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/cdsConfig.hpp"
  26 #include "cds/metaspaceShared.hpp"
  27 #include "classfile/classFileStream.hpp"
  28 #include "classfile/classLoaderDataGraph.hpp"
  29 #include "classfile/classLoadInfo.hpp"
  30 #include "classfile/javaClasses.inline.hpp"
  31 #include "classfile/metadataOnStackMark.hpp"
  32 #include "classfile/stackMapTable.hpp"
  33 #include "classfile/symbolTable.hpp"
  34 #include "classfile/klassFactory.hpp"
  35 #include "classfile/verifier.hpp"
  36 #include "classfile/vmClasses.hpp"
  37 #include "classfile/vmSymbols.hpp"
  38 #include "code/codeCache.hpp"
  39 #include "compiler/compileBroker.hpp"
  40 #include "interpreter/oopMapCache.hpp"
  41 #include "interpreter/rewriter.hpp"
  42 #include "jfr/jfrEvents.hpp"
  43 #include "logging/logStream.hpp"
  44 #include "memory/metadataFactory.hpp"
  45 #include "memory/resourceArea.hpp"
  46 #include "memory/universe.hpp"
  47 #include "oops/annotations.hpp"
  48 #include "oops/constantPool.hpp"
  49 #include "oops/fieldStreams.inline.hpp"
  50 #include "oops/klass.inline.hpp"
  51 #include "oops/klassVtable.hpp"
  52 #include "oops/method.hpp"
  53 #include "oops/oop.inline.hpp"
  54 #include "oops/recordComponent.hpp"
  55 #include "prims/jvmtiImpl.hpp"
  56 #include "prims/jvmtiRedefineClasses.hpp"
  57 #include "prims/jvmtiThreadState.inline.hpp"
  58 #include "prims/resolvedMethodTable.hpp"
  59 #include "prims/methodComparator.hpp"
  60 #include "runtime/atomic.hpp"
  61 #include "runtime/deoptimization.hpp"
  62 #include "runtime/handles.inline.hpp"
  63 #include "runtime/jniHandles.inline.hpp"
  64 #include "runtime/relocator.hpp"
  65 #include "runtime/safepointVerifiers.hpp"
  66 #include "utilities/bitMap.inline.hpp"
  67 #include "utilities/checkedCast.hpp"
  68 #include "utilities/events.hpp"
  69 #include "utilities/macros.hpp"
  70 
  71 Array<Method*>* VM_RedefineClasses::_old_methods = nullptr;
  72 Array<Method*>* VM_RedefineClasses::_new_methods = nullptr;
  73 Method**  VM_RedefineClasses::_matching_old_methods = nullptr;
  74 Method**  VM_RedefineClasses::_matching_new_methods = nullptr;
  75 Method**  VM_RedefineClasses::_deleted_methods      = nullptr;
  76 Method**  VM_RedefineClasses::_added_methods        = nullptr;
  77 int       VM_RedefineClasses::_matching_methods_length = 0;
  78 int       VM_RedefineClasses::_deleted_methods_length  = 0;
  79 int       VM_RedefineClasses::_added_methods_length    = 0;
  80 
  81 // This flag is global as the constructor does not reset it:
  82 bool      VM_RedefineClasses::_has_redefined_Object = false;
  83 u8        VM_RedefineClasses::_id_counter = 0;
  84 
  85 VM_RedefineClasses::VM_RedefineClasses(jint class_count,
  86                                        const jvmtiClassDefinition *class_defs,
  87                                        JvmtiClassLoadKind class_load_kind) {
  88   _class_count = class_count;
  89   _class_defs = class_defs;
  90   _class_load_kind = class_load_kind;
  91   _any_class_has_resolved_methods = false;
  92   _res = JVMTI_ERROR_NONE;
  93   _the_class = nullptr;
  94   _id = next_id();
  95 }
  96 
  97 static inline InstanceKlass* get_ik(jclass def) {
  98   oop mirror = JNIHandles::resolve_non_null(def);
  99   return InstanceKlass::cast(java_lang_Class::as_Klass(mirror));
 100 }
 101 
 102 // If any of the classes are being redefined, wait
 103 // Parallel constant pool merging leads to indeterminate constant pools.
 104 void VM_RedefineClasses::lock_classes() {
 105   JvmtiThreadState *state = JvmtiThreadState::state_for(JavaThread::current());
 106   GrowableArray<Klass*>* redef_classes = state->get_classes_being_redefined();
 107 
 108   MonitorLocker ml(RedefineClasses_lock);
 109 
 110   if (redef_classes == nullptr) {
 111     redef_classes = new (mtClass) GrowableArray<Klass*>(1, mtClass);
 112     state->set_classes_being_redefined(redef_classes);
 113   }
 114 
 115   bool has_redefined;
 116   do {
 117     has_redefined = false;
 118     // Go through classes each time until none are being redefined. Skip
 119     // the ones that are being redefined by this thread currently. Class file
 120     // load hook event may trigger new class redefine when we are redefining
 121     // a class (after lock_classes()).
 122     for (int i = 0; i < _class_count; i++) {
 123       InstanceKlass* ik = get_ik(_class_defs[i].klass);
 124       // Check if we are currently redefining the class in this thread already.
 125       if (redef_classes->contains(ik)) {
 126         assert(ik->is_being_redefined(), "sanity");
 127       } else {
 128         if (ik->is_being_redefined()) {
 129           ml.wait();
 130           has_redefined = true;
 131           break;  // for loop
 132         }
 133       }
 134     }
 135   } while (has_redefined);
 136 
 137   for (int i = 0; i < _class_count; i++) {
 138     InstanceKlass* ik = get_ik(_class_defs[i].klass);
 139     redef_classes->push(ik); // Add to the _classes_being_redefined list
 140     ik->set_is_being_redefined(true);
 141   }
 142   ml.notify_all();
 143 }
 144 
 145 void VM_RedefineClasses::unlock_classes() {
 146   JvmtiThreadState *state = JvmtiThreadState::state_for(JavaThread::current());
 147   GrowableArray<Klass*>* redef_classes = state->get_classes_being_redefined();
 148   assert(redef_classes != nullptr, "_classes_being_redefined is not allocated");
 149 
 150   MonitorLocker ml(RedefineClasses_lock);
 151 
 152   for (int i = _class_count - 1; i >= 0; i--) {
 153     InstanceKlass* def_ik = get_ik(_class_defs[i].klass);
 154     if (redef_classes->length() > 0) {
 155       // Remove the class from _classes_being_redefined list
 156       Klass* k = redef_classes->pop();
 157       assert(def_ik == k, "unlocking wrong class");
 158     }
 159     assert(def_ik->is_being_redefined(),
 160            "should be being redefined to get here");
 161 
 162     // Unlock after we finish all redefines for this class within
 163     // the thread. Same class can be pushed to the list multiple
 164     // times (not more than once by each recursive redefinition).
 165     if (!redef_classes->contains(def_ik)) {
 166       def_ik->set_is_being_redefined(false);
 167     }
 168   }
 169   ml.notify_all();
 170 }
 171 
 172 bool VM_RedefineClasses::doit_prologue() {
 173   if (_class_count == 0) {
 174     _res = JVMTI_ERROR_NONE;
 175     return false;
 176   }
 177   if (_class_defs == nullptr) {
 178     _res = JVMTI_ERROR_NULL_POINTER;
 179     return false;
 180   }
 181 
 182   for (int i = 0; i < _class_count; i++) {
 183     if (_class_defs[i].klass == nullptr) {
 184       _res = JVMTI_ERROR_INVALID_CLASS;
 185       return false;
 186     }
 187     if (_class_defs[i].class_byte_count == 0) {
 188       _res = JVMTI_ERROR_INVALID_CLASS_FORMAT;
 189       return false;
 190     }
 191     if (_class_defs[i].class_bytes == nullptr) {
 192       _res = JVMTI_ERROR_NULL_POINTER;
 193       return false;
 194     }
 195 
 196     oop mirror = JNIHandles::resolve_non_null(_class_defs[i].klass);
 197     // classes for primitives, arrays, and hidden classes
 198     // cannot be redefined.
 199     if (!is_modifiable_class(mirror)) {
 200       _res = JVMTI_ERROR_UNMODIFIABLE_CLASS;
 201       return false;
 202     }
 203   }
 204 
 205   // Start timer after all the sanity checks; not quite accurate, but
 206   // better than adding a bunch of stop() calls.
 207   if (log_is_enabled(Info, redefine, class, timer)) {
 208     _timer_vm_op_prologue.start();
 209   }
 210 
 211   lock_classes();
 212   // We first load new class versions in the prologue, because somewhere down the
 213   // call chain it is required that the current thread is a Java thread.
 214   _res = load_new_class_versions();
 215   if (_res != JVMTI_ERROR_NONE) {
 216     // free any successfully created classes, since none are redefined
 217     for (int i = 0; i < _class_count; i++) {
 218       if (_scratch_classes[i] != nullptr) {
 219         ClassLoaderData* cld = _scratch_classes[i]->class_loader_data();
 220         // Free the memory for this class at class unloading time.  Not before
 221         // because CMS might think this is still live.
 222         InstanceKlass* ik = get_ik(_class_defs[i].klass);
 223         if (ik->get_cached_class_file() == _scratch_classes[i]->get_cached_class_file()) {
 224           // Don't double-free cached_class_file copied from the original class if error.
 225           _scratch_classes[i]->set_cached_class_file(nullptr);
 226         }
 227         cld->add_to_deallocate_list(InstanceKlass::cast(_scratch_classes[i]));
 228       }
 229     }
 230     // Free os::malloc allocated memory in load_new_class_version.
 231     os::free(_scratch_classes);
 232     _timer_vm_op_prologue.stop();
 233     unlock_classes();
 234     return false;
 235   }
 236 
 237   _timer_vm_op_prologue.stop();
 238   return true;
 239 }
 240 
 241 void VM_RedefineClasses::doit() {
 242   Thread* current = Thread::current();
 243 
 244   if (log_is_enabled(Info, redefine, class, timer)) {
 245     _timer_vm_op_doit.start();
 246   }
 247 
 248 #if INCLUDE_CDS
 249   if (CDSConfig::is_using_archive()) {
 250     // Sharing is enabled so we remap the shared readonly space to
 251     // shared readwrite, private just in case we need to redefine
 252     // a shared class. We do the remap during the doit() phase of
 253     // the safepoint to be safer.
 254     if (!MetaspaceShared::remap_shared_readonly_as_readwrite()) {
 255       log_info(redefine, class, load)("failed to remap shared readonly space to readwrite, private");
 256       _res = JVMTI_ERROR_INTERNAL;
 257       _timer_vm_op_doit.stop();
 258       return;
 259     }
 260   }
 261 #endif
 262 
 263   // Mark methods seen on stack and everywhere else so old methods are not
 264   // cleaned up if they're on the stack.
 265   MetadataOnStackMark md_on_stack(/*walk_all_metadata*/true, /*redefinition_walk*/true);
 266   HandleMark hm(current);   // make sure any handles created are deleted
 267                             // before the stack walk again.
 268 
 269   for (int i = 0; i < _class_count; i++) {
 270     redefine_single_class(current, _class_defs[i].klass, _scratch_classes[i]);
 271   }
 272 
 273   // Flush all compiled code that depends on the classes redefined.
 274   flush_dependent_code();
 275 
 276   // Adjust constantpool caches and vtables for all classes
 277   // that reference methods of the evolved classes.
 278   // Have to do this after all classes are redefined and all methods that
 279   // are redefined are marked as old.
 280   AdjustAndCleanMetadata adjust_and_clean_metadata(current);
 281   ClassLoaderDataGraph::classes_do(&adjust_and_clean_metadata);
 282 
 283   // JSR-292 support
 284   if (_any_class_has_resolved_methods) {
 285     bool trace_name_printed = false;
 286     ResolvedMethodTable::adjust_method_entries(&trace_name_printed);
 287   }
 288 
 289   // Increment flag indicating that some invariants are no longer true.
 290   // See jvmtiExport.hpp for detailed explanation.
 291   JvmtiExport::increment_redefinition_count();
 292 
 293   // check_class() is optionally called for product bits, but is
 294   // always called for non-product bits.
 295 #ifdef PRODUCT
 296   if (log_is_enabled(Trace, redefine, class, obsolete, metadata)) {
 297 #endif
 298     log_trace(redefine, class, obsolete, metadata)("calling check_class");
 299     CheckClass check_class(current);
 300     ClassLoaderDataGraph::classes_do(&check_class);
 301 #ifdef PRODUCT
 302   }
 303 #endif
 304 
 305   // Clean up any metadata now unreferenced while MetadataOnStackMark is set.
 306   ClassLoaderDataGraph::clean_deallocate_lists(false);
 307 
 308   _timer_vm_op_doit.stop();
 309 }
 310 
 311 void VM_RedefineClasses::doit_epilogue() {
 312   unlock_classes();
 313 
 314   // Free os::malloc allocated memory.
 315   os::free(_scratch_classes);
 316 
 317   // Reset the_class to null for error printing.
 318   _the_class = nullptr;
 319 
 320   if (log_is_enabled(Info, redefine, class, timer)) {
 321     // Used to have separate timers for "doit" and "all", but the timer
 322     // overhead skewed the measurements.
 323     julong doit_time = _timer_vm_op_doit.milliseconds();
 324     julong all_time = _timer_vm_op_prologue.milliseconds() + doit_time;
 325 
 326     log_info(redefine, class, timer)
 327       ("vm_op: all=" JULONG_FORMAT "  prologue=" JULONG_FORMAT "  doit=" JULONG_FORMAT,
 328        all_time, (julong)_timer_vm_op_prologue.milliseconds(), doit_time);
 329     log_info(redefine, class, timer)
 330       ("redefine_single_class: phase1=" JULONG_FORMAT "  phase2=" JULONG_FORMAT,
 331        (julong)_timer_rsc_phase1.milliseconds(), (julong)_timer_rsc_phase2.milliseconds());
 332   }
 333 }
 334 
 335 bool VM_RedefineClasses::is_modifiable_class(oop klass_mirror) {
 336   // classes for primitives cannot be redefined
 337   if (java_lang_Class::is_primitive(klass_mirror)) {
 338     return false;
 339   }
 340   Klass* k = java_lang_Class::as_Klass(klass_mirror);
 341   // classes for arrays cannot be redefined
 342   if (k == nullptr || !k->is_instance_klass()) {
 343     return false;
 344   }
 345 
 346   // Cannot redefine or retransform a hidden class.
