1 /*
2 * Copyright (c) 2003, 2025, 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 "cds/aotClassLocation.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/access.hpp"
57 #include "oops/compressedOops.hpp"
58 #include "oops/compressedOops.inline.hpp"
59 #include "oops/compressedKlass.hpp"
60 #include "oops/objArrayOop.hpp"
61 #include "oops/oop.inline.hpp"
62 #include "oops/typeArrayKlass.hpp"
63 #include "prims/jvmtiExport.hpp"
64 #include "runtime/arguments.hpp"
65 #include "runtime/globals_extension.hpp"
66 #include "runtime/java.hpp"
67 #include "runtime/javaCalls.hpp"
68 #include "runtime/mutexLocker.hpp"
69 #include "runtime/os.hpp"
70 #include "runtime/vm_version.hpp"
71 #include "utilities/align.hpp"
72 #include "utilities/bitMap.inline.hpp"
73 #include "utilities/classpathStream.hpp"
74 #include "utilities/defaultStream.hpp"
75 #include "utilities/ostream.hpp"
76 #if INCLUDE_G1GC
77 #include "gc/g1/g1CollectedHeap.hpp"
78 #include "gc/g1/g1HeapRegion.hpp"
79 #endif
80
81 # include <sys/stat.h>
82 # include <errno.h>
83
84 #ifndef O_BINARY // if defined (Win32) use binary files.
85 #define O_BINARY 0 // otherwise do nothing.
86 #endif
87
88 // Fill in the fileMapInfo structure with data about this VM instance.
89
90 // This method copies the vm version info into header_version. If the version is too
91 // long then a truncated version, which has a hash code appended to it, is copied.
92 //
93 // Using a template enables this method to verify that header_version is an array of
94 // length JVM_IDENT_MAX. This ensures that the code that writes to the CDS file and
95 // the code that reads the CDS file will both use the same size buffer. Hence, will
96 // use identical truncation. This is necessary for matching of truncated versions.
97 template <int N> static void get_header_version(char (&header_version) [N]) {
98 assert(N == JVM_IDENT_MAX, "Bad header_version size");
99
100 const char *vm_version = VM_Version::internal_vm_info_string();
101 const int version_len = (int)strlen(vm_version);
102
103 memset(header_version, 0, JVM_IDENT_MAX);
104
105 if (version_len < (JVM_IDENT_MAX-1)) {
106 strcpy(header_version, vm_version);
107
108 } else {
109 // Get the hash value. Use a static seed because the hash needs to return the same
110 // value over multiple jvm invocations.
111 uint32_t hash = AltHashing::halfsiphash_32(8191, (const uint8_t*)vm_version, version_len);
112
113 // Truncate the ident, saving room for the 8 hex character hash value.
114 strncpy(header_version, vm_version, JVM_IDENT_MAX-9);
115
116 // Append the hash code as eight hex digits.
117 os::snprintf_checked(&header_version[JVM_IDENT_MAX-9], 9, "%08x", hash);
118 header_version[JVM_IDENT_MAX-1] = 0; // Null terminate.
119 }
120
121 assert(header_version[JVM_IDENT_MAX-1] == 0, "must be");
122 }
123
124 FileMapInfo::FileMapInfo(const char* full_path, bool is_static) :
125 _is_static(is_static), _file_open(false), _is_mapped(false), _fd(-1), _file_offset(0),
126 _full_path(full_path), _base_archive_name(nullptr), _header(nullptr) {
127 if (_is_static) {
128 assert(_current_info == nullptr, "must be singleton"); // not thread safe
129 _current_info = this;
130 } else {
131 assert(_dynamic_archive_info == nullptr, "must be singleton"); // not thread safe
132 _dynamic_archive_info = this;
133 }
134 }
135
136 FileMapInfo::~FileMapInfo() {
137 if (_is_static) {
138 assert(_current_info == this, "must be singleton"); // not thread safe
139 _current_info = nullptr;
140 } else {
141 assert(_dynamic_archive_info == this, "must be singleton"); // not thread safe
142 _dynamic_archive_info = nullptr;
143 }
144
145 if (_header != nullptr) {
146 os::free(_header);
147 }
148
149 if (_file_open) {
150 ::close(_fd);
151 }
152 }
153
154 void FileMapInfo::free_current_info() {
155 assert(CDSConfig::is_dumping_final_static_archive(), "only supported in this mode");
156 assert(_current_info != nullptr, "sanity");
157 delete _current_info;
158 assert(_current_info == nullptr, "sanity"); // Side effect expected from the above "delete" operator.
159 }
160
161 void FileMapInfo::populate_header(size_t core_region_alignment) {
162 assert(_header == nullptr, "Sanity check");
163 size_t c_header_size;
164 size_t header_size;
165 size_t base_archive_name_size = 0;
166 size_t base_archive_name_offset = 0;
167 if (is_static()) {
168 c_header_size = sizeof(FileMapHeader);
169 header_size = c_header_size;
170 } else {
171 // dynamic header including base archive name for non-default base archive
172 c_header_size = sizeof(DynamicArchiveHeader);
173 header_size = c_header_size;
174
175 const char* default_base_archive_name = CDSConfig::default_archive_path();
176 const char* current_base_archive_name = CDSConfig::static_archive_path();
177 if (!os::same_files(current_base_archive_name, default_base_archive_name)) {
178 base_archive_name_size = strlen(current_base_archive_name) + 1;
179 header_size += base_archive_name_size;
180 base_archive_name_offset = c_header_size;
181 }
182 }
183 _header = (FileMapHeader*)os::malloc(header_size, mtInternal);
184 memset((void*)_header, 0, header_size);
185 _header->populate(this,
186 core_region_alignment,
187 header_size,
188 base_archive_name_size,
189 base_archive_name_offset);
190 }
191
192 void FileMapHeader::populate(FileMapInfo *info, size_t core_region_alignment,
193 size_t header_size, size_t base_archive_name_size,
194 size_t base_archive_name_offset) {
195 // 1. We require _generic_header._magic to be at the beginning of the file
196 // 2. FileMapHeader also assumes that _generic_header is at the beginning of the file
197 assert(offset_of(FileMapHeader, _generic_header) == 0, "must be");
198 set_header_size((unsigned int)header_size);
199 set_base_archive_name_offset((unsigned int)base_archive_name_offset);
200 set_base_archive_name_size((unsigned int)base_archive_name_size);
201 if (CDSConfig::is_dumping_dynamic_archive()) {
202 set_magic(CDS_DYNAMIC_ARCHIVE_MAGIC);
203 } else if (CDSConfig::is_dumping_preimage_static_archive()) {
204 set_magic(CDS_PREIMAGE_ARCHIVE_MAGIC);
205 } else {
206 set_magic(CDS_ARCHIVE_MAGIC);
207 }
208 set_version(CURRENT_CDS_ARCHIVE_VERSION);
209
210 if (!info->is_static() && base_archive_name_size != 0) {
211 // copy base archive name
212 copy_base_archive_name(CDSConfig::static_archive_path());
213 }
214 _core_region_alignment = core_region_alignment;
215 _obj_alignment = ObjectAlignmentInBytes;
216 _compact_strings = CompactStrings;
217 _compact_headers = UseCompactObjectHeaders;
218 if (CDSConfig::is_dumping_heap()) {
219 _narrow_oop_mode = CompressedOops::mode();
220 _narrow_oop_base = CompressedOops::base();
221 _narrow_oop_shift = CompressedOops::shift();
222 }
223 _compressed_oops = UseCompressedOops;
224 _compressed_class_ptrs = UseCompressedClassPointers;
225 if (UseCompressedClassPointers) {
226 #ifdef _LP64
227 _narrow_klass_pointer_bits = CompressedKlassPointers::narrow_klass_pointer_bits();
228 _narrow_klass_shift = ArchiveBuilder::precomputed_narrow_klass_shift();
229 #endif
230 } else {
231 _narrow_klass_pointer_bits = _narrow_klass_shift = -1;
232 }
233 _max_heap_size = MaxHeapSize;
234 _use_optimized_module_handling = CDSConfig::is_using_optimized_module_handling();
235 _has_aot_linked_classes = CDSConfig::is_dumping_aot_linked_classes();
236 _has_full_module_graph = CDSConfig::is_dumping_full_module_graph();
237 _has_archived_packages = CDSConfig::is_dumping_packages();
238 _has_archived_protection_domains = CDSConfig::is_dumping_protection_domains();
239 _gc_kind = (int)Universe::heap()->kind();
240 jio_snprintf(_gc_name, sizeof(_gc_name), Universe::heap()->name());
241
242 // The following fields are for sanity checks for whether this archive
243 // will function correctly with this JVM and the bootclasspath it's
244 // invoked with.
245
246 // JVM version string ... changes on each build.
247 get_header_version(_jvm_ident);
248
249 _verify_local = BytecodeVerificationLocal;
250 _verify_remote = BytecodeVerificationRemote;
251 _has_platform_or_app_classes = AOTClassLocationConfig::dumptime()->has_platform_or_app_classes();
252 _requested_base_address = (char*)SharedBaseAddress;
253 _mapped_base_address = (char*)SharedBaseAddress;
254 _allow_archiving_with_java_agent = AllowArchivingWithJavaAgent;
255 }
256
257 void FileMapHeader::copy_base_archive_name(const char* archive) {
258 assert(base_archive_name_size() != 0, "_base_archive_name_size not set");
259 assert(base_archive_name_offset() != 0, "_base_archive_name_offset not set");
260 assert(header_size() > sizeof(*this), "_base_archive_name_size not included in header size?");
261 memcpy((char*)this + base_archive_name_offset(), archive, base_archive_name_size());
262 }
263
264 void FileMapHeader::print(outputStream* st) {
265 ResourceMark rm;
266
267 st->print_cr("- magic: 0x%08x", magic());
268 st->print_cr("- crc: 0x%08x", crc());
269 st->print_cr("- version: 0x%x", version());
270 st->print_cr("- header_size: " UINT32_FORMAT, header_size());
271 st->print_cr("- base_archive_name_offset: " UINT32_FORMAT, base_archive_name_offset());
272 st->print_cr("- base_archive_name_size: " UINT32_FORMAT, base_archive_name_size());
273
274 for (int i = 0; i < NUM_CDS_REGIONS; i++) {
275 FileMapRegion* r = region_at(i);
276 r->print(st, i);
277 }
278 st->print_cr("============ end regions ======== ");
279
280 st->print_cr("- core_region_alignment: %zu", _core_region_alignment);
281 st->print_cr("- obj_alignment: %d", _obj_alignment);
282 st->print_cr("- narrow_oop_base: " INTPTR_FORMAT, p2i(_narrow_oop_base));
283 st->print_cr("- narrow_oop_shift %d", _narrow_oop_shift);
284 st->print_cr("- compact_strings: %d", _compact_strings);
285 st->print_cr("- compact_headers: %d", _compact_headers);
286 st->print_cr("- max_heap_size: %zu", _max_heap_size);
287 st->print_cr("- narrow_oop_mode: %d", _narrow_oop_mode);
288 st->print_cr("- compressed_oops: %d", _compressed_oops);
289 st->print_cr("- compressed_class_ptrs: %d", _compressed_class_ptrs);
290 st->print_cr("- narrow_klass_pointer_bits: %d", _narrow_klass_pointer_bits);
291 st->print_cr("- narrow_klass_shift: %d", _narrow_klass_shift);
292 st->print_cr("- cloned_vtables_offset: 0x%zx", _cloned_vtables_offset);
293 st->print_cr("- early_serialized_data_offset: 0x%zx", _early_serialized_data_offset);
294 st->print_cr("- serialized_data_offset: 0x%zx", _serialized_data_offset);
295 st->print_cr("- jvm_ident: %s", _jvm_ident);
296 st->print_cr("- class_location_config_offset: 0x%zx", _class_location_config_offset);
297 st->print_cr("- verify_local: %d", _verify_local);
298 st->print_cr("- verify_remote: %d", _verify_remote);
299 st->print_cr("- has_platform_or_app_classes: %d", _has_platform_or_app_classes);
300 st->print_cr("- requested_base_address: " INTPTR_FORMAT, p2i(_requested_base_address));
301 st->print_cr("- mapped_base_address: " INTPTR_FORMAT, p2i(_mapped_base_address));
302 st->print_cr("- heap_root_segments.roots_count: %d" , _heap_root_segments.roots_count());
303 st->print_cr("- heap_root_segments.base_offset: 0x%zx", _heap_root_segments.base_offset());
304 st->print_cr("- heap_root_segments.count: %zu", _heap_root_segments.count());
305 st->print_cr("- heap_root_segments.max_size_elems: %d", _heap_root_segments.max_size_in_elems());
306 st->print_cr("- heap_root_segments.max_size_bytes: %d", _heap_root_segments.max_size_in_bytes());
307 st->print_cr("- _heap_oopmap_start_pos: %zu", _heap_oopmap_start_pos);
308 st->print_cr("- _heap_ptrmap_start_pos: %zu", _heap_ptrmap_start_pos);
309 st->print_cr("- _rw_ptrmap_start_pos: %zu", _rw_ptrmap_start_pos);
310 st->print_cr("- _ro_ptrmap_start_pos: %zu", _ro_ptrmap_start_pos);
311 st->print_cr("- allow_archiving_with_java_agent:%d", _allow_archiving_with_java_agent);
312 st->print_cr("- use_optimized_module_handling: %d", _use_optimized_module_handling);
313 st->print_cr("- has_full_module_graph %d", _has_full_module_graph);
314 st->print_cr("- has_aot_linked_classes %d", _has_aot_linked_classes);
315 st->print_cr("- has_archived_packages %d", _has_archived_packages);
316 st->print_cr("- has_archived_protection_domains %d", _has_archived_protection_domains);
317 st->print_cr("- ptrmap_size_in_bits: %zu", _ptrmap_size_in_bits);
318 }
319
320 bool FileMapInfo::validate_class_location() {
321 assert(CDSConfig::is_using_archive(), "runtime only");
322
323 AOTClassLocationConfig* config = header()->class_location_config();
324 bool has_extra_module_paths = false;
325 if (!config->validate(header()->has_aot_linked_classes(), &has_extra_module_paths)) {
326 if (PrintSharedArchiveAndExit) {
327 MetaspaceShared::set_archive_loading_failed();
328 return true;
329 } else {
330 return false;
331 }
332 }
333
334 if (header()->has_full_module_graph() && has_extra_module_paths) {
335 CDSConfig::stop_using_optimized_module_handling();
336 log_info(cds)("optimized module handling: disabled because extra module path(s) are specified");
337 }
338
339 if (CDSConfig::is_dumping_dynamic_archive()) {
340 // Only support dynamic dumping with the usage of the default CDS archive
341 // or a simple base archive.
