1 /*
   2  * Copyright (c) 2020, 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/aotArtifactFinder.hpp"
  26 #include "cds/aotClassLinker.hpp"
  27 #include "cds/aotLinkedClassBulkLoader.hpp"
  28 #include "cds/aotLogging.hpp"
  29 #include "cds/aotMapLogger.hpp"
  30 #include "cds/aotMetaspace.hpp"
  31 #include "cds/archiveBuilder.hpp"
  32 #include "cds/archiveHeapWriter.hpp"
  33 #include "cds/archiveUtils.hpp"
  34 #include "cds/cdsConfig.hpp"
  35 #include "cds/cppVtables.hpp"
  36 #include "cds/dumpAllocStats.hpp"
  37 #include "cds/dynamicArchive.hpp"
  38 #include "cds/heapShared.hpp"
  39 #include "cds/regeneratedClasses.hpp"
  40 #include "classfile/classLoader.hpp"
  41 #include "classfile/classLoaderDataShared.hpp"
  42 #include "classfile/javaClasses.hpp"
  43 #include "classfile/symbolTable.hpp"
  44 #include "classfile/systemDictionaryShared.hpp"
  45 #include "classfile/vmClasses.hpp"
  46 #include "code/aotCodeCache.hpp"
  47 #include "interpreter/abstractInterpreter.hpp"
  48 #include "jvm.h"
  49 #include "logging/log.hpp"
  50 #include "memory/allStatic.hpp"
  51 #include "memory/memoryReserver.hpp"
  52 #include "memory/memRegion.hpp"
  53 #include "memory/resourceArea.hpp"
  54 #include "oops/compressedKlass.inline.hpp"
  55 #include "oops/instanceKlass.hpp"
  56 #include "oops/methodCounters.hpp"
  57 #include "oops/methodData.hpp"
  58 #include "oops/objArrayKlass.hpp"
  59 #include "oops/objArrayOop.inline.hpp"
  60 #include "oops/oopHandle.inline.hpp"
  61 #include "oops/trainingData.hpp"
  62 #include "runtime/arguments.hpp"
  63 #include "runtime/globals_extension.hpp"
  64 #include "runtime/javaThread.hpp"
  65 #include "runtime/sharedRuntime.hpp"
  66 #include "utilities/align.hpp"
  67 #include "utilities/bitMap.inline.hpp"
  68 #include "utilities/formatBuffer.hpp"
  69 
  70 ArchiveBuilder* ArchiveBuilder::_current = nullptr;
  71 
  72 ArchiveBuilder::OtherROAllocMark::~OtherROAllocMark() {
  73   char* newtop = ArchiveBuilder::current()->_ro_region.top();
  74   ArchiveBuilder::alloc_stats()->record_other_type(int(newtop - _oldtop), true);
  75 }
  76 
  77 ArchiveBuilder::SourceObjList::SourceObjList() : _ptrmap(16 * K, mtClassShared) {
  78   _total_bytes = 0;
  79   _objs = new (mtClassShared) GrowableArray<SourceObjInfo*>(128 * K, mtClassShared);
  80 }
  81 
  82 ArchiveBuilder::SourceObjList::~SourceObjList() {
  83   delete _objs;
  84 }
  85 
  86 void ArchiveBuilder::SourceObjList::append(SourceObjInfo* src_info) {
  87   // Save this source object for copying
  88   src_info->set_id(_objs->length());
  89   _objs->append(src_info);
  90 
  91   // Prepare for marking the pointers in this source object
  92   assert(is_aligned(_total_bytes, sizeof(address)), "must be");
  93   src_info->set_ptrmap_start(_total_bytes / sizeof(address));
  94   _total_bytes = align_up(_total_bytes + (uintx)src_info->size_in_bytes(), sizeof(address));
  95   src_info->set_ptrmap_end(_total_bytes / sizeof(address));
  96 
  97   BitMap::idx_t bitmap_size_needed = BitMap::idx_t(src_info->ptrmap_end());
  98   if (_ptrmap.size() <= bitmap_size_needed) {
  99     _ptrmap.resize((bitmap_size_needed + 1) * 2);
 100   }
 101 }
 102 
 103 void ArchiveBuilder::SourceObjList::remember_embedded_pointer(SourceObjInfo* src_info, MetaspaceClosure::Ref* ref) {
 104   // src_obj contains a pointer. Remember the location of this pointer in _ptrmap,
 105   // so that we can copy/relocate it later.
 106   src_info->set_has_embedded_pointer();
 107   address src_obj = src_info->source_addr();
 108   address* field_addr = ref->addr();
 109   assert(src_info->ptrmap_start() < _total_bytes, "sanity");
 110   assert(src_info->ptrmap_end() <= _total_bytes, "sanity");
 111   assert(*field_addr != nullptr, "should have checked");
 112 
 113   intx field_offset_in_bytes = ((address)field_addr) - src_obj;
 114   DEBUG_ONLY(int src_obj_size = src_info->size_in_bytes();)
 115   assert(field_offset_in_bytes >= 0, "must be");
 116   assert(field_offset_in_bytes + intx(sizeof(intptr_t)) <= intx(src_obj_size), "must be");
 117   assert(is_aligned(field_offset_in_bytes, sizeof(address)), "must be");
 118 
 119   BitMap::idx_t idx = BitMap::idx_t(src_info->ptrmap_start() + (uintx)(field_offset_in_bytes / sizeof(address)));
 120   _ptrmap.set_bit(BitMap::idx_t(idx));
 121 }
 122 
 123 class RelocateEmbeddedPointers : public BitMapClosure {
 124   ArchiveBuilder* _builder;
 125   address _buffered_obj;
 126   BitMap::idx_t _start_idx;
 127 public:
 128   RelocateEmbeddedPointers(ArchiveBuilder* builder, address buffered_obj, BitMap::idx_t start_idx) :
 129     _builder(builder), _buffered_obj(buffered_obj), _start_idx(start_idx) {}
 130 
 131   bool do_bit(BitMap::idx_t bit_offset) {
 132     size_t field_offset = size_t(bit_offset - _start_idx) * sizeof(address);
 133     address* ptr_loc = (address*)(_buffered_obj + field_offset);
 134 
 135     address old_p_with_tags = *ptr_loc;
 136     assert(old_p_with_tags != nullptr, "null ptrs shouldn't have been marked");
 137 
 138     address old_p = MetaspaceClosure::strip_tags(old_p_with_tags);
 139     uintx tags = MetaspaceClosure::decode_tags(old_p_with_tags);
 140     address new_p = _builder->get_buffered_addr(old_p);
 141 
 142     bool nulled;
 143     if (new_p == nullptr) {
 144       // old_p had a FollowMode of set_to_null
 145       nulled = true;
 146     } else {
 147       new_p = MetaspaceClosure::add_tags(new_p, tags);
 148       nulled = false;
 149     }
 150 
 151     log_trace(aot)("Ref: [" PTR_FORMAT "] -> " PTR_FORMAT " => " PTR_FORMAT " %zu",
 152                    p2i(ptr_loc), p2i(old_p) + tags, p2i(new_p), tags);
 153 
 154     ArchivePtrMarker::set_and_mark_pointer(ptr_loc, new_p);
 155     ArchiveBuilder::current()->count_relocated_pointer(tags != 0, nulled);
 156     return true; // keep iterating the bitmap
 157   }
 158 };
 159 
 160 void ArchiveBuilder::SourceObjList::relocate(int i, ArchiveBuilder* builder) {
 161   SourceObjInfo* src_info = objs()->at(i);
 162   assert(src_info->should_copy(), "must be");
 163   BitMap::idx_t start = BitMap::idx_t(src_info->ptrmap_start()); // inclusive
 164   BitMap::idx_t end = BitMap::idx_t(src_info->ptrmap_end());     // exclusive
 165 
 166   RelocateEmbeddedPointers relocator(builder, src_info->buffered_addr(), start);
 167   _ptrmap.iterate(&relocator, start, end);
 168 }
 169 
 170 ArchiveBuilder::ArchiveBuilder() :
 171   _current_dump_region(nullptr),
 172   _buffer_bottom(nullptr),
 173   _requested_static_archive_bottom(nullptr),
 174   _requested_static_archive_top(nullptr),
 175   _requested_dynamic_archive_bottom(nullptr),
 176   _requested_dynamic_archive_top(nullptr),
 177   _mapped_static_archive_bottom(nullptr),
 178   _mapped_static_archive_top(nullptr),
 179   _buffer_to_requested_delta(0),
 180   _pz_region("pz", MAX_SHARED_DELTA), // protection zone -- used only during dumping; does NOT exist in cds archive.