 347   if (InstanceKlass::cast(k)->is_hidden()) {
 348     return false;
 349   }
 350   if (InstanceKlass::cast(k) == vmClasses::Continuation_klass()) {
 351     // Don't redefine Continuation class. See 8302779.
 352     return false;
 353   }
 354   return true;
 355 }
 356 
 357 // Append the current entry at scratch_i in scratch_cp to *merge_cp_p
 358 // where the end of *merge_cp_p is specified by *merge_cp_length_p. For
 359 // direct CP entries, there is just the current entry to append. For
 360 // indirect and double-indirect CP entries, there are zero or more
 361 // referenced CP entries along with the current entry to append.
 362 // Indirect and double-indirect CP entries are handled by recursive
 363 // calls to append_entry() as needed. The referenced CP entries are
 364 // always appended to *merge_cp_p before the referee CP entry. These
 365 // referenced CP entries may already exist in *merge_cp_p in which case
 366 // there is nothing extra to append and only the current entry is
 367 // appended.
 368 void VM_RedefineClasses::append_entry(const constantPoolHandle& scratch_cp,
 369        int scratch_i, constantPoolHandle *merge_cp_p, int *merge_cp_length_p) {
 370 
 371   // append is different depending on entry tag type
 372   switch (scratch_cp->tag_at(scratch_i).value()) {
 373 
 374     // The old verifier is implemented outside the VM. It loads classes,
 375     // but does not resolve constant pool entries directly so we never
 376     // see Class entries here with the old verifier. Similarly the old
 377     // verifier does not like Class entries in the input constant pool.
 378     // The split-verifier is implemented in the VM so it can optionally
 379     // and directly resolve constant pool entries to load classes. The
 380     // split-verifier can accept either Class entries or UnresolvedClass
 381     // entries in the input constant pool. We revert the appended copy
 382     // back to UnresolvedClass so that either verifier will be happy
 383     // with the constant pool entry.
 384     //
 385     // this is an indirect CP entry so it needs special handling
 386     case JVM_CONSTANT_Class:
 387     case JVM_CONSTANT_UnresolvedClass:
 388     {
 389       int name_i = scratch_cp->klass_name_index_at(scratch_i);
 390       int new_name_i = find_or_append_indirect_entry(scratch_cp, name_i, merge_cp_p,
 391                                                      merge_cp_length_p);
 392 
 393       if (new_name_i != name_i) {
 394         log_trace(redefine, class, constantpool)
 395           ("Class entry@%d name_index change: %d to %d",
 396            *merge_cp_length_p, name_i, new_name_i);
 397       }
 398 
 399       (*merge_cp_p)->temp_unresolved_klass_at_put(*merge_cp_length_p, new_name_i);
 400       if (scratch_i != *merge_cp_length_p) {
 401         // The new entry in *merge_cp_p is at a different index than
 402         // the new entry in scratch_cp so we need to map the index values.
 403         map_index(scratch_cp, scratch_i, *merge_cp_length_p);
 404       }
 405       (*merge_cp_length_p)++;
 406     } break;
 407 
 408     // these are direct CP entries so they can be directly appended,
 409     // but double and long take two constant pool entries
 410     case JVM_CONSTANT_Double:  // fall through
 411     case JVM_CONSTANT_Long:
 412     {
 413       ConstantPool::copy_entry_to(scratch_cp, scratch_i, *merge_cp_p, *merge_cp_length_p);
 414 
 415       if (scratch_i != *merge_cp_length_p) {
 416         // The new entry in *merge_cp_p is at a different index than
 417         // the new entry in scratch_cp so we need to map the index values.
 418         map_index(scratch_cp, scratch_i, *merge_cp_length_p);
 419       }
 420       (*merge_cp_length_p) += 2;
 421     } break;
 422 
 423     // these are direct CP entries so they can be directly appended
 424     case JVM_CONSTANT_Float:   // fall through
 425     case JVM_CONSTANT_Integer: // fall through
 426     case JVM_CONSTANT_Utf8:    // fall through
 427 
 428     // This was an indirect CP entry, but it has been changed into
 429     // Symbol*s so this entry can be directly appended.
 430     case JVM_CONSTANT_String:      // fall through
 431     {
 432       ConstantPool::copy_entry_to(scratch_cp, scratch_i, *merge_cp_p, *merge_cp_length_p);
 433 
 434       if (scratch_i != *merge_cp_length_p) {
 435         // The new entry in *merge_cp_p is at a different index than
 436         // the new entry in scratch_cp so we need to map the index values.
 437         map_index(scratch_cp, scratch_i, *merge_cp_length_p);
 438       }
 439       (*merge_cp_length_p)++;
 440     } break;
 441 
 442     // this is an indirect CP entry so it needs special handling
 443     case JVM_CONSTANT_NameAndType:
 444     {
 445       int name_ref_i = scratch_cp->name_ref_index_at(scratch_i);
 446       int new_name_ref_i = find_or_append_indirect_entry(scratch_cp, name_ref_i, merge_cp_p,
 447                                                          merge_cp_length_p);
 448 
 449       int signature_ref_i = scratch_cp->signature_ref_index_at(scratch_i);
 450       int new_signature_ref_i = find_or_append_indirect_entry(scratch_cp, signature_ref_i,
 451                                                               merge_cp_p, merge_cp_length_p);
 452 
 453       // If the referenced entries already exist in *merge_cp_p, then
 454       // both new_name_ref_i and new_signature_ref_i will both be 0.
 455       // In that case, all we are appending is the current entry.
 456       if (new_name_ref_i != name_ref_i) {
 457         log_trace(redefine, class, constantpool)
 458           ("NameAndType entry@%d name_ref_index change: %d to %d",
 459            *merge_cp_length_p, name_ref_i, new_name_ref_i);
 460       }
 461       if (new_signature_ref_i != signature_ref_i) {
 462         log_trace(redefine, class, constantpool)
 463           ("NameAndType entry@%d signature_ref_index change: %d to %d",
 464            *merge_cp_length_p, signature_ref_i, new_signature_ref_i);
 465       }
 466 
 467       (*merge_cp_p)->name_and_type_at_put(*merge_cp_length_p,
 468         new_name_ref_i, new_signature_ref_i);
 469       if (scratch_i != *merge_cp_length_p) {
 470         // The new entry in *merge_cp_p is at a different index than
 471         // the new entry in scratch_cp so we need to map the index values.
 472         map_index(scratch_cp, scratch_i, *merge_cp_length_p);
 473       }
 474       (*merge_cp_length_p)++;
 475     } break;
 476 
 477     // this is a double-indirect CP entry so it needs special handling
 478     case JVM_CONSTANT_Fieldref:           // fall through
 479     case JVM_CONSTANT_InterfaceMethodref: // fall through
 480     case JVM_CONSTANT_Methodref:
 481     {
 482       int klass_ref_i = scratch_cp->uncached_klass_ref_index_at(scratch_i);
 483       int new_klass_ref_i = find_or_append_indirect_entry(scratch_cp, klass_ref_i,
 484                                                           merge_cp_p, merge_cp_length_p);
 485 
 486       int name_and_type_ref_i = scratch_cp->uncached_name_and_type_ref_index_at(scratch_i);
 487       int new_name_and_type_ref_i = find_or_append_indirect_entry(scratch_cp, name_and_type_ref_i,
 488                                                           merge_cp_p, merge_cp_length_p);
 489 
 490       const char *entry_name = nullptr;
 491       switch (scratch_cp->tag_at(scratch_i).value()) {
 492       case JVM_CONSTANT_Fieldref:
 493         entry_name = "Fieldref";
 494         (*merge_cp_p)->field_at_put(*merge_cp_length_p, new_klass_ref_i,
 495           new_name_and_type_ref_i);
 496         break;
 497       case JVM_CONSTANT_InterfaceMethodref:
 498         entry_name = "IFMethodref";
 499         (*merge_cp_p)->interface_method_at_put(*merge_cp_length_p,
 500           new_klass_ref_i, new_name_and_type_ref_i);
 501         break;
 502       case JVM_CONSTANT_Methodref:
 503         entry_name = "Methodref";
 504         (*merge_cp_p)->method_at_put(*merge_cp_length_p, new_klass_ref_i,
 505           new_name_and_type_ref_i);
 506         break;
 507       default:
 508         guarantee(false, "bad switch");
 509         break;
 510       }
 511 
 512       if (klass_ref_i != new_klass_ref_i) {
 513         log_trace(redefine, class, constantpool)
 514           ("%s entry@%d class_index changed: %d to %d", entry_name, *merge_cp_length_p, klass_ref_i, new_klass_ref_i);
 515       }
 516       if (name_and_type_ref_i != new_name_and_type_ref_i) {
 517         log_trace(redefine, class, constantpool)
 518           ("%s entry@%d name_and_type_index changed: %d to %d",
 519            entry_name, *merge_cp_length_p, name_and_type_ref_i, new_name_and_type_ref_i);
 520       }
 521 
 522       if (scratch_i != *merge_cp_length_p) {
 523         // The new entry in *merge_cp_p is at a different index than
 524         // the new entry in scratch_cp so we need to map the index values.
 525         map_index(scratch_cp, scratch_i, *merge_cp_length_p);
 526       }
 527       (*merge_cp_length_p)++;
 528     } break;
 529 
 530     // this is an indirect CP entry so it needs special handling
 531     case JVM_CONSTANT_MethodType:
 532     {
 533       int ref_i = scratch_cp->method_type_index_at(scratch_i);
 534       int new_ref_i = find_or_append_indirect_entry(scratch_cp, ref_i, merge_cp_p,
 535                                                     merge_cp_length_p);
 536       if (new_ref_i != ref_i) {
 537         log_trace(redefine, class, constantpool)
 538           ("MethodType entry@%d ref_index change: %d to %d", *merge_cp_length_p, ref_i, new_ref_i);
 539       }
 540       (*merge_cp_p)->method_type_index_at_put(*merge_cp_length_p, new_ref_i);
 541       if (scratch_i != *merge_cp_length_p) {
 542         // The new entry in *merge_cp_p is at a different index than
 543         // the new entry in scratch_cp so we need to map the index values.
 544         map_index(scratch_cp, scratch_i, *merge_cp_length_p);
 545       }
 546       (*merge_cp_length_p)++;
 547     } break;
 548 
 549     // this is an indirect CP entry so it needs special handling
 550     case JVM_CONSTANT_MethodHandle:
 551     {
 552       int ref_kind = scratch_cp->method_handle_ref_kind_at(scratch_i);
 553       int ref_i = scratch_cp->method_handle_index_at(scratch_i);
 554       int new_ref_i = find_or_append_indirect_entry(scratch_cp, ref_i, merge_cp_p,
 555                                                     merge_cp_length_p);
 556       if (new_ref_i != ref_i) {
 557         log_trace(redefine, class, constantpool)
 558           ("MethodHandle entry@%d ref_index change: %d to %d", *merge_cp_length_p, ref_i, new_ref_i);
 559       }
 560       (*merge_cp_p)->method_handle_index_at_put(*merge_cp_length_p, ref_kind, new_ref_i);
 561       if (scratch_i != *merge_cp_length_p) {
 562         // The new entry in *merge_cp_p is at a different index than
 563         // the new entry in scratch_cp so we need to map the index values.
 564         map_index(scratch_cp, scratch_i, *merge_cp_length_p);
 565       }
 566       (*merge_cp_length_p)++;
 567     } break;
 568 
 569     // this is an indirect CP entry so it needs special handling
 570     case JVM_CONSTANT_Dynamic:  // fall through
 571     case JVM_CONSTANT_InvokeDynamic:
 572     {
 573       // Index of the bootstrap specifier in the operands array
 574       int old_bs_i = scratch_cp->bootstrap_methods_attribute_index(scratch_i);
 575       int new_bs_i = find_or_append_operand(scratch_cp, old_bs_i, merge_cp_p,
 576                                             merge_cp_length_p);
 577       // The bootstrap method NameAndType_info index
 578       int old_ref_i = scratch_cp->bootstrap_name_and_type_ref_index_at(scratch_i);
 579       int new_ref_i = find_or_append_indirect_entry(scratch_cp, old_ref_i, merge_cp_p,
 580                                                     merge_cp_length_p);
 581       if (new_bs_i != old_bs_i) {
 582         log_trace(redefine, class, constantpool)
 583           ("Dynamic entry@%d bootstrap_method_attr_index change: %d to %d",
 584            *merge_cp_length_p, old_bs_i, new_bs_i);
 585       }
 586       if (new_ref_i != old_ref_i) {
 587         log_trace(redefine, class, constantpool)
 588           ("Dynamic entry@%d name_and_type_index change: %d to %d", *merge_cp_length_p, old_ref_i, new_ref_i);
 589       }
 590 
 591       if (scratch_cp->tag_at(scratch_i).is_dynamic_constant())
 592         (*merge_cp_p)->dynamic_constant_at_put(*merge_cp_length_p, new_bs_i, new_ref_i);
 593       else
 594         (*merge_cp_p)->invoke_dynamic_at_put(*merge_cp_length_p, new_bs_i, new_ref_i);
 595       if (scratch_i != *merge_cp_length_p) {
 596         // The new entry in *merge_cp_p is at a different index than
 597         // the new entry in scratch_cp so we need to map the index values.
 598         map_index(scratch_cp, scratch_i, *merge_cp_length_p);
 599       }
 600       (*merge_cp_length_p)++;
 601     } break;
 602 
 603     // At this stage, Class or UnresolvedClass could be in scratch_cp, but not
 604     // ClassIndex
 605     case JVM_CONSTANT_ClassIndex: // fall through
 606 
 607     // Invalid is used as the tag for the second constant pool entry
 608     // occupied by JVM_CONSTANT_Double or JVM_CONSTANT_Long. It should
 609     // not be seen by itself.