342 // If the base layer archive contains additional path component besides
343 // the runtime image and the -cp, dynamic dumping is disabled.
344 if (config->num_boot_classpaths() > 0) {
345 CDSConfig::disable_dumping_dynamic_archive();
346 log_warning(cds)(
347 "Dynamic archiving is disabled because base layer archive has appended boot classpath");
348 }
349 if (config->num_module_paths() > 0) {
350 if (has_extra_module_paths) {
351 CDSConfig::disable_dumping_dynamic_archive();
352 log_warning(cds)(
353 "Dynamic archiving is disabled because base layer archive has a different module path");
354 }
355 }
356 }
357
358 #if INCLUDE_JVMTI
359 if (_classpath_entries_for_jvmti != nullptr) {
360 os::free(_classpath_entries_for_jvmti);
361 }
362 size_t sz = sizeof(ClassPathEntry*) * AOTClassLocationConfig::runtime()->length();
363 _classpath_entries_for_jvmti = (ClassPathEntry**)os::malloc(sz, mtClass);
364 memset((void*)_classpath_entries_for_jvmti, 0, sz);
365 #endif
366
367 return true;
368 }
369
370 // A utility class for reading/validating the GenericCDSFileMapHeader portion of
371 // a CDS archive's header. The file header of all CDS archives with versions from
372 // CDS_GENERIC_HEADER_SUPPORTED_MIN_VERSION (12) are guaranteed to always start
373 // with GenericCDSFileMapHeader. This makes it possible to read important information
374 // from a CDS archive created by a different version of HotSpot, so that we can
375 // automatically regenerate the archive as necessary (JDK-8261455).
376 class FileHeaderHelper {
377 int _fd;
378 bool _is_valid;
379 bool _is_static;
380 GenericCDSFileMapHeader* _header;
381 const char* _archive_name;
382 const char* _base_archive_name;
383
384 public:
385 FileHeaderHelper(const char* archive_name, bool is_static) {
386 _fd = -1;
387 _is_valid = false;
388 _header = nullptr;
389 _base_archive_name = nullptr;
390 _archive_name = archive_name;
391 _is_static = is_static;
392 }
393
394 ~FileHeaderHelper() {
395 if (_header != nullptr) {
396 FREE_C_HEAP_ARRAY(char, _header);
397 }
398 if (_fd != -1) {
399 ::close(_fd);
400 }
401 }
402
403 bool initialize() {
404 assert(_archive_name != nullptr, "Archive name is null");
405 _fd = os::open(_archive_name, O_RDONLY | O_BINARY, 0);
406 if (_fd < 0) {
407 log_info(cds)("Specified %s not found (%s)", CDSConfig::type_of_archive_being_loaded(), _archive_name);
408 return false;
409 }
410 return initialize(_fd);
411 }
412
413 // for an already opened file, do not set _fd
414 bool initialize(int fd) {
415 assert(_archive_name != nullptr, "Archive name is null");
416 assert(fd != -1, "Archive must be opened already");
417 // First read the generic header so we know the exact size of the actual header.
418 const char* file_type = CDSConfig::type_of_archive_being_loaded();
419 GenericCDSFileMapHeader gen_header;
420 size_t size = sizeof(GenericCDSFileMapHeader);
421 os::lseek(fd, 0, SEEK_SET);
422 size_t n = ::read(fd, (void*)&gen_header, (unsigned int)size);
423 if (n != size) {
424 log_warning(cds)("Unable to read generic CDS file map header from %s", file_type);
425 return false;
426 }
427
428 if (gen_header._magic != CDS_ARCHIVE_MAGIC &&
429 gen_header._magic != CDS_DYNAMIC_ARCHIVE_MAGIC &&
430 gen_header._magic != CDS_PREIMAGE_ARCHIVE_MAGIC) {
431 log_warning(cds)("The %s has a bad magic number: %#x", file_type, gen_header._magic);
432 return false;
433 }
434
435 if (gen_header._version < CDS_GENERIC_HEADER_SUPPORTED_MIN_VERSION) {
436 log_warning(cds)("Cannot handle %s version 0x%x. Must be at least 0x%x.",
437 file_type, gen_header._version, CDS_GENERIC_HEADER_SUPPORTED_MIN_VERSION);
438 return false;
439 }
440
441 if (gen_header._version != CURRENT_CDS_ARCHIVE_VERSION) {
442 log_warning(cds)("The %s version 0x%x does not match the required version 0x%x.",
443 file_type, gen_header._version, CURRENT_CDS_ARCHIVE_VERSION);
444 }
445
446 size_t filelen = os::lseek(fd, 0, SEEK_END);
447 if (gen_header._header_size >= filelen) {
448 log_warning(cds)("Archive file header larger than archive file");
449 return false;
450 }
451
452 // Read the actual header and perform more checks
453 size = gen_header._header_size;
454 _header = (GenericCDSFileMapHeader*)NEW_C_HEAP_ARRAY(char, size, mtInternal);
455 os::lseek(fd, 0, SEEK_SET);
456 n = ::read(fd, (void*)_header, (unsigned int)size);
457 if (n != size) {
458 log_warning(cds)("Unable to read file map header from %s", file_type);
459 return false;
460 }
461
462 if (!check_header_crc()) {
463 return false;
464 }
465
466 if (!check_and_init_base_archive_name()) {
467 return false;
468 }
469
470 // All fields in the GenericCDSFileMapHeader has been validated.
471 _is_valid = true;
472 return true;
473 }
474
475 GenericCDSFileMapHeader* get_generic_file_header() {
476 assert(_header != nullptr && _is_valid, "must be a valid archive file");
477 return _header;
478 }
479
480 const char* base_archive_name() {
481 assert(_header != nullptr && _is_valid, "must be a valid archive file");
482 return _base_archive_name;
483 }
484
485 bool is_static_archive() const {
486 return _header->_magic == CDS_ARCHIVE_MAGIC;
487 }
488
489 bool is_dynamic_archive() const {
490 return _header->_magic == CDS_DYNAMIC_ARCHIVE_MAGIC;
491 }
492
493 bool is_preimage_static_archive() const {
494 return _header->_magic == CDS_PREIMAGE_ARCHIVE_MAGIC;
495 }
496
497 private:
498 bool check_header_crc() const {
499 if (VerifySharedSpaces) {
500 FileMapHeader* header = (FileMapHeader*)_header;
501 int actual_crc = header->compute_crc();
502 if (actual_crc != header->crc()) {
503 log_info(cds)("_crc expected: %d", header->crc());
504 log_info(cds)(" actual: %d", actual_crc);
505 log_warning(cds)("Header checksum verification failed.");
506 return false;
507 }
508 }
509 return true;
510 }
511
512 bool check_and_init_base_archive_name() {
513 unsigned int name_offset = _header->_base_archive_name_offset;
514 unsigned int name_size = _header->_base_archive_name_size;
515 unsigned int header_size = _header->_header_size;
516
517 if (name_offset + name_size < name_offset) {
518 log_warning(cds)("base_archive_name offset/size overflow: " UINT32_FORMAT "/" UINT32_FORMAT,
519 name_offset, name_size);
520 return false;
521 }
522
523 if (is_static_archive() || is_preimage_static_archive()) {
524 if (name_offset != 0) {
525 log_warning(cds)("static shared archive must have zero _base_archive_name_offset");
526 return false;
527 }
528 if (name_size != 0) {
529 log_warning(cds)("static shared archive must have zero _base_archive_name_size");
530 return false;
531 }
532 } else {
533 assert(is_dynamic_archive(), "must be");
534 if ((name_size == 0 && name_offset != 0) ||
535 (name_size != 0 && name_offset == 0)) {
536 // If either is zero, both must be zero. This indicates that we are using the default base archive.
537 log_warning(cds)("Invalid base_archive_name offset/size: " UINT32_FORMAT "/" UINT32_FORMAT,
538 name_offset, name_size);
539 return false;
540 }
541 if (name_size > 0) {
542 if (name_offset + name_size > header_size) {
543 log_warning(cds)("Invalid base_archive_name offset/size (out of range): "
544 UINT32_FORMAT " + " UINT32_FORMAT " > " UINT32_FORMAT ,
545 name_offset, name_size, header_size);
546 return false;
547 }
548 const char* name = ((const char*)_header) + _header->_base_archive_name_offset;
549 if (name[name_size - 1] != '\0' || strlen(name) != name_size - 1) {
550 log_warning(cds)("Base archive name is damaged");
551 return false;
552 }
553 if (!os::file_exists(name)) {
554 log_warning(cds)("Base archive %s does not exist", name);
555 return false;
556 }
557 _base_archive_name = name;
558 }
559 }
560
561 return true;
562 }
563 };
564
565 // Return value:
566 // false:
567 // <archive_name> is not a valid archive. *base_archive_name is set to null.
568 // true && (*base_archive_name) == nullptr:
569 // <archive_name> is a valid static archive.
570 // true && (*base_archive_name) != nullptr:
571 // <archive_name> is a valid dynamic archive.
572 bool FileMapInfo::get_base_archive_name_from_header(const char* archive_name,
573 char** base_archive_name) {
574 FileHeaderHelper file_helper(archive_name, false);
575 *base_archive_name = nullptr;
576
577 if (!file_helper.initialize()) {
578 return false;
579 }
580 GenericCDSFileMapHeader* header = file_helper.get_generic_file_header();
581 switch (header->_magic) {
582 case CDS_PREIMAGE_ARCHIVE_MAGIC:
583 return false; // This is a binary config file, not a proper archive
584 case CDS_DYNAMIC_ARCHIVE_MAGIC:
585 break;
586 default:
587 assert(header->_magic == CDS_ARCHIVE_MAGIC, "must be");
588 if (AutoCreateSharedArchive) {
589 log_warning(cds)("AutoCreateSharedArchive is ignored because %s is a static archive", archive_name);
590 }
591 return true;
592 }
593
594 const char* base = file_helper.base_archive_name();
595 if (base == nullptr) {
596 *base_archive_name = CDSConfig::default_archive_path();
597 } else {
598 *base_archive_name = os::strdup_check_oom(base);
599 }
600
601 return true;
602 }
603
604 bool FileMapInfo::is_preimage_static_archive(const char* file) {
605 FileHeaderHelper file_helper(file, false);
606 if (!file_helper.initialize()) {
607 return false;
608 }
609 return file_helper.is_preimage_static_archive();
610 }
611
612 // Read the FileMapInfo information from the file.
