successfully mapped. 1787 DEBUG_ONLY(header()->set_mapped_base_address((char*)(uintptr_t)0xdeadbeef);) 1788 1789 for (int i = 0; i < num_regions; i++) { 1790 int idx = regions[i]; 1791 MapArchiveResult result = map_region(idx, addr_delta, mapped_base_address, rs); 1792 if (result != MAP_ARCHIVE_SUCCESS) { 1793 return result; 1794 } 1795 FileMapRegion* r = region_at(idx); 1796 DEBUG_ONLY(if (last_region != nullptr) { 1797 // Ensure that the OS won't be able to allocate new memory spaces between any mapped 1798 // regions, or else it would mess up the simple comparison in MetaspaceObj::is_shared(). 1799 assert(r->mapped_base() == last_region->mapped_end(), "must have no gaps"); 1800 } 1801 last_region = r;) 1802 log_info(cds)("Mapped %s region #%d at base " INTPTR_FORMAT " top " INTPTR_FORMAT " (%s)", is_static() ? "static " : "dynamic", 1803 idx, p2i(r->mapped_base()), p2i(r->mapped_end()), 1804 shared_region_name[idx]); 1805 1806 } 1807 1808 header()->set_mapped_base_address(header()->requested_base_address() + addr_delta); 1809 if (addr_delta != 0 && !relocate_pointers_in_core_regions(addr_delta)) { 1810 return MAP_ARCHIVE_OTHER_FAILURE; 1811 } 1812 1813 return MAP_ARCHIVE_SUCCESS; 1814 } 1815 1816 bool FileMapInfo::read_region(int i, char* base, size_t size, bool do_commit) { 1817 FileMapRegion* r = region_at(i); 1818 if (do_commit) { 1819 log_info(cds)("Commit %s region #%d at base " INTPTR_FORMAT " top " INTPTR_FORMAT " (%s)%s", 1820 is_static() ? "static " : "dynamic", i, p2i(base), p2i(base + size), 1821 shared_region_name[i], r->allow_exec() ? " exec" : ""); 1822 if (!os::commit_memory(base, size, r->allow_exec())) { 1823 log_error(cds)("Failed to commit %s region #%d (%s)", is_static() ? "static " : "dynamic", 1824 i, shared_region_name[i]); 1825 return false; 1826 } 1827 } 1828 if (os::lseek(_fd, (long)r->file_offset(), SEEK_SET) != (int)r->file_offset() || 1829 read_bytes(base, size) != size) { 1830 return false; 1831 } 1832 1833 if (VerifySharedSpaces && !r->check_region_crc(base)) { 1834 return false; 1835 } 1836 1837 r->set_mapped_from_file(false); 1838 r->set_mapped_base(base); 1839 1840 return true; 1841 } 1842 1843 MapArchiveResult FileMapInfo::map_region(int i, intx addr_delta, char* mapped_base_address, ReservedSpace rs) { 1844 assert(!HeapShared::is_heap_region(i), "sanity"); 1845 FileMapRegion* r = region_at(i); 1846 size_t size = r->used_aligned(); 1847 char *requested_addr = mapped_base_address + r->mapping_offset(); 1848 assert(r->mapped_base() == nullptr, "must be not mapped yet"); 1849 assert(requested_addr != nullptr, "must be specified"); 1850 1851 r->set_mapped_from_file(false); 1852 1853 if (MetaspaceShared::use_windows_memory_mapping()) { 1854 // Windows cannot remap read-only shared memory to read-write when required for 1855 // RedefineClasses, which is also used by JFR. Always map windows regions as RW. 1856 r->set_read_only(false); 1857 } else if (JvmtiExport::can_modify_any_class() || JvmtiExport::can_walk_any_space() || 1858 Arguments::has_jfr_option()) { 1859 // If a tool agent is in use (debugging enabled), or JFR, we must map the address space RW 1860 r->set_read_only(false); 1861 } else if (addr_delta != 0) { 1862 r->set_read_only(false); // Need to patch the pointers 1863 } 1864 1865 if (MetaspaceShared::use_windows_memory_mapping() && rs.is_reserved()) { 1866 // This is the second time we try to map the archive(s). We have already created a ReservedSpace 1867 // that covers all the FileMapRegions to ensure all regions can be mapped. However, Windows 1868 // can't mmap into a ReservedSpace, so we just ::read() the data. We're going to patch all the 1869 // regions anyway, so there's no benefit for mmap anyway. 1870 if (!read_region(i, requested_addr, size, /* do_commit = */ true)) { 1871 log_info(cds)("Failed to read %s shared space into reserved space at " INTPTR_FORMAT, 1872 shared_region_name[i], p2i(requested_addr)); 1873 return MAP_ARCHIVE_OTHER_FAILURE; // oom or I/O error. 1874 } else { 1875 assert(r->mapped_base() != nullptr, "must be initialized"); 1876 return MAP_ARCHIVE_SUCCESS; 1877 } 1878 } else { 1879 // Note that this may either be a "fresh" mapping into unreserved address 1880 // space (Windows, first mapping attempt), or a mapping into pre-reserved 1881 // space (Posix). See also comment in MetaspaceShared::map_archives(). 1882 bool read_only = r->read_only() && !CDSConfig::is_dumping_final_static_archive(); 1883 char* base = map_memory(_fd, _full_path, r->file_offset(), 1884 requested_addr, size, read_only, 1885 r->allow_exec(), mtClassShared); 1886 if (base != requested_addr) { 1887 log_info(cds)("Unable to map %s shared space at " INTPTR_FORMAT, 1888 shared_region_name[i], p2i(requested_addr)); 1889 _memory_mapping_failed = true; 1890 return MAP_ARCHIVE_MMAP_FAILURE; 1891 } 1892 1893 if (VerifySharedSpaces && !r->check_region_crc(requested_addr)) { 1894 return MAP_ARCHIVE_OTHER_FAILURE; 1895 } 1896 1897 r->set_mapped_from_file(true); 1898 r->set_mapped_base(requested_addr); 1899 1900 return MAP_ARCHIVE_SUCCESS; 1901 } 1902 } 1903 1904 // The return value is the location of the archive relocation bitmap. 