 610     case JVM_CONSTANT_Invalid: // fall through
 611 
 612     // At this stage, String could be here, but not StringIndex
 613     case JVM_CONSTANT_StringIndex: // fall through
 614 
 615     // At this stage JVM_CONSTANT_UnresolvedClassInError should not be
 616     // here
 617     case JVM_CONSTANT_UnresolvedClassInError: // fall through
 618 
 619     default:
 620     {
 621       // leave a breadcrumb
 622       jbyte bad_value = scratch_cp->tag_at(scratch_i).value();
 623       ShouldNotReachHere();
 624     } break;
 625   } // end switch tag value
 626 } // end append_entry()
 627 
 628 
 629 u2 VM_RedefineClasses::find_or_append_indirect_entry(const constantPoolHandle& scratch_cp,
 630       int ref_i, constantPoolHandle *merge_cp_p, int *merge_cp_length_p) {
 631 
 632   int new_ref_i = ref_i;
 633   bool match = (ref_i < *merge_cp_length_p) &&
 634                scratch_cp->compare_entry_to(ref_i, *merge_cp_p, ref_i);
 635 
 636   if (!match) {
 637     // forward reference in *merge_cp_p or not a direct match
 638     int found_i = scratch_cp->find_matching_entry(ref_i, *merge_cp_p);
 639     if (found_i != 0) {
 640       guarantee(found_i != ref_i, "compare_entry_to() and find_matching_entry() do not agree");
 641       // Found a matching entry somewhere else in *merge_cp_p so just need a mapping entry.
 642       new_ref_i = found_i;
 643       map_index(scratch_cp, ref_i, found_i);
 644     } else {
 645       // no match found so we have to append this entry to *merge_cp_p
 646       append_entry(scratch_cp, ref_i, merge_cp_p, merge_cp_length_p);
 647       // The above call to append_entry() can only append one entry
 648       // so the post call query of *merge_cp_length_p is only for
 649       // the sake of consistency.
 650       new_ref_i = *merge_cp_length_p - 1;
 651     }
 652   }
 653 
 654   // constant pool indices are u2, unless the merged constant pool overflows which
 655   // we don't check for.
 656   return checked_cast<u2>(new_ref_i);
 657 } // end find_or_append_indirect_entry()
 658 
 659 
 660 // Append a bootstrap specifier into the merge_cp operands that is semantically equal
 661 // to the scratch_cp operands bootstrap specifier passed by the old_bs_i index.
 662 // Recursively append new merge_cp entries referenced by the new bootstrap specifier.
 663 void VM_RedefineClasses::append_operand(const constantPoolHandle& scratch_cp, const int old_bs_i,
 664        constantPoolHandle *merge_cp_p, int *merge_cp_length_p) {
 665 
 666   BSMAttributeEntry* old_bsme = scratch_cp->bsm_attribute_entry(old_bs_i);
 667   u2 old_ref_i = old_bsme->bootstrap_method_index();
 668   u2 new_ref_i = find_or_append_indirect_entry(scratch_cp, old_ref_i, merge_cp_p,
 669                                                merge_cp_length_p);
 670   if (new_ref_i != old_ref_i) {
 671     log_trace(redefine, class, constantpool)
 672       ("operands entry@%d bootstrap method ref_index change: %d to %d", _operands_cur_length, old_ref_i, new_ref_i);
 673   }
 674 
 675   Array<u2>* merge_ops = (*merge_cp_p)->operands();
 676   int new_bs_i = _operands_cur_length;
 677   // We have _operands_cur_length == 0 when the merge_cp operands is empty yet.
 678   // However, the operand_offset_at(0) was set in the extend_operands() call.
 679   int new_base = (new_bs_i == 0) ? (*merge_cp_p)->operand_offset_at(0)
 680                                  : (*merge_cp_p)->operand_next_offset_at(new_bs_i - 1);
 681   u2 argc      = old_bsme->argument_count();
 682 
 683   ConstantPool::operand_offset_at_put(merge_ops, _operands_cur_length, new_base);
 684   merge_ops->at_put(new_base++, new_ref_i);
 685   merge_ops->at_put(new_base++, argc);
 686 
 687   for (int i = 0; i < argc; i++) {
 688     u2 old_arg_ref_i = old_bsme->argument_index(i);
 689     u2 new_arg_ref_i = find_or_append_indirect_entry(scratch_cp, old_arg_ref_i, merge_cp_p,
 690                                                      merge_cp_length_p);
 691     merge_ops->at_put(new_base++, new_arg_ref_i);
 692     if (new_arg_ref_i != old_arg_ref_i) {
 693       log_trace(redefine, class, constantpool)
 694         ("operands entry@%d bootstrap method argument ref_index change: %d to %d",
 695          _operands_cur_length, old_arg_ref_i, new_arg_ref_i);
 696     }
 697   }
 698   if (old_bs_i != _operands_cur_length) {
 699     // The bootstrap specifier in *merge_cp_p is at a different index than
 700     // that in scratch_cp so we need to map the index values.
 701     map_operand_index(old_bs_i, new_bs_i);
 702   }
 703   _operands_cur_length++;
 704 } // end append_operand()
 705 
 706 
 707 int VM_RedefineClasses::find_or_append_operand(const constantPoolHandle& scratch_cp,
 708       int old_bs_i, constantPoolHandle *merge_cp_p, int *merge_cp_length_p) {
 709 
 710   int new_bs_i = old_bs_i; // bootstrap specifier index
 711   bool match = (old_bs_i < _operands_cur_length) &&
 712                scratch_cp->compare_operand_to(old_bs_i, *merge_cp_p, old_bs_i);
 713 
 714   if (!match) {
 715     // forward reference in *merge_cp_p or not a direct match
 716     int found_i = scratch_cp->find_matching_operand(old_bs_i, *merge_cp_p,
 717                                                     _operands_cur_length);
 718     if (found_i != -1) {
 719       guarantee(found_i != old_bs_i, "compare_operand_to() and find_matching_operand() disagree");
 720       // found a matching operand somewhere else in *merge_cp_p so just need a mapping
 721       new_bs_i = found_i;
 722       map_operand_index(old_bs_i, found_i);
 723     } else {
 724       // no match found so we have to append this bootstrap specifier to *merge_cp_p
 725       append_operand(scratch_cp, old_bs_i, merge_cp_p, merge_cp_length_p);
 726       new_bs_i = _operands_cur_length - 1;
 727     }
 728   }
 729   return new_bs_i;
 730 } // end find_or_append_operand()
 731 
 732 
 733 void VM_RedefineClasses::finalize_operands_merge(const constantPoolHandle& merge_cp, TRAPS) {
 734   if (merge_cp->operands() == nullptr) {
 735     return;
 736   }
 737   // Shrink the merge_cp operands
 738   merge_cp->shrink_operands(_operands_cur_length, CHECK);
 739 
 740   if (log_is_enabled(Trace, redefine, class, constantpool)) {
 741     // don't want to loop unless we are tracing
 742     int count = 0;
 743     for (int i = 1; i < _operands_index_map_p->length(); i++) {
 744       int value = _operands_index_map_p->at(i);
 745       if (value != -1) {
 746         log_trace(redefine, class, constantpool)("operands_index_map[%d]: old=%d new=%d", count, i, value);
 747         count++;
 748       }
 749     }
 750   }
 751   // Clean-up
 752   _operands_index_map_p = nullptr;
 753   _operands_cur_length = 0;
 754   _operands_index_map_count = 0;
 755 } // end finalize_operands_merge()
 756 
 757 // Symbol* comparator for qsort
 758 // The caller must have an active ResourceMark.
 759 static int symcmp(const void* a, const void* b) {
 760   char* astr = (*(Symbol**)a)->as_C_string();
 761   char* bstr = (*(Symbol**)b)->as_C_string();
 762   return strcmp(astr, bstr);
 763 }
 764 
 765 // The caller must have an active ResourceMark.
 766 static jvmtiError check_attribute_arrays(const char* attr_name,
 767            InstanceKlass* the_class, InstanceKlass* scratch_class,
 768            Array<u2>* the_array, Array<u2>* scr_array) {
 769   bool the_array_exists = the_array != Universe::the_empty_short_array();
 770   bool scr_array_exists = scr_array != Universe::the_empty_short_array();
 771 
 772   int array_len = the_array->length();
 773   if (the_array_exists && scr_array_exists) {
 774     if (array_len != scr_array->length()) {
 775       log_trace(redefine, class)
 776         ("redefined class %s attribute change error: %s len=%d changed to len=%d",
 777          the_class->external_name(), attr_name, array_len, scr_array->length());
 778       return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_ATTRIBUTE_CHANGED;
 779     }
 780 
 781     // The order of entries in the attribute array is not specified so we
 782     // have to explicitly check for the same contents. We do this by copying
 783     // the referenced symbols into their own arrays, sorting them and then
 784     // comparing each element pair.
 785 
 786     Symbol** the_syms = NEW_RESOURCE_ARRAY_RETURN_NULL(Symbol*, array_len);
 787     Symbol** scr_syms = NEW_RESOURCE_ARRAY_RETURN_NULL(Symbol*, array_len);
 788 
 789     if (the_syms == nullptr || scr_syms == nullptr) {
 790       return JVMTI_ERROR_OUT_OF_MEMORY;
 791     }
 792 
 793     for (int i = 0; i < array_len; i++) {
 794       int the_cp_index = the_array->at(i);
 795       int scr_cp_index = scr_array->at(i);
 796       the_syms[i] = the_class->constants()->klass_name_at(the_cp_index);
 797       scr_syms[i] = scratch_class->constants()->klass_name_at(scr_cp_index);
 798     }
 799 
 800     qsort(the_syms, array_len, sizeof(Symbol*), symcmp);
 801     qsort(scr_syms, array_len, sizeof(Symbol*), symcmp);
 802 
 803     for (int i = 0; i < array_len; i++) {
 804       if (the_syms[i] != scr_syms[i]) {
 805         log_info(redefine, class)
 806           ("redefined class %s attribute change error: %s[%d]: %s changed to %s",
 807            the_class->external_name(), attr_name, i,
 808            the_syms[i]->as_C_string(), scr_syms[i]->as_C_string());
 809         return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_ATTRIBUTE_CHANGED;
 810       }
 811     }
 812   } else if (the_array_exists ^ scr_array_exists) {
 813     const char* action_str = (the_array_exists) ? "removed" : "added";
 814     log_info(redefine, class)
 815       ("redefined class %s attribute change error: %s attribute %s",
 816        the_class->external_name(), attr_name, action_str);
 817     return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_ATTRIBUTE_CHANGED;
 818   }
 819   return JVMTI_ERROR_NONE;
 820 }
 821 
 822 static jvmtiError check_nest_attributes(InstanceKlass* the_class,
 823                                         InstanceKlass* scratch_class) {
 824   // Check whether the class NestHost attribute has been changed.
 825   Thread* thread = Thread::current();
 826   ResourceMark rm(thread);
 827   u2 the_nest_host_idx = the_class->nest_host_index();
 828   u2 scr_nest_host_idx = scratch_class->nest_host_index();
 829 
 830   if (the_nest_host_idx != 0 && scr_nest_host_idx != 0) {
 831     Symbol* the_sym = the_class->constants()->klass_name_at(the_nest_host_idx);
 832     Symbol* scr_sym = scratch_class->constants()->klass_name_at(scr_nest_host_idx);
 833     if (the_sym != scr_sym) {
 834       log_info(redefine, class, nestmates)
 835         ("redefined class %s attribute change error: NestHost class: %s replaced with: %s",
 836          the_class->external_name(), the_sym->as_C_string(), scr_sym->as_C_string());
 837       return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_ATTRIBUTE_CHANGED;
 838     }
 839   } else if ((the_nest_host_idx == 0) ^ (scr_nest_host_idx == 0)) {
 840     const char* action_str = (the_nest_host_idx != 0) ? "removed" : "added";
 841     log_info(redefine, class, nestmates)
 842       ("redefined class %s attribute change error: NestHost attribute %s",
 843        the_class->external_name(), action_str);
 844     return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_ATTRIBUTE_CHANGED;
 845   }
 846 
 847   // Check whether the class NestMembers attribute has been changed.
 848   return check_attribute_arrays("NestMembers",
 849                                 the_class, scratch_class,
 850                                 the_class->nest_members(),
 851                                 scratch_class->nest_members());
 852 }
 853 
 854 // Return an error status if the class Record attribute was changed.
 855 static jvmtiError check_record_attribute(InstanceKlass* the_class, InstanceKlass* scratch_class) {
 856   // Get lists of record components.
 857   Array<RecordComponent*>* the_record = the_class->record_components();
 858   Array<RecordComponent*>* scr_record = scratch_class->record_components();
 859   bool the_record_exists = the_record != nullptr;
 860   bool scr_record_exists = scr_record != nullptr;
 861 
 862   if (the_record_exists && scr_record_exists) {
 863     int the_num_components = the_record->length();
 864     int scr_num_components = scr_record->length();
 865     if (the_num_components != scr_num_components) {
 866       log_info(redefine, class, record)
 867         ("redefined class %s attribute change error: Record num_components=%d changed to num_components=%d",
 868          the_class->external_name(), the_num_components, scr_num_components);
 869       return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_ATTRIBUTE_CHANGED;
 870     }
 871 
 872     // Compare each field in each record component.
 873     ConstantPool* the_cp =  the_class->constants();
 874     ConstantPool* scr_cp =  scratch_class->constants();
 875     for (int x = 0; x < the_num_components; x++) {
 876       RecordComponent* the_component = the_record->at(x);
 877       RecordComponent* scr_component = scr_record->at(x);
 878       const Symbol* const the_name = the_cp->symbol_at(the_component->name_index());
 879       const Symbol* const scr_name = scr_cp->symbol_at(scr_component->name_index());
 880       const Symbol* const the_descr = the_cp->symbol_at(the_component->descriptor_index());
 881       const Symbol* const scr_descr = scr_cp->symbol_at(scr_component->descriptor_index());
 882       if (the_name != scr_name || the_descr != scr_descr) {
 883         log_info(redefine, class, record)
 884           ("redefined class %s attribute change error: Record name_index, descriptor_index, and/or attributes_count changed",
 885            the_class->external_name());
 886         return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_ATTRIBUTE_CHANGED;
 887       }
 888 
 889       int the_gen_sig = the_component->generic_signature_index();
 890       int scr_gen_sig = scr_component->generic_signature_index();
 891       const Symbol* const the_gen_sig_sym = (the_gen_sig == 0 ? nullptr :
 892         the_cp->symbol_at(the_component->generic_signature_index()));
 893       const Symbol* const scr_gen_sig_sym = (scr_gen_sig == 0 ? nullptr :
 894         scr_cp->symbol_at(scr_component->generic_signature_index()));
 895       if (the_gen_sig_sym != scr_gen_sig_sym) {
 896         log_info(redefine, class, record)
 897           ("redefined class %s attribute change error: Record generic_signature attribute changed",
 898            the_class->external_name());
 899         return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_ATTRIBUTE_CHANGED;
 900       }
 901 
 902       // It's okay if a record component's annotations were changed.