613
614 bool FileMapInfo::init_from_file(int fd) {
615 FileHeaderHelper file_helper(_full_path, _is_static);
616 if (!file_helper.initialize(fd)) {
617 log_warning(cds)("Unable to read the file header.");
618 return false;
619 }
620 GenericCDSFileMapHeader* gen_header = file_helper.get_generic_file_header();
621
622 const char* file_type = CDSConfig::type_of_archive_being_loaded();
623 if (_is_static) {
624 if ((gen_header->_magic == CDS_ARCHIVE_MAGIC) ||
625 (gen_header->_magic == CDS_PREIMAGE_ARCHIVE_MAGIC && CDSConfig::is_dumping_final_static_archive())) {
626 // Good
627 } else {
628 if (CDSConfig::new_aot_flags_used()) {
629 log_warning(cds)("Not a valid %s %s", file_type, _full_path);
630 } else {
631 log_warning(cds)("Not a base shared archive: %s", _full_path);
632 }
633 return false;
634 }
635 } else {
636 if (gen_header->_magic != CDS_DYNAMIC_ARCHIVE_MAGIC) {
637 log_warning(cds)("Not a top shared archive: %s", _full_path);
638 return false;
639 }
640 }
641
642 _header = (FileMapHeader*)os::malloc(gen_header->_header_size, mtInternal);
643 os::lseek(fd, 0, SEEK_SET); // reset to begin of the archive
644 size_t size = gen_header->_header_size;
645 size_t n = ::read(fd, (void*)_header, (unsigned int)size);
646 if (n != size) {
647 log_warning(cds)("Failed to read file header from the top archive file\n");
648 return false;
649 }
650
651 if (header()->version() != CURRENT_CDS_ARCHIVE_VERSION) {
652 log_info(cds)("_version expected: 0x%x", CURRENT_CDS_ARCHIVE_VERSION);
653 log_info(cds)(" actual: 0x%x", header()->version());
654 log_warning(cds)("The %s has the wrong version.", file_type);
655 return false;
656 }
657
658 unsigned int base_offset = header()->base_archive_name_offset();
659 unsigned int name_size = header()->base_archive_name_size();
660 unsigned int header_size = header()->header_size();
661 if (base_offset != 0 && name_size != 0) {
662 if (header_size != base_offset + name_size) {
663 log_info(cds)("_header_size: " UINT32_FORMAT, header_size);
664 log_info(cds)("base_archive_name_size: " UINT32_FORMAT, header()->base_archive_name_size());
665 log_info(cds)("base_archive_name_offset: " UINT32_FORMAT, header()->base_archive_name_offset());
666 log_warning(cds)("The %s has an incorrect header size.", file_type);
667 return false;
668 }
669 }
670
671 const char* actual_ident = header()->jvm_ident();
672
673 if (actual_ident[JVM_IDENT_MAX-1] != 0) {
674 log_warning(cds)("JVM version identifier is corrupted.");
675 return false;
676 }
677
678 char expected_ident[JVM_IDENT_MAX];
679 get_header_version(expected_ident);
680 if (strncmp(actual_ident, expected_ident, JVM_IDENT_MAX-1) != 0) {
681 log_info(cds)("_jvm_ident expected: %s", expected_ident);
682 log_info(cds)(" actual: %s", actual_ident);
683 log_warning(cds)("The %s was created by a different"
684 " version or build of HotSpot", file_type);
685 return false;
686 }
687
688 _file_offset = header()->header_size(); // accounts for the size of _base_archive_name
689
690 size_t len = os::lseek(fd, 0, SEEK_END);
691
692 for (int i = 0; i < MetaspaceShared::n_regions; i++) {
693 FileMapRegion* r = region_at(i);
694 if (r->file_offset() > len || len - r->file_offset() < r->used()) {
695 log_warning(cds)("The %s has been truncated.", file_type);
696 return false;
697 }
698 }
699
700 return true;
701 }
702
703 void FileMapInfo::seek_to_position(size_t pos) {
704 if (os::lseek(_fd, (long)pos, SEEK_SET) < 0) {
705 log_error(cds)("Unable to seek to position %zu", pos);
706 MetaspaceShared::unrecoverable_loading_error();
707 }
708 }
709
710 // Read the FileMapInfo information from the file.
711 bool FileMapInfo::open_for_read() {
712 if (_file_open) {
713 return true;
714 }
715 const char* file_type = CDSConfig::type_of_archive_being_loaded();
716 const char* info = CDSConfig::is_dumping_final_static_archive() ?
717 "AOTConfiguration file " : "";
718 log_info(cds)("trying to map %s%s", info, _full_path);
719 int fd = os::open(_full_path, O_RDONLY | O_BINARY, 0);
720 if (fd < 0) {
721 if (errno == ENOENT) {
722 log_info(cds)("Specified %s not found (%s)", file_type, _full_path);
723 } else {
724 log_warning(cds)("Failed to open %s (%s)", file_type,
725 os::strerror(errno));
726 }
727 return false;
728 } else {
729 log_info(cds)("Opened %s %s.", file_type, _full_path);
730 }
731
732 _fd = fd;
733 _file_open = true;
734 return true;
735 }
736
737 // Write the FileMapInfo information to the file.
738
739 void FileMapInfo::open_for_write() {
740 LogMessage(cds) msg;
741 if (msg.is_info()) {
742 if (CDSConfig::is_dumping_preimage_static_archive()) {
743 msg.info("Writing binary AOTConfiguration file: ");
744 } else {
745 msg.info("Dumping shared data to file: ");
746 }
747 msg.info(" %s", _full_path);
748 }
749
750 #ifdef _WINDOWS // On Windows, need WRITE permission to remove the file.
751 chmod(_full_path, _S_IREAD | _S_IWRITE);
752 #endif
753
754 // Use remove() to delete the existing file because, on Unix, this will
755 // allow processes that have it open continued access to the file.
756 remove(_full_path);
757 int mode = CDSConfig::is_dumping_preimage_static_archive() ? 0666 : 0444;
758 int fd = os::open(_full_path, O_RDWR | O_CREAT | O_TRUNC | O_BINARY, mode);
759 if (fd < 0) {
760 log_error(cds)("Unable to create %s %s: (%s).", CDSConfig::type_of_archive_being_written(), _full_path,
761 os::strerror(errno));
762 MetaspaceShared::writing_error();
763 return;
764 }
765 _fd = fd;
766 _file_open = true;
767
768 // Seek past the header. We will write the header after all regions are written
769 // and their CRCs computed.
770 size_t header_bytes = header()->header_size();
771
772 header_bytes = align_up(header_bytes, MetaspaceShared::core_region_alignment());
773 _file_offset = header_bytes;
774 seek_to_position(_file_offset);
775 }
776
777 // Write the header to the file, seek to the next allocation boundary.
778
779 void FileMapInfo::write_header() {
780 _file_offset = 0;
781 seek_to_position(_file_offset);
782 assert(is_file_position_aligned(), "must be");
783 write_bytes(header(), header()->header_size());
784 }
785
786 size_t FileMapRegion::used_aligned() const {
787 return align_up(used(), MetaspaceShared::core_region_alignment());
788 }
789
790 void FileMapRegion::init(int region_index, size_t mapping_offset, size_t size, bool read_only,
791 bool allow_exec, int crc) {
792 _is_heap_region = HeapShared::is_heap_region(region_index);
793 _is_bitmap_region = (region_index == MetaspaceShared::bm);
794 _mapping_offset = mapping_offset;
795 _used = size;
796 _read_only = read_only;
797 _allow_exec = allow_exec;
798 _crc = crc;
799 _mapped_from_file = false;
800 _mapped_base = nullptr;
801 _in_reserved_space = false;
802 }
803
804 void FileMapRegion::init_oopmap(size_t offset, size_t size_in_bits) {
805 _oopmap_offset = offset;
806 _oopmap_size_in_bits = size_in_bits;
807 }
808
809 void FileMapRegion::init_ptrmap(size_t offset, size_t size_in_bits) {
810 _ptrmap_offset = offset;
811 _ptrmap_size_in_bits = size_in_bits;
812 }
813
814 bool FileMapRegion::check_region_crc(char* base) const {
815 // This function should be called after the region has been properly
816 // loaded into memory via FileMapInfo::map_region() or FileMapInfo::read_region().
817 // I.e., this->mapped_base() must be valid.
818 size_t sz = used();
819 if (sz == 0) {
820 return true;
821 }
822
823 assert(base != nullptr, "must be initialized");
824 int crc = ClassLoader::crc32(0, base, (jint)sz);
825 if (crc != this->crc()) {
826 log_warning(cds)("Checksum verification failed.");
827 return false;
828 }
829 return true;
830 }
831
832 static const char* region_name(int region_index) {
833 static const char* names[] = {
834 "rw", "ro", "bm", "hp", "cc",
835 };
836 const int num_regions = sizeof(names)/sizeof(names[0]);
837 assert(0 <= region_index && region_index < num_regions, "sanity");
838
839 return names[region_index];
840 }
841
842 BitMapView FileMapInfo::bitmap_view(int region_index, bool is_oopmap) {
843 FileMapRegion* r = region_at(region_index);
844 char* bitmap_base = is_static() ? FileMapInfo::current_info()->map_bitmap_region() : FileMapInfo::dynamic_info()->map_bitmap_region();
845 bitmap_base += is_oopmap ? r->oopmap_offset() : r->ptrmap_offset();
846 size_t size_in_bits = is_oopmap ? r->oopmap_size_in_bits() : r->ptrmap_size_in_bits();
847
848 log_debug(cds, reloc)("mapped %s relocation %smap @ " INTPTR_FORMAT " (%zu bits)",
849 region_name(region_index), is_oopmap ? "oop" : "ptr",
850 p2i(bitmap_base), size_in_bits);
851
852 return BitMapView((BitMap::bm_word_t*)(bitmap_base), size_in_bits);
853 }
854
855 BitMapView FileMapInfo::oopmap_view(int region_index) {
856 return bitmap_view(region_index, /*is_oopmap*/true);
857 }
858
859 BitMapView FileMapInfo::ptrmap_view(int region_index) {
860 return bitmap_view(region_index, /*is_oopmap*/false);
861 }
862
863 void FileMapRegion::print(outputStream* st, int region_index) {
864 st->print_cr("============ region ============= %d \"%s\"", region_index, region_name(region_index));
865 st->print_cr("- crc: 0x%08x", _crc);
866 st->print_cr("- read_only: %d", _read_only);
867 st->print_cr("- allow_exec: %d", _allow_exec);
868 st->print_cr("- is_heap_region: %d", _is_heap_region);
869 st->print_cr("- is_bitmap_region: %d", _is_bitmap_region);
870 st->print_cr("- mapped_from_file: %d", _mapped_from_file);
871 st->print_cr("- file_offset: 0x%zx", _file_offset);
872 st->print_cr("- mapping_offset: 0x%zx", _mapping_offset);
873 st->print_cr("- used: %zu", _used);
874 st->print_cr("- oopmap_offset: 0x%zx", _oopmap_offset);
875 st->print_cr("- oopmap_size_in_bits: %zu", _oopmap_size_in_bits);
876 st->print_cr("- ptrmap_offset: 0x%zx", _ptrmap_offset);
877 st->print_cr("- ptrmap_size_in_bits: %zu", _ptrmap_size_in_bits);
878 st->print_cr("- mapped_base: " INTPTR_FORMAT, p2i(_mapped_base));
879 }
880
881 void FileMapInfo::write_region(int region, char* base, size_t size,
882 bool read_only, bool allow_exec) {
883 assert(CDSConfig::is_dumping_archive(), "sanity");
884
885 FileMapRegion* r = region_at(region);
886 char* requested_base;
887 size_t mapping_offset = 0;
888
889 if (region == MetaspaceShared::bm) {
890 requested_base = nullptr; // always null for bm region
891 } else if (size == 0) {
892 // This is an unused region (e.g., a heap region when !INCLUDE_CDS_JAVA_HEAP)
893 requested_base = nullptr;
894 } else if (HeapShared::is_heap_region(region)) {
895 assert(CDSConfig::is_dumping_heap(), "sanity");
896 #if INCLUDE_CDS_JAVA_HEAP
897 assert(!CDSConfig::is_dumping_dynamic_archive(), "must be");
898 requested_base = (char*)ArchiveHeapWriter::requested_address();
899 if (UseCompressedOops) {
900 mapping_offset = (size_t)((address)requested_base - CompressedOops::base());
901 assert((mapping_offset >> CompressedOops::shift()) << CompressedOops::shift() == mapping_offset, "must be");
902 } else {
903 mapping_offset = 0; // not used with !UseCompressedOops
904 }
905 #endif // INCLUDE_CDS_JAVA_HEAP
906 } else {
907 char* requested_SharedBaseAddress = (char*)MetaspaceShared::requested_base_address();
908 requested_base = ArchiveBuilder::current()->to_requested(base);
909 assert(requested_base >= requested_SharedBaseAddress, "must be");
910 mapping_offset = requested_base - requested_SharedBaseAddress;
911 }
912
913 r->set_file_offset(_file_offset);
914 int crc = ClassLoader::crc32(0, base, (jint)size);
915 if (size > 0) {
916 log_info(cds)("Shared file region (%s) %d: %8zu"
917 " bytes, addr " INTPTR_FORMAT " file offset 0x%08" PRIxPTR
918 " crc 0x%08x",
919 region_name(region), region, size, p2i(requested_base), _file_offset, crc);
920 } else {
921 log_info(cds)("Shared file region (%s) %d: %8zu"
922 " bytes", region_name(region), region, size);
923 }
924
925 r->init(region, mapping_offset, size, read_only, allow_exec, crc);
926
927 if (base != nullptr) {
928 write_bytes_aligned(base, size);
929 }
930 }
931
932 static size_t write_bitmap(const CHeapBitMap* map, char* output, size_t offset) {
933 size_t size_in_bytes = map->size_in_bytes();
934 map->write_to((BitMap::bm_word_t*)(output + offset), size_in_bytes);
935 return offset + size_in_bytes;
936 }
937
938 // The sorting code groups the objects with non-null oop/ptrs together.