1905 char* FileMapInfo::map_bitmap_region() { 1906 FileMapRegion* r = region_at(MetaspaceShared::bm); 1907 if (r->mapped_base() != nullptr) { 1908 return r->mapped_base(); 1909 } 1910 bool read_only = true, allow_exec = false; 1911 char* requested_addr = nullptr; // allow OS to pick any location 1912 char* bitmap_base = map_memory(_fd, _full_path, r->file_offset(), 1913 requested_addr, r->used_aligned(), read_only, allow_exec, mtClassShared); 1914 if (bitmap_base == nullptr) { 1915 log_info(cds)("failed to map relocation bitmap"); 1916 return nullptr; 1917 } 1918 1919 if (VerifySharedSpaces && !r->check_region_crc(bitmap_base)) { 1920 log_error(cds)("relocation bitmap CRC error"); 1921 if (!os::unmap_memory(bitmap_base, r->used_aligned())) { 1922 fatal("os::unmap_memory of relocation bitmap failed"); 1923 } 1924 return nullptr; 1925 } 1926 1927 r->set_mapped_from_file(true); 1928 r->set_mapped_base(bitmap_base); 1929 log_info(cds)("Mapped %s region #%d at base " INTPTR_FORMAT " top " INTPTR_FORMAT " (%s)", 1930 is_static() ? "static " : "dynamic", 1931 MetaspaceShared::bm, p2i(r->mapped_base()), p2i(r->mapped_end()), 1932 shared_region_name[MetaspaceShared::bm]); 1933 return bitmap_base; 1934 } 1935 1936 bool FileMapInfo::map_cached_code_region(ReservedSpace rs) { 1937 FileMapRegion* r = region_at(MetaspaceShared::cc); 1938 assert(r->used() > 0 && rs.size(), "must be"); 1939 1940 bool read_only = false, allow_exec = true; 1941 char* requested_base = rs.base(); 1942 char* mapped_base = map_memory(_fd, _full_path, r->file_offset(), 1943 requested_base, r->used_aligned(), read_only, allow_exec, mtClassShared); 1944 if (mapped_base == nullptr) { 1945 log_info(cds)("failed to map cached code region"); 1946 return false; 1947 } else { 1948 assert(mapped_base == requested_base, "must be"); 1949 r->set_mapped_from_file(true); 1950 r->set_mapped_base(mapped_base); 1951 relocate_pointers_in_cached_code_region(); 1952 log_info(cds)("Mapped static region #%d at base " INTPTR_FORMAT " top " INTPTR_FORMAT " (%s)", 1953 MetaspaceShared::bm, p2i(r->mapped_base()), p2i(r->mapped_end()), 1954 shared_region_name[MetaspaceShared::cc]); 1955 return true; 1956 } 1957 } 1958 1959 class CachedCodeRelocator: public BitMapClosure { 1960 address _code_requested_base; 1961 address* _patch_base; 1962 intx _code_delta; 1963 intx _metadata_delta; 1964 1965 public: 1966 CachedCodeRelocator(address code_requested_base, address code_mapped_base, 1967 intx metadata_delta) { 1968 _code_requested_base = code_requested_base; 1969 _patch_base = (address*)code_mapped_base; 1970 _code_delta = code_mapped_base - code_requested_base; 1971 _metadata_delta = metadata_delta; 1972 } 1973 1974 bool do_bit(size_t offset) { 1975 address* p = _patch_base + offset; 1976 address requested_ptr = *p; 1977 if (requested_ptr < _code_requested_base) { 1978 *p = requested_ptr + _metadata_delta; 1979 } else { 1980 *p = requested_ptr + _code_delta; 1981 } 1982 return true; // keep iterating 1983 } 1984 }; 1985 1986 void FileMapInfo::relocate_pointers_in_cached_code_region() { 1987 FileMapRegion* r = region_at(MetaspaceShared::cc); 1988 char* bitmap_base = map_bitmap_region(); 1989 1990 BitMapView cc_ptrmap = ptrmap_view(MetaspaceShared::cc); 1991 if (cc_ptrmap.size() == 0) { 1992 return; 1993 } 1994 1995 address core_regions_requested_base = (address)header()->requested_base_address(); 1996 address core_regions_mapped_base = (address)header()->mapped_base_address(); 1997 address cc_region_requested_base = core_regions_requested_base + r->mapping_offset(); 1998 address cc_region_mapped_base = (address)r->mapped_base(); 1999 2000 size_t max_bits_for_core_regions = pointer_delta(mapped_end(), mapped_base(), // FIXME - renamed to core_regions_mapped_base(), etc 2001 sizeof(address)); 2002 2003 CachedCodeRelocator patcher(cc_region_requested_base, cc_region_mapped_base, 2004 core_regions_mapped_base - core_regions_requested_base); 2005 cc_ptrmap.iterate(&patcher); 2006 } 2007 2008 // This is called when we cannot map the archive at the requested[ base address (usually 0x800000000). 2009 // We relocate all pointers in the 2 core regions (ro, rw). 