 903     }
 904 
 905   } else if (the_record_exists ^ scr_record_exists) {
 906     const char* action_str = (the_record_exists) ? "removed" : "added";
 907     log_info(redefine, class, record)
 908       ("redefined class %s attribute change error: Record attribute %s",
 909        the_class->external_name(), action_str);
 910     return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_ATTRIBUTE_CHANGED;
 911   }
 912 
 913   return JVMTI_ERROR_NONE;
 914 }
 915 
 916 
 917 static jvmtiError check_permitted_subclasses_attribute(InstanceKlass* the_class,
 918                                                        InstanceKlass* scratch_class) {
 919   Thread* thread = Thread::current();
 920   ResourceMark rm(thread);
 921 
 922   // Check whether the class PermittedSubclasses attribute has been changed.
 923   return check_attribute_arrays("PermittedSubclasses",
 924                                 the_class, scratch_class,
 925                                 the_class->permitted_subclasses(),
 926                                 scratch_class->permitted_subclasses());
 927 }
 928 
 929 static bool can_add_or_delete(Method* m) {
 930       // Compatibility mode
 931   return (AllowRedefinitionToAddDeleteMethods &&
 932           (m->is_private() && (m->is_static() || m->is_final())));
 933 }
 934 
 935 jvmtiError VM_RedefineClasses::compare_and_normalize_class_versions(
 936              InstanceKlass* the_class,
 937              InstanceKlass* scratch_class) {
 938   int i;
 939 
 940   // Check superclasses, or rather their names, since superclasses themselves can be
 941   // requested to replace.
 942   // Check for null superclass first since this might be java.lang.Object
 943   if (the_class->super() != scratch_class->super() &&
 944       (the_class->super() == nullptr || scratch_class->super() == nullptr ||
 945        the_class->super()->name() !=
 946        scratch_class->super()->name())) {
 947     log_info(redefine, class, normalize)
 948       ("redefined class %s superclass change error: superclass changed from %s to %s.",
 949        the_class->external_name(),
 950        the_class->super() == nullptr ? "null" : the_class->super()->external_name(),
 951        scratch_class->super() == nullptr ? "null" : scratch_class->super()->external_name());
 952     return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_HIERARCHY_CHANGED;
 953   }
 954 
 955   // Check if the number, names and order of directly implemented interfaces are the same.
 956   // I think in principle we should just check if the sets of names of directly implemented
 957   // interfaces are the same, i.e. the order of declaration (which, however, if changed in the
 958   // .java file, also changes in .class file) should not matter. However, comparing sets is
 959   // technically a bit more difficult, and, more importantly, I am not sure at present that the
 960   // order of interfaces does not matter on the implementation level, i.e. that the VM does not
 961   // rely on it somewhere.
 962   Array<InstanceKlass*>* k_interfaces = the_class->local_interfaces();
 963   Array<InstanceKlass*>* k_new_interfaces = scratch_class->local_interfaces();
 964   int n_intfs = k_interfaces->length();
 965   if (n_intfs != k_new_interfaces->length()) {
 966     log_info(redefine, class, normalize)
 967       ("redefined class %s interfaces change error: number of implemented interfaces changed from %d to %d.",
 968        the_class->external_name(), n_intfs, k_new_interfaces->length());
 969     return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_HIERARCHY_CHANGED;
 970   }
 971   for (i = 0; i < n_intfs; i++) {
 972     if (k_interfaces->at(i)->name() !=
 973         k_new_interfaces->at(i)->name()) {
 974       log_info(redefine, class, normalize)
 975           ("redefined class %s interfaces change error: interface changed from %s to %s.",
 976            the_class->external_name(),
 977            k_interfaces->at(i)->external_name(), k_new_interfaces->at(i)->external_name());
 978       return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_HIERARCHY_CHANGED;
 979     }
 980   }
 981 
 982   // Check whether class is in the error init state.
 983   if (the_class->is_in_error_state()) {
 984     log_info(redefine, class, normalize)
 985       ("redefined class %s is in error init state.", the_class->external_name());
 986     // TBD #5057930: special error code is needed in 1.6
 987     return JVMTI_ERROR_INVALID_CLASS;
 988   }
 989 
 990   // Check whether the nest-related attributes have been changed.
 991   jvmtiError err = check_nest_attributes(the_class, scratch_class);
 992   if (err != JVMTI_ERROR_NONE) {
 993     return err;
 994   }
 995 
 996   // Check whether the Record attribute has been changed.
 997   err = check_record_attribute(the_class, scratch_class);
 998   if (err != JVMTI_ERROR_NONE) {
 999     return err;
1000   }
1001 
1002   // Check whether the PermittedSubclasses attribute has been changed.
1003   err = check_permitted_subclasses_attribute(the_class, scratch_class);
1004   if (err != JVMTI_ERROR_NONE) {
1005     return err;
1006   }
1007 
1008   // Check whether class modifiers are the same.
1009   u2 old_flags = the_class->access_flags().as_class_flags();
1010   u2 new_flags = scratch_class->access_flags().as_class_flags();
1011   if (old_flags != new_flags) {
1012     log_info(redefine, class, normalize)
1013         ("redefined class %s modifiers change error: modifiers changed from %d to %d.",
1014          the_class->external_name(), old_flags, new_flags);
1015     return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_CLASS_MODIFIERS_CHANGED;
1016   }
1017 
1018   // Check if the number, names, types and order of fields declared in these classes
1019   // are the same.
1020   JavaFieldStream old_fs(the_class);
1021   JavaFieldStream new_fs(scratch_class);
1022   for (; !old_fs.done() && !new_fs.done(); old_fs.next(), new_fs.next()) {
1023     // name and signature
1024     Symbol* name_sym1 = the_class->constants()->symbol_at(old_fs.name_index());
1025     Symbol* sig_sym1 = the_class->constants()->symbol_at(old_fs.signature_index());
1026     Symbol* name_sym2 = scratch_class->constants()->symbol_at(new_fs.name_index());
1027     Symbol* sig_sym2 = scratch_class->constants()->symbol_at(new_fs.signature_index());
1028     if (name_sym1 != name_sym2 || sig_sym1 != sig_sym2) {
1029       log_info(redefine, class, normalize)
1030           ("redefined class %s fields change error: field %s %s changed to %s %s.",
1031            the_class->external_name(),
1032            sig_sym1->as_C_string(), name_sym1->as_C_string(),
1033            sig_sym2->as_C_string(), name_sym2->as_C_string());
1034       return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_SCHEMA_CHANGED;
1035     }
1036     // offset
1037     if (old_fs.offset() != new_fs.offset()) {
1038       log_info(redefine, class, normalize)
1039           ("redefined class %s field %s change error: offset changed from %d to %d.",
1040            the_class->external_name(), name_sym2->as_C_string(), old_fs.offset(), new_fs.offset());
1041       return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_SCHEMA_CHANGED;
1042     }
1043     // access
1044     old_flags = old_fs.access_flags().as_field_flags();
1045     new_flags = new_fs.access_flags().as_field_flags();
1046     if (old_flags != new_flags) {
1047       log_info(redefine, class, normalize)
1048           ("redefined class %s field %s change error: modifiers changed from %d to %d.",
1049            the_class->external_name(), name_sym2->as_C_string(), old_flags, new_flags);
1050       return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_SCHEMA_CHANGED;
1051     }
1052   }
1053 
1054   // If both streams aren't done then we have a differing number of
1055   // fields.
1056   if (!old_fs.done() || !new_fs.done()) {
1057     const char* action = old_fs.done() ? "added" : "deleted";
1058     log_info(redefine, class, normalize)
1059         ("redefined class %s fields change error: some fields were %s.",
1060          the_class->external_name(), action);
1061     return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_SCHEMA_CHANGED;
1062   }
1063 
1064   // Do a parallel walk through the old and new methods. Detect
1065   // cases where they match (exist in both), have been added in
1066   // the new methods, or have been deleted (exist only in the
1067   // old methods).  The class file parser places methods in order
1068   // by method name, but does not order overloaded methods by
1069   // signature.  In order to determine what fate befell the methods,
1070   // this code places the overloaded new methods that have matching
1071   // old methods in the same order as the old methods and places
1072   // new overloaded methods at the end of overloaded methods of
1073   // that name. The code for this order normalization is adapted
1074   // from the algorithm used in InstanceKlass::find_method().
1075   // Since we are swapping out of order entries as we find them,
1076   // we only have to search forward through the overloaded methods.
1077   // Methods which are added and have the same name as an existing
1078   // method (but different signature) will be put at the end of
1079   // the methods with that name, and the name mismatch code will
1080   // handle them.
1081   Array<Method*>* k_old_methods(the_class->methods());
1082   Array<Method*>* k_new_methods(scratch_class->methods());
1083   int n_old_methods = k_old_methods->length();
1084   int n_new_methods = k_new_methods->length();
1085   Thread* thread = Thread::current();
1086 
1087   int ni = 0;
1088   int oi = 0;
1089   while (true) {
1090     Method* k_old_method;
1091     Method* k_new_method;
1092     enum { matched, added, deleted, undetermined } method_was = undetermined;
1093 
1094     if (oi >= n_old_methods) {
1095       if (ni >= n_new_methods) {
1096         break; // we've looked at everything, done
1097       }
1098       // New method at the end
1099       k_new_method = k_new_methods->at(ni);
1100       method_was = added;
1101     } else if (ni >= n_new_methods) {
1102       // Old method, at the end, is deleted
1103       k_old_method = k_old_methods->at(oi);
1104       method_was = deleted;
1105     } else {
1106       // There are more methods in both the old and new lists
1107       k_old_method = k_old_methods->at(oi);
1108       k_new_method = k_new_methods->at(ni);
1109       if (k_old_method->name() != k_new_method->name()) {
1110         // Methods are sorted by method name, so a mismatch means added
1111         // or deleted
1112         if (k_old_method->name()->fast_compare(k_new_method->name()) > 0) {
1113           method_was = added;
1114         } else {
1115           method_was = deleted;
1116         }
1117       } else if (k_old_method->signature() == k_new_method->signature()) {
1118         // Both the name and signature match
1119         method_was = matched;
1120       } else {
1121         // The name matches, but the signature doesn't, which means we have to
1122         // search forward through the new overloaded methods.
1123         int nj;  // outside the loop for post-loop check
1124         for (nj = ni + 1; nj < n_new_methods; nj++) {
1125           Method* m = k_new_methods->at(nj);
1126           if (k_old_method->name() != m->name()) {
1127             // reached another method name so no more overloaded methods
1128             method_was = deleted;
1129             break;
1130           }
1131           if (k_old_method->signature() == m->signature()) {
1132             // found a match so swap the methods
1133             k_new_methods->at_put(ni, m);
1134             k_new_methods->at_put(nj, k_new_method);
1135             k_new_method = m;
1136             method_was = matched;
1137             break;
1138           }
1139         }
1140 
1141         if (nj >= n_new_methods) {
1142           // reached the end without a match; so method was deleted
1143           method_was = deleted;
1144         }
1145       }
1146     }
1147 
1148     switch (method_was) {
1149     case matched:
1150       // methods match, be sure modifiers do too
1151       old_flags = k_old_method->access_flags().as_method_flags();
1152       new_flags = k_new_method->access_flags().as_method_flags();
1153       if ((old_flags ^ new_flags) & ~(JVM_ACC_NATIVE)) {
1154         log_info(redefine, class, normalize)
1155           ("redefined class %s  method %s modifiers error: modifiers changed from %d to %d",
1156            the_class->external_name(), k_old_method->name_and_sig_as_C_string(), old_flags, new_flags);
1157         return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_MODIFIERS_CHANGED;
1158       }
1159       {
1160         u2 new_num = k_new_method->method_idnum();
1161         u2 old_num = k_old_method->method_idnum();
1162         if (new_num != old_num) {
1163           Method* idnum_owner = scratch_class->method_with_idnum(old_num);
1164           if (idnum_owner != nullptr) {
1165             // There is already a method assigned this idnum -- switch them
1166             // Take current and original idnum from the new_method
1167             idnum_owner->set_method_idnum(new_num);
1168             idnum_owner->set_orig_method_idnum(k_new_method->orig_method_idnum());
1169           }
1170           // Take current and original idnum from the old_method
1171           k_new_method->set_method_idnum(old_num);
1172           k_new_method->set_orig_method_idnum(k_old_method->orig_method_idnum());
1173           if (thread->has_pending_exception()) {
1174             return JVMTI_ERROR_OUT_OF_MEMORY;
1175           }
1176         }
1177       }
1178       JFR_ONLY(k_new_method->copy_trace_flags(k_old_method->trace_flags());)
1179       log_trace(redefine, class, normalize)
1180         ("Method matched: new: %s [%d] == old: %s [%d]",
1181          k_new_method->name_and_sig_as_C_string(), ni, k_old_method->name_and_sig_as_C_string(), oi);
1182       // advance to next pair of methods
1183       ++oi;
1184       ++ni;
1185       break;
1186     case added:
1187       // method added, see if it is OK
1188       if (!can_add_or_delete(k_new_method)) {
1189         log_info(redefine, class, normalize)
1190           ("redefined class %s methods error: added method: %s [%d]",
1191            the_class->external_name(), k_new_method->name_and_sig_as_C_string(), ni);
1192         return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_ADDED;
1193       }
1194       {
1195         u2 num = the_class->next_method_idnum();
1196         if (num == ConstMethod::UNSET_IDNUM) {
1197           // cannot add any more methods
1198           log_info(redefine, class, normalize)
1199             ("redefined class %s methods error: can't create ID for new method %s [%d]",
1200              the_class->external_name(), k_new_method->name_and_sig_as_C_string(), ni);
1201           return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_ADDED;
1202         }
1203         u2 new_num = k_new_method->method_idnum();
1204         Method* idnum_owner = scratch_class->method_with_idnum(num);
1205         if (idnum_owner != nullptr) {
1206           // There is already a method assigned this idnum -- switch them
1207           // Take current and original idnum from the new_method
1208           idnum_owner->set_method_idnum(new_num);
1209           idnum_owner->set_orig_method_idnum(k_new_method->orig_method_idnum());
1210         }
1211         k_new_method->set_method_idnum(num);
1212         k_new_method->set_orig_method_idnum(num);
1213         if (thread->has_pending_exception()) {
1214           return JVMTI_ERROR_OUT_OF_MEMORY;
1215         }
1216       }
1217       log_trace(redefine, class, normalize)
1218         ("Method added: new: %s [%d]", k_new_method->name_and_sig_as_C_string(), ni);
1219       ++ni; // advance to next new method
1220       break;
1221     case deleted:
1222       // method deleted, see if it is OK
1223       if (!can_add_or_delete(k_old_method)) {
1224         log_info(redefine, class, normalize)
1225           ("redefined class %s methods error: deleted method %s [%d]",
1226            the_class->external_name(), k_old_method->name_and_sig_as_C_string(), oi);
1227         return JVMTI_ERROR_UNSUPPORTED_REDEFINITION_METHOD_DELETED;
1228       }
1229       log_trace(redefine, class, normalize)
1230         ("Method deleted: old: %s [%d]", k_old_method->name_and_sig_as_C_string(), oi);
1231       ++oi; // advance to next old method
1232       break;
1233     default:
1234       ShouldNotReachHere();
1235     }
1236   }
1237 
1238   return JVMTI_ERROR_NONE;
1239 }
1240 
1241 
1242 // Find new constant pool index value for old constant pool index value
1243 // by searching the index map. Returns zero (0) if there is no mapped
1244 // value for the old constant pool index.