939 // Relevant bitmaps then have lots of leading and trailing zeros, which
940 // we do not have to store.
941 size_t FileMapInfo::remove_bitmap_zeros(CHeapBitMap* map) {
942 BitMap::idx_t first_set = map->find_first_set_bit(0);
943 BitMap::idx_t last_set = map->find_last_set_bit(0);
944 size_t old_size = map->size();
945
946 // Slice and resize bitmap
947 map->truncate(first_set, last_set + 1);
948
949 assert(map->at(0), "First bit should be set");
950 assert(map->at(map->size() - 1), "Last bit should be set");
951 assert(map->size() <= old_size, "sanity");
952
953 return first_set;
954 }
955
956 char* FileMapInfo::write_bitmap_region(CHeapBitMap* rw_ptrmap, CHeapBitMap* ro_ptrmap,
957 CHeapBitMap* cc_ptrmap,
958 ArchiveHeapInfo* heap_info,
959 size_t &size_in_bytes) {
960 size_t removed_rw_leading_zeros = remove_bitmap_zeros(rw_ptrmap);
961 size_t removed_ro_leading_zeros = remove_bitmap_zeros(ro_ptrmap);
962 header()->set_rw_ptrmap_start_pos(removed_rw_leading_zeros);
963 header()->set_ro_ptrmap_start_pos(removed_ro_leading_zeros);
964 size_in_bytes = rw_ptrmap->size_in_bytes() + ro_ptrmap->size_in_bytes() + cc_ptrmap->size_in_bytes();
965
966 if (heap_info->is_used()) {
967 // Remove leading and trailing zeros
968 size_t removed_oop_leading_zeros = remove_bitmap_zeros(heap_info->oopmap());
969 size_t removed_ptr_leading_zeros = remove_bitmap_zeros(heap_info->ptrmap());
970 header()->set_heap_oopmap_start_pos(removed_oop_leading_zeros);
971 header()->set_heap_ptrmap_start_pos(removed_ptr_leading_zeros);
972
973 size_in_bytes += heap_info->oopmap()->size_in_bytes();
974 size_in_bytes += heap_info->ptrmap()->size_in_bytes();
975 }
976
977 // The bitmap region contains up to 4 parts:
978 // rw_ptrmap: metaspace pointers inside the read-write region
979 // ro_ptrmap: metaspace pointers inside the read-only region
980 // heap_info->oopmap(): Java oop pointers in the heap region
981 // heap_info->ptrmap(): metaspace pointers in the heap region
982 char* buffer = NEW_C_HEAP_ARRAY(char, size_in_bytes, mtClassShared);
983 size_t written = 0;
984
985 region_at(MetaspaceShared::rw)->init_ptrmap(0, rw_ptrmap->size());
986 written = write_bitmap(rw_ptrmap, buffer, written);
987
988 region_at(MetaspaceShared::ro)->init_ptrmap(written, ro_ptrmap->size());
989 written = write_bitmap(ro_ptrmap, buffer, written);
990
991 region_at(MetaspaceShared::cc)->init_ptrmap(written, cc_ptrmap->size());
992 written = write_bitmap(cc_ptrmap, buffer, written);
993
994 if (heap_info->is_used()) {
995 FileMapRegion* r = region_at(MetaspaceShared::hp);
996
997 r->init_oopmap(written, heap_info->oopmap()->size());
998 written = write_bitmap(heap_info->oopmap(), buffer, written);
999
1000 r->init_ptrmap(written, heap_info->ptrmap()->size());
1001 written = write_bitmap(heap_info->ptrmap(), buffer, written);
1002 }
1003
1004 write_region(MetaspaceShared::bm, (char*)buffer, size_in_bytes, /*read_only=*/true, /*allow_exec=*/false);
1005 return buffer;
1006 }
1007
1008 size_t FileMapInfo::write_heap_region(ArchiveHeapInfo* heap_info) {
1009 char* buffer_start = heap_info->buffer_start();
1010 size_t buffer_size = heap_info->buffer_byte_size();
1011 write_region(MetaspaceShared::hp, buffer_start, buffer_size, false, false);
1012 header()->set_heap_root_segments(heap_info->heap_root_segments());
1013 return buffer_size;
1014 }
1015
1016 // Dump bytes to file -- at the current file position.
1017
1018 void FileMapInfo::write_bytes(const void* buffer, size_t nbytes) {
1019 assert(_file_open, "must be");
1020 if (!os::write(_fd, buffer, nbytes)) {
1021 // If the shared archive is corrupted, close it and remove it.
1022 close();
1023 remove(_full_path);
1024
1025 if (CDSConfig::is_dumping_preimage_static_archive()) {
1026 MetaspaceShared::writing_error("Unable to write to AOT configuration file.");
1027 } else if (CDSConfig::new_aot_flags_used()) {
1028 MetaspaceShared::writing_error("Unable to write to AOT cache.");
1029 } else {
1030 MetaspaceShared::writing_error("Unable to write to shared archive.");
1031 }
1032 }
1033 _file_offset += nbytes;
1034 }
1035
1036 bool FileMapInfo::is_file_position_aligned() const {
1037 return _file_offset == align_up(_file_offset,
1038 MetaspaceShared::core_region_alignment());
1039 }
1040
1041 // Align file position to an allocation unit boundary.
1042
1043 void FileMapInfo::align_file_position() {
1044 assert(_file_open, "must be");
1045 size_t new_file_offset = align_up(_file_offset,
1046 MetaspaceShared::core_region_alignment());
1047 if (new_file_offset != _file_offset) {
1048 _file_offset = new_file_offset;
1049 // Seek one byte back from the target and write a byte to insure
1050 // that the written file is the correct length.
1051 _file_offset -= 1;
1052 seek_to_position(_file_offset);
1053 char zero = 0;
1054 write_bytes(&zero, 1);
1055 }
1056 }
1057
1058
1059 // Dump bytes to file -- at the current file position.
1060
1061 void FileMapInfo::write_bytes_aligned(const void* buffer, size_t nbytes) {
1062 align_file_position();
1063 write_bytes(buffer, nbytes);
1064 align_file_position();
1065 }
1066
1067 // Close the shared archive file. This does NOT unmap mapped regions.
1068
1069 void FileMapInfo::close() {
1070 if (_file_open) {
1071 if (::close(_fd) < 0) {
1072 MetaspaceShared::unrecoverable_loading_error("Unable to close the shared archive file.");
1073 }
1074 _file_open = false;
1075 _fd = -1;
1076 }
1077 }
1078
1079 /*
1080 * Same as os::map_memory() but also pretouches if AlwaysPreTouch is enabled.
1081 */
1082 static char* map_memory(int fd, const char* file_name, size_t file_offset,
1083 char *addr, size_t bytes, bool read_only,
1084 bool allow_exec, MemTag mem_tag = mtNone) {
1085 char* mem = os::map_memory(fd, file_name, file_offset, addr, bytes,
1086 AlwaysPreTouch ? false : read_only,
1087 allow_exec, mem_tag);
1088 if (mem != nullptr && AlwaysPreTouch) {
1089 os::pretouch_memory(mem, mem + bytes);
1090 }
1091 return mem;
1092 }
1093
1094 // JVM/TI RedefineClasses() support:
1095 // Remap the shared readonly space to shared readwrite, private.
1096 bool FileMapInfo::remap_shared_readonly_as_readwrite() {
1097 int idx = MetaspaceShared::ro;
1098 FileMapRegion* r = region_at(idx);
1099 if (!r->read_only()) {
1100 // the space is already readwrite so we are done
1101 return true;
1102 }
1103 size_t size = r->used_aligned();
1104 if (!open_for_read()) {
1105 return false;
1106 }
1107 char *addr = r->mapped_base();
1108 // This path should not be reached for Windows; see JDK-8222379.
1109 assert(WINDOWS_ONLY(false) NOT_WINDOWS(true), "Don't call on Windows");
1110 // Replace old mapping with new one that is writable.
1111 char *base = os::map_memory(_fd, _full_path, r->file_offset(),
1112 addr, size, false /* !read_only */,
1113 r->allow_exec());
1114 close();
1115 // These have to be errors because the shared region is now unmapped.
1116 if (base == nullptr) {
1117 log_error(cds)("Unable to remap shared readonly space (errno=%d).", errno);
1118 vm_exit(1);
1119 }
1120 if (base != addr) {
1121 log_error(cds)("Unable to remap shared readonly space (errno=%d).", errno);
1122 vm_exit(1);
1123 }
1124 r->set_read_only(false);
1125 return true;
1126 }
1127
1128 // Memory map a region in the address space.
1129 static const char* shared_region_name[] = { "ReadWrite", "ReadOnly", "Bitmap", "Heap", "Code" };
1130
1131 MapArchiveResult FileMapInfo::map_regions(int regions[], int num_regions, char* mapped_base_address, ReservedSpace rs) {
1132 DEBUG_ONLY(FileMapRegion* last_region = nullptr);
1133 intx addr_delta = mapped_base_address - header()->requested_base_address();
1134
1135 // Make sure we don't attempt to use header()->mapped_base_address() unless
1136 // it's been successfully mapped.
1137 DEBUG_ONLY(header()->set_mapped_base_address((char*)(uintptr_t)0xdeadbeef);)
1138
1139 for (int i = 0; i < num_regions; i++) {
1140 int idx = regions[i];
1141 MapArchiveResult result = map_region(idx, addr_delta, mapped_base_address, rs);
1142 if (result != MAP_ARCHIVE_SUCCESS) {
1143 return result;
1144 }
1145 FileMapRegion* r = region_at(idx);
1146 DEBUG_ONLY(if (last_region != nullptr) {
1147 // Ensure that the OS won't be able to allocate new memory spaces between any mapped
1148 // regions, or else it would mess up the simple comparison in MetaspaceObj::is_shared().