 181   _rw_region("rw", MAX_SHARED_DELTA),
 182   _ro_region("ro", MAX_SHARED_DELTA),
 183   _ac_region("ac", MAX_SHARED_DELTA),
 184   _ptrmap(mtClassShared),
 185   _rw_ptrmap(mtClassShared),
 186   _ro_ptrmap(mtClassShared),
 187   _rw_src_objs(),
 188   _ro_src_objs(),
 189   _src_obj_table(INITIAL_TABLE_SIZE, MAX_TABLE_SIZE),
 190   _buffered_to_src_table(INITIAL_TABLE_SIZE, MAX_TABLE_SIZE),
 191   _total_heap_region_size(0)
 192 {
 193   _klasses = new (mtClassShared) GrowableArray<Klass*>(4 * K, mtClassShared);
 194   _symbols = new (mtClassShared) GrowableArray<Symbol*>(256 * K, mtClassShared);
 195   _entropy_seed = 0x12345678;
 196   _relocated_ptr_info._num_ptrs = 0;
 197   _relocated_ptr_info._num_tagged_ptrs = 0;
 198   _relocated_ptr_info._num_nulled_ptrs = 0;
 199   assert(_current == nullptr, "must be");
 200   _current = this;
 201 }
 202 
 203 ArchiveBuilder::~ArchiveBuilder() {
 204   assert(_current == this, "must be");
 205   _current = nullptr;
 206 
 207   for (int i = 0; i < _symbols->length(); i++) {
 208     _symbols->at(i)->decrement_refcount();
 209   }
 210 
 211   delete _klasses;
 212   delete _symbols;
 213   if (_shared_rs.is_reserved()) {
 214     MemoryReserver::release(_shared_rs);
 215   }
 216 
 217   AOTArtifactFinder::dispose();
 218 }
 219 
 220 // Returns a deterministic sequence of pseudo random numbers. The main purpose is NOT
 221 // for randomness but to get good entropy for the identity_hash() of archived Symbols,
 222 // while keeping the contents of static CDS archives deterministic to ensure
 223 // reproducibility of JDK builds.
 224 int ArchiveBuilder::entropy() {
 225   assert(SafepointSynchronize::is_at_safepoint(), "needed to ensure deterministic sequence");
 226   _entropy_seed = os::next_random(_entropy_seed);
 227   return static_cast<int>(_entropy_seed);
 228 }
 229 
 230 class GatherKlassesAndSymbols : public UniqueMetaspaceClosure {
 231   ArchiveBuilder* _builder;
 232 
 233 public:
 234   GatherKlassesAndSymbols(ArchiveBuilder* builder) : _builder(builder) {}
 235 
 236   virtual bool do_unique_ref(Ref* ref, bool read_only) {
 237     return _builder->gather_klass_and_symbol(ref, read_only);
 238   }
 239 };
 240 
 241 bool ArchiveBuilder::gather_klass_and_symbol(MetaspaceClosure::Ref* ref, bool read_only) {
 242   if (ref->obj() == nullptr) {
 243     return false;
 244   }
 245   if (get_follow_mode(ref) != make_a_copy) {
 246     return false;
 247   }
 248   if (ref->msotype() == MetaspaceObj::ClassType) {
 249     Klass* klass = (Klass*)ref->obj();
 250     assert(klass->is_klass(), "must be");
 251     if (!is_excluded(klass)) {
 252       _klasses->append(klass);
 253       if (klass->is_hidden()) {
 254         assert(klass->is_instance_klass(), "must be");
 255       }
 256     }
 257   } else if (ref->msotype() == MetaspaceObj::SymbolType) {
 258     // Make sure the symbol won't be GC'ed while we are dumping the archive.
 259     Symbol* sym = (Symbol*)ref->obj();
 260     sym->increment_refcount();
 261     _symbols->append(sym);
 262   }
 263 
 264   return true; // recurse
 265 }
 266 
 267 void ArchiveBuilder::gather_klasses_and_symbols() {
 268   ResourceMark rm;
 269 
 270   AOTArtifactFinder::initialize();
 271   AOTArtifactFinder::find_artifacts();
 272 
 273   aot_log_info(aot)("Gathering classes and symbols ... ");
 274   GatherKlassesAndSymbols doit(this);
 275   iterate_roots(&doit);
 276 #if INCLUDE_CDS_JAVA_HEAP
 277   if (CDSConfig::is_dumping_full_module_graph()) {
 278     ClassLoaderDataShared::iterate_symbols(&doit);
 279   }
 280 #endif
 281   doit.finish();
 282 
 283   if (CDSConfig::is_dumping_static_archive()) {
 284     // To ensure deterministic contents in the static archive, we need to ensure that
 285     // we iterate the MetaspaceObjs in a deterministic order. It doesn't matter where
 286     // the MetaspaceObjs are located originally, as they are copied sequentially into
 287     // the archive during the iteration.
 288     //
 289     // The only issue here is that the symbol table and the system directories may be
 290     // randomly ordered, so we copy the symbols and klasses into two arrays and sort
 291     // them deterministically.
 292     //
 293     // During -Xshare:dump, the order of Symbol creation is strictly determined by
 294     // the SharedClassListFile (class loading is done in a single thread and the JIT
 295     // is disabled). Also, Symbols are allocated in monotonically increasing addresses
 296     // (see Symbol::operator new(size_t, int)). So if we iterate the Symbols by
 297     // ascending address order, we ensure that all Symbols are copied into deterministic
 298     // locations in the archive.
 299     //
 300     // TODO: in the future, if we want to produce deterministic contents in the
 301     // dynamic archive, we might need to sort the symbols alphabetically (also see
 302     // DynamicArchiveBuilder::sort_methods()).
 303     aot_log_info(aot)("Sorting symbols ... ");
 304     _symbols->sort(compare_symbols_by_address);
 305     sort_klasses();
 306   }
 307 
 308   AOTClassLinker::add_candidates();
 309 }
 310 
 311 int ArchiveBuilder::compare_symbols_by_address(Symbol** a, Symbol** b) {
 312   if (a[0] < b[0]) {
 313     return -1;
 314   } else {
 315     assert(a[0] > b[0], "Duplicated symbol %s unexpected", (*a)->as_C_string());
 316     return 1;
 317   }
 318 }
 319 
 320 int ArchiveBuilder::compare_klass_by_name(Klass** a, Klass** b) {
 321   return a[0]->name()->fast_compare(b[0]->name());
 322 }
 323 
 324 void ArchiveBuilder::sort_klasses() {
 325   aot_log_info(aot)("Sorting classes ... ");
 326   _klasses->sort(compare_klass_by_name);
 327 }
 328 
 329 address ArchiveBuilder::reserve_buffer() {
 330   // AOTCodeCache::max_aot_code_size() accounts for aot code region.
 331   size_t buffer_size = LP64_ONLY(CompressedClassSpaceSize) NOT_LP64(256 * M) + AOTCodeCache::max_aot_code_size();
 332   ReservedSpace rs = MemoryReserver::reserve(buffer_size,
 333                                              AOTMetaspace::core_region_alignment(),
 334                                              os::vm_page_size(),
 335                                              mtNone);
 336   if (!rs.is_reserved()) {
 337     aot_log_error(aot)("Failed to reserve %zu bytes of output buffer.", buffer_size);
 338     AOTMetaspace::unrecoverable_writing_error();
 339   }
 340 
 341   // buffer_bottom is the lowest address of the 2 core regions (rw, ro) when
 342   // we are copying the class metadata into the buffer.