1245 u2 VM_RedefineClasses::find_new_index(int old_index) {
1246   if (_index_map_count == 0) {
1247     // map is empty so nothing can be found
1248     return 0;
1249   }
1250 
1251   if (old_index < 1 || old_index >= _index_map_p->length()) {
1252     // The old_index is out of range so it is not mapped. This should
1253     // not happen in regular constant pool merging use, but it can
1254     // happen if a corrupt annotation is processed.
1255     return 0;
1256   }
1257 
1258   int value = _index_map_p->at(old_index);
1259   if (value == -1) {
1260     // the old_index is not mapped
1261     return 0;
1262   }
1263 
1264   // constant pool indices are u2, unless the merged constant pool overflows which
1265   // we don't check for.
1266   return checked_cast<u2>(value);
1267 } // end find_new_index()
1268 
1269 
1270 // Find new bootstrap specifier index value for old bootstrap specifier index
1271 // value by searching the index map. Returns unused index (-1) if there is
1272 // no mapped value for the old bootstrap specifier index.
1273 int VM_RedefineClasses::find_new_operand_index(int old_index) {
1274   if (_operands_index_map_count == 0) {
1275     // map is empty so nothing can be found
1276     return -1;
1277   }
1278 
1279   if (old_index == -1 || old_index >= _operands_index_map_p->length()) {
1280     // The old_index is out of range so it is not mapped.
1281     // This should not happen in regular constant pool merging use.
1282     return -1;
1283   }
1284 
1285   int value = _operands_index_map_p->at(old_index);
1286   if (value == -1) {
1287     // the old_index is not mapped
1288     return -1;
1289   }
1290 
1291   return value;
1292 } // end find_new_operand_index()
1293 
1294 
1295 // The bug 6214132 caused the verification to fail.
1296 // 1. What's done in RedefineClasses() before verification:
1297 //  a) A reference to the class being redefined (_the_class) and a
1298 //     reference to new version of the class (_scratch_class) are
1299 //     saved here for use during the bytecode verification phase of
1300 //     RedefineClasses.
1301 //  b) The _java_mirror field from _the_class is copied to the
1302 //     _java_mirror field in _scratch_class. This means that a jclass
1303 //     returned for _the_class or _scratch_class will refer to the
1304 //     same Java mirror. The verifier will see the "one true mirror"
1305 //     for the class being verified.
1306 // 2. See comments in JvmtiThreadState for what is done during verification.
1307 
1308 class RedefineVerifyMark : public StackObj {
1309  private:
1310   JvmtiThreadState* _state;
1311   Klass*            _scratch_class;
1312   OopHandle         _scratch_mirror;
1313 
1314  public:
1315 
1316   RedefineVerifyMark(Klass* the_class, Klass* scratch_class,
1317                      JvmtiThreadState* state) : _state(state), _scratch_class(scratch_class)
1318   {
1319     _state->set_class_versions_map(the_class, scratch_class);
1320     _scratch_mirror = the_class->java_mirror_handle();  // this is a copy that is swapped
1321     _scratch_class->swap_java_mirror_handle(_scratch_mirror);
1322   }
1323 
1324   ~RedefineVerifyMark() {
1325     // Restore the scratch class's mirror, so when scratch_class is removed
1326     // the correct mirror pointing to it can be cleared.
1327     _scratch_class->swap_java_mirror_handle(_scratch_mirror);
1328     _state->clear_class_versions_map();
1329   }
1330 };
1331 
1332 
1333 jvmtiError VM_RedefineClasses::load_new_class_versions() {
1334 
1335   // For consistency allocate memory using os::malloc wrapper.
1336   _scratch_classes = (InstanceKlass**)
1337     os::malloc(sizeof(InstanceKlass*) * _class_count, mtClass);
1338   if (_scratch_classes == nullptr) {
1339     return JVMTI_ERROR_OUT_OF_MEMORY;
1340   }
1341   // Zero initialize the _scratch_classes array.
1342   for (int i = 0; i < _class_count; i++) {
1343     _scratch_classes[i] = nullptr;
1344   }
1345 
1346   JavaThread* current = JavaThread::current();
1347   ResourceMark rm(current);
1348 
1349   JvmtiThreadState *state = JvmtiThreadState::state_for(current);
1350   // state can only be null if the current thread is exiting which
1351   // should not happen since we're trying to do a RedefineClasses
1352   guarantee(state != nullptr, "exiting thread calling load_new_class_versions");
1353   for (int i = 0; i < _class_count; i++) {
1354     // Create HandleMark so that any handles created while loading new class
1355     // versions are deleted. Constant pools are deallocated while merging
1356     // constant pools
1357     HandleMark hm(current);
1358     InstanceKlass* the_class = get_ik(_class_defs[i].klass);
1359 
1360     log_debug(redefine, class, load)
1361       ("loading name=%s kind=%d (avail_mem=" UINT64_FORMAT "K)",
1362        the_class->external_name(), _class_load_kind, os::available_memory() >> 10);
1363 
1364     ClassFileStream st((u1*)_class_defs[i].class_bytes,
1365                        _class_defs[i].class_byte_count,
1366                        "__VM_RedefineClasses__");
1367 
1368     // Set redefined class handle in JvmtiThreadState class.
1369     // This redefined class is sent to agent event handler for class file
1370     // load hook event.
1371     state->set_class_being_redefined(the_class, _class_load_kind);
1372 
1373     JavaThread* THREAD = current; // For exception macros.
1374     ExceptionMark em(THREAD);
1375     Handle protection_domain(THREAD, the_class->protection_domain());
1376     ClassLoadInfo cl_info(protection_domain);
1377     // Parse and create a class from the bytes, but this class isn't added
1378     // to the dictionary, so do not call resolve_from_stream.
1379     InstanceKlass* scratch_class = KlassFactory::create_from_stream(&st,
1380                                                       the_class->name(),
1381                                                       the_class->class_loader_data(),
1382                                                       cl_info,
1383                                                       THREAD);
1384 
1385     // Clear class_being_redefined just to be sure.
1386     state->clear_class_being_redefined();
1387 
1388     // TODO: if this is retransform, and nothing changed we can skip it
1389 
1390     // Need to clean up allocated InstanceKlass if there's an error so assign
1391     // the result here. Caller deallocates all the scratch classes in case of
1392     // an error.
1393     _scratch_classes[i] = scratch_class;
1394 
1395     if (HAS_PENDING_EXCEPTION) {
1396       Symbol* ex_name = PENDING_EXCEPTION->klass()->name();
1397       log_info(redefine, class, load, exceptions)("create_from_stream exception: '%s'", ex_name->as_C_string());
1398       CLEAR_PENDING_EXCEPTION;
1399 
1400       if (ex_name == vmSymbols::java_lang_UnsupportedClassVersionError()) {
1401         return JVMTI_ERROR_UNSUPPORTED_VERSION;
1402       } else if (ex_name == vmSymbols::java_lang_ClassFormatError()) {
1403         return JVMTI_ERROR_INVALID_CLASS_FORMAT;
1404       } else if (ex_name == vmSymbols::java_lang_ClassCircularityError()) {
1405         return JVMTI_ERROR_CIRCULAR_CLASS_DEFINITION;
1406       } else if (ex_name == vmSymbols::java_lang_NoClassDefFoundError()) {
1407         // The message will be "XXX (wrong name: YYY)"
1408         return JVMTI_ERROR_NAMES_DONT_MATCH;
1409       } else if (ex_name == vmSymbols::java_lang_OutOfMemoryError()) {
1410         return JVMTI_ERROR_OUT_OF_MEMORY;
1411       } else {  // Just in case more exceptions can be thrown..
1412         return JVMTI_ERROR_FAILS_VERIFICATION;
1413       }
1414     }
1415 
1416     // Ensure class is linked before redefine
1417     if (!the_class->is_linked()) {
1418       the_class->link_class(THREAD);
1419       if (HAS_PENDING_EXCEPTION) {
1420         Symbol* ex_name = PENDING_EXCEPTION->klass()->name();
1421         oop message = java_lang_Throwable::message(PENDING_EXCEPTION);
1422         if (message != nullptr) {
1423           char* ex_msg = java_lang_String::as_utf8_string(message);
1424           log_info(redefine, class, load, exceptions)("link_class exception: '%s %s'",
1425                    ex_name->as_C_string(), ex_msg);
1426         } else {
1427           log_info(redefine, class, load, exceptions)("link_class exception: '%s'",
1428                    ex_name->as_C_string());
1429         }
1430         CLEAR_PENDING_EXCEPTION;
1431         if (ex_name == vmSymbols::java_lang_OutOfMemoryError()) {
1432           return JVMTI_ERROR_OUT_OF_MEMORY;
1433         } else if (ex_name == vmSymbols::java_lang_NoClassDefFoundError()) {
1434           return JVMTI_ERROR_INVALID_CLASS;
1435         } else {
1436           return JVMTI_ERROR_INTERNAL;
1437         }
1438       }
1439     }
1440 
1441     // Do the validity checks in compare_and_normalize_class_versions()
1442     // before verifying the byte codes. By doing these checks first, we
1443     // limit the number of functions that require redirection from
1444     // the_class to scratch_class. In particular, we don't have to
1445     // modify JNI GetSuperclass() and thus won't change its performance.
1446     jvmtiError res = compare_and_normalize_class_versions(the_class,
1447                        scratch_class);
1448     if (res != JVMTI_ERROR_NONE) {
1449       return res;
1450     }
1451 
1452     // verify what the caller passed us
1453     {
1454       // The bug 6214132 caused the verification to fail.
1455       // Information about the_class and scratch_class is temporarily
1456       // recorded into jvmtiThreadState. This data is used to redirect
1457       // the_class to scratch_class in the JVM_* functions called by the
1458       // verifier. Please, refer to jvmtiThreadState.hpp for the detailed
1459       // description.
1460       RedefineVerifyMark rvm(the_class, scratch_class, state);
1461       Verifier::verify(scratch_class, true, THREAD);
1462     }
1463 
1464     if (HAS_PENDING_EXCEPTION) {
1465       Symbol* ex_name = PENDING_EXCEPTION->klass()->name();
1466       log_info(redefine, class, load, exceptions)("verify_byte_codes exception: '%s'", ex_name->as_C_string());
1467       CLEAR_PENDING_EXCEPTION;
1468       if (ex_name == vmSymbols::java_lang_OutOfMemoryError()) {
1469         return JVMTI_ERROR_OUT_OF_MEMORY;
1470       } else {
1471         // tell the caller the bytecodes are bad
1472         return JVMTI_ERROR_FAILS_VERIFICATION;
1473       }
1474     }
1475 
1476     res = merge_cp_and_rewrite(the_class, scratch_class, THREAD);
1477     if (HAS_PENDING_EXCEPTION) {
1478       Symbol* ex_name = PENDING_EXCEPTION->klass()->name();
1479       log_info(redefine, class, load, exceptions)("merge_cp_and_rewrite exception: '%s'", ex_name->as_C_string());
1480       CLEAR_PENDING_EXCEPTION;
1481       if (ex_name == vmSymbols::java_lang_OutOfMemoryError()) {
1482         return JVMTI_ERROR_OUT_OF_MEMORY;
1483       } else {
1484         return JVMTI_ERROR_INTERNAL;
1485       }
1486     }
1487 
1488 #ifdef ASSERT
1489     {
1490       // verify what we have done during constant pool merging
1491       {
1492         RedefineVerifyMark rvm(the_class, scratch_class, state);
1493         Verifier::verify(scratch_class, true, THREAD);
1494       }
1495 
1496       if (HAS_PENDING_EXCEPTION) {
1497         Symbol* ex_name = PENDING_EXCEPTION->klass()->name();
1498         log_info(redefine, class, load, exceptions)
1499           ("verify_byte_codes post merge-CP exception: '%s'", ex_name->as_C_string());
1500         CLEAR_PENDING_EXCEPTION;
1501         if (ex_name == vmSymbols::java_lang_OutOfMemoryError()) {
1502           return JVMTI_ERROR_OUT_OF_MEMORY;
1503         } else {
1504           // tell the caller that constant pool merging screwed up
1505           return JVMTI_ERROR_INTERNAL;
1506         }
1507       }
1508     }
1509 #endif // ASSERT
1510 
1511     Rewriter::rewrite(scratch_class, THREAD);
1512     if (!HAS_PENDING_EXCEPTION) {
1513       scratch_class->link_methods(THREAD);
1514     }
1515     if (HAS_PENDING_EXCEPTION) {
1516       Symbol* ex_name = PENDING_EXCEPTION->klass()->name();
1517       log_info(redefine, class, load, exceptions)
1518         ("Rewriter::rewrite or link_methods exception: '%s'", ex_name->as_C_string());
1519       CLEAR_PENDING_EXCEPTION;
1520       if (ex_name == vmSymbols::java_lang_OutOfMemoryError()) {
1521         return JVMTI_ERROR_OUT_OF_MEMORY;
1522       } else {
1523         return JVMTI_ERROR_INTERNAL;
1524       }
1525     }
1526 
1527     log_debug(redefine, class, load)
1528       ("loaded name=%s (avail_mem=" UINT64_FORMAT "K)", the_class->external_name(), os::available_memory() >> 10);
1529   }
1530 
1531   return JVMTI_ERROR_NONE;
1532 }
1533 
1534 
1535 // Map old_index to new_index as needed. scratch_cp is only needed
1536 // for log calls.