1149 assert(r->mapped_base() == last_region->mapped_end(), "must have no gaps");
1150 }
1151 last_region = r;)
1152 log_info(cds)("Mapped %s region #%d at base " INTPTR_FORMAT " top " INTPTR_FORMAT " (%s)", is_static() ? "static " : "dynamic",
1153 idx, p2i(r->mapped_base()), p2i(r->mapped_end()),
1154 shared_region_name[idx]);
1155
1156 }
1157
1158 header()->set_mapped_base_address(header()->requested_base_address() + addr_delta);
1159 if (addr_delta != 0 && !relocate_pointers_in_core_regions(addr_delta)) {
1160 return MAP_ARCHIVE_OTHER_FAILURE;
1161 }
1162
1163 return MAP_ARCHIVE_SUCCESS;
1164 }
1165
1166 bool FileMapInfo::read_region(int i, char* base, size_t size, bool do_commit) {
1167 FileMapRegion* r = region_at(i);
1168 if (do_commit) {
1169 log_info(cds)("Commit %s region #%d at base " INTPTR_FORMAT " top " INTPTR_FORMAT " (%s)%s",
1170 is_static() ? "static " : "dynamic", i, p2i(base), p2i(base + size),
1171 shared_region_name[i], r->allow_exec() ? " exec" : "");
1172 if (!os::commit_memory(base, size, r->allow_exec())) {
1173 log_error(cds)("Failed to commit %s region #%d (%s)", is_static() ? "static " : "dynamic",
1174 i, shared_region_name[i]);
1175 return false;
1176 }
1177 }
1178 if (os::lseek(_fd, (long)r->file_offset(), SEEK_SET) != (int)r->file_offset() ||
1179 read_bytes(base, size) != size) {
1180 return false;
1181 }
1182
1183 if (VerifySharedSpaces && !r->check_region_crc(base)) {
1184 return false;
1185 }
1186
1187 r->set_mapped_from_file(false);
1188 r->set_mapped_base(base);
1189
1190 return true;
1191 }
1192
1193 MapArchiveResult FileMapInfo::map_region(int i, intx addr_delta, char* mapped_base_address, ReservedSpace rs) {
1194 assert(!HeapShared::is_heap_region(i), "sanity");
1195 FileMapRegion* r = region_at(i);
1196 size_t size = r->used_aligned();
1197 char *requested_addr = mapped_base_address + r->mapping_offset();
1198 assert(!is_mapped(), "must be not mapped yet");
1199 assert(requested_addr != nullptr, "must be specified");
1200
1201 r->set_mapped_from_file(false);
1202 r->set_in_reserved_space(false);
1203
1204 if (MetaspaceShared::use_windows_memory_mapping()) {
1205 // Windows cannot remap read-only shared memory to read-write when required for
1206 // RedefineClasses, which is also used by JFR. Always map windows regions as RW.
1207 r->set_read_only(false);
1208 } else if (JvmtiExport::can_modify_any_class() || JvmtiExport::can_walk_any_space() ||
1209 Arguments::has_jfr_option()) {
1210 // If a tool agent is in use (debugging enabled), or JFR, we must map the address space RW
1211 r->set_read_only(false);
1212 } else if (addr_delta != 0) {
1213 r->set_read_only(false); // Need to patch the pointers
1214 }
1215
1216 if (MetaspaceShared::use_windows_memory_mapping() && rs.is_reserved()) {
1217 // This is the second time we try to map the archive(s). We have already created a ReservedSpace
1218 // that covers all the FileMapRegions to ensure all regions can be mapped. However, Windows
1219 // can't mmap into a ReservedSpace, so we just ::read() the data. We're going to patch all the
1220 // regions anyway, so there's no benefit for mmap anyway.
1221 if (!read_region(i, requested_addr, size, /* do_commit = */ true)) {
1222 log_info(cds)("Failed to read %s shared space into reserved space at " INTPTR_FORMAT,
1223 shared_region_name[i], p2i(requested_addr));
1224 return MAP_ARCHIVE_OTHER_FAILURE; // oom or I/O error.
1225 } else {
1226 assert(r->mapped_base() != nullptr, "must be initialized");
1227 }
1228 } else {
1229 // Note that this may either be a "fresh" mapping into unreserved address
1230 // space (Windows, first mapping attempt), or a mapping into pre-reserved
1231 // space (Posix). See also comment in MetaspaceShared::map_archives().
1232 bool read_only = r->read_only() && !CDSConfig::is_dumping_final_static_archive();
1233 char* base = map_memory(_fd, _full_path, r->file_offset(),
1234 requested_addr, size, read_only,
1235 r->allow_exec(), mtClassShared);
1236 if (base != requested_addr) {
1237 log_info(cds)("Unable to map %s shared space at " INTPTR_FORMAT,
1238 shared_region_name[i], p2i(requested_addr));
1239 _memory_mapping_failed = true;
1240 return MAP_ARCHIVE_MMAP_FAILURE;
1241 }
1242
1243 if (VerifySharedSpaces && !r->check_region_crc(requested_addr)) {
1244 return MAP_ARCHIVE_OTHER_FAILURE;
1245 }
1246
1247 r->set_mapped_from_file(true);
1248 r->set_mapped_base(requested_addr);
1249 }
1250
1251 if (rs.is_reserved()) {
1252 char* mapped_base = r->mapped_base();
1253 assert(rs.base() <= mapped_base && mapped_base + size <= rs.end(),
1254 PTR_FORMAT " <= " PTR_FORMAT " < " PTR_FORMAT " <= " PTR_FORMAT,
1255 p2i(rs.base()), p2i(mapped_base), p2i(mapped_base + size), p2i(rs.end()));
1256 r->set_in_reserved_space(rs.is_reserved());
1257 }
1258 return MAP_ARCHIVE_SUCCESS;
1259 }
1260
1261 // The return value is the location of the archive relocation bitmap.
1262 char* FileMapInfo::map_bitmap_region() {
1263 FileMapRegion* r = region_at(MetaspaceShared::bm);
1264 if (r->mapped_base() != nullptr) {
1265 return r->mapped_base();
1266 }
1267 bool read_only = true, allow_exec = false;
1268 char* requested_addr = nullptr; // allow OS to pick any location
1269 char* bitmap_base = map_memory(_fd, _full_path, r->file_offset(),
1270 requested_addr, r->used_aligned(), read_only, allow_exec, mtClassShared);
1271 if (bitmap_base == nullptr) {
1272 log_info(cds)("failed to map relocation bitmap");
1273 return nullptr;
1274 }
1275
1276 if (VerifySharedSpaces && !r->check_region_crc(bitmap_base)) {
1277 log_error(cds)("relocation bitmap CRC error");
1278 if (!os::unmap_memory(bitmap_base, r->used_aligned())) {
1279 fatal("os::unmap_memory of relocation bitmap failed");
1280 }
1281 return nullptr;
1282 }
1283
1284 r->set_mapped_from_file(true);
1285 r->set_mapped_base(bitmap_base);
1286 log_info(cds)("Mapped %s region #%d at base " INTPTR_FORMAT " top " INTPTR_FORMAT " (%s)",
1287 is_static() ? "static " : "dynamic",
1288 MetaspaceShared::bm, p2i(r->mapped_base()), p2i(r->mapped_end()),
1289 shared_region_name[MetaspaceShared::bm]);
1290 return bitmap_base;
1291 }
1292
1293 bool FileMapInfo::map_cached_code_region(ReservedSpace rs) {
1294 FileMapRegion* r = region_at(MetaspaceShared::cc);
1295 assert(r->used() > 0 && r->used_aligned() == rs.size(), "must be");
1296
1297 char* requested_base = rs.base();
1298 assert(requested_base != nullptr, "should be inside code cache");
1299
1300 char* mapped_base;
1301 if (MetaspaceShared::use_windows_memory_mapping()) {
1302 if (!read_region(MetaspaceShared::cc, requested_base, r->used_aligned(), /* do_commit = */ true)) {
1303 log_info(cds)("Failed to read cc shared space into reserved space at " INTPTR_FORMAT,
1304 p2i(requested_base));
1305 return false;
1306 }
1307 mapped_base = requested_base;
1308 } else {
1309 bool read_only = false, allow_exec = false;
1310 mapped_base = map_memory(_fd, _full_path, r->file_offset(),
1311 requested_base, r->used_aligned(), read_only, allow_exec, mtClassShared);
1312 }
1313 if (mapped_base == nullptr) {
1314 log_info(cds)("failed to map cached code region");
1315 return false;
1316 } else {
1317 assert(mapped_base == requested_base, "must be");
1318 r->set_mapped_from_file(true);
1319 r->set_mapped_base(mapped_base);
1320 relocate_pointers_in_cached_code_region();
1321 log_info(cds)("Mapped static region #%d at base " INTPTR_FORMAT " top " INTPTR_FORMAT " (%s)",
1322 MetaspaceShared::cc, p2i(r->mapped_base()), p2i(r->mapped_end()),
1323 shared_region_name[MetaspaceShared::cc]);
1324 return true;
1325 }
1326 }
1327
1328 class CachedCodeRelocator: public BitMapClosure {
1329 address _code_requested_base;
1330 address* _patch_base;
1331 intx _code_delta;
1332 intx _metadata_delta;
1333
1334 public:
1335 CachedCodeRelocator(address code_requested_base, address code_mapped_base,
1336 intx metadata_delta) {
1337 _code_requested_base = code_requested_base;
1338 _patch_base = (address*)code_mapped_base;
1339 _code_delta = code_mapped_base - code_requested_base;
1340 _metadata_delta = metadata_delta;
1341 }
1342
1343 bool do_bit(size_t offset) {
1344 address* p = _patch_base + offset;
1345 address requested_ptr = *p;
1346 if (requested_ptr < _code_requested_base) {
1347 *p = requested_ptr + _metadata_delta;
1348 } else {
1349 *p = requested_ptr + _code_delta;
1350 }
1351 return true; // keep iterating
1352 }
1353 };
1354
1355 void FileMapInfo::relocate_pointers_in_cached_code_region() {
1356 FileMapRegion* r = region_at(MetaspaceShared::cc);
1357 char* bitmap_base = map_bitmap_region();
1358
1359 BitMapView cc_ptrmap = ptrmap_view(MetaspaceShared::cc);
1360 if (cc_ptrmap.size() == 0) {
1361 return;
1362 }
1363
1364 address core_regions_requested_base = (address)header()->requested_base_address();
1365 address core_regions_mapped_base = (address)header()->mapped_base_address();
1366 address cc_region_requested_base = core_regions_requested_base + r->mapping_offset();
1367 address cc_region_mapped_base = (address)r->mapped_base();
1368
1369 size_t max_bits_for_core_regions = pointer_delta(mapped_end(), mapped_base(), // FIXME - renamed to core_regions_mapped_base(), etc
1370 sizeof(address));
1371
1372 CachedCodeRelocator patcher(cc_region_requested_base, cc_region_mapped_base,
1373 core_regions_mapped_base - core_regions_requested_base);
1374 cc_ptrmap.iterate(&patcher);
1375 }
1376
1377 class SharedDataRelocationTask : public ArchiveWorkerTask {
1378 private:
1379 BitMapView* const _rw_bm;
1380 BitMapView* const _ro_bm;
1381 SharedDataRelocator* const _rw_reloc;
1382 SharedDataRelocator* const _ro_reloc;
1383
1384 public:
1385 SharedDataRelocationTask(BitMapView* rw_bm, BitMapView* ro_bm, SharedDataRelocator* rw_reloc, SharedDataRelocator* ro_reloc) :
1386 ArchiveWorkerTask("Shared Data Relocation"),
1387 _rw_bm(rw_bm), _ro_bm(ro_bm), _rw_reloc(rw_reloc), _ro_reloc(ro_reloc) {}
1388
1389 void work(int chunk, int max_chunks) override {
1390 work_on(chunk, max_chunks, _rw_bm, _rw_reloc);
1391 work_on(chunk, max_chunks, _ro_bm, _ro_reloc);
1392 }
1393
1394 void work_on(int chunk, int max_chunks, BitMapView* bm, SharedDataRelocator* reloc) {
1395 BitMap::idx_t size = bm->size();
1396 BitMap::idx_t start = MIN2(size, size * chunk / max_chunks);
1397 BitMap::idx_t end = MIN2(size, size * (chunk + 1) / max_chunks);
1398 assert(end > start, "Sanity: no empty slices");
1399 bm->iterate(reloc, start, end);
1400 }
1401 };
1402
1403 // This is called when we cannot map the archive at the requested[ base address (usually 0x800000000).
1404 // We relocate all pointers in the 2 core regions (ro, rw).