2010 bool FileMapInfo::relocate_pointers_in_core_regions(intx addr_delta) { 2011 log_debug(cds, reloc)("runtime archive relocation start"); 2012 char* bitmap_base = map_bitmap_region(); 2013 2014 if (bitmap_base == nullptr) { 2015 return false; // OOM, or CRC check failure 2016 } else { 2017 BitMapView rw_ptrmap = ptrmap_view(MetaspaceShared::rw); 2018 BitMapView ro_ptrmap = ptrmap_view(MetaspaceShared::ro); 2019 2020 FileMapRegion* rw_region = first_core_region(); 2021 FileMapRegion* ro_region = last_core_region(); 2022 2023 // Patch all pointers inside the RW region 2024 address rw_patch_base = (address)rw_region->mapped_base(); 2025 address rw_patch_end = (address)rw_region->mapped_end(); 2026 2027 // Patch all pointers inside the RO region 2028 address ro_patch_base = (address)ro_region->mapped_base(); 2029 address ro_patch_end = (address)ro_region->mapped_end(); 2030 2031 // the current value of the pointers to be patched must be within this 2032 // range (i.e., must be between the requested base address and the address of the current archive). 2033 // Note: top archive may point to objects in the base archive, but not the other way around. 2034 address valid_old_base = (address)header()->requested_base_address(); 2035 address valid_old_end = valid_old_base + mapping_end_offset(); 2036 2037 // after patching, the pointers must point inside this range 2038 // (the requested location of the archive, as mapped at runtime). 2039 address valid_new_base = (address)header()->mapped_base_address(); 2040 address valid_new_end = (address)mapped_end(); 2041 2042 SharedDataRelocator rw_patcher((address*)rw_patch_base + header()->rw_ptrmap_start_pos(), (address*)rw_patch_end, valid_old_base, valid_old_end, 2043 valid_new_base, valid_new_end, addr_delta); 2044 SharedDataRelocator ro_patcher((address*)ro_patch_base + header()->ro_ptrmap_start_pos(), (address*)ro_patch_end, valid_old_base, valid_old_end, 2045 valid_new_base, valid_new_end, addr_delta); 2046 rw_ptrmap.iterate(&rw_patcher); 2047 ro_ptrmap.iterate(&ro_patcher); 2048 2049 // The MetaspaceShared::bm region will be unmapped in MetaspaceShared::initialize_shared_spaces(). 2050 2051 log_debug(cds, reloc)("runtime archive relocation done"); 2052 return true; 2053 } 2054 } 2055 2056 size_t FileMapInfo::read_bytes(void* buffer, size_t count) { 2057 assert(_file_open, "Archive file is not open"); 2058 size_t n = ::read(_fd, buffer, (unsigned int)count); 2059 if (n != count) { 2060 // Close the file if there's a problem reading it. 2061 close(); 2062 return 0; 2063 } 2064 _file_offset += count; 2065 return count; 2066 } 2067 2068 // Get the total size in bytes of a read only region 2069 size_t FileMapInfo::readonly_total() { 2070 size_t total = 0; 2071 if (current_info() != nullptr) { 2072 FileMapRegion* r = FileMapInfo::current_info()->region_at(MetaspaceShared::ro); 2073 if (r->read_only()) total += r->used(); 2074 } 2075 if (dynamic_info() != nullptr) { 2076 FileMapRegion* r = FileMapInfo::dynamic_info()->region_at(MetaspaceShared::ro); 2077 if (r->read_only()) total += r->used(); 2078 } 2079 return total; 2080 } 2081 2082 #if INCLUDE_CDS_JAVA_HEAP 2083 MemRegion FileMapInfo::_mapped_heap_memregion; 2084 2085 bool FileMapInfo::has_heap_region() { 2086 return (region_at(MetaspaceShared::hp)->used() > 0); 2087 } 2088 2089 // Returns the address range of the archived heap region computed using the 2090 // current oop encoding mode. This range may be different than the one seen at 2091 // dump time due to encoding mode differences. The result is used in determining 2092 // if/how these regions should be relocated at run time. 2093 MemRegion FileMapInfo::get_heap_region_requested_range() { 2094 FileMapRegion* r = region_at(MetaspaceShared::hp); 2095 size_t size = r->used(); 2096 assert(size > 0, "must have non-empty heap region"); 2097 2098 address start = heap_region_requested_address(); 2099 address end = start + size; 2100 log_info(cds)("Requested heap region [" INTPTR_FORMAT " - " INTPTR_FORMAT "] = " SIZE_FORMAT_W(8) " bytes", 2101 p2i(start), p2i(end), size); 2102 2103 return MemRegion((HeapWord*)start, (HeapWord*)end); 2104 } 2105 2106 void FileMapInfo::map_or_load_heap_region() { 2107 bool success = false; 2108 2109 if (can_use_heap_region()) { 2110 if (ArchiveHeapLoader::can_map()) { 2111 success = map_heap_region(); 2112 } else if (ArchiveHeapLoader::can_load()) { 2113 success = ArchiveHeapLoader::load_heap_region(this); 2114 } else { 2115 if (!UseCompressedOops && !ArchiveHeapLoader::can_map()) { 2116 // TODO - remove implicit knowledge of G1 2117 log_info(cds)("Cannot use CDS heap data. UseG1GC is required for -XX:-UseCompressedOops"); 2118 } else { 2119 log_info(cds)("Cannot use CDS heap data. UseEpsilonGC, UseG1GC, UseSerialGC or UseParallelGC are required."); 2120 } 2121 } 2122 } 2123 2124 if (!success) { 2125 CDSConfig::stop_using_full_module_graph("archive heap loading failed"); 2126 } 2127 } 2128 2129 bool FileMapInfo::can_use_heap_region() { 2130 if (!has_heap_region()) { 2131 return false; 2132 } 2133 if (JvmtiExport::should_post_class_file_load_hook() && JvmtiExport::has_early_class_hook_env()) { 2134 ShouldNotReachHere(); // CDS should have been disabled. 