1537 void VM_RedefineClasses::map_index(const constantPoolHandle& scratch_cp,
1538        int old_index, int new_index) {
1539   if (find_new_index(old_index) != 0) {
1540     // old_index is already mapped
1541     return;
1542   }
1543 
1544   if (old_index == new_index) {
1545     // no mapping is needed
1546     return;
1547   }
1548 
1549   _index_map_p->at_put(old_index, new_index);
1550   _index_map_count++;
1551 
1552   log_trace(redefine, class, constantpool)
1553     ("mapped tag %d at index %d to %d", scratch_cp->tag_at(old_index).value(), old_index, new_index);
1554 } // end map_index()
1555 
1556 
1557 // Map old_index to new_index as needed.
1558 void VM_RedefineClasses::map_operand_index(int old_index, int new_index) {
1559   if (find_new_operand_index(old_index) != -1) {
1560     // old_index is already mapped
1561     return;
1562   }
1563 
1564   if (old_index == new_index) {
1565     // no mapping is needed
1566     return;
1567   }
1568 
1569   _operands_index_map_p->at_put(old_index, new_index);
1570   _operands_index_map_count++;
1571 
1572   log_trace(redefine, class, constantpool)("mapped bootstrap specifier at index %d to %d", old_index, new_index);
1573 } // end map_index()
1574 
1575 
1576 // Merge old_cp and scratch_cp and return the results of the merge via
1577 // merge_cp_p. The number of entries in merge_cp_p is returned via
1578 // merge_cp_length_p. The entries in old_cp occupy the same locations
1579 // in merge_cp_p. Also creates a map of indices from entries in
1580 // scratch_cp to the corresponding entry in merge_cp_p. Index map
1581 // entries are only created for entries in scratch_cp that occupy a
1582 // different location in merged_cp_p.
1583 bool VM_RedefineClasses::merge_constant_pools(const constantPoolHandle& old_cp,
1584        const constantPoolHandle& scratch_cp, constantPoolHandle& merge_cp_p,
1585        int& merge_cp_length_p, TRAPS) {
1586 
1587   // Worst case we need old_cp->length() + scratch_cp()->length(),
1588   // but the caller might be smart so make sure we have at least
1589   // the minimum.
1590   if (merge_cp_p->length() < old_cp->length()) {
1591     assert(false, "merge area too small");
1592     return false; // robustness
1593   }
1594 
1595   log_info(redefine, class, constantpool)("old_cp_len=%d, scratch_cp_len=%d", old_cp->length(), scratch_cp->length());
1596 
1597   {
1598     // Pass 0:
1599     // The old_cp is copied to *merge_cp_p; this means that any code
1600     // using old_cp does not have to change. This work looks like a
1601     // perfect fit for ConstantPool*::copy_cp_to(), but we need to
1602     // handle one special case:
1603     // - revert JVM_CONSTANT_Class to JVM_CONSTANT_UnresolvedClass
1604     // This will make verification happy.
1605 
1606     int old_i;  // index into old_cp
1607 
1608     // index zero (0) is not used in constantPools
1609     for (old_i = 1; old_i < old_cp->length(); old_i++) {
1610       // leave debugging crumb
1611       jbyte old_tag = old_cp->tag_at(old_i).value();
1612       switch (old_tag) {
1613       case JVM_CONSTANT_Class:
1614       case JVM_CONSTANT_UnresolvedClass:
1615         // revert the copy to JVM_CONSTANT_UnresolvedClass
1616         // May be resolving while calling this so do the same for
1617         // JVM_CONSTANT_UnresolvedClass (klass_name_at() deals with transition)
1618         merge_cp_p->temp_unresolved_klass_at_put(old_i,
1619           old_cp->klass_name_index_at(old_i));
1620         break;
1621 
1622       case JVM_CONSTANT_Double:
1623       case JVM_CONSTANT_Long:
1624         // just copy the entry to merge_cp_p, but double and long take
1625         // two constant pool entries
1626         ConstantPool::copy_entry_to(old_cp, old_i, merge_cp_p, old_i);
1627         old_i++;
1628         break;
1629 
1630       default:
1631         // just copy the entry to merge_cp_p
1632         ConstantPool::copy_entry_to(old_cp, old_i, merge_cp_p, old_i);
1633         break;
1634       }
1635     } // end for each old_cp entry
1636 
1637     ConstantPool::copy_operands(old_cp, merge_cp_p, CHECK_false);
1638     merge_cp_p->extend_operands(scratch_cp, CHECK_false);
1639 
1640     // We don't need to sanity check that *merge_cp_length_p is within
1641     // *merge_cp_p bounds since we have the minimum on-entry check above.
1642     merge_cp_length_p = old_i;
1643   }
1644 
1645   // merge_cp_len should be the same as old_cp->length() at this point
1646   // so this trace message is really a "warm-and-breathing" message.
1647   log_debug(redefine, class, constantpool)("after pass 0: merge_cp_len=%d", merge_cp_length_p);
1648 
1649   int scratch_i;  // index into scratch_cp
1650   {
1651     // Pass 1a:
1652     // Compare scratch_cp entries to the old_cp entries that we have
1653     // already copied to *merge_cp_p. In this pass, we are eliminating
1654     // exact duplicates (matching entry at same index) so we only
1655     // compare entries in the common indice range.
1656     int increment = 1;
1657     int pass1a_length = MIN2(old_cp->length(), scratch_cp->length());
1658     for (scratch_i = 1; scratch_i < pass1a_length; scratch_i += increment) {
1659       switch (scratch_cp->tag_at(scratch_i).value()) {
1660       case JVM_CONSTANT_Double:
1661       case JVM_CONSTANT_Long:
1662         // double and long take two constant pool entries
1663         increment = 2;
1664         break;
1665 
1666       default:
1667         increment = 1;
1668         break;
1669       }
1670 
1671       bool match = scratch_cp->compare_entry_to(scratch_i, merge_cp_p, scratch_i);
1672       if (match) {
1673         // found a match at the same index so nothing more to do
1674         continue;
1675       }
1676 
1677       int found_i = scratch_cp->find_matching_entry(scratch_i, merge_cp_p);
1678       if (found_i != 0) {
1679         guarantee(found_i != scratch_i,
1680           "compare_entry_to() and find_matching_entry() do not agree");
1681 
1682         // Found a matching entry somewhere else in *merge_cp_p so
1683         // just need a mapping entry.
1684         map_index(scratch_cp, scratch_i, found_i);
1685         continue;
1686       }
1687 
1688       // No match found so we have to append this entry and any unique
1689       // referenced entries to merge_cp_p.
1690       append_entry(scratch_cp, scratch_i, &merge_cp_p, &merge_cp_length_p);
1691     }
1692   }
1693 
1694   log_debug(redefine, class, constantpool)
1695     ("after pass 1a: merge_cp_len=%d, scratch_i=%d, index_map_len=%d",
1696      merge_cp_length_p, scratch_i, _index_map_count);
1697 
1698   if (scratch_i < scratch_cp->length()) {
1699     // Pass 1b:
1700     // old_cp is smaller than scratch_cp so there are entries in
1701     // scratch_cp that we have not yet processed. We take care of
1702     // those now.
1703     int increment = 1;
1704     for (; scratch_i < scratch_cp->length(); scratch_i += increment) {
1705       switch (scratch_cp->tag_at(scratch_i).value()) {
1706       case JVM_CONSTANT_Double:
1707       case JVM_CONSTANT_Long:
1708         // double and long take two constant pool entries
1709         increment = 2;
1710         break;
1711 
1712       default:
1713         increment = 1;
1714         break;
1715       }
1716 
1717       int found_i =
1718         scratch_cp->find_matching_entry(scratch_i, merge_cp_p);
1719       if (found_i != 0) {
1720         // Found a matching entry somewhere else in merge_cp_p so
1721         // just need a mapping entry.
1722         map_index(scratch_cp, scratch_i, found_i);
1723         continue;
1724       }
1725 
1726       // No match found so we have to append this entry and any unique
1727       // referenced entries to merge_cp_p.
1728       append_entry(scratch_cp, scratch_i, &merge_cp_p, &merge_cp_length_p);
1729     }
1730 
1731     log_debug(redefine, class, constantpool)
1732       ("after pass 1b: merge_cp_len=%d, scratch_i=%d, index_map_len=%d",
1733        merge_cp_length_p, scratch_i, _index_map_count);
1734   }
1735   finalize_operands_merge(merge_cp_p, CHECK_false);
1736 
1737   return true;
1738 } // end merge_constant_pools()
1739 
1740 
1741 // Scoped object to clean up the constant pool(s) created for merging
1742 class MergeCPCleaner {
1743   ClassLoaderData*   _loader_data;
1744   ConstantPool*      _cp;
1745   ConstantPool*      _scratch_cp;
1746  public:
1747   MergeCPCleaner(ClassLoaderData* loader_data, ConstantPool* merge_cp) :
1748                  _loader_data(loader_data), _cp(merge_cp), _scratch_cp(nullptr) {}
1749   ~MergeCPCleaner() {
1750     _loader_data->add_to_deallocate_list(_cp);
1751     if (_scratch_cp != nullptr) {
1752       _loader_data->add_to_deallocate_list(_scratch_cp);
1753     }
1754   }
1755   void add_scratch_cp(ConstantPool* scratch_cp) { _scratch_cp = scratch_cp; }
1756 };
1757 
1758 // Merge constant pools between the_class and scratch_class and
1759 // potentially rewrite bytecodes in scratch_class to use the merged
1760 // constant pool.
1761 jvmtiError VM_RedefineClasses::merge_cp_and_rewrite(
1762              InstanceKlass* the_class, InstanceKlass* scratch_class,
1763              TRAPS) {
1764   // worst case merged constant pool length is old and new combined
1765   int merge_cp_length = the_class->constants()->length()
1766         + scratch_class->constants()->length();
1767 
1768   // Constant pools are not easily reused so we allocate a new one
1769   // each time.
1770   // merge_cp is created unsafe for concurrent GC processing.  It
1771   // should be marked safe before discarding it. Even though
1772   // garbage,  if it crosses a card boundary, it may be scanned
1773   // in order to find the start of the first complete object on the card.
1774   ClassLoaderData* loader_data = the_class->class_loader_data();
1775   ConstantPool* merge_cp_oop =
1776     ConstantPool::allocate(loader_data,
1777                            merge_cp_length,
1778                            CHECK_(JVMTI_ERROR_OUT_OF_MEMORY));
1779   MergeCPCleaner cp_cleaner(loader_data, merge_cp_oop);
1780 
1781   HandleMark hm(THREAD);  // make sure handles are cleared before
1782                           // MergeCPCleaner clears out merge_cp_oop
1783   constantPoolHandle merge_cp(THREAD, merge_cp_oop);
1784 
1785   // Get constants() from the old class because it could have been rewritten
1786   // while we were at a safepoint allocating a new constant pool.
1787   constantPoolHandle old_cp(THREAD, the_class->constants());
1788   constantPoolHandle scratch_cp(THREAD, scratch_class->constants());
1789 
1790   // If the length changed, the class was redefined out from under us. Return
1791   // an error.
1792   if (merge_cp_length != the_class->constants()->length()
1793          + scratch_class->constants()->length()) {
1794     return JVMTI_ERROR_INTERNAL;
1795   }
1796 
1797   // Update the version number of the constant pools (may keep scratch_cp)
1798   merge_cp->increment_and_save_version(old_cp->version());
1799   scratch_cp->increment_and_save_version(old_cp->version());
1800 
1801   ResourceMark rm(THREAD);
1802   _index_map_count = 0;
1803   _index_map_p = new intArray(scratch_cp->length(), scratch_cp->length(), -1);
1804 
1805   _operands_cur_length = ConstantPool::operand_array_length(old_cp->operands());
1806   _operands_index_map_count = 0;
1807   int operands_index_map_len = ConstantPool::operand_array_length(scratch_cp->operands());
1808   _operands_index_map_p = new intArray(operands_index_map_len, operands_index_map_len, -1);
1809 
1810   // reference to the cp holder is needed for copy_operands()
1811   merge_cp->set_pool_holder(scratch_class);
1812   bool result = merge_constant_pools(old_cp, scratch_cp, merge_cp,
1813                   merge_cp_length, THREAD);
1814   merge_cp->set_pool_holder(nullptr);
1815 
1816   if (!result) {
1817     // The merge can fail due to memory allocation failure or due
1818     // to robustness checks.
1819     return JVMTI_ERROR_INTERNAL;
1820   }
1821 
1822   // ensure merged constant pool size does not overflow u2
1823   if (merge_cp_length > 0xFFFF) {
1824     log_warning(redefine, class, constantpool)("Merged constant pool overflow: %d entries", merge_cp_length);
1825     return JVMTI_ERROR_INTERNAL;
1826   }
1827 
1828   // Set dynamic constants attribute from the original CP.
1829   if (old_cp->has_dynamic_constant()) {
1830     scratch_cp->set_has_dynamic_constant();
1831   }
1832 
1833   log_info(redefine, class, constantpool)("merge_cp_len=%d, index_map_len=%d", merge_cp_length, _index_map_count);
1834 
1835   if (_index_map_count == 0) {
1836     // there is nothing to map between the new and merged constant pools
1837 
1838     // Copy attributes from scratch_cp to merge_cp
1839     merge_cp->copy_fields(scratch_cp());
1840 
1841     if (old_cp->length() == scratch_cp->length()) {
1842       // The old and new constant pools are the same length and the
1843       // index map is empty. This means that the three constant pools
1844       // are equivalent (but not the same). Unfortunately, the new
1845       // constant pool has not gone through link resolution nor have
1846       // the new class bytecodes gone through constant pool cache
1847       // rewriting so we can't use the old constant pool with the new
1848       // class.
1849 
1850       // toss the merged constant pool at return
1851     } else if (old_cp->length() < scratch_cp->length()) {
1852       // The old constant pool has fewer entries than the new constant
1853       // pool and the index map is empty. This means the new constant
1854       // pool is a superset of the old constant pool. However, the old
1855       // class bytecodes have already gone through constant pool cache
1856       // rewriting so we can't use the new constant pool with the old
1857       // class.
1858 
1859       // toss the merged constant pool at return
1860     } else {
1861       // The old constant pool has more entries than the new constant
1862       // pool and the index map is empty. This means that both the old
1863       // and merged constant pools are supersets of the new constant
1864       // pool.
1865 
1866       // Replace the new constant pool with a shrunken copy of the
1867       // merged constant pool
1868       set_new_constant_pool(loader_data, scratch_class, merge_cp, merge_cp_length,
1869                             CHECK_(JVMTI_ERROR_OUT_OF_MEMORY));
1870       // The new constant pool replaces scratch_cp so have cleaner clean it up.