1405 bool FileMapInfo::relocate_pointers_in_core_regions(intx addr_delta) {
1406 log_debug(cds, reloc)("runtime archive relocation start");
1407 char* bitmap_base = map_bitmap_region();
1408
1409 if (bitmap_base == nullptr) {
1410 return false; // OOM, or CRC check failure
1411 } else {
1412 BitMapView rw_ptrmap = ptrmap_view(MetaspaceShared::rw);
1413 BitMapView ro_ptrmap = ptrmap_view(MetaspaceShared::ro);
1414
1415 FileMapRegion* rw_region = first_core_region();
1416 FileMapRegion* ro_region = last_core_region();
1417
1418 // Patch all pointers inside the RW region
1419 address rw_patch_base = (address)rw_region->mapped_base();
1420 address rw_patch_end = (address)rw_region->mapped_end();
1421
1422 // Patch all pointers inside the RO region
1423 address ro_patch_base = (address)ro_region->mapped_base();
1424 address ro_patch_end = (address)ro_region->mapped_end();
1425
1426 // the current value of the pointers to be patched must be within this
1427 // range (i.e., must be between the requested base address and the address of the current archive).
1428 // Note: top archive may point to objects in the base archive, but not the other way around.
1429 address valid_old_base = (address)header()->requested_base_address();
1430 address valid_old_end = valid_old_base + mapping_end_offset();
1431
1432 // after patching, the pointers must point inside this range
1433 // (the requested location of the archive, as mapped at runtime).
1434 address valid_new_base = (address)header()->mapped_base_address();
1435 address valid_new_end = (address)mapped_end();
1436
1437 SharedDataRelocator rw_patcher((address*)rw_patch_base + header()->rw_ptrmap_start_pos(), (address*)rw_patch_end, valid_old_base, valid_old_end,
1438 valid_new_base, valid_new_end, addr_delta);
1439 SharedDataRelocator ro_patcher((address*)ro_patch_base + header()->ro_ptrmap_start_pos(), (address*)ro_patch_end, valid_old_base, valid_old_end,
1440 valid_new_base, valid_new_end, addr_delta);
1441
1442 if (AOTCacheParallelRelocation) {
1443 ArchiveWorkers workers;
1444 SharedDataRelocationTask task(&rw_ptrmap, &ro_ptrmap, &rw_patcher, &ro_patcher);
1445 workers.run_task(&task);
1446 } else {
1447 rw_ptrmap.iterate(&rw_patcher);
1448 ro_ptrmap.iterate(&ro_patcher);
1449 }
1450
1451 // The MetaspaceShared::bm region will be unmapped in MetaspaceShared::initialize_shared_spaces().
1452
1453 log_debug(cds, reloc)("runtime archive relocation done");
1454 return true;
1455 }
1456 }
1457
1458 size_t FileMapInfo::read_bytes(void* buffer, size_t count) {
1459 assert(_file_open, "Archive file is not open");
1460 size_t n = ::read(_fd, buffer, (unsigned int)count);
1461 if (n != count) {
1462 // Close the file if there's a problem reading it.
1463 close();
1464 return 0;
1465 }
1466 _file_offset += count;
1467 return count;
1468 }
1469
1470 // Get the total size in bytes of a read only region
1471 size_t FileMapInfo::readonly_total() {
1472 size_t total = 0;
1473 if (current_info() != nullptr) {
1474 FileMapRegion* r = FileMapInfo::current_info()->region_at(MetaspaceShared::ro);
1475 if (r->read_only()) total += r->used();
1476 }
1477 if (dynamic_info() != nullptr) {
1478 FileMapRegion* r = FileMapInfo::dynamic_info()->region_at(MetaspaceShared::ro);
1479 if (r->read_only()) total += r->used();
1480 }
1481 return total;
1482 }
1483
1484 #if INCLUDE_CDS_JAVA_HEAP
1485 MemRegion FileMapInfo::_mapped_heap_memregion;
1486
1487 bool FileMapInfo::has_heap_region() {
1488 return (region_at(MetaspaceShared::hp)->used() > 0);
1489 }
1490
1491 // Returns the address range of the archived heap region computed using the
1492 // current oop encoding mode. This range may be different than the one seen at
1493 // dump time due to encoding mode differences. The result is used in determining
1494 // if/how these regions should be relocated at run time.
1495 MemRegion FileMapInfo::get_heap_region_requested_range() {
1496 FileMapRegion* r = region_at(MetaspaceShared::hp);
1497 size_t size = r->used();
1498 assert(size > 0, "must have non-empty heap region");
1499
1500 address start = heap_region_requested_address();
1501 address end = start + size;
1502 log_info(cds)("Requested heap region [" INTPTR_FORMAT " - " INTPTR_FORMAT "] = %8zu bytes",
1503 p2i(start), p2i(end), size);
1504
1505 return MemRegion((HeapWord*)start, (HeapWord*)end);
1506 }
1507
1508 void FileMapInfo::map_or_load_heap_region() {
1509 bool success = false;
1510
1511 if (can_use_heap_region()) {
1512 if (ArchiveHeapLoader::can_map()) {
1513 success = map_heap_region();
1514 } else if (ArchiveHeapLoader::can_load()) {
1515 success = ArchiveHeapLoader::load_heap_region(this);
1516 } else {
1517 if (!UseCompressedOops && !ArchiveHeapLoader::can_map()) {
1518 log_info(cds)("Cannot use CDS heap data. Selected GC not compatible -XX:-UseCompressedOops");
1519 } else {
1520 log_info(cds)("Cannot use CDS heap data. UseEpsilonGC, UseG1GC, UseSerialGC, UseParallelGC, or UseShenandoahGC are required.");
1521 }
1522 }
1523 }
1524
1525 if (!success) {
1526 if (CDSConfig::is_using_aot_linked_classes() && !CDSConfig::is_dumping_final_static_archive()) {
1527 // It's too late to recover -- we have already committed to use the archived metaspace objects, but
1528 // the archived heap objects cannot be loaded, so we don't have the archived FMG to guarantee that
1529 // all AOT-linked classes are visible.
1530 //
1531 // We get here because the heap is too small. The app will fail anyway. So let's quit.
1532 MetaspaceShared::unrecoverable_loading_error("CDS archive has aot-linked classes but the archived "
1533 "heap objects cannot be loaded. Try increasing your heap size.");
1534 }
1535 CDSConfig::stop_using_full_module_graph("archive heap loading failed");
1536 }
1537 }
1538
1539 bool FileMapInfo::can_use_heap_region() {
1540 if (!has_heap_region()) {
1541 return false;
1542 }
1543 if (JvmtiExport::should_post_class_file_load_hook() && JvmtiExport::has_early_class_hook_env()) {
1544 ShouldNotReachHere(); // CDS should have been disabled.
1545 // The archived objects are mapped at JVM start-up, but we don't know if
1546 // j.l.String or j.l.Class might be replaced by the ClassFileLoadHook,
1547 // which would make the archived String or mirror objects invalid. Let's be safe and not
1548 // use the archived objects. These 2 classes are loaded during the JVMTI "early" stage.
1549 //
1550 // If JvmtiExport::has_early_class_hook_env() is false, the classes of some objects
1551 // in the archived subgraphs may be replaced by the ClassFileLoadHook. But that's OK
1552 // because we won't install an archived object subgraph if the klass of any of the
1553 // referenced objects are replaced. See HeapShared::initialize_from_archived_subgraph().
1554 }
1555
1556 // We pre-compute narrow Klass IDs with the runtime mapping start intended to be the base, and a shift of
1557 // ArchiveBuilder::precomputed_narrow_klass_shift. We enforce this encoding at runtime (see
1558 // CompressedKlassPointers::initialize_for_given_encoding()). Therefore, the following assertions must
1559 // hold:
1560 address archive_narrow_klass_base = (address)header()->mapped_base_address();
1561 const int archive_narrow_klass_pointer_bits = header()->narrow_klass_pointer_bits();
1562 const int archive_narrow_klass_shift = header()->narrow_klass_shift();
1563
1564 log_info(cds)("CDS archive was created with max heap size = %zuM, and the following configuration:",
1565 max_heap_size()/M);
1566 log_info(cds)(" narrow_klass_base at mapping start address, narrow_klass_pointer_bits = %d, narrow_klass_shift = %d",
1567 archive_narrow_klass_pointer_bits, archive_narrow_klass_shift);
1568 log_info(cds)(" narrow_oop_mode = %d, narrow_oop_base = " PTR_FORMAT ", narrow_oop_shift = %d",
1569 narrow_oop_mode(), p2i(narrow_oop_base()), narrow_oop_shift());
1570 log_info(cds)("The current max heap size = %zuM, G1HeapRegion::GrainBytes = %zu",
1571 MaxHeapSize/M, G1HeapRegion::GrainBytes);
1572 log_info(cds)(" narrow_klass_base = " PTR_FORMAT ", arrow_klass_pointer_bits = %d, narrow_klass_shift = %d",
1573 p2i(CompressedKlassPointers::base()), CompressedKlassPointers::narrow_klass_pointer_bits(), CompressedKlassPointers::shift());
1574 log_info(cds)(" narrow_oop_mode = %d, narrow_oop_base = " PTR_FORMAT ", narrow_oop_shift = %d",
1575 CompressedOops::mode(), p2i(CompressedOops::base()), CompressedOops::shift());
1576 log_info(cds)(" heap range = [" PTR_FORMAT " - " PTR_FORMAT "]",
1577 UseCompressedOops ? p2i(CompressedOops::begin()) :
1578 UseG1GC ? p2i((address)G1CollectedHeap::heap()->reserved().start()) : 0L,
1579 UseCompressedOops ? p2i(CompressedOops::end()) :
1580 UseG1GC ? p2i((address)G1CollectedHeap::heap()->reserved().end()) : 0L);
1581
1582 int err = 0;
1583 if ( archive_narrow_klass_base != CompressedKlassPointers::base() ||
1584 (err = 1, archive_narrow_klass_pointer_bits != CompressedKlassPointers::narrow_klass_pointer_bits()) ||
1585 (err = 2, archive_narrow_klass_shift != CompressedKlassPointers::shift()) ) {
1586 stringStream ss;
1587 switch (err) {
1588 case 0:
1589 ss.print("Unexpected encoding base encountered (" PTR_FORMAT ", expected " PTR_FORMAT ")",
1590 p2i(CompressedKlassPointers::base()), p2i(archive_narrow_klass_base));
1591 break;
1592 case 1:
1593 ss.print("Unexpected narrow Klass bit length encountered (%d, expected %d)",
1594 CompressedKlassPointers::narrow_klass_pointer_bits(), archive_narrow_klass_pointer_bits);
1595 break;
1596 case 2:
1597 ss.print("Unexpected narrow Klass shift encountered (%d, expected %d)",
1598 CompressedKlassPointers::shift(), archive_narrow_klass_shift);
1599 break;
1600 default:
1601 ShouldNotReachHere();
1602 };
1603 LogTarget(Info, cds) lt;
1604 if (lt.is_enabled()) {
1605 LogStream ls(lt);
1606 ls.print_raw(ss.base());
1607 header()->print(&ls);
1608 }
1609 assert(false, "%s", ss.base());
1610 }
1611
1612 return true;
1613 }
1614
1615 // The actual address of this region during dump time.
1616 address FileMapInfo::heap_region_dumptime_address() {
1617 FileMapRegion* r = region_at(MetaspaceShared::hp);
1618 assert(CDSConfig::is_using_archive(), "runtime only");
1619 assert(is_aligned(r->mapping_offset(), sizeof(HeapWord)), "must be");
1620 if (UseCompressedOops) {
1621 return /*dumptime*/ (address)((uintptr_t)narrow_oop_base() + r->mapping_offset());
1622 } else {
1623 return heap_region_requested_address();
1624 }
1625 }
1626
1627 // The address where this region can be mapped into the runtime heap without
1628 // patching any of the pointers that are embedded in this region.
1629 address FileMapInfo::heap_region_requested_address() {
1630 assert(CDSConfig::is_using_archive(), "runtime only");
1631 FileMapRegion* r = region_at(MetaspaceShared::hp);
1632 assert(is_aligned(r->mapping_offset(), sizeof(HeapWord)), "must be");
1633 assert(ArchiveHeapLoader::can_use(), "GC must support mapping or loading");
1634 if (UseCompressedOops) {
1635 // We can avoid relocation if each region's offset from the runtime CompressedOops::base()
1636 // is the same as its offset from the CompressedOops::base() during dumptime.
1637 // Note that CompressedOops::base() may be different between dumptime and runtime.
1638 //
1639 // Example:
1640 // Dumptime base = 0x1000 and shift is 0. We have a region at address 0x2000. There's a
1641 // narrowOop P stored in this region that points to an object at address 0x2200.
1642 // P's encoded value is 0x1200.
1643 //
1644 // Runtime base = 0x4000 and shift is also 0. If we map this region at 0x5000, then
1645 // the value P can remain 0x1200. The decoded address = (0x4000 + (0x1200 << 0)) = 0x5200,
1646 // which is the runtime location of the referenced object.