2135 // The archived objects are mapped at JVM start-up, but we don't know if 2136 // j.l.String or j.l.Class might be replaced by the ClassFileLoadHook, 2137 // which would make the archived String or mirror objects invalid. Let's be safe and not 2138 // use the archived objects. These 2 classes are loaded during the JVMTI "early" stage. 2139 // 2140 // If JvmtiExport::has_early_class_hook_env() is false, the classes of some objects 2141 // in the archived subgraphs may be replaced by the ClassFileLoadHook. But that's OK 2142 // because we won't install an archived object subgraph if the klass of any of the 2143 // referenced objects are replaced. See HeapShared::initialize_from_archived_subgraph(). 2144 } 2145 2146 // We pre-compute narrow Klass IDs with the runtime mapping start intended to be the base, and a shift of 2147 // ArchiveHeapWriter::precomputed_narrow_klass_shift. We enforce this encoding at runtime (see 2148 // CompressedKlassPointers::initialize_for_given_encoding()). Therefore, the following assertions must 2149 // hold: 2150 address archive_narrow_klass_base = (address)header()->mapped_base_address(); 2151 const int archive_narrow_klass_shift = ArchiveHeapWriter::precomputed_narrow_klass_shift; 2152 2153 log_info(cds)("CDS archive was created with max heap size = " SIZE_FORMAT "M, and the following configuration:", 2154 max_heap_size()/M); 2155 log_info(cds)(" narrow_klass_base at mapping start address, narrow_klass_shift = %d", 2156 archive_narrow_klass_shift); 2157 log_info(cds)(" narrow_oop_mode = %d, narrow_oop_base = " PTR_FORMAT ", narrow_oop_shift = %d", 2158 narrow_oop_mode(), p2i(narrow_oop_base()), narrow_oop_shift()); 2159 log_info(cds)("The current max heap size = " SIZE_FORMAT "M, HeapRegion::GrainBytes = " SIZE_FORMAT, 2160 MaxHeapSize/M, HeapRegion::GrainBytes); 2161 log_info(cds)(" narrow_klass_base = " PTR_FORMAT ", narrow_klass_shift = %d", 2162 p2i(CompressedKlassPointers::base()), CompressedKlassPointers::shift()); 2163 log_info(cds)(" narrow_oop_mode = %d, narrow_oop_base = " PTR_FORMAT ", narrow_oop_shift = %d", 2164 CompressedOops::mode(), p2i(CompressedOops::base()), CompressedOops::shift()); 2165 log_info(cds)(" heap range = [" PTR_FORMAT " - " PTR_FORMAT "]", 2166 UseCompressedOops ? p2i(CompressedOops::begin()) : 2167 UseG1GC ? p2i((address)G1CollectedHeap::heap()->reserved().start()) : 0L, 2168 UseCompressedOops ? p2i(CompressedOops::end()) : 2169 UseG1GC ? p2i((address)G1CollectedHeap::heap()->reserved().end()) : 0L); 2170 2171 assert(archive_narrow_klass_base == CompressedKlassPointers::base(), "Unexpected encoding base encountered " 2172 "(" PTR_FORMAT ", expected " PTR_FORMAT ")", p2i(CompressedKlassPointers::base()), p2i(archive_narrow_klass_base)); 2173 assert(archive_narrow_klass_shift == CompressedKlassPointers::shift(), "Unexpected encoding shift encountered " 2174 "(%d, expected %d)", CompressedKlassPointers::shift(), archive_narrow_klass_shift); 2175 2176 return true; 2177 } 2178 2179 // The actual address of this region during dump time. 2180 address FileMapInfo::heap_region_dumptime_address() { 2181 FileMapRegion* r = region_at(MetaspaceShared::hp); 2182 assert(UseSharedSpaces, "runtime only"); 2183 assert(is_aligned(r->mapping_offset(), sizeof(HeapWord)), "must be"); 2184 if (UseCompressedOops) { 2185 return /*dumptime*/ narrow_oop_base() + r->mapping_offset(); 2186 } else { 2187 return heap_region_requested_address(); 2188 } 2189 } 2190 2191 // The address where this region can be mapped into the runtime heap without 2192 // patching any of the pointers that are embedded in this region. 2193 address FileMapInfo::heap_region_requested_address() { 2194 assert(UseSharedSpaces, "runtime only"); 2195 FileMapRegion* r = region_at(MetaspaceShared::hp); 2196 assert(is_aligned(r->mapping_offset(), sizeof(HeapWord)), "must be"); 2197 assert(ArchiveHeapLoader::can_map(), "cannot be used by ArchiveHeapLoader::can_load() mode"); 2198 if (UseCompressedOops) { 2199 // We can avoid relocation if each region's offset from the runtime CompressedOops::base() 2200 // is the same as its offset from the CompressedOops::base() during dumptime. 2201 // Note that CompressedOops::base() may be different between dumptime and runtime. 2202 // 2203 // Example: 2204 // Dumptime base = 0x1000 and shift is 0. We have a region at address 0x2000. There's a 2205 // narrowOop P stored in this region that points to an object at address 0x2200. 2206 // P's encoded value is 0x1200. 