1871       // It can't be cleaned up while there are handles to it.
1872       cp_cleaner.add_scratch_cp(scratch_cp());
1873     }
1874   } else {
1875     if (log_is_enabled(Trace, redefine, class, constantpool)) {
1876       // don't want to loop unless we are tracing
1877       int count = 0;
1878       for (int i = 1; i < _index_map_p->length(); i++) {
1879         int value = _index_map_p->at(i);
1880 
1881         if (value != -1) {
1882           log_trace(redefine, class, constantpool)("index_map[%d]: old=%d new=%d", count, i, value);
1883           count++;
1884         }
1885       }
1886     }
1887 
1888     // We have entries mapped between the new and merged constant pools
1889     // so we have to rewrite some constant pool references.
1890     if (!rewrite_cp_refs(scratch_class)) {
1891       return JVMTI_ERROR_INTERNAL;
1892     }
1893 
1894     // Copy attributes from scratch_cp to merge_cp (should be done after rewrite_cp_refs())
1895     merge_cp->copy_fields(scratch_cp());
1896 
1897     // Replace the new constant pool with a shrunken copy of the
1898     // merged constant pool so now the rewritten bytecodes have
1899     // valid references; the previous new constant pool will get
1900     // GCed.
1901     set_new_constant_pool(loader_data, scratch_class, merge_cp, merge_cp_length,
1902                           CHECK_(JVMTI_ERROR_OUT_OF_MEMORY));
1903     // The new constant pool replaces scratch_cp so have cleaner clean it up.
1904     // It can't be cleaned up while there are handles to it.
1905     cp_cleaner.add_scratch_cp(scratch_cp());
1906   }
1907 
1908   return JVMTI_ERROR_NONE;
1909 } // end merge_cp_and_rewrite()
1910 
1911 
1912 // Rewrite constant pool references in klass scratch_class.
1913 bool VM_RedefineClasses::rewrite_cp_refs(InstanceKlass* scratch_class) {
1914 
1915   // rewrite constant pool references in the nest attributes:
1916   if (!rewrite_cp_refs_in_nest_attributes(scratch_class)) {
1917     // propagate failure back to caller
1918     return false;
1919   }
1920 
1921   // rewrite constant pool references in the Record attribute:
1922   if (!rewrite_cp_refs_in_record_attribute(scratch_class)) {
1923     // propagate failure back to caller
1924     return false;
1925   }
1926 
1927   // rewrite constant pool references in the PermittedSubclasses attribute:
1928   if (!rewrite_cp_refs_in_permitted_subclasses_attribute(scratch_class)) {
1929     // propagate failure back to caller
1930     return false;
1931   }
1932 
1933   // rewrite constant pool references in the methods:
1934   if (!rewrite_cp_refs_in_methods(scratch_class)) {
1935     // propagate failure back to caller
1936     return false;
1937   }
1938 
1939   // rewrite constant pool references in the class_annotations:
1940   if (!rewrite_cp_refs_in_class_annotations(scratch_class)) {
1941     // propagate failure back to caller
1942     return false;
1943   }
1944 
1945   // rewrite constant pool references in the fields_annotations:
1946   if (!rewrite_cp_refs_in_fields_annotations(scratch_class)) {
1947     // propagate failure back to caller
1948     return false;
1949   }
1950 
1951   // rewrite constant pool references in the methods_annotations:
1952   if (!rewrite_cp_refs_in_methods_annotations(scratch_class)) {
1953     // propagate failure back to caller
1954     return false;
1955   }
1956 
1957   // rewrite constant pool references in the methods_parameter_annotations:
1958   if (!rewrite_cp_refs_in_methods_parameter_annotations(scratch_class)) {
1959     // propagate failure back to caller
1960     return false;
1961   }
1962 
1963   // rewrite constant pool references in the methods_default_annotations:
1964   if (!rewrite_cp_refs_in_methods_default_annotations(scratch_class)) {
1965     // propagate failure back to caller
1966     return false;
1967   }
1968 
1969   // rewrite constant pool references in the class_type_annotations:
1970   if (!rewrite_cp_refs_in_class_type_annotations(scratch_class)) {
1971     // propagate failure back to caller
1972     return false;
1973   }
1974 
1975   // rewrite constant pool references in the fields_type_annotations:
1976   if (!rewrite_cp_refs_in_fields_type_annotations(scratch_class)) {
1977     // propagate failure back to caller
1978     return false;
1979   }
1980 
1981   // rewrite constant pool references in the methods_type_annotations:
1982   if (!rewrite_cp_refs_in_methods_type_annotations(scratch_class)) {
1983     // propagate failure back to caller
1984     return false;
1985   }
1986 
1987   // There can be type annotations in the Code part of a method_info attribute.
1988   // These annotations are not accessible, even by reflection.
1989   // Currently they are not even parsed by the ClassFileParser.
1990   // If runtime access is added they will also need to be rewritten.
1991 
1992   // rewrite source file name index:
1993   u2 source_file_name_idx = scratch_class->source_file_name_index();
1994   if (source_file_name_idx != 0) {
1995     u2 new_source_file_name_idx = find_new_index(source_file_name_idx);
1996     if (new_source_file_name_idx != 0) {
1997       scratch_class->set_source_file_name_index(new_source_file_name_idx);
1998     }
1999   }
2000 
2001   // rewrite class generic signature index:
2002   u2 generic_signature_index = scratch_class->generic_signature_index();
2003   if (generic_signature_index != 0) {
2004     u2 new_generic_signature_index = find_new_index(generic_signature_index);
2005     if (new_generic_signature_index != 0) {
2006       scratch_class->set_generic_signature_index(new_generic_signature_index);
2007     }
2008   }
2009 
2010   return true;
2011 } // end rewrite_cp_refs()
2012 
2013 // Rewrite constant pool references in the NestHost and NestMembers attributes.
2014 bool VM_RedefineClasses::rewrite_cp_refs_in_nest_attributes(
2015        InstanceKlass* scratch_class) {
2016 
2017   u2 cp_index = scratch_class->nest_host_index();
2018   if (cp_index != 0) {
2019     scratch_class->set_nest_host_index(find_new_index(cp_index));
2020   }
2021   Array<u2>* nest_members = scratch_class->nest_members();
2022   for (int i = 0; i < nest_members->length(); i++) {
2023     u2 cp_index = nest_members->at(i);
2024     nest_members->at_put(i, find_new_index(cp_index));
2025   }
2026   return true;
2027 }
2028 
2029 // Rewrite constant pool references in the Record attribute.
2030 bool VM_RedefineClasses::rewrite_cp_refs_in_record_attribute(InstanceKlass* scratch_class) {
2031   Array<RecordComponent*>* components = scratch_class->record_components();
2032   if (components != nullptr) {
2033     for (int i = 0; i < components->length(); i++) {
2034       RecordComponent* component = components->at(i);
2035       u2 cp_index = component->name_index();
2036       component->set_name_index(find_new_index(cp_index));
2037       cp_index = component->descriptor_index();
2038       component->set_descriptor_index(find_new_index(cp_index));
2039       cp_index = component->generic_signature_index();
2040       if (cp_index != 0) {
2041         component->set_generic_signature_index(find_new_index(cp_index));
2042       }
2043 
2044       AnnotationArray* annotations = component->annotations();
2045       if (annotations != nullptr && annotations->length() != 0) {
2046         int byte_i = 0;  // byte index into annotations
2047         if (!rewrite_cp_refs_in_annotations_typeArray(annotations, byte_i)) {
2048           log_debug(redefine, class, annotation)("bad record_component_annotations at %d", i);
2049           // propagate failure back to caller
2050           return false;
2051         }
2052       }
2053 
2054       AnnotationArray* type_annotations = component->type_annotations();
2055       if (type_annotations != nullptr && type_annotations->length() != 0) {
2056         int byte_i = 0;  // byte index into annotations
2057         if (!rewrite_cp_refs_in_annotations_typeArray(type_annotations, byte_i)) {
2058           log_debug(redefine, class, annotation)("bad record_component_type_annotations at %d", i);
2059           // propagate failure back to caller
2060           return false;
2061         }
2062       }
2063     }
2064   }
2065   return true;
2066 }
2067 
2068 // Rewrite constant pool references in the PermittedSubclasses attribute.
2069 bool VM_RedefineClasses::rewrite_cp_refs_in_permitted_subclasses_attribute(
2070        InstanceKlass* scratch_class) {
2071 
2072   Array<u2>* permitted_subclasses = scratch_class->permitted_subclasses();
2073   assert(permitted_subclasses != nullptr, "unexpected null permitted_subclasses");
2074   for (int i = 0; i < permitted_subclasses->length(); i++) {
2075     u2 cp_index = permitted_subclasses->at(i);
2076     permitted_subclasses->at_put(i, find_new_index(cp_index));
2077   }
2078   return true;
2079 }
2080 
2081 // Rewrite constant pool references in the methods.
2082 bool VM_RedefineClasses::rewrite_cp_refs_in_methods(InstanceKlass* scratch_class) {
2083 
2084   Array<Method*>* methods = scratch_class->methods();
2085 
2086   if (methods == nullptr || methods->length() == 0) {
2087     // no methods so nothing to do
2088     return true;
2089   }
2090 
2091   JavaThread* THREAD = JavaThread::current(); // For exception macros.
2092   ExceptionMark em(THREAD);
2093 
2094   // rewrite constant pool references in the methods:
2095   for (int i = methods->length() - 1; i >= 0; i--) {
2096     methodHandle method(THREAD, methods->at(i));
2097     methodHandle new_method;
2098     rewrite_cp_refs_in_method(method, &new_method, THREAD);
2099     if (!new_method.is_null()) {
2100       // the method has been replaced so save the new method version
2101       // even in the case of an exception.  original method is on the
2102       // deallocation list.
2103       methods->at_put(i, new_method());
2104     }
2105     if (HAS_PENDING_EXCEPTION) {
2106       Symbol* ex_name = PENDING_EXCEPTION->klass()->name();
2107       log_info(redefine, class, load, exceptions)("rewrite_cp_refs_in_method exception: '%s'", ex_name->as_C_string());
2108       // Need to clear pending exception here as the super caller sets
2109       // the JVMTI_ERROR_INTERNAL if the returned value is false.
2110       CLEAR_PENDING_EXCEPTION;
2111       return false;
2112     }
2113   }
2114 
2115   return true;
2116 }
2117 
2118 
2119 // Rewrite constant pool references in the specific method. This code
2120 // was adapted from Rewriter::rewrite_method().
2121 void VM_RedefineClasses::rewrite_cp_refs_in_method(methodHandle method,
2122        methodHandle *new_method_p, TRAPS) {
2123 
2124   *new_method_p = methodHandle();  // default is no new method
2125 
2126   // We cache a pointer to the bytecodes here in code_base. If GC
2127   // moves the Method*, then the bytecodes will also move which
2128   // will likely cause a crash. We create a NoSafepointVerifier
2129   // object to detect whether we pass a possible safepoint in this
2130   // code block.
2131   NoSafepointVerifier nsv;
2132 
2133   // Bytecodes and their length
2134   address code_base = method->code_base();
2135   int code_length = method->code_size();
2136 
2137   int bc_length;
2138   for (int bci = 0; bci < code_length; bci += bc_length) {
2139     address bcp = code_base + bci;
2140     Bytecodes::Code c = (Bytecodes::Code)(*bcp);
2141 
2142     bc_length = Bytecodes::length_for(c);
2143     if (bc_length == 0) {
2144       // More complicated bytecodes report a length of zero so
2145       // we have to try again a slightly different way.
2146       bc_length = Bytecodes::length_at(method(), bcp);
2147     }
2148 
2149     assert(bc_length != 0, "impossible bytecode length");
2150 
2151     switch (c) {
2152       case Bytecodes::_ldc:
2153       {
2154         u1 cp_index = *(bcp + 1);
2155         u2 new_index = find_new_index(cp_index);
2156 
2157         if (StressLdcRewrite && new_index == 0) {
2158           // If we are stressing ldc -> ldc_w rewriting, then we
2159           // always need a new_index value.
2160           new_index = cp_index;
2161         }
2162         if (new_index != 0) {
2163           // the original index is mapped so we have more work to do
2164           if (!StressLdcRewrite && new_index <= max_jubyte) {
2165             // The new value can still use ldc instead of ldc_w
2166             // unless we are trying to stress ldc -> ldc_w rewriting
2167             log_trace(redefine, class, constantpool)
2168               ("%s@" INTPTR_FORMAT " old=%d, new=%d", Bytecodes::name(c), p2i(bcp), cp_index, new_index);
2169             // We checked that new_index fits in a u1 so this cast is safe
2170             *(bcp + 1) = (u1)new_index;
2171           } else {
2172             log_trace(redefine, class, constantpool)
2173               ("%s->ldc_w@" INTPTR_FORMAT " old=%d, new=%d", Bytecodes::name(c), p2i(bcp), cp_index, new_index);
2174             // the new value needs ldc_w instead of ldc
2175             u_char inst_buffer[4]; // max instruction size is 4 bytes
2176             bcp = (address)inst_buffer;
2177             // construct new instruction sequence
2178             *bcp = Bytecodes::_ldc_w;
2179             bcp++;
2180             // Rewriter::rewrite_method() does not rewrite ldc -> ldc_w.
2181             // See comment below for difference between put_Java_u2()
2182             // and put_native_u2().