 343   address buffer_bottom = (address)rs.base();
 344   aot_log_info(aot)("Reserved output buffer space at " PTR_FORMAT " [%zu bytes]",
 345                 p2i(buffer_bottom), buffer_size);
 346   _shared_rs = rs;
 347 
 348   _buffer_bottom = buffer_bottom;
 349 
 350   if (CDSConfig::is_dumping_static_archive()) {
 351     _current_dump_region = &_pz_region;
 352   } else {
 353     _current_dump_region = &_rw_region;
 354   }
 355   _current_dump_region->init(&_shared_rs, &_shared_vs);
 356 
 357   ArchivePtrMarker::initialize(&_ptrmap, &_shared_vs);
 358 
 359   // The bottom of the static archive should be mapped at this address by default.
 360   _requested_static_archive_bottom = (address)AOTMetaspace::requested_base_address();
 361 
 362   // The bottom of the archive (that I am writing now) should be mapped at this address by default.
 363   address my_archive_requested_bottom;
 364 
 365   if (CDSConfig::is_dumping_static_archive()) {
 366     my_archive_requested_bottom = _requested_static_archive_bottom;
 367   } else {
 368     _mapped_static_archive_bottom = (address)MetaspaceObj::aot_metaspace_base();
 369     _mapped_static_archive_top  = (address)MetaspaceObj::aot_metaspace_top();
 370     assert(_mapped_static_archive_top >= _mapped_static_archive_bottom, "must be");
 371     size_t static_archive_size = _mapped_static_archive_top - _mapped_static_archive_bottom;
 372 
 373     // At run time, we will mmap the dynamic archive at my_archive_requested_bottom
 374     _requested_static_archive_top = _requested_static_archive_bottom + static_archive_size;
 375     my_archive_requested_bottom = align_up(_requested_static_archive_top, AOTMetaspace::core_region_alignment());
 376 
 377     _requested_dynamic_archive_bottom = my_archive_requested_bottom;
 378   }
 379 
 380   _buffer_to_requested_delta = my_archive_requested_bottom - _buffer_bottom;
 381 
 382   address my_archive_requested_top = my_archive_requested_bottom + buffer_size;
 383   if (my_archive_requested_bottom <  _requested_static_archive_bottom ||
 384       my_archive_requested_top    <= _requested_static_archive_bottom) {
 385     // Size overflow.
 386     aot_log_error(aot)("my_archive_requested_bottom = " INTPTR_FORMAT, p2i(my_archive_requested_bottom));
 387     aot_log_error(aot)("my_archive_requested_top    = " INTPTR_FORMAT, p2i(my_archive_requested_top));
 388     aot_log_error(aot)("SharedBaseAddress (" INTPTR_FORMAT ") is too high. "
 389                    "Please rerun java -Xshare:dump with a lower value", p2i(_requested_static_archive_bottom));
 390     AOTMetaspace::unrecoverable_writing_error();
 391   }
 392 
 393   if (CDSConfig::is_dumping_static_archive()) {
 394     // We don't want any valid object to be at the very bottom of the archive.
 395     // See ArchivePtrMarker::mark_pointer().
 396     _pz_region.allocate(AOTMetaspace::protection_zone_size());
 397     start_dump_region(&_rw_region);
 398   }
 399 
 400   return buffer_bottom;
 401 }
 402 
 403 void ArchiveBuilder::iterate_sorted_roots(MetaspaceClosure* it) {
 404   int num_symbols = _symbols->length();
 405   for (int i = 0; i < num_symbols; i++) {
 406     it->push(_symbols->adr_at(i));
 407   }
 408 
 409   int num_klasses = _klasses->length();
 410   for (int i = 0; i < num_klasses; i++) {
 411     it->push(_klasses->adr_at(i));
 412   }
 413 
 414   iterate_roots(it);
 415 }
 416 
 417 class GatherSortedSourceObjs : public MetaspaceClosure {
 418   ArchiveBuilder* _builder;
 419 
 420 public:
 421   GatherSortedSourceObjs(ArchiveBuilder* builder) : _builder(builder) {}
 422 
 423   virtual bool do_ref(Ref* ref, bool read_only) {
 424     return _builder->gather_one_source_obj(ref, read_only);
 425   }
 426 };
 427 
 428 bool ArchiveBuilder::gather_one_source_obj(MetaspaceClosure::Ref* ref, bool read_only) {
 429   address src_obj = ref->obj();
 430   if (src_obj == nullptr) {
 431     return false;
 432   }
 433 
 434   remember_embedded_pointer_in_enclosing_obj(ref);
 435   if (RegeneratedClasses::has_been_regenerated(src_obj)) {
 436     // No need to copy it. We will later relocate it to point to the regenerated klass/method.
 437     return false;
 438   }
 439 
 440   FollowMode follow_mode = get_follow_mode(ref);
 441   SourceObjInfo src_info(ref, read_only, follow_mode);
 442   bool created;
 443   SourceObjInfo* p = _src_obj_table.put_if_absent(src_obj, src_info, &created);
 444   if (created) {
 445     if (_src_obj_table.maybe_grow()) {
 446       log_info(aot, hashtables)("Expanded _src_obj_table table to %d", _src_obj_table.table_size());
 447     }
 448   }
 449 
 450 #ifdef ASSERT
 451   if (ref->msotype() == MetaspaceObj::MethodType) {
 452     Method* m = (Method*)ref->obj();
 453     assert(!RegeneratedClasses::has_been_regenerated((address)m->method_holder()),
 454            "Should not archive methods in a class that has been regenerated");
 455   }
 456 #endif
 457 
 458   if (ref->msotype() == MetaspaceObj::MethodDataType) {
 459     MethodData* md = (MethodData*)ref->obj();
 460     md->clean_method_data(false /* always_clean */);
 461   }
 462 
 463   assert(p->read_only() == src_info.read_only(), "must be");
 464 
 465   if (created && src_info.should_copy()) {
 466     if (read_only) {
 467       _ro_src_objs.append(p);
 468     } else {
 469       _rw_src_objs.append(p);
 470     }
 471     return true; // Need to recurse into this ref only if we are copying it
 472   } else {
 473     return false;
 474   }
 475 }
 476 
 477 void ArchiveBuilder::record_regenerated_object(address orig_src_obj, address regen_src_obj) {
 478   // Record the fact that orig_src_obj has been replaced by regen_src_obj. All calls to get_buffered_addr(orig_src_obj)
 479   // should return the same value as get_buffered_addr(regen_src_obj).
 480   SourceObjInfo* p = _src_obj_table.get(regen_src_obj);
 481   assert(p != nullptr, "regenerated object should always be dumped");
 482   SourceObjInfo orig_src_info(orig_src_obj, p);
 483   bool created;
 484   _src_obj_table.put_if_absent(orig_src_obj, orig_src_info, &created);
 485   assert(created, "We shouldn't have archived the original copy of a regenerated object");
 486 }
 487 
 488 // Remember that we have a pointer inside ref->enclosing_obj() that points to ref->obj()
 489 void ArchiveBuilder::remember_embedded_pointer_in_enclosing_obj(MetaspaceClosure::Ref* ref) {
 490   assert(ref->obj() != nullptr, "should have checked");
 491 
 492   address enclosing_obj = ref->enclosing_obj();
 493   if (enclosing_obj == nullptr) {
 494     return;
 495   }
 496 
 497   // We are dealing with 3 addresses:
 498   // address o    = ref->obj(): We have found an object whose address is o.
 499   // address* mpp = ref->mpp(): The object o is pointed to by a pointer whose address is mpp.
 500   //                            I.e., (*mpp == o)
 501   // enclosing_obj            : If non-null, it is the object which has a field that points to o.
 502   //                            mpp is the address if that field.