2207 // 2208 // Runtime base = 0x4000 and shift is also 0. If we map this region at 0x5000, then 2209 // the value P can remain 0x1200. The decoded address = (0x4000 + (0x1200 << 0)) = 0x5200, 2210 // which is the runtime location of the referenced object. 2211 return /*runtime*/ CompressedOops::base() + r->mapping_offset(); 2212 } else { 2213 // This was the hard-coded requested base address used at dump time. With uncompressed oops, 2214 // the heap range is assigned by the OS so we will most likely have to relocate anyway, no matter 2215 // what base address was picked at duump time. 2216 return (address)ArchiveHeapWriter::NOCOOPS_REQUESTED_BASE; 2217 } 2218 } 2219 2220 bool FileMapInfo::map_heap_region() { 2221 if (map_heap_region_impl()) { 2222 #ifdef ASSERT 2223 // The "old" regions must be parsable -- we cannot have any unused space 2224 // at the start of the lowest G1 region that contains archived objects. 2225 assert(is_aligned(_mapped_heap_memregion.start(), HeapRegion::GrainBytes), "must be"); 2226 2227 // Make sure we map at the very top of the heap - see comments in 2228 // init_heap_region_relocation(). 2229 MemRegion heap_range = G1CollectedHeap::heap()->reserved(); 2230 assert(heap_range.contains(_mapped_heap_memregion), "must be"); 2231 2232 address heap_end = (address)heap_range.end(); 2233 address mapped_heap_region_end = (address)_mapped_heap_memregion.end(); 2234 assert(heap_end >= mapped_heap_region_end, "must be"); 2235 assert(heap_end - mapped_heap_region_end < (intx)(HeapRegion::GrainBytes), 2236 "must be at the top of the heap to avoid fragmentation"); 2237 #endif 2238 2239 ArchiveHeapLoader::set_mapped(); 2240 return true; 2241 } else { 2242 return false; 2243 } 2244 } 2245 2246 bool FileMapInfo::map_heap_region_impl() { 2247 assert(UseG1GC, "the following code assumes G1"); 2248 2249 FileMapRegion* r = region_at(MetaspaceShared::hp); 2250 size_t size = r->used(); 2251 if (size == 0) { 2252 return false; // no archived java heap data 2253 } 2254 2255 size_t word_size = size / HeapWordSize; 2256 address requested_start = heap_region_requested_address(); 2257 2258 log_info(cds)("Preferred address to map heap data (to avoid relocation) is " INTPTR_FORMAT, p2i(requested_start)); 2259 2260 // allocate from java heap 2261 HeapWord* start = G1CollectedHeap::heap()->alloc_archive_region(word_size, (HeapWord*)requested_start); 2262 if (start == nullptr) { 2263 log_info(cds)("UseSharedSpaces: Unable to allocate java heap region for archive heap."); 2264 return false; 2265 } 2266 2267 _mapped_heap_memregion = MemRegion(start, word_size); 2268 2269 // Map the archived heap data. No need to call MemTracker::record_virtual_memory_type() 2270 // for mapped region as it is part of the reserved java heap, which is already recorded. 2271 char* addr = (char*)_mapped_heap_memregion.start(); 2272 char* base = map_memory(_fd, _full_path, r->file_offset(), 2273 addr, _mapped_heap_memregion.byte_size(), r->read_only(), 2274 r->allow_exec()); 2275 if (base == nullptr || base != addr) { 2276 dealloc_heap_region(); 2277 log_info(cds)("UseSharedSpaces: Unable to map at required address in java heap. " 2278 INTPTR_FORMAT ", size = " SIZE_FORMAT " bytes", 2279 p2i(addr), _mapped_heap_memregion.byte_size()); 2280 return false; 2281 } 2282 2283 if (VerifySharedSpaces && !r->check_region_crc(base)) { 2284 dealloc_heap_region(); 2285 log_info(cds)("UseSharedSpaces: mapped heap region is corrupt"); 2286 return false; 2287 } 2288 2289 r->set_mapped_base(base); 2290 2291 // If the requested range is different from the range allocated by GC, then 2292 // the pointers need to be patched. 2293 address mapped_start = (address) _mapped_heap_memregion.start(); 2294 ptrdiff_t delta = mapped_start - requested_start; 2295 if (UseCompressedOops && 2296 (narrow_oop_mode() != CompressedOops::mode() || 2297 narrow_oop_shift() != CompressedOops::shift())) { 2298 _heap_pointers_need_patching = true; 2299 } 2300 if (delta != 0) { 2301 _heap_pointers_need_patching = true; 2302 } 2303 ArchiveHeapLoader::init_mapped_heap_info(mapped_start, delta, narrow_oop_shift()); 2304 2305 if (_heap_pointers_need_patching) { 2306 char* bitmap_base = map_bitmap_region(); 2307 if (bitmap_base == nullptr) { 2308 log_info(cds)("CDS heap cannot be used because bitmap region cannot be mapped"); 2309 dealloc_heap_region(); 2310 unmap_region(MetaspaceShared::hp); 2311 _heap_pointers_need_patching = false; 2312 return false; 2313 } 2314 } 2315 log_info(cds)("Heap data mapped at " INTPTR_FORMAT ", size = " SIZE_FORMAT_W(8) " bytes", 2316 p2i(mapped_start), _mapped_heap_memregion.byte_size()); 2317 log_info(cds)("CDS heap data relocation delta = " INTX_FORMAT " bytes", delta); 2318 return true; 2319 } 2320 2321 narrowOop FileMapInfo::encoded_heap_region_dumptime_address() { 2322 assert(UseSharedSpaces, "runtime only"); 2323 assert(UseCompressedOops, "sanity"); 2324 FileMapRegion* r = region_at(MetaspaceShared::hp); 2325 return CompressedOops::narrow_oop_cast(r->mapping_offset() >> narrow_oop_shift()); 2326 } 2327 2328 void FileMapInfo::patch_heap_embedded_pointers() { 2329 if (!ArchiveHeapLoader::is_mapped() || !