1647 return /*runtime*/ (address)((uintptr_t)CompressedOops::base() + r->mapping_offset());
1648 } else {
1649 // This was the hard-coded requested base address used at dump time. With uncompressed oops,
1650 // the heap range is assigned by the OS so we will most likely have to relocate anyway, no matter
1651 // what base address was picked at duump time.
1652 return (address)ArchiveHeapWriter::NOCOOPS_REQUESTED_BASE;
1653 }
1654 }
1655
1656 bool FileMapInfo::map_heap_region() {
1657 if (map_heap_region_impl()) {
1658 #ifdef ASSERT
1659 // The "old" regions must be parsable -- we cannot have any unused space
1660 // at the start of the lowest G1 region that contains archived objects.
1661 assert(is_aligned(_mapped_heap_memregion.start(), G1HeapRegion::GrainBytes), "must be");
1662
1663 // Make sure we map at the very top of the heap - see comments in
1664 // init_heap_region_relocation().
1665 MemRegion heap_range = G1CollectedHeap::heap()->reserved();
1666 assert(heap_range.contains(_mapped_heap_memregion), "must be");
1667
1668 address heap_end = (address)heap_range.end();
1669 address mapped_heap_region_end = (address)_mapped_heap_memregion.end();
1670 assert(heap_end >= mapped_heap_region_end, "must be");
1671 assert(heap_end - mapped_heap_region_end < (intx)(G1HeapRegion::GrainBytes),
1672 "must be at the top of the heap to avoid fragmentation");
1673 #endif
1674
1675 ArchiveHeapLoader::set_mapped();
1676 return true;
1677 } else {
1678 return false;
1679 }
1680 }
1681
1682 bool FileMapInfo::map_heap_region_impl() {
1683 assert(UseG1GC, "the following code assumes G1");
1684
1685 FileMapRegion* r = region_at(MetaspaceShared::hp);
1686 size_t size = r->used();
1687 if (size == 0) {
1688 return false; // no archived java heap data
1689 }
1690
1691 size_t word_size = size / HeapWordSize;
1692 address requested_start = heap_region_requested_address();
1693
1694 log_info(cds)("Preferred address to map heap data (to avoid relocation) is " INTPTR_FORMAT, p2i(requested_start));
1695
1696 // allocate from java heap
1697 HeapWord* start = G1CollectedHeap::heap()->alloc_archive_region(word_size, (HeapWord*)requested_start);
1698 if (start == nullptr) {
1699 log_info(cds)("UseSharedSpaces: Unable to allocate java heap region for archive heap.");
1700 return false;
1701 }
1702
1703 _mapped_heap_memregion = MemRegion(start, word_size);
1704
1705 // Map the archived heap data. No need to call MemTracker::record_virtual_memory_tag()
1706 // for mapped region as it is part of the reserved java heap, which is already recorded.
1707 char* addr = (char*)_mapped_heap_memregion.start();
1708 char* base;
1709
1710 if (MetaspaceShared::use_windows_memory_mapping()) {
1711 if (!read_region(MetaspaceShared::hp, addr,
1712 align_up(_mapped_heap_memregion.byte_size(), os::vm_page_size()),
1713 /* do_commit = */ true)) {
1714 dealloc_heap_region();
1715 log_error(cds)("Failed to read archived heap region into " INTPTR_FORMAT, p2i(addr));
1716 return false;
1717 }
1718 // Checks for VerifySharedSpaces is already done inside read_region()
1719 base = addr;
1720 } else {
1721 base = map_memory(_fd, _full_path, r->file_offset(),
1722 addr, _mapped_heap_memregion.byte_size(), r->read_only(),
1723 r->allow_exec());
1724 if (base == nullptr || base != addr) {
1725 dealloc_heap_region();
1726 log_info(cds)("UseSharedSpaces: Unable to map at required address in java heap. "
1727 INTPTR_FORMAT ", size = %zu bytes",
1728 p2i(addr), _mapped_heap_memregion.byte_size());
1729 return false;
1730 }
1731
1732 if (VerifySharedSpaces && !r->check_region_crc(base)) {
1733 dealloc_heap_region();
1734 log_info(cds)("UseSharedSpaces: mapped heap region is corrupt");
1735 return false;
1736 }
1737 }
1738
1739 r->set_mapped_base(base);
1740
1741 // If the requested range is different from the range allocated by GC, then
1742 // the pointers need to be patched.
1743 address mapped_start = (address) _mapped_heap_memregion.start();
1744 ptrdiff_t delta = mapped_start - requested_start;
1745 if (UseCompressedOops &&
1746 (narrow_oop_mode() != CompressedOops::mode() ||
1747 narrow_oop_shift() != CompressedOops::shift())) {
1748 _heap_pointers_need_patching = true;
1749 }
1750 if (delta != 0) {
1751 _heap_pointers_need_patching = true;
1752 }
1753 ArchiveHeapLoader::init_mapped_heap_info(mapped_start, delta, narrow_oop_shift());
1754
1755 if (_heap_pointers_need_patching) {
1756 char* bitmap_base = map_bitmap_region();
1757 if (bitmap_base == nullptr) {
1758 log_info(cds)("CDS heap cannot be used because bitmap region cannot be mapped");
1759 dealloc_heap_region();
1760 _heap_pointers_need_patching = false;
1761 return false;
1762 }
1763 }
1764 log_info(cds)("Heap data mapped at " INTPTR_FORMAT ", size = %8zu bytes",
1765 p2i(mapped_start), _mapped_heap_memregion.byte_size());
1766 log_info(cds)("CDS heap data relocation delta = %zd bytes", delta);
1767 return true;
1768 }
1769
1770 narrowOop FileMapInfo::encoded_heap_region_dumptime_address() {
1771 assert(CDSConfig::is_using_archive(), "runtime only");
1772 assert(UseCompressedOops, "sanity");
1773 FileMapRegion* r = region_at(MetaspaceShared::hp);
1774 return CompressedOops::narrow_oop_cast(r->mapping_offset() >> narrow_oop_shift());
1775 }
1776
1777 void FileMapInfo::patch_heap_embedded_pointers() {
1778 if (!ArchiveHeapLoader::is_mapped() || !_heap_pointers_need_patching) {
1779 return;
1780 }
1781
1782 char* bitmap_base = map_bitmap_region();
1783 assert(bitmap_base != nullptr, "must have already been mapped");
1784
1785 FileMapRegion* r = region_at(MetaspaceShared::hp);
1786 ArchiveHeapLoader::patch_embedded_pointers(
1787 this, _mapped_heap_memregion,
1788 (address)(region_at(MetaspaceShared::bm)->mapped_base()) + r->oopmap_offset(),
1789 r->oopmap_size_in_bits());
1790 }
1791
1792 void FileMapInfo::fixup_mapped_heap_region() {
1793 if (ArchiveHeapLoader::is_mapped()) {
1794 assert(!_mapped_heap_memregion.is_empty(), "sanity");
1795
1796 // Populate the archive regions' G1BlockOffsetTables. That ensures
1797 // fast G1BlockOffsetTable::block_start operations for any given address
1798 // within the archive regions when trying to find start of an object
1799 // (e.g. during card table scanning).
1800 G1CollectedHeap::heap()->populate_archive_regions_bot(_mapped_heap_memregion);
1801 }
1802 }
1803
1804 // dealloc the archive regions from java heap
1805 void FileMapInfo::dealloc_heap_region() {
1806 G1CollectedHeap::heap()->dealloc_archive_regions(_mapped_heap_memregion);
1807 }
1808 #endif // INCLUDE_CDS_JAVA_HEAP
1809
1810 void FileMapInfo::unmap_regions(int regions[], int num_regions) {
1811 for (int r = 0; r < num_regions; r++) {
1812 int idx = regions[r];
1813 unmap_region(idx);
1814 }
1815 }
1816
1817 // Unmap a memory region in the address space.
1818
1819 void FileMapInfo::unmap_region(int i) {
1820 FileMapRegion* r = region_at(i);
1821 char* mapped_base = r->mapped_base();
1822 size_t size = r->used_aligned();
1823
1824 if (mapped_base != nullptr) {
1825 if (size > 0 && r->mapped_from_file()) {
1826 log_info(cds)("Unmapping region #%d at base " INTPTR_FORMAT " (%s)", i, p2i(mapped_base),
1827 shared_region_name[i]);
1828 if (r->in_reserved_space()) {
1829 // This region was mapped inside a ReservedSpace. Its memory will be freed when the ReservedSpace
1830 // is released. Zero it so that we don't accidentally read its content.
1831 log_info(cds)("Region #%d (%s) is in a reserved space, it will be freed when the space is released", i, shared_region_name[i]);
1832 } else {
1833 if (!os::unmap_memory(mapped_base, size)) {
1834 fatal("os::unmap_memory failed");
1835 }
1836 }
1837 }
1838 r->set_mapped_base(nullptr);
1839 }
1840 }
1841
1842 void FileMapInfo::assert_mark(bool check) {
1843 if (!check) {
1844 MetaspaceShared::unrecoverable_loading_error("Mark mismatch while restoring from shared file.");
1845 }
1846 }
1847
1848 FileMapInfo* FileMapInfo::_current_info = nullptr;
1849 FileMapInfo* FileMapInfo::_dynamic_archive_info = nullptr;
1850 bool FileMapInfo::_heap_pointers_need_patching = false;
1851 bool FileMapInfo::_memory_mapping_failed = false;
1852
1853 // Open the shared archive file, read and validate the header
1854 // information (version, boot classpath, etc.). If initialization
1855 // fails, shared spaces are disabled and the file is closed.
1856 //
1857 // Validation of the archive is done in two steps:
1858 //
1859 // [1] validate_header() - done here.
1860 // [2] validate_shared_path_table - this is done later, because the table is in the RO
1861 // region of the archive, which is not mapped yet.
1862 bool FileMapInfo::initialize() {
1863 assert(CDSConfig::is_using_archive(), "UseSharedSpaces expected.");
1864 assert(Arguments::has_jimage(), "The shared archive file cannot be used with an exploded module build.");
1865
1866 if (JvmtiExport::should_post_class_file_load_hook() && JvmtiExport::has_early_class_hook_env()) {
1867 // CDS assumes that no classes resolved in vmClasses::resolve_all()
1868 // are replaced at runtime by JVMTI ClassFileLoadHook. All of those classes are resolved
1869 // during the JVMTI "early" stage, so we can still use CDS if
1870 // JvmtiExport::has_early_class_hook_env() is false.
1871 log_info(cds)("CDS is disabled because early JVMTI ClassFileLoadHook is in use.");
1872 return false;
1873 }
1874
1875 if (!open_for_read() || !init_from_file(_fd) || !validate_header()) {
1876 if (_is_static) {
1877 log_info(cds)("Initialize static archive failed.");
1878 return false;
1879 } else {
1880 log_info(cds)("Initialize dynamic archive failed.");
1881 if (AutoCreateSharedArchive) {
1882 CDSConfig::enable_dumping_dynamic_archive();
1883 ArchiveClassesAtExit = CDSConfig::dynamic_archive_path();
1884 }
1885 return false;
1886 }
1887 }
1888
1889 return true;
1890 }
1891
1892 bool FileMapInfo::validate_aot_class_linking() {
1893 // These checks need to be done after FileMapInfo::initialize(), which gets called before Universe::heap()
1894 // is available.