 503   //
 504   // Example: We have an array whose first element points to a Method:
 505   //     Method* o                     = 0x0000abcd;
 506   //     Array<Method*>* enclosing_obj = 0x00001000;
 507   //     enclosing_obj->at_put(0, o);
 508   //
 509   // We the MetaspaceClosure iterates on the very first element of this array, we have
 510   //     ref->obj()           == 0x0000abcd   (the Method)
 511   //     ref->mpp()           == 0x00001008   (the location of the first element in the array)
 512   //     ref->enclosing_obj() == 0x00001000   (the Array that contains the Method)
 513   //
 514   // We use the above information to mark the bitmap to indicate that there's a pointer on address 0x00001008.
 515   SourceObjInfo* src_info = _src_obj_table.get(enclosing_obj);
 516   if (src_info == nullptr || !src_info->should_copy()) {
 517     // source objects of point_to_it/set_to_null types are not copied
 518     // so we don't need to remember their pointers.
 519   } else {
 520     if (src_info->read_only()) {
 521       _ro_src_objs.remember_embedded_pointer(src_info, ref);
 522     } else {
 523       _rw_src_objs.remember_embedded_pointer(src_info, ref);
 524     }
 525   }
 526 }
 527 
 528 void ArchiveBuilder::gather_source_objs() {
 529   ResourceMark rm;
 530   aot_log_info(aot)("Gathering all archivable objects ... ");
 531   gather_klasses_and_symbols();
 532   GatherSortedSourceObjs doit(this);
 533   iterate_sorted_roots(&doit);
 534   doit.finish();
 535 }
 536 
 537 bool ArchiveBuilder::is_excluded(Klass* klass) {
 538   if (klass->is_instance_klass()) {
 539     InstanceKlass* ik = InstanceKlass::cast(klass);
 540     return SystemDictionaryShared::is_excluded_class(ik);
 541   } else if (klass->is_objArray_klass()) {
 542     Klass* bottom = ObjArrayKlass::cast(klass)->bottom_klass();
 543     if (CDSConfig::is_dumping_dynamic_archive() && AOTMetaspace::in_aot_cache_static_region(bottom)) {
 544       // The bottom class is in the static archive so it's clearly not excluded.
 545       return false;
 546     } else if (bottom->is_instance_klass()) {
 547       return SystemDictionaryShared::is_excluded_class(InstanceKlass::cast(bottom));
 548     }
 549   }
 550 
 551   return false;
 552 }
 553 
 554 ArchiveBuilder::FollowMode ArchiveBuilder::get_follow_mode(MetaspaceClosure::Ref *ref) {
 555   address obj = ref->obj();
 556   if (CDSConfig::is_dumping_dynamic_archive() && AOTMetaspace::in_aot_cache(obj)) {
 557     // Don't dump existing shared metadata again.
 558     return point_to_it;
 559   } else if (ref->msotype() == MetaspaceObj::MethodDataType ||
 560              ref->msotype() == MetaspaceObj::MethodCountersType ||
 561              ref->msotype() == MetaspaceObj::KlassTrainingDataType ||
 562              ref->msotype() == MetaspaceObj::MethodTrainingDataType ||
 563              ref->msotype() == MetaspaceObj::CompileTrainingDataType) {
 564     return (TrainingData::need_data() || TrainingData::assembling_data()) ? make_a_copy : set_to_null;
 565   } else if (ref->msotype() == MetaspaceObj::AdapterHandlerEntryType) {
 566     return CDSConfig::is_dumping_adapters() ? make_a_copy : set_to_null;
 567   } else {
 568     if (ref->msotype() == MetaspaceObj::ClassType) {
 569       Klass* klass = (Klass*)ref->obj();
 570       assert(klass->is_klass(), "must be");
 571       if (RegeneratedClasses::has_been_regenerated(klass)) {
 572         klass = RegeneratedClasses::get_regenerated_object(klass);
 573       }
 574       if (is_excluded(klass)) {
 575         ResourceMark rm;
 576         log_debug(cds, dynamic)("Skipping class (excluded): %s", klass->external_name());
 577         return set_to_null;
 578       }
 579     }
 580 
 581     return make_a_copy;
 582   }
 583 }
 584 
 585 void ArchiveBuilder::start_dump_region(DumpRegion* next) {
 586   current_dump_region()->pack(next);
 587   _current_dump_region = next;
 588 }
 589 
 590 char* ArchiveBuilder::ro_strdup(const char* s) {
 591   char* archived_str = ro_region_alloc((int)strlen(s) + 1);
 592   strcpy(archived_str, s);
 593   return archived_str;
 594 }
 595 
 596 // The objects that have embedded pointers will sink
 597 // towards the end of the list. This ensures we have a maximum
 598 // number of leading zero bits in the relocation bitmap.
 599 int ArchiveBuilder::compare_src_objs(SourceObjInfo** a, SourceObjInfo** b) {
 600   if ((*a)->has_embedded_pointer() && !(*b)->has_embedded_pointer()) {
 601     return 1;
 602   } else if (!(*a)->has_embedded_pointer() && (*b)->has_embedded_pointer()) {
 603     return -1;
 604   } else {
 605     // This is necessary to keep the sorting order stable. Otherwise the
 606     // archive's contents may not be deterministic.
 607     return (*a)->id() - (*b)->id();
 608   }
 609 }
 610 
 611 void ArchiveBuilder::sort_metadata_objs() {
 612   _rw_src_objs.objs()->sort(compare_src_objs);
 613   _ro_src_objs.objs()->sort(compare_src_objs);
 614 }
 615 
 616 void ArchiveBuilder::dump_rw_metadata() {
 617   ResourceMark rm;
 618   aot_log_info(aot)("Allocating RW objects ... ");
 619   make_shallow_copies(&_rw_region, &_rw_src_objs);
 620 
 621 #if INCLUDE_CDS_JAVA_HEAP
 622   if (CDSConfig::is_dumping_full_module_graph()) {
 623     // Archive the ModuleEntry's and PackageEntry's of the 3 built-in loaders
 624     char* start = rw_region()->top();
 625     ClassLoaderDataShared::allocate_archived_tables();
 626     alloc_stats()->record_modules(rw_region()->top() - start, /*read_only*/false);
 627   }
 628 #endif
 629 }
 630 
 631 void ArchiveBuilder::dump_ro_metadata() {
 632   ResourceMark rm;
 633   aot_log_info(aot)("Allocating RO objects ... ");
 634 
 635   start_dump_region(&_ro_region);
 636   make_shallow_copies(&_ro_region, &_ro_src_objs);
 637 
 638 #if INCLUDE_CDS_JAVA_HEAP
 639   if (CDSConfig::is_dumping_full_module_graph()) {
 640     char* start = ro_region()->top();
 641     ClassLoaderDataShared::init_archived_tables();
 642     alloc_stats()->record_modules(ro_region()->top() - start, /*read_only*/true);
 643   }
 644 #endif
 645 
 646   RegeneratedClasses::record_regenerated_objects();
 647 }
 648 
 649 void ArchiveBuilder::make_shallow_copies(DumpRegion *dump_region,
 650                                          const ArchiveBuilder::SourceObjList* src_objs) {
 651   for (int i = 0; i < src_objs->objs()->length(); i++) {
 652     make_shallow_copy(dump_region, src_objs->objs()->at(i));
 653   }
 654   aot_log_info(aot)("done (%d objects)", src_objs->objs()->length());
 655 }
 656 
 657 void ArchiveBuilder::make_shallow_copy(DumpRegion *dump_region, SourceObjInfo* src_info) {
 658   address src = src_info->source_addr();
 659   int bytes = src_info->size_in_bytes();
 660   char* dest;
 661   char* oldtop;
 662   char* newtop;
 663 
 664   oldtop = dump_region->top();
 665   if (src_info->msotype() == MetaspaceObj::ClassType) {
 666     // Allocate space for a pointer directly in front of the future InstanceKlass, so
 667     // we can do a quick lookup from InstanceKlass* -> RunTimeClassInfo*
 668     // without building another hashtable. See RunTimeClassInfo::get_for()
 669     // in systemDictionaryShared.cpp.