_heap_pointers_need_patching) { 2330 return; 2331 } 2332 2333 char* bitmap_base = map_bitmap_region(); 2334 assert(bitmap_base != nullptr, "must have already been mapped"); 2335 2336 FileMapRegion* r = region_at(MetaspaceShared::hp); 2337 ArchiveHeapLoader::patch_embedded_pointers( 2338 this, _mapped_heap_memregion, 2339 (address)(region_at(MetaspaceShared::bm)->mapped_base()) + r->oopmap_offset(), 2340 r->oopmap_size_in_bits()); 2341 } 2342 2343 void FileMapInfo::fixup_mapped_heap_region() { 2344 if (ArchiveHeapLoader::is_mapped()) { 2345 assert(!_mapped_heap_memregion.is_empty(), "sanity"); 2346 2347 // Populate the archive regions' G1BlockOffsetTables. That ensures 2348 // fast G1BlockOffsetTable::block_start operations for any given address 2349 // within the archive regions when trying to find start of an object 2350 // (e.g. during card table scanning). 2351 G1CollectedHeap::heap()->populate_archive_regions_bot(_mapped_heap_memregion); 2352 } 2353 } 2354 2355 // dealloc the archive regions from java heap 2356 void FileMapInfo::dealloc_heap_region() { 2357 G1CollectedHeap::heap()->dealloc_archive_regions(_mapped_heap_memregion); 2358 } 2359 #endif // INCLUDE_CDS_JAVA_HEAP 2360 2361 void FileMapInfo::unmap_regions(int regions[], int num_regions) { 2362 for (int r = 0; r < num_regions; r++) { 2363 int idx = regions[r]; 2364 unmap_region(idx); 2365 } 2366 } 2367 2368 // Unmap a memory region in the address space. 2369 2370 void FileMapInfo::unmap_region(int i) { 2371 FileMapRegion* r = region_at(i); 2372 char* mapped_base = r->mapped_base(); 2373 size_t size = r->used_aligned(); 2374 2375 if (mapped_base != nullptr) { 2376 if (size > 0 && r->mapped_from_file()) { 2377 log_info(cds)("Unmapping region #%d at base " INTPTR_FORMAT " (%s)", i, p2i(mapped_base), 2378 shared_region_name[i]); 2379 if (!os::unmap_memory(mapped_base, size)) { 2380 fatal("os::unmap_memory failed"); 2381 } 2382 } 2383 r->set_mapped_base(nullptr); 2384 } 2385 } 2386 2387 void FileMapInfo::assert_mark(bool check) { 2388 if (!check) { 2389 MetaspaceShared::unrecoverable_loading_error("Mark mismatch while restoring from shared file."); 2390 } 2391 } 2392 2393 FileMapInfo* FileMapInfo::_current_info = nullptr; 2394 FileMapInfo* FileMapInfo::_dynamic_archive_info = nullptr; 2395 bool FileMapInfo::_heap_pointers_need_patching = false; 2396 SharedPathTable FileMapInfo::_shared_path_table; 2397 bool FileMapInfo::_validating_shared_path_table = false; 2398 bool FileMapInfo::_memory_mapping_failed = false; 2399 GrowableArray<const char*>* FileMapInfo::_non_existent_class_paths = nullptr; 2400 2401 // Open the shared archive file, read and validate the header 2402 // information (version, boot classpath, etc.). If initialization 2403 // fails, shared spaces are disabled and the file is closed. 2404 // 2405 // Validation of the archive is done in two steps: 2406 // 2407 // [1] validate_header() - done here. 2408 // [2] validate_shared_path_table - this is done later, because the table is in the RW 2409 // region of the archive, which is not mapped yet. 2410 bool FileMapInfo::initialize() { 2411 assert(UseSharedSpaces, "UseSharedSpaces expected."); 2412 assert(Arguments::has_jimage(), "The shared archive file cannot be used with an exploded module build."); 2413 2414 if (JvmtiExport::should_post_class_file_load_hook() && JvmtiExport::has_early_class_hook_env()) { 2415 // CDS assumes that no classes resolved in vmClasses::resolve_all() 2416 // are replaced at runtime by JVMTI ClassFileLoadHook. All of those classes are resolved 2417 // during the JVMTI "early" stage, so we can still use CDS if 2418 // JvmtiExport::has_early_class_hook_env() is false. 2419 log_info(cds)("CDS is disabled because early JVMTI ClassFileLoadHook is in use."); 2420 return false; 2421 } 2422 2423 if (!open_for_read() || !init_from_file(_fd) || !validate_header()) { 2424 if (_is_static) { 2425 log_info(cds)("Initialize static archive failed."); 2426 return false; 2427 } else { 2428 log_info(cds)("Initialize dynamic archive failed."); 2429 if (AutoCreateSharedArchive) { 2430 CDSConfig::enable_dumping_dynamic_archive(); 2431 ArchiveClassesAtExit = CDSConfig::dynamic_archive_path(); 2432 } 2433 return false; 2434 } 2435 } 2436 2437 return true; 2438 } 2439 2440 bool FileMapInfo::validate_leyden_config() { 2441 // These checks need to be done after FileMapInfo::initialize(), which gets called before Universe::heap() 2442 // is available. 