1895 if (header()->has_aot_linked_classes()) {
1896 CDSConfig::set_has_aot_linked_classes(true);
1897 if (JvmtiExport::should_post_class_file_load_hook()) {
1898 log_error(cds)("CDS archive has aot-linked classes. It cannot be used when JVMTI ClassFileLoadHook is in use.");
1899 return false;
1900 }
1901 if (JvmtiExport::has_early_vmstart_env()) {
1902 log_error(cds)("CDS archive has aot-linked classes. It cannot be used when JVMTI early vm start is in use.");
1903 return false;
1904 }
1905 if (!CDSConfig::is_using_full_module_graph() && !CDSConfig::is_dumping_final_static_archive()) {
1906 log_error(cds)("CDS archive has aot-linked classes. It cannot be used when archived full module graph is not used.");
1907 return false;
1908 }
1909
1910 const char* prop = Arguments::get_property("java.security.manager");
1911 if (prop != nullptr && strcmp(prop, "disallow") != 0) {
1912 log_error(cds)("CDS archive has aot-linked classes. It cannot be used with -Djava.security.manager=%s.", prop);
1913 return false;
1914 }
1915
1916 if (header()->gc_kind() != (int)Universe::heap()->kind()) {
1917 log_error(cds)("CDS archive has aot-linked classes. It cannot be used because GC used during dump time (%s) is not the same as runtime (%s)",
1918 header()->gc_name(), Universe::heap()->name());
1919 return false;
1920 }
1921
1922 #if INCLUDE_JVMTI
1923 if (Arguments::has_jdwp_agent()) {
1924 log_error(cds)("CDS archive has aot-linked classes. It cannot be used with JDWP agent");
1925 return false;
1926 }
1927 #endif
1928 }
1929
1930 return true;
1931 }
1932
1933 // The 2 core spaces are RW->RO
1934 FileMapRegion* FileMapInfo::first_core_region() const {
1935 return region_at(MetaspaceShared::rw);
1936 }
1937
1938 FileMapRegion* FileMapInfo::last_core_region() const {
1939 return region_at(MetaspaceShared::ro);
1940 }
1941
1942 void FileMapInfo::print(outputStream* st) const {
1943 header()->print(st);
1944 if (!is_static()) {
1945 dynamic_header()->print(st);
1946 }
1947 }
1948
1949 void FileMapHeader::set_as_offset(char* p, size_t *offset) {
1950 *offset = ArchiveBuilder::current()->any_to_offset((address)p);
1951 }
1952
1953 int FileMapHeader::compute_crc() {
1954 char* start = (char*)this;
1955 // start computing from the field after _header_size to end of base archive name.
1956 char* buf = (char*)&(_generic_header._header_size) + sizeof(_generic_header._header_size);
1957 size_t sz = header_size() - (buf - start);
1958 int crc = ClassLoader::crc32(0, buf, (jint)sz);
1959 return crc;
1960 }
1961
1962 // This function should only be called during run time with UseSharedSpaces enabled.
1963 bool FileMapHeader::validate() {
1964 const char* file_type = CDSConfig::type_of_archive_being_loaded();
1965 if (_obj_alignment != ObjectAlignmentInBytes) {
1966 log_info(cds)("The %s's ObjectAlignmentInBytes of %d"
1967 " does not equal the current ObjectAlignmentInBytes of %d.",
1968 file_type, _obj_alignment, ObjectAlignmentInBytes);
1969 return false;
1970 }
1971 if (_compact_strings != CompactStrings) {
1972 log_info(cds)("The %s's CompactStrings setting (%s)"
1973 " does not equal the current CompactStrings setting (%s).", file_type,
1974 _compact_strings ? "enabled" : "disabled",
1975 CompactStrings ? "enabled" : "disabled");
1976 return false;
1977 }
1978
1979 // This must be done after header validation because it might change the
1980 // header data
1981 const char* prop = Arguments::get_property("java.system.class.loader");
1982 if (prop != nullptr) {
1983 if (has_aot_linked_classes()) {
1984 log_error(cds)("CDS archive has aot-linked classes. It cannot be used when the "
1985 "java.system.class.loader property is specified.");
1986 return false;
1987 }
1988 log_warning(cds)("Archived non-system classes are disabled because the "
1989 "java.system.class.loader property is specified (value = \"%s\"). "
1990 "To use archived non-system classes, this property must not be set", prop);
1991 _has_platform_or_app_classes = false;
1992 }
1993
1994
1995 if (!_verify_local && BytecodeVerificationLocal) {
1996 // we cannot load boot classes, so there's no point of using the CDS archive
1997 log_info(cds)("The %s's BytecodeVerificationLocal setting (%s)"
1998 " does not equal the current BytecodeVerificationLocal setting (%s).", file_type,
1999 _verify_local ? "enabled" : "disabled",
2000 BytecodeVerificationLocal ? "enabled" : "disabled");
2001 return false;
2002 }
2003
2004 // For backwards compatibility, we don't check the BytecodeVerificationRemote setting
2005 // if the archive only contains system classes.
2006 if (_has_platform_or_app_classes
2007 && !_verify_remote // we didn't verify the archived platform/app classes
2008 && BytecodeVerificationRemote) { // but we want to verify all loaded platform/app classes
2009 log_info(cds)("The %s was created with less restrictive "
2010 "verification setting than the current setting.", file_type);
2011 // Pretend that we didn't have any archived platform/app classes, so they won't be loaded
2012 // by SystemDictionaryShared.
2013 _has_platform_or_app_classes = false;
2014 }
2015
2016 // Java agents are allowed during run time. Therefore, the following condition is not
2017 // checked: (!_allow_archiving_with_java_agent && AllowArchivingWithJavaAgent)
2018 // Note: _allow_archiving_with_java_agent is set in the shared archive during dump time
2019 // while AllowArchivingWithJavaAgent is set during the current run.
2020 if (_allow_archiving_with_java_agent && !AllowArchivingWithJavaAgent) {
2021 log_warning(cds)("The setting of the AllowArchivingWithJavaAgent is different "
2022 "from the setting in the %s.", file_type);
2023 return false;
2024 }
2025
2026 if (_allow_archiving_with_java_agent) {
2027 log_warning(cds)("This %s was created with AllowArchivingWithJavaAgent. It should be used "
2028 "for testing purposes only and should not be used in a production environment", file_type);
2029 }
2030
2031 log_info(cds)("The %s was created with UseCompressedOops = %d, UseCompressedClassPointers = %d, UseCompactObjectHeaders = %d",
2032 file_type, compressed_oops(), compressed_class_pointers(), compact_headers());
2033 if (compressed_oops() != UseCompressedOops || compressed_class_pointers() != UseCompressedClassPointers) {
2034 log_warning(cds)("Unable to use %s.\nThe saved state of UseCompressedOops and UseCompressedClassPointers is "
2035 "different from runtime, CDS will be disabled.", file_type);
2036 return false;
2037 }
2038
2039 if (compact_headers() != UseCompactObjectHeaders) {
2040 log_warning(cds)("Unable to use %s.\nThe %s's UseCompactObjectHeaders setting (%s)"
2041 " does not equal the current UseCompactObjectHeaders setting (%s).", file_type, file_type,
2042 _compact_headers ? "enabled" : "disabled",
2043 UseCompactObjectHeaders ? "enabled" : "disabled");
2044 return false;
2045 }
2046
2047 if (!_use_optimized_module_handling && !CDSConfig::is_dumping_final_static_archive()) {
2048 CDSConfig::stop_using_optimized_module_handling();
2049 log_info(cds)("optimized module handling: disabled because archive was created without optimized module handling");
2050 }
2051
2052 if (is_static()) {
2053 // Only the static archive can contain the full module graph.
2054 if (!_has_full_module_graph) {
2055 CDSConfig::stop_using_full_module_graph("archive was created without full module graph");
2056 }
2057
2058 if (_has_archived_packages) {
2059 CDSConfig::set_is_loading_packages();
2060 }
2061 if (_has_archived_protection_domains) {
2062 CDSConfig::set_is_loading_protection_domains();
2063 }
2064 }
2065
2066 return true;
2067 }
2068
2069 bool FileMapInfo::validate_header() {
2070 if (!header()->validate()) {
2071 return false;
2072 }
2073 if (_is_static) {
2074 return true;
2075 } else {
2076 return DynamicArchive::validate(this);
2077 }
2078 }
2079
2080 #if INCLUDE_JVMTI
2081 ClassPathEntry** FileMapInfo::_classpath_entries_for_jvmti = nullptr;
2082
2083 ClassPathEntry* FileMapInfo::get_classpath_entry_for_jvmti(int i, TRAPS) {
2084 if (i == 0) {
2085 // index 0 corresponds to the ClassPathImageEntry which is a globally shared object
2086 // and should never be deleted.
2087 return ClassLoader::get_jrt_entry();
2088 }
2089 ClassPathEntry* ent = _classpath_entries_for_jvmti[i];
2090 if (ent == nullptr) {
2091 const AOTClassLocation* cl = AOTClassLocationConfig::runtime()->class_location_at(i);
2092 const char* path = cl->path();
2093 struct stat st;
2094 if (os::stat(path, &st) != 0) {
2095 char *msg = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, char, strlen(path) + 128);
2096 jio_snprintf(msg, strlen(path) + 127, "error in finding JAR file %s", path);
2097 THROW_MSG_(vmSymbols::java_io_IOException(), msg, nullptr);
2098 } else {
2099 ent = ClassLoader::create_class_path_entry(THREAD, path, &st);
2100 if (ent == nullptr) {
2101 char *msg = NEW_RESOURCE_ARRAY_IN_THREAD(THREAD, char, strlen(path) + 128);
2102 jio_snprintf(msg, strlen(path) + 127, "error in opening JAR file %s", path);
2103 THROW_MSG_(vmSymbols::java_io_IOException(), msg, nullptr);
2104 }
2105 }
2106
2107 MutexLocker mu(THREAD, CDSClassFileStream_lock);
2108 if (_classpath_entries_for_jvmti[i] == nullptr) {
2109 _classpath_entries_for_jvmti[i] = ent;
2110 } else {
2111 // Another thread has beat me to creating this entry
2112 delete ent;
2113 ent = _classpath_entries_for_jvmti[i];
2114 }
2115 }
2116
2117 return ent;
2118 }
2119
2120 ClassFileStream* FileMapInfo::open_stream_for_jvmti(InstanceKlass* ik, Handle class_loader, TRAPS) {
2121 int path_index = ik->shared_classpath_index();
2122 assert(path_index >= 0, "should be called for shared built-in classes only");
2123 assert(path_index < AOTClassLocationConfig::runtime()->length(), "sanity");
2124
2125 ClassPathEntry* cpe = get_classpath_entry_for_jvmti(path_index, CHECK_NULL);
2126 assert(cpe != nullptr, "must be");
2127
2128 Symbol* name = ik->name();
2129 const char* const class_name = name->as_C_string();
2130 const char* const file_name = ClassLoader::file_name_for_class_name(class_name,
2131 name->utf8_length());
2132 ClassLoaderData* loader_data = ClassLoaderData::class_loader_data(class_loader());
2133 const AOTClassLocation* cl = AOTClassLocationConfig::runtime()->class_location_at(path_index);
2134 ClassFileStream* cfs;
2135 if (class_loader() != nullptr && cl->is_multi_release_jar()) {
2136 // This class was loaded from a multi-release JAR file during dump time. The
2137 // process for finding its classfile is complex. Let's defer to the Java code
2138 // in java.lang.ClassLoader.
2139 cfs = get_stream_from_class_loader(class_loader, cpe, file_name, CHECK_NULL);
2140 } else {
2141 cfs = cpe->open_stream_for_loader(THREAD, file_name, loader_data);
2142 }
2143 assert(cfs != nullptr, "must be able to read the classfile data of shared classes for built-in loaders.");
2144 log_debug(cds, jvmti)("classfile data for %s [%d: %s] = %d bytes", class_name, path_index,
2145 cfs->source(), cfs->length());
2146 return cfs;
2147 }
2148
2149 ClassFileStream* FileMapInfo::get_stream_from_class_loader(Handle class_loader,
2150 ClassPathEntry* cpe,
2151 const char* file_name,
2152 TRAPS) {
2153 JavaValue result(T_OBJECT);
2154 oop class_name = java_lang_String::create_oop_from_str(file_name, THREAD);
2155 Handle h_class_name = Handle(THREAD, class_name);
2156
2157 // byte[] ClassLoader.getResourceAsByteArray(String name)
2158 JavaCalls::call_virtual(&result,
2159 class_loader,
2160 vmClasses::ClassLoader_klass(),
2161 vmSymbols::getResourceAsByteArray_name(),
2162 vmSymbols::getResourceAsByteArray_signature(),
2163 h_class_name,
2164 CHECK_NULL);
2165 assert(result.get_type() == T_OBJECT, "just checking");
2166 oop obj = result.get_oop();
2167 assert(obj != nullptr, "ClassLoader.getResourceAsByteArray should not return null");
2168
2169 // copy from byte[] to a buffer
2170 typeArrayOop ba = typeArrayOop(obj);
2171 jint len = ba->length();
2172 u1* buffer = NEW_RESOURCE_ARRAY(u1, len);
2173 ArrayAccess<>::arraycopy_to_native<>(ba, typeArrayOopDesc::element_offset<jbyte>(0), buffer, len);
2174
2175 return new ClassFileStream(buffer, len, cpe->name());
2176 }
2177 #endif