 670     Klass* klass = (Klass*)src;
 671     if (klass->is_instance_klass()) {
 672       SystemDictionaryShared::validate_before_archiving(InstanceKlass::cast(klass));
 673       dump_region->allocate(sizeof(address));
 674     }
 675     // Allocate space for the future InstanceKlass with proper alignment
 676     const size_t alignment =
 677 #ifdef _LP64
 678       UseCompressedClassPointers ?
 679         nth_bit(ArchiveBuilder::precomputed_narrow_klass_shift()) :
 680         SharedSpaceObjectAlignment;
 681 #else
 682       SharedSpaceObjectAlignment;
 683 #endif
 684     dest = dump_region->allocate(bytes, alignment);
 685   } else {
 686     dest = dump_region->allocate(bytes);
 687   }
 688   newtop = dump_region->top();
 689 
 690   memcpy(dest, src, bytes);
 691 
 692   // Update the hash of buffered sorted symbols for static dump so that the symbols have deterministic contents
 693   if (CDSConfig::is_dumping_static_archive() && (src_info->msotype() == MetaspaceObj::SymbolType)) {
 694     Symbol* buffered_symbol = (Symbol*)dest;
 695     assert(((Symbol*)src)->is_permanent(), "archived symbols must be permanent");
 696     buffered_symbol->update_identity_hash();
 697   }
 698 
 699   {
 700     bool created;
 701     _buffered_to_src_table.put_if_absent((address)dest, src, &created);
 702     assert(created, "must be");
 703     if (_buffered_to_src_table.maybe_grow()) {
 704       log_info(aot, hashtables)("Expanded _buffered_to_src_table table to %d", _buffered_to_src_table.table_size());
 705     }
 706   }
 707 
 708   intptr_t* archived_vtable = CppVtables::get_archived_vtable(src_info->msotype(), (address)dest);
 709   if (archived_vtable != nullptr) {
 710     *(address*)dest = (address)archived_vtable;
 711     ArchivePtrMarker::mark_pointer((address*)dest);
 712   }
 713 
 714   log_trace(aot)("Copy: " PTR_FORMAT " ==> " PTR_FORMAT " %d", p2i(src), p2i(dest), bytes);
 715   src_info->set_buffered_addr((address)dest);
 716 
 717   _alloc_stats.record(src_info->msotype(), int(newtop - oldtop), src_info->read_only());
 718 
 719   DEBUG_ONLY(_alloc_stats.verify((int)dump_region->used(), src_info->read_only()));
 720 }
 721 
 722 // This is used by code that hand-assembles data structures, such as the LambdaProxyClassKey, that are
 723 // not handled by MetaspaceClosure.
 724 void ArchiveBuilder::write_pointer_in_buffer(address* ptr_location, address src_addr) {
 725   assert(is_in_buffer_space(ptr_location), "must be");
 726   if (src_addr == nullptr) {
 727     *ptr_location = nullptr;
 728     ArchivePtrMarker::clear_pointer(ptr_location);
 729   } else {
 730     *ptr_location = get_buffered_addr(src_addr);
 731     ArchivePtrMarker::mark_pointer(ptr_location);
 732   }
 733 }
 734 
 735 void ArchiveBuilder::mark_and_relocate_to_buffered_addr(address* ptr_location) {
 736   assert(*ptr_location != nullptr, "sanity");
 737   if (!is_in_mapped_static_archive(*ptr_location)) {
 738     *ptr_location = get_buffered_addr(*ptr_location);
 739   }
 740   ArchivePtrMarker::mark_pointer(ptr_location);
 741 }
 742 
 743 bool ArchiveBuilder::has_been_archived(address src_addr) const {
 744   SourceObjInfo* p = _src_obj_table.get(src_addr);
 745   if (p == nullptr) {
 746     // This object has never been seen by ArchiveBuilder
 747     return false;
 748   }
 749   if (p->buffered_addr() == nullptr) {
 750     // ArchiveBuilder has seen this object, but decided not to archive it. So
 751     // Any reference to this object will be modified to nullptr inside the buffer.
 752     assert(p->follow_mode() == set_to_null, "must be");
 753     return false;
 754   }
 755 
 756   DEBUG_ONLY({
 757     // This is a class/method that belongs to one of the "original" classes that
 758     // have been regenerated by lambdaFormInvokers.cpp. We must have archived
 759     // the "regenerated" version of it.
 760     if (RegeneratedClasses::has_been_regenerated(src_addr)) {
 761       address regen_obj = RegeneratedClasses::get_regenerated_object(src_addr);
 762       precond(regen_obj != nullptr && regen_obj != src_addr);
 763       assert(has_been_archived(regen_obj), "must be");
 764       assert(get_buffered_addr(src_addr) == get_buffered_addr(regen_obj), "must be");
 765     }});
 766 
 767   return true;
 768 }
 769 
 770 address ArchiveBuilder::get_buffered_addr(address src_addr) const {
 771   SourceObjInfo* p = _src_obj_table.get(src_addr);
 772   assert(p != nullptr, "src_addr " INTPTR_FORMAT " is used but has not been archived",
 773          p2i(src_addr));
 774 
 775   return p->buffered_addr();
 776 }
 777 
 778 address ArchiveBuilder::get_source_addr(address buffered_addr) const {
 779   assert(is_in_buffer_space(buffered_addr), "must be");
 780   address* src_p = _buffered_to_src_table.get(buffered_addr);
 781   assert(src_p != nullptr && *src_p != nullptr, "must be");
 782   return *src_p;
 783 }
 784 
 785 void ArchiveBuilder::relocate_embedded_pointers(ArchiveBuilder::SourceObjList* src_objs) {
 786   for (int i = 0; i < src_objs->objs()->length(); i++) {
 787     src_objs->relocate(i, this);
 788   }
 789 }
 790 
 791 void ArchiveBuilder::relocate_metaspaceobj_embedded_pointers() {
 792   aot_log_info(aot)("Relocating embedded pointers in core regions ... ");
 793   relocate_embedded_pointers(&_rw_src_objs);
 794   relocate_embedded_pointers(&_ro_src_objs);
 795   log_info(cds)("Relocating %zu pointers, %zu tagged, %zu nulled",
 796                 _relocated_ptr_info._num_ptrs,
 797                 _relocated_ptr_info._num_tagged_ptrs,
 798                 _relocated_ptr_info._num_nulled_ptrs);
 799 }
 800 
 801 #define ADD_COUNT(x) \
 802   x += 1; \
 803   x ## _a += aotlinked ? 1 : 0; \
 804   x ## _i += inited ? 1 : 0;
 805 
 806 #define DECLARE_INSTANCE_KLASS_COUNTER(x) \
 807   int x = 0; \
 808   int x ## _a = 0; \
 809   int x ## _i = 0;
 810 
 811 void ArchiveBuilder::make_klasses_shareable() {
 812   DECLARE_INSTANCE_KLASS_COUNTER(num_instance_klasses);
 813   DECLARE_INSTANCE_KLASS_COUNTER(num_boot_klasses);
 814   DECLARE_INSTANCE_KLASS_COUNTER(num_vm_klasses);
 815   DECLARE_INSTANCE_KLASS_COUNTER(num_platform_klasses);
 816   DECLARE_INSTANCE_KLASS_COUNTER(num_app_klasses);
 817   DECLARE_INSTANCE_KLASS_COUNTER(num_old_klasses);
 818   DECLARE_INSTANCE_KLASS_COUNTER(num_hidden_klasses);
 819   DECLARE_INSTANCE_KLASS_COUNTER(num_enum_klasses);
 820   DECLARE_INSTANCE_KLASS_COUNTER(num_unregistered_klasses);
 821   int num_unlinked_klasses = 0;
 822   int num_obj_array_klasses = 0;
 823   int num_type_array_klasses = 0;
 824 
 825   int boot_unlinked = 0;
 826   int platform_unlinked = 0;
 827   int app_unlinked = 0;
 828   int unreg_unlinked = 0;
 829 
 830   for (int i = 0; i < klasses()->length(); i++) {
 831     // Some of the code in ConstantPool::remove_unshareable_info() requires the classes
 832     // to be in linked state, so it must be call here before the next loop, which returns
 833     // all classes to unlinked state.