2443 if (header()->has_preloaded_classes()) { 2444 if (JvmtiExport::should_post_class_file_load_hook()) { 2445 log_error(cds)("CDS archive has preloaded classes. It cannot be used when JVMTI ClassFileLoadHook is in use."); 2446 return false; 2447 } 2448 if (JvmtiExport::has_early_vmstart_env()) { 2449 log_error(cds)("CDS archive has preloaded classes. It cannot be used when JVMTI early vm start is in use."); 2450 return false; 2451 } 2452 if (!CDSConfig::is_using_full_module_graph() && !CDSConfig::is_dumping_final_static_archive()) { 2453 log_error(cds)("CDS archive has preloaded classes. It cannot be used when archived full module graph is not used."); 2454 return false; 2455 } 2456 if (header()->gc_kind() != (int)Universe::heap()->kind()) { 2457 log_error(cds)("CDS archive has preloaded classes. It cannot be used because GC used during dump time (%s) is not the same as runtime (%s)", 2458 header()->gc_name(), Universe::heap()->name()); 2459 return false; 2460 } 2461 } 2462 2463 return true; 2464 } 2465 2466 // The 2 core spaces are RW->RO 2467 FileMapRegion* FileMapInfo::first_core_region() const { 2468 return region_at(MetaspaceShared::rw); 2469 } 2470 2471 FileMapRegion* FileMapInfo::last_core_region() const { 2472 return region_at(MetaspaceShared::ro); 2473 } 2474 2475 void FileMapInfo::print(outputStream* st) const { 2476 header()->print(st); 2477 if (!is_static()) { 2478 dynamic_header()->print(st); 2479 } 2480 } 2481 2482 void FileMapHeader::set_as_offset(char* p, size_t *offset) { 2483 *offset = ArchiveBuilder::current()->any_to_offset((address)p); 2484 } 2485 2486 int FileMapHeader::compute_crc() { 2487 char* start = (char*)this; 2488 // start computing from the field after _header_size to end of base archive name. 2489 char* buf = (char*)&(_generic_header._header_size) + sizeof(_generic_header._header_size); 2490 size_t sz = header_size() - (buf - start); 2491 int crc = ClassLoader::crc32(0, buf, (jint)sz); 2492 return crc; 2493 } 2494 2495 // This function should only be called during run time with UseSharedSpaces enabled. 2496 bool FileMapHeader::validate() { 2497 if (_obj_alignment != ObjectAlignmentInBytes) { 2498 log_info(cds)("The shared archive file's ObjectAlignmentInBytes of %d" 2499 " does not equal the current ObjectAlignmentInBytes of %d.", 2500 _obj_alignment, ObjectAlignmentInBytes); 2501 return false; 2502 } 2503 if (_compact_strings != CompactStrings) { 2504 log_info(cds)("The shared archive file's CompactStrings setting (%s)" 2505 " does not equal the current CompactStrings setting (%s).", 2506 _compact_strings ? "enabled" : "disabled", 2507 CompactStrings ? "enabled" : "disabled"); 2508 return false; 2509 } 2510 2511 // This must be done after header validation because it might change the 2512 // header data 2513 const char* prop = Arguments::get_property("java.system.class.loader"); 2514 if (prop != nullptr) { 2515 log_warning(cds)("Archived non-system classes are disabled because the " 2516 "java.system.class.loader property is specified (value = \"%s\"). " 2517 "To use archived non-system classes, this property must not be set", prop); 2518 _has_platform_or_app_classes = false; 2519 } 2520 2521 2522 if (!_verify_local && BytecodeVerificationLocal) { 2523 // we cannot load boot classes, so there's no point of using the CDS archive 2524 log_info(cds)("The shared archive file's BytecodeVerificationLocal setting (%s)" 2525 " does not equal the current BytecodeVerificationLocal setting (%s).", 2526 _verify_local ? "enabled" : "disabled", 2527 BytecodeVerificationLocal ? "enabled" : "disabled"); 2528 return false; 2529 } 2530 2531 // For backwards compatibility, we don't check the BytecodeVerificationRemote setting 2532 // if the archive only contains system classes. 2533 if (_has_platform_or_app_classes 2534 && !_verify_remote // we didn't verify the archived platform/app classes 2535 && BytecodeVerificationRemote) { // but we want to verify all loaded platform/app classes 2536 log_info(cds)("The shared archive file was created with less restrictive " 2537 "verification setting than the current setting."); 2538 // Pretend that we didn't have any archived platform/app classes, so they won't be loaded 2539 // by SystemDictionaryShared. 2540 _has_platform_or_app_classes = false; 2541 } 2542 2543 // Java agents are allowed during run time. Therefore, the following condition is not 2544 // checked: (!