 834     Klass* k = get_buffered_addr(klasses()->at(i));
 835     if (k->is_instance_klass()) {
 836       InstanceKlass::cast(k)->constants()->remove_unshareable_info();
 837     }
 838   }
 839 
 840   for (int i = 0; i < klasses()->length(); i++) {
 841     const char* type;
 842     const char* unlinked = "";
 843     const char* kind = "";
 844     const char* hidden = "";
 845     const char* old = "";
 846     const char* generated = "";
 847     const char* aotlinked_msg = "";
 848     const char* inited_msg = "";
 849     Klass* k = get_buffered_addr(klasses()->at(i));
 850     bool inited = false;
 851     k->remove_java_mirror();
 852 #ifdef _LP64
 853     if (UseCompactObjectHeaders) {
 854       Klass* requested_k = to_requested(k);
 855       address narrow_klass_base = _requested_static_archive_bottom; // runtime encoding base == runtime mapping start
 856       const int narrow_klass_shift = precomputed_narrow_klass_shift();
 857       narrowKlass nk = CompressedKlassPointers::encode_not_null_without_asserts(requested_k, narrow_klass_base, narrow_klass_shift);
 858       k->set_prototype_header(markWord::prototype().set_narrow_klass(nk));
 859     }
 860 #endif //_LP64
 861     if (k->is_objArray_klass()) {
 862       // InstanceKlass and TypeArrayKlass will in turn call remove_unshareable_info
 863       // on their array classes.
 864       num_obj_array_klasses ++;
 865       type = "array";
 866     } else if (k->is_typeArray_klass()) {
 867       num_type_array_klasses ++;
 868       type = "array";
 869       k->remove_unshareable_info();
 870     } else {
 871       assert(k->is_instance_klass(), " must be");
 872       InstanceKlass* ik = InstanceKlass::cast(k);
 873       InstanceKlass* src_ik = get_source_addr(ik);
 874       bool aotlinked = AOTClassLinker::is_candidate(src_ik);
 875       inited = ik->has_aot_initialized_mirror();
 876       ADD_COUNT(num_instance_klasses);
 877       if (ik->is_hidden()) {
 878         ADD_COUNT(num_hidden_klasses);
 879         hidden = " hidden";
 880         oop loader = k->class_loader();
 881         if (loader == nullptr) {
 882           type = "boot";
 883           ADD_COUNT(num_boot_klasses);
 884         } else if (loader == SystemDictionary::java_platform_loader()) {
 885           type = "plat";
 886           ADD_COUNT(num_platform_klasses);
 887         } else if (loader == SystemDictionary::java_system_loader()) {
 888           type = "app";
 889           ADD_COUNT(num_app_klasses);
 890         } else {
 891           type = "bad";
 892           assert(0, "shouldn't happen");
 893         }
 894         if (CDSConfig::is_dumping_method_handles()) {
 895           assert(HeapShared::is_archivable_hidden_klass(ik), "sanity");
 896         } else {
 897           // Legacy CDS support for lambda proxies
 898           CDS_JAVA_HEAP_ONLY(assert(HeapShared::is_lambda_proxy_klass(ik), "sanity");)
 899         }
 900       } else if (ik->defined_by_boot_loader()) {
 901         type = "boot";
 902         ADD_COUNT(num_boot_klasses);
 903       } else if (ik->defined_by_platform_loader()) {
 904         type = "plat";
 905         ADD_COUNT(num_platform_klasses);
 906       } else if (ik->defined_by_app_loader()) {
 907         type = "app";
 908         ADD_COUNT(num_app_klasses);
 909       } else {
 910         assert(ik->defined_by_other_loaders(), "must be");
 911         type = "unreg";
 912         ADD_COUNT(num_unregistered_klasses);
 913       }
 914 
 915       if (AOTClassLinker::is_vm_class(src_ik)) {
 916         ADD_COUNT(num_vm_klasses);
 917       }
 918 
 919       if (!ik->is_linked()) {
 920         num_unlinked_klasses ++;
 921         unlinked = " unlinked";
 922         if (ik->defined_by_boot_loader()) {
 923           boot_unlinked ++;
 924         } else if (ik->defined_by_platform_loader()) {
 925           platform_unlinked ++;
 926         } else if (ik->defined_by_app_loader()) {
 927           app_unlinked ++;
 928         } else {
 929           unreg_unlinked ++;
 930         }
 931       }
 932 
 933       if (ik->is_interface()) {
 934         kind = " interface";
 935       } else if (src_ik->is_enum_subclass()) {
 936         kind = " enum";
 937         ADD_COUNT(num_enum_klasses);
 938       }
 939 
 940       if (!ik->can_be_verified_at_dumptime()) {
 941         ADD_COUNT(num_old_klasses);
 942         old = " old";
 943       }
 944 
 945       if (ik->is_generated_shared_class()) {
 946         generated = " generated";
 947       }
 948       if (aotlinked) {
 949         aotlinked_msg = " aot-linked";
 950       }
 951       if (inited) {
 952         if (InstanceKlass::cast(k)->static_field_size() == 0) {
 953           inited_msg = " inited (no static fields)";
 954         } else {
 955           inited_msg = " inited";
 956         }
 957       }
 958 
 959       AOTMetaspace::rewrite_nofast_bytecodes_and_calculate_fingerprints(Thread::current(), ik);
 960       ik->remove_unshareable_info();
 961     }
 962 
 963     if (aot_log_is_enabled(Debug, aot, class)) {
 964       ResourceMark rm;
 965       aot_log_debug(aot, class)("klasses[%5d] = " PTR_FORMAT " %-5s %s%s%s%s%s%s%s%s", i,
 966                             p2i(to_requested(k)), type, k->external_name(),
 967                             kind, hidden, old, unlinked, generated, aotlinked_msg, inited_msg);
 968     }
 969   }
 970 
 971 #define STATS_FORMAT    "= %5d, aot-linked = %5d, inited = %5d"
 972 #define STATS_PARAMS(x) num_ ## x, num_ ## x ## _a, num_ ## x ## _i
 973 
 974   aot_log_info(aot)("Number of classes %d", num_instance_klasses + num_obj_array_klasses + num_type_array_klasses);
 975   aot_log_info(aot)("    instance classes   " STATS_FORMAT, STATS_PARAMS(instance_klasses));
 976   aot_log_info(aot)("      boot             " STATS_FORMAT, STATS_PARAMS(boot_klasses));
 977   aot_log_info(aot)("        vm             " STATS_FORMAT, STATS_PARAMS(vm_klasses));
 978   aot_log_info(aot)("      platform         " STATS_FORMAT, STATS_PARAMS(platform_klasses));
 979   aot_log_info(aot)("      app              " STATS_FORMAT, STATS_PARAMS(app_klasses));
 980   aot_log_info(aot)("      unregistered     " STATS_FORMAT, STATS_PARAMS(unregistered_klasses));
 981   aot_log_info(aot)("      (enum)           " STATS_FORMAT, STATS_PARAMS(enum_klasses));
 982   aot_log_info(aot)("      (hidden)         " STATS_FORMAT, STATS_PARAMS(hidden_klasses));
 983   aot_log_info(aot)("      (old)            " STATS_FORMAT, STATS_PARAMS(old_klasses));
 984   aot_log_info(aot)("      (unlinked)       = %5d, boot = %d, plat = %d, app = %d, unreg = %d",
 985                 num_unlinked_klasses, boot_unlinked, platform_unlinked, app_unlinked, unreg_unlinked);
 986   aot_log_info(aot)("    obj array classes  = %5d", num_obj_array_klasses);
 987   aot_log_info(aot)("    type array classes = %5d", num_type_array_klasses);
 988   aot_log_info(aot)("               symbols = %5d", _symbols->length());
 989 
 990 #undef STATS_FORMAT
 991 #undef STATS_PARAMS
 992 
 993   DynamicArchive::make_array_klasses_shareable();
 994 }
 995 
 996 void ArchiveBuilder::make_training_data_shareable() {
 997   auto clean_td = [&] (address& src_obj,  SourceObjInfo& info) {
 998     if (!is_in_buffer_space(info.buffered_addr())) {
 999       return;
1000     }
1001 
1002     if (info.msotype() == MetaspaceObj::KlassTrainingDataType ||
1003         info.msotype() == MetaspaceObj::MethodTrainingDataType ||
1004         info.msotype() == MetaspaceObj::CompileTrainingDataType) {
1005       TrainingData* buffered_td = (TrainingData*)info.buffered_addr();
1006       buffered_td->remove_unshareable_info();
1007     } else if (info.msotype() == MetaspaceObj::MethodDataType) {
1008       MethodData* buffered_mdo = (MethodData*)info.buffered_addr();
1009       buffered_mdo->remove_unshareable_info();
1010     } else if (info.msotype() == MetaspaceObj::MethodCountersType) {
1011       MethodCounters* buffered_mc = (MethodCounters*)info.buffered_addr();
1012       buffered_mc->remove_unshareable_info();
1013     }
1014   };
1015   _src_obj_table.iterate_all(clean_td);
1016 }
1017 
1018 void ArchiveBuilder::serialize_dynamic_archivable_items(SerializeClosure* soc) {
1019   SymbolTable::serialize_shared_table_header(soc, false);
1020   SystemDictionaryShared::serialize_dictionary_headers(soc, false);
1021   DynamicArchive::serialize_array_klasses(soc);
1022   AOTLinkedClassBulkLoader::serialize(soc, false);
1023 }
1024 
1025 uintx ArchiveBuilder::buffer_to_offset(address p) const {
1026   address requested_p = to_requested(p);
1027   assert(requested_p >= _requested_static_archive_bottom, "must be");
1028   return requested_p - _requested_static_archive_bottom;
1029 }
1030 
1031 uintx ArchiveBuilder::any_to_offset(address p) const {
1032   if (is_in_mapped_static_archive(p)) {
1033     assert(CDSConfig::is_dumping_dynamic_archive(), "must be");
1034     return p - _mapped_static_archive_bottom;
1035   }
1036   if (!is_in_buffer_space(p)) {
1037     // p must be a "source" address
1038     p = get_buffered_addr(p);
1039   }
1040   return buffer_to_offset(p);
1041 }
1042 
1043 address ArchiveBuilder::offset_to_buffered_address(u4 offset) const {
1044   address requested_addr = _requested_static_archive_bottom + offset;
1045   address buffered_addr = requested_addr - _buffer_to_requested_delta;
1046   assert(is_in_buffer_space(buffered_addr), "bad offset");
1047   return buffered_addr;
1048 }
1049 
1050 void ArchiveBuilder::start_ac_region() {
1051   ro_region()->pack();
1052   start_dump_region(&_ac_region);
1053 }
1054 
1055 void ArchiveBuilder::end_ac_region() {
1056   _ac_region.pack();
1057 }
1058 
1059 #if INCLUDE_CDS_JAVA_HEAP
1060 narrowKlass ArchiveBuilder::get_requested_narrow_klass(Klass* k) {
1061   assert(CDSConfig::is_dumping_heap(), "sanity");
1062   k = get_buffered_klass(k);
1063   Klass* requested_k = to_requested(k);
1064   const int narrow_klass_shift = ArchiveBuilder::precomputed_narrow_klass_shift();
1065 #ifdef ASSERT
1066   const size_t klass_alignment = MAX2(SharedSpaceObjectAlignment, (size_t)nth_bit(narrow_klass_shift));
1067   assert(is_aligned(k, klass_alignment), "Klass " PTR_FORMAT " misaligned.", p2i(k));
1068 #endif
1069   address narrow_klass_base = _requested_static_archive_bottom; // runtime encoding base == runtime mapping start
1070   // Note: use the "raw" version of encode that takes explicit narrow klass base and shift. Don't use any
1071   // of the variants that do sanity checks, nor any of those that use the current - dump - JVM's encoding setting.
1072   return CompressedKlassPointers::encode_not_null_without_asserts(requested_k, narrow_klass_base, narrow_klass_shift);
1073 }
1074 #endif // INCLUDE_CDS_JAVA_HEAP
1075 
1076 // RelocateBufferToRequested --- Relocate all the pointers in rw/ro,
1077 // so that the archive can be mapped to the "requested" location without runtime relocation.
1078 //
1079 // - See ArchiveBuilder header for the definition of "buffer", "mapped" and "requested"
1080 // - ArchivePtrMarker::ptrmap() marks all the pointers in the rw/ro regions
1081 // - Every pointer must have one of the following values:
1082 //   [a] nullptr:
1083 //       No relocation is needed. Remove this pointer from ptrmap so we don't need to
1084 //       consider it at runtime.
1085 //   [b] Points into an object X which is inside the buffer:
1086 //       Adjust this pointer by _buffer_to_requested_delta, so it points to X
1087 //       when the archive is mapped at the requested location.
1088 //   [c] Points into an object Y which is inside mapped static archive:
1089 //       - This happens only during dynamic dump
1090 //       - Adjust this pointer by _mapped_to_requested_static_archive_delta,
1091 //         so it points to Y when the static archive is mapped at the requested location.
1092 template <bool STATIC_DUMP>
1093 class RelocateBufferToRequested : public BitMapClosure {
1094   ArchiveBuilder* _builder;
1095   address _buffer_bottom;
1096   intx _buffer_to_requested_delta;
1097   intx _mapped_to_requested_static_archive_delta;
1098   size_t _max_non_null_offset;
1099 
1100  public:
1101   RelocateBufferToRequested(ArchiveBuilder* builder) {
1102     _builder = builder;
1103     _buffer_bottom = _builder->buffer_bottom();
1104     _buffer_to_requested_delta = builder->buffer_to_requested_delta();
1105     _mapped_to_requested_static_archive_delta = builder->requested_static_archive_bottom() - builder->mapped_static_archive_bottom();
1106     _max_non_null_offset = 0;
1107 
1108     address bottom = _builder->buffer_bottom();
1109     address top = _builder->buffer_top();
1110     address new_bottom = bottom + _buffer_to_requested_delta;
1111     address new_top = top + _buffer_to_requested_delta;
1112     aot_log_debug(aot)("Relocating archive from [" INTPTR_FORMAT " - " INTPTR_FORMAT "] to "
1113                    "[" INTPTR_FORMAT " - " INTPTR_FORMAT "]",
1114                    p2i(bottom), p2i(top),
1115                    p2i(new_bottom), p2i(new_top));
1116   }
1117 
1118   bool do_bit(size_t offset) {
1119     address* p = (address*)_buffer_bottom + offset;
1120     assert(_builder->is_in_buffer_space(p), "pointer must live in buffer space");
1121 
1122     if (*p == nullptr) {
1123       // todo -- clear bit, etc
1124       ArchivePtrMarker::ptrmap()->clear_bit(offset);
1125     } else {
1126       if (STATIC_DUMP) {
1127         assert(_builder->is_in_buffer_space(*p), "old pointer must point inside buffer space");
1128         *p += _buffer_to_requested_delta;
1129         assert(_builder->is_in_requested_static_archive(*p), "new pointer must point inside requested archive");
1130       } else {
1131         if (_builder->is_in_buffer_space(*p)) {
1132           *p += _buffer_to_requested_delta;
1133           // assert is in requested dynamic archive
1134         } else {
1135           assert(_builder->is_in_mapped_static_archive(*p), "old pointer must point inside buffer space or mapped static archive");
1136           *p += _mapped_to_requested_static_archive_delta;
1137           assert(_builder->is_in_requested_static_archive(*p), "new pointer must point inside requested archive");
1138         }
1139       }
1140       _max_non_null_offset = offset;
1141     }
1142 
1143     return true; // keep iterating
1144   }
1145 
1146   void doit() {
1147     ArchivePtrMarker::ptrmap()->iterate(this);
1148     ArchivePtrMarker::compact(_max_non_null_offset);
1149   }
1150 };
1151 
1152 #ifdef _LP64
1153 int ArchiveBuilder::precomputed_narrow_klass_shift() {
1154   // Legacy Mode:
1155   //    We use 32 bits for narrowKlass, which should cover the full 4G Klass range. Shift can be 0.