_allow_archiving_with_java_agent && AllowArchivingWithJavaAgent) 2545 // Note: _allow_archiving_with_java_agent is set in the shared archive during dump time 2546 // while AllowArchivingWithJavaAgent is set during the current run. 2547 if (_allow_archiving_with_java_agent && !AllowArchivingWithJavaAgent) { 2548 log_warning(cds)("The setting of the AllowArchivingWithJavaAgent is different " 2549 "from the setting in the shared archive."); 2550 return false; 2551 } 2552 2553 if (_allow_archiving_with_java_agent) { 2554 log_warning(cds)("This archive was created with AllowArchivingWithJavaAgent. It should be used " 2555 "for testing purposes only and should not be used in a production environment"); 2556 } 2557 2558 log_info(cds)("Archive was created with UseCompressedOops = %d, UseCompressedClassPointers = %d", 2559 compressed_oops(), compressed_class_pointers()); 2560 if (compressed_oops() != UseCompressedOops || compressed_class_pointers() != UseCompressedClassPointers) { 2561 log_info(cds)("Unable to use shared archive.\nThe saved state of UseCompressedOops and UseCompressedClassPointers is " 2562 "different from runtime, CDS will be disabled."); 2563 return false; 2564 } 2565 2566 if (! _use_secondary_supers_table && UseSecondarySupersTable) { 2567 log_warning(cds)("The shared archive was created without UseSecondarySupersTable."); 2568 return false; 2569 } 2570 2571 if (!_use_optimized_module_handling) { 2572 CDSConfig::stop_using_optimized_module_handling(); 2573 log_info(cds)("optimized module handling: disabled because archive was created without optimized module handling"); 2574 } 2575 2576 if (is_static()) { 2577 // Only the static archive can contain the full module graph. 2578 if (!_has_full_module_graph) { 2579 CDSConfig::stop_using_full_module_graph("archive was created without full module graph"); 2580 } 2581 2582 if (_has_archived_invokedynamic) { 2583 CDSConfig::set_is_loading_invokedynamic(); 2584 } 2585 if (_has_archived_packages) { 2586 CDSConfig::set_is_loading_packages(); 2587 } 2588 } 2589 2590 return true; 2591 } 2592 2593 bool FileMapInfo::validate_header() { 2594 if (!header()->validate()) { 2595 return false; 2596 } 2597 if (_is_static) { 2598 return true; 2599 } else { 2600 return DynamicArchive::validate(this); 2601 } 2602 } 2603 2604 #if INCLUDE_JVMTI 2605 ClassPathEntry** FileMapInfo::_classpath_entries_for_jvmti = nullptr; 2606 2607 ClassPathEntry* FileMapInfo::get_classpath_entry_for_jvmti(int i, TRAPS) { 2608 if (i == 0) { 2609 // index 0 corresponds to the ClassPathImageEntry which is a globally shared object 2610 // and should never be deleted. 2611 return ClassLoader::get_jrt_entry(); 2612 } 2613 ClassPathEntry* ent = _classpath_entries_for_jvmti[i]; 2614 if (ent == nullptr) { 2615 SharedClassPathEntry* scpe = shared_path(i); 2616 assert(scpe->is_jar(), "must be"); // other types of scpe will not produce archived classes 2617 2618 const char* path = scpe->name(); 2619 struct stat st; 2620 if (os::stat(path, &st) != 0) { 2621 char *msg = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, char, strlen(path) + 128); 2622 jio_snprintf(msg, strlen(path) + 127, "error in finding JAR file %s", path); 2623 THROW_MSG_(vmSymbols::java_io_IOException(), msg, nullptr); 2624 } else { 2625 ent = ClassLoader::create_class_path_entry(THREAD, path, &st, false, false); 2626 if (ent == nullptr) { 2627 char *msg = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, char, strlen(path) + 128); 2628 jio_snprintf(msg, strlen(path) + 127, "error in opening JAR file %s", path); 2629 THROW_MSG_(vmSymbols::java_io_IOException(), msg, nullptr); 2630 } 2631 } 2632 2633 MutexLocker mu(THREAD, CDSClassFileStream_lock); 2634 if (_classpath_entries_for_jvmti[i] == nullptr) { 2635 _classpath_entries_for_jvmti[i] = ent; 2636 } else { 2637 // Another thread has beat me to creating this entry 2638 delete ent; 2639 ent = _classpath_entries_for_jvmti[i]; 2640 } 2641 } 2642 2643 return ent; 2644 } 2645 2646 ClassFileStream* FileMapInfo::open_stream_for_jvmti(InstanceKlass* ik, Handle class_loader, TRAPS) { 2647 int path_index = ik->shared_classpath_index(); 2648 assert(path_index >= 0, "should be called for shared built-in classes only"); 2649 assert(path_index < (int)get_number_of_shared_paths(), "sanity"); 2650 2651 ClassPathEntry* cpe = get_classpath_entry_for_jvmti(path_index, CHECK_NULL); 2652 assert(cpe != nullptr, "must be"); 2653 2654 Symbol* name = ik->name(); 2655 const char* const class_name = name->as_C_string(); 2656 const char* const file_name = ClassLoader::file_name_for_class_name(class_name, 2657 name->utf8_length()); 2658 ClassLoaderData* loader_data = ClassLoaderData::class_loader_data(class_loader()); 2659 ClassFileStream* cfs = cpe->open_stream_for_loader(THREAD, file_name, loader_data); 2660 assert(cfs != nullptr, "must be able to read the classfile data of shared classes for built-in loaders."); 2661 log_debug(cds, jvmti)("classfile data for %s [%d: %s] = %d bytes", class_name, path_index, 2662 cfs->source(), cfs->length()); 2663 return cfs; 2664 } 2665 2666 #endif