1156   // CompactObjectHeader Mode:
1157   //    narrowKlass is much smaller, and we use the highest possible shift value to later get the maximum
1158   //    Klass encoding range.
1159   //
1160   // Note that all of this may change in the future, if we decide to correct the pre-calculated
1161   // narrow Klass IDs at archive load time.
1162   assert(UseCompressedClassPointers, "Only needed for compressed class pointers");
1163   return UseCompactObjectHeaders ?  CompressedKlassPointers::max_shift() : 0;
1164 }
1165 #endif // _LP64
1166 
1167 void ArchiveBuilder::relocate_to_requested() {
1168   if (!ro_region()->is_packed()) {
1169     ro_region()->pack();
1170   }
1171   size_t my_archive_size = buffer_top() - buffer_bottom();
1172 
1173   if (CDSConfig::is_dumping_static_archive()) {
1174     _requested_static_archive_top = _requested_static_archive_bottom + my_archive_size;
1175     RelocateBufferToRequested<true> patcher(this);
1176     patcher.doit();
1177   } else {
1178     assert(CDSConfig::is_dumping_dynamic_archive(), "must be");
1179     _requested_dynamic_archive_top = _requested_dynamic_archive_bottom + my_archive_size;
1180     RelocateBufferToRequested<false> patcher(this);
1181     patcher.doit();
1182   }
1183 }
1184 
1185 void ArchiveBuilder::print_stats() {
1186   _alloc_stats.print_stats(int(_ro_region.used()), int(_rw_region.used()));
1187 }
1188 
1189 void ArchiveBuilder::write_archive(FileMapInfo* mapinfo, ArchiveHeapInfo* heap_info) {
1190   // Make sure NUM_CDS_REGIONS (exported in cds.h) agrees with
1191   // AOTMetaspace::n_regions (internal to hotspot).
1192   assert(NUM_CDS_REGIONS == AOTMetaspace::n_regions, "sanity");
1193 
1194   write_region(mapinfo, AOTMetaspace::rw, &_rw_region, /*read_only=*/false,/*allow_exec=*/false);
1195   write_region(mapinfo, AOTMetaspace::ro, &_ro_region, /*read_only=*/true, /*allow_exec=*/false);
1196   write_region(mapinfo, AOTMetaspace::ac, &_ac_region, /*read_only=*/false,/*allow_exec=*/false);
1197 
1198   // Split pointer map into read-write and read-only bitmaps
1199   ArchivePtrMarker::initialize_rw_ro_maps(&_rw_ptrmap, &_ro_ptrmap);
1200 
1201   size_t bitmap_size_in_bytes;
1202   char* bitmap = mapinfo->write_bitmap_region(ArchivePtrMarker::rw_ptrmap(), ArchivePtrMarker::ro_ptrmap(), heap_info,
1203                                               bitmap_size_in_bytes);
1204 
1205   if (heap_info->is_used()) {
1206     _total_heap_region_size = mapinfo->write_heap_region(heap_info);
1207   }
1208 
1209   print_region_stats(mapinfo, heap_info);
1210 
1211   mapinfo->set_requested_base((char*)AOTMetaspace::requested_base_address());
1212   mapinfo->set_header_crc(mapinfo->compute_header_crc());
1213   // After this point, we should not write any data into mapinfo->header() since this
1214   // would corrupt its checksum we have calculated before.
1215   mapinfo->write_header();
1216   mapinfo->close();
1217 
1218   if (log_is_enabled(Info, aot)) {
1219     log_info(aot)("Full module graph = %s", CDSConfig::is_dumping_full_module_graph() ? "enabled" : "disabled");
1220     print_stats();
1221   }
1222 
1223   if (log_is_enabled(Info, aot, map)) {
1224     AOTMapLogger::dumptime_log(this, mapinfo, heap_info, bitmap, bitmap_size_in_bytes);
1225   }
1226   CDS_JAVA_HEAP_ONLY(HeapShared::destroy_archived_object_cache());
1227   FREE_C_HEAP_ARRAY(char, bitmap);
1228 }
1229 
1230 void ArchiveBuilder::write_region(FileMapInfo* mapinfo, int region_idx, DumpRegion* dump_region, bool read_only,  bool allow_exec) {
1231   mapinfo->write_region(region_idx, dump_region->base(), dump_region->used(), read_only, allow_exec);
1232 }
1233 
1234 void ArchiveBuilder::count_relocated_pointer(bool tagged, bool nulled) {
1235   _relocated_ptr_info._num_ptrs ++;
1236   _relocated_ptr_info._num_tagged_ptrs += tagged ? 1 : 0;
1237   _relocated_ptr_info._num_nulled_ptrs += nulled ? 1 : 0;
1238 }
1239 
1240 void ArchiveBuilder::print_region_stats(FileMapInfo *mapinfo, ArchiveHeapInfo* heap_info) {
1241   // Print statistics of all the regions
1242   const size_t bitmap_used = mapinfo->region_at(AOTMetaspace::bm)->used();
1243   const size_t bitmap_reserved = mapinfo->region_at(AOTMetaspace::bm)->used_aligned();
1244   const size_t total_reserved = _ro_region.reserved()  + _rw_region.reserved() +
1245                                 bitmap_reserved +
1246                                 _total_heap_region_size;
1247   const size_t total_bytes = _ro_region.used()  + _rw_region.used() +
1248                              bitmap_used +
1249                              _total_heap_region_size;
1250   const double total_u_perc = percent_of(total_bytes, total_reserved);
1251 
1252   _rw_region.print(total_reserved);
1253   _ro_region.print(total_reserved);
1254   _ac_region.print(total_reserved);
1255 
1256   print_bitmap_region_stats(bitmap_used, total_reserved);
1257 
1258   if (heap_info->is_used()) {
1259     print_heap_region_stats(heap_info, total_reserved);
1260   }
1261 
1262   aot_log_debug(aot)("total   : %9zu [100.0%% of total] out of %9zu bytes [%5.1f%% used]",
1263                  total_bytes, total_reserved, total_u_perc);
1264 }
1265 
1266 void ArchiveBuilder::print_bitmap_region_stats(size_t size, size_t total_size) {
1267   aot_log_debug(aot)("bm space: %9zu [ %4.1f%% of total] out of %9zu bytes [100.0%% used]",
1268                  size, size/double(total_size)*100.0, size);
1269 }
1270 
1271 void ArchiveBuilder::print_heap_region_stats(ArchiveHeapInfo *info, size_t total_size) {
1272   char* start = info->buffer_start();
1273   size_t size = info->buffer_byte_size();
1274   char* top = start + size;
1275   aot_log_debug(aot)("hp space: %9zu [ %4.1f%% of total] out of %9zu bytes [100.0%% used] at " INTPTR_FORMAT,
1276                      size, size/double(total_size)*100.0, size, p2i(start));
1277 }
1278 
1279 void ArchiveBuilder::report_out_of_space(const char* name, size_t needed_bytes) {
1280   // This is highly unlikely to happen on 64-bits because we have reserved a 4GB space.
1281   // On 32-bit we reserve only 256MB so you could run out of space with 100,000 classes
1282   // or so.
1283   _rw_region.print_out_of_space_msg(name, needed_bytes);
1284   _ro_region.print_out_of_space_msg(name, needed_bytes);
1285 
1286   log_error(aot)("Unable to allocate from '%s' region: Please reduce the number of shared classes.", name);
1287   AOTMetaspace::unrecoverable_writing_error();
1288 }