2183             Bytes::put_Java_u2(bcp, new_index);
2184 
2185             Relocator rc(method, nullptr /* no RelocatorListener needed */);
2186             methodHandle m;
2187             {
2188               PauseNoSafepointVerifier pnsv(&nsv);
2189 
2190               // ldc is 2 bytes and ldc_w is 3 bytes
2191               m = rc.insert_space_at(bci, 3, inst_buffer, CHECK);
2192             }
2193 
2194             // return the new method so that the caller can update
2195             // the containing class
2196             *new_method_p = method = m;
2197             // switch our bytecode processing loop from the old method
2198             // to the new method
2199             code_base = method->code_base();
2200             code_length = method->code_size();
2201             bcp = code_base + bci;
2202             c = (Bytecodes::Code)(*bcp);
2203             bc_length = Bytecodes::length_for(c);
2204             assert(bc_length != 0, "sanity check");
2205           } // end we need ldc_w instead of ldc
2206         } // end if there is a mapped index
2207       } break;
2208 
2209       // these bytecodes have a two-byte constant pool index
2210       case Bytecodes::_anewarray      : // fall through
2211       case Bytecodes::_checkcast      : // fall through
2212       case Bytecodes::_getfield       : // fall through
2213       case Bytecodes::_getstatic      : // fall through
2214       case Bytecodes::_instanceof     : // fall through
2215       case Bytecodes::_invokedynamic  : // fall through
2216       case Bytecodes::_invokeinterface: // fall through
2217       case Bytecodes::_invokespecial  : // fall through
2218       case Bytecodes::_invokestatic   : // fall through
2219       case Bytecodes::_invokevirtual  : // fall through
2220       case Bytecodes::_ldc_w          : // fall through
2221       case Bytecodes::_ldc2_w         : // fall through
2222       case Bytecodes::_multianewarray : // fall through
2223       case Bytecodes::_new            : // fall through
2224       case Bytecodes::_putfield       : // fall through
2225       case Bytecodes::_putstatic      :
2226       {
2227         address p = bcp + 1;
2228         int cp_index = Bytes::get_Java_u2(p);
2229         u2 new_index = find_new_index(cp_index);
2230         if (new_index != 0) {
2231           // the original index is mapped so update w/ new value
2232           log_trace(redefine, class, constantpool)
2233             ("%s@" INTPTR_FORMAT " old=%d, new=%d", Bytecodes::name(c),p2i(bcp), cp_index, new_index);
2234           // Rewriter::rewrite_method() uses put_native_u2() in this
2235           // situation because it is reusing the constant pool index
2236           // location for a native index into the ConstantPoolCache.
2237           // Since we are updating the constant pool index prior to
2238           // verification and ConstantPoolCache initialization, we
2239           // need to keep the new index in Java byte order.
2240           Bytes::put_Java_u2(p, new_index);
2241         }
2242       } break;
2243       default:
2244         break;
2245     }
2246   } // end for each bytecode
2247 } // end rewrite_cp_refs_in_method()
2248 
2249 
2250 // Rewrite constant pool references in the class_annotations field.
2251 bool VM_RedefineClasses::rewrite_cp_refs_in_class_annotations(InstanceKlass* scratch_class) {
2252 
2253   AnnotationArray* class_annotations = scratch_class->class_annotations();
2254   if (class_annotations == nullptr || class_annotations->length() == 0) {
2255     // no class_annotations so nothing to do
2256     return true;
2257   }
2258 
2259   log_debug(redefine, class, annotation)("class_annotations length=%d", class_annotations->length());
2260 
2261   int byte_i = 0;  // byte index into class_annotations
2262   return rewrite_cp_refs_in_annotations_typeArray(class_annotations, byte_i);
2263 }
2264 
2265 
2266 // Rewrite constant pool references in an annotations typeArray. This
2267 // "structure" is adapted from the RuntimeVisibleAnnotations_attribute
2268 // that is described in section 4.8.15 of the 2nd-edition of the VM spec:
2269 //
2270 // annotations_typeArray {
2271 //   u2 num_annotations;
2272 //   annotation annotations[num_annotations];
2273 // }
2274 //
2275 bool VM_RedefineClasses::rewrite_cp_refs_in_annotations_typeArray(
2276        AnnotationArray* annotations_typeArray, int &byte_i_ref) {
2277 
2278   if ((byte_i_ref + 2) > annotations_typeArray->length()) {
2279     // not enough room for num_annotations field
2280     log_debug(redefine, class, annotation)("length() is too small for num_annotations field");
2281     return false;
2282   }
2283 
2284   u2 num_annotations = Bytes::get_Java_u2((address)
2285                          annotations_typeArray->adr_at(byte_i_ref));
2286   byte_i_ref += 2;
2287 
2288   log_debug(redefine, class, annotation)("num_annotations=%d", num_annotations);
2289 
2290   int calc_num_annotations = 0;
2291   for (; calc_num_annotations < num_annotations; calc_num_annotations++) {
2292     if (!rewrite_cp_refs_in_annotation_struct(annotations_typeArray, byte_i_ref)) {
2293       log_debug(redefine, class, annotation)("bad annotation_struct at %d", calc_num_annotations);
2294       // propagate failure back to caller
2295       return false;
2296     }
2297   }
2298   assert(num_annotations == calc_num_annotations, "sanity check");
2299 
2300   return true;
2301 } // end rewrite_cp_refs_in_annotations_typeArray()
2302 
2303 
2304 // Rewrite constant pool references in the annotation struct portion of
2305 // an annotations_typeArray. This "structure" is from section 4.8.15 of
2306 // the 2nd-edition of the VM spec:
2307 //
2308 // struct annotation {
2309 //   u2 type_index;
2310 //   u2 num_element_value_pairs;
2311 //   {
2312 //     u2 element_name_index;
2313 //     element_value value;
2314 //   } element_value_pairs[num_element_value_pairs];
2315 // }
2316 //
2317 bool VM_RedefineClasses::rewrite_cp_refs_in_annotation_struct(
2318        AnnotationArray* annotations_typeArray, int &byte_i_ref) {
2319   if ((byte_i_ref + 2 + 2) > annotations_typeArray->length()) {
2320     // not enough room for smallest annotation_struct
2321     log_debug(redefine, class, annotation)("length() is too small for annotation_struct");
2322     return false;
2323   }
2324 
2325   u2 type_index = rewrite_cp_ref_in_annotation_data(annotations_typeArray,
2326                     byte_i_ref, "type_index");
2327 
2328   u2 num_element_value_pairs = Bytes::get_Java_u2((address)
2329                                  annotations_typeArray->adr_at(byte_i_ref));
2330   byte_i_ref += 2;
2331 
2332   log_debug(redefine, class, annotation)
2333     ("type_index=%d  num_element_value_pairs=%d", type_index, num_element_value_pairs);
2334 
2335   int calc_num_element_value_pairs = 0;
2336   for (; calc_num_element_value_pairs < num_element_value_pairs;
2337        calc_num_element_value_pairs++) {
2338     if ((byte_i_ref + 2) > annotations_typeArray->length()) {
2339       // not enough room for another element_name_index, let alone
2340       // the rest of another component
2341       log_debug(redefine, class, annotation)("length() is too small for element_name_index");
2342       return false;
2343     }
2344 
2345     u2 element_name_index = rewrite_cp_ref_in_annotation_data(
2346                               annotations_typeArray, byte_i_ref,
2347                               "element_name_index");
2348 
2349     log_debug(redefine, class, annotation)("element_name_index=%d", element_name_index);
2350 
2351     if (!rewrite_cp_refs_in_element_value(annotations_typeArray, byte_i_ref)) {
2352       log_debug(redefine, class, annotation)("bad element_value at %d", calc_num_element_value_pairs);
2353       // propagate failure back to caller
2354       return false;
2355     }
2356   } // end for each component
2357   assert(num_element_value_pairs == calc_num_element_value_pairs,
2358     "sanity check");
2359 
2360   return true;
2361 } // end rewrite_cp_refs_in_annotation_struct()
2362 
2363 
2364 // Rewrite a constant pool reference at the current position in
2365 // annotations_typeArray if needed. Returns the original constant
2366 // pool reference if a rewrite was not needed or the new constant
2367 // pool reference if a rewrite was needed.
2368 u2 VM_RedefineClasses::rewrite_cp_ref_in_annotation_data(
2369      AnnotationArray* annotations_typeArray, int &byte_i_ref,
2370      const char * trace_mesg) {
2371 
2372   address cp_index_addr = (address)
2373     annotations_typeArray->adr_at(byte_i_ref);
2374   u2 old_cp_index = Bytes::get_Java_u2(cp_index_addr);
2375   u2 new_cp_index = find_new_index(old_cp_index);
2376   if (new_cp_index != 0) {
2377     log_debug(redefine, class, annotation)("mapped old %s=%d", trace_mesg, old_cp_index);
2378     Bytes::put_Java_u2(cp_index_addr, new_cp_index);
2379     old_cp_index = new_cp_index;
2380   }
2381   byte_i_ref += 2;
2382   return old_cp_index;
2383 }
2384 
2385 
2386 // Rewrite constant pool references in the element_value portion of an
2387 // annotations_typeArray. This "structure" is from section 4.8.15.1 of
2388 // the 2nd-edition of the VM spec:
2389 //
2390 // struct element_value {
2391 //   u1 tag;
2392 //   union {
2393 //     u2 const_value_index;
2394 //     {
2395 //       u2 type_name_index;
2396 //       u2 const_name_index;
2397 //     } enum_const_value;
2398 //     u2 class_info_index;
2399 //     annotation annotation_value;
2400 //     struct {
2401 //       u2 num_values;
2402 //       element_value values[num_values];
2403 //     } array_value;
2404 //   } value;
2405 // }
2406 //
2407 bool VM_RedefineClasses::rewrite_cp_refs_in_element_value(
2408        AnnotationArray* annotations_typeArray, int &byte_i_ref) {
2409 
2410   if ((byte_i_ref + 1) > annotations_typeArray->length()) {
2411     // not enough room for a tag let alone the rest of an element_value
2412     log_debug(redefine, class, annotation)("length() is too small for a tag");
2413     return false;
2414   }
2415 
2416   u1 tag = annotations_typeArray->at(byte_i_ref);
2417   byte_i_ref++;
2418   log_debug(redefine, class, annotation)("tag='%c'", tag);
2419 
2420   switch (tag) {
2421     // These BaseType tag values are from Table 4.2 in VM spec:
2422     case JVM_SIGNATURE_BYTE:
2423     case JVM_SIGNATURE_CHAR:
2424     case JVM_SIGNATURE_DOUBLE:
2425     case JVM_SIGNATURE_FLOAT:
2426     case JVM_SIGNATURE_INT:
2427     case JVM_SIGNATURE_LONG:
2428     case JVM_SIGNATURE_SHORT:
2429     case JVM_SIGNATURE_BOOLEAN:
2430 
2431     // The remaining tag values are from Table 4.8 in the 2nd-edition of
2432     // the VM spec:
2433     case 's':
2434     {
2435       // For the above tag values (including the BaseType values),
2436       // value.const_value_index is right union field.
2437 
2438       if ((byte_i_ref + 2) > annotations_typeArray->length()) {
2439         // not enough room for a const_value_index
2440         log_debug(redefine, class, annotation)("length() is too small for a const_value_index");
2441         return false;
2442       }
2443 
2444       u2 const_value_index = rewrite_cp_ref_in_annotation_data(
2445                                annotations_typeArray, byte_i_ref,
2446                                "const_value_index");
2447 
2448       log_debug(redefine, class, annotation)("const_value_index=%d", const_value_index);
2449     } break;
2450 
2451     case 'e':
2452     {
2453       // for the above tag value, value.enum_const_value is right union field
2454 
2455       if ((byte_i_ref + 4) > annotations_typeArray->length()) {
2456         // not enough room for a enum_const_value
2457         log_debug(redefine, class, annotation)("length() is too small for a enum_const_value");
2458         return false;
2459       }
2460 
2461       u2 type_name_index = rewrite_cp_ref_in_annotation_data(
2462                              annotations_typeArray, byte_i_ref,
2463                              "type_name_index");
2464 
2465       u2 const_name_index = rewrite_cp_ref_in_annotation_data(
2466                               annotations_typeArray, byte_i_ref,
2467                               "const_name_index");
2468 
2469       log_debug(redefine, class, annotation)
2470         ("type_name_index=%d  const_name_index=%d", type_name_index, const_name_index);
2471     } break;
2472 
2473     case 'c':
2474     {
2475       // for the above tag value, value.class_info_index is right union field
2476 
2477       if ((byte_i_ref + 2) > annotations_typeArray->length()) {
2478         // not enough room for a class_info_index
2479         log_debug(redefine, class, annotation)("length() is too small for a class_info_index");
2480         return false;
2481       }
2482 
2483       u2 class_info_index = rewrite_cp_ref_in_annotation_data(
2484                               annotations_typeArray, byte_i_ref,
2485                               "class_info_index");
2486 
2487       log_debug(redefine, class, annotation)("class_info_index=%d", class_info_index);
2488     } break;
2489 
2490     case '@':
2491       // For the above tag value, value.attr_value is the right union
2492       // field. This is a nested annotation.
2493       if (!rewrite_cp_refs_in_annotation_struct(annotations_typeArray, byte_i_ref)) {
2494         // propagate failure back to caller
2495         return false;
2496       }
2497       break;
2498 
2499     case JVM_SIGNATURE_ARRAY:
2500     {
2501       if ((byte_i_ref + 2) > annotations_typeArray->length()) {
2502         // not enough room for a num_values field
2503         log_debug(redefine, class, annotation)("length() is too small for a num_values field");
2504         return false;
2505       }
2506 
2507       // For the above tag value, value.array_value is the right union
2508       // field. This is an array of nested element_value.
2509       u2 num_values = Bytes::get_Java_u2((address)
2510                         annotations_typeArray->adr_at(byte_i_ref));
2511       byte_i_ref += 2;
2512       log_debug(redefine, class, annotation)("num_values=%d", num_values);
2513 
2514       int calc_num_values = 0;
2515       for (; calc_num_values < num_values; calc_num_values++) {
2516         if (!rewrite_cp_refs_in_element_value(annotations_typeArray, byte_i_ref)) {
2517           log_debug(redefine, class, annotation)("bad nested element_value at %d", calc_num_values);
2518           // propagate failure back to caller
2519           return false;
2520         }
2521       }
2522       assert(num_values == calc_num_values, "sanity check");
2523     } break;
2524 
2525     default:
2526       log_debug(redefine, class, annotation)("bad tag=0x%x", tag);
2527       return false;
2528   } // end decode tag field
2529 
2530   return true;
2531 } // end rewrite_cp_refs_in_element_value()
2532 
2533 
2534 // Rewrite constant pool references in a fields_annotations field.
2535 bool VM_RedefineClasses::rewrite_cp_refs_in_fields_annotations(
2536        InstanceKlass* scratch_class) {
2537 
2538   Array<AnnotationArray*>* fields_annotations = scratch_class->fields_annotations();
2539 
2540   if (fields_annotations == nullptr || fields_annotations->length() == 0) {
2541     // no fields_annotations so nothing to do
2542     return true;
2543   }
2544 
2545   log_debug(redefine, class, annotation)("fields_annotations length=%d", fields_annotations->length());
2546 
2547   for (int i = 0; i < fields_annotations->length(); i++) {
2548     AnnotationArray* field_annotations = fields_annotations->at(i);
2549     if (field_annotations == nullptr || field_annotations->length() == 0) {
2550       // this field does not have any annotations so skip it
2551       continue;
2552     }
2553 
2554     int byte_i = 0;  // byte index into field_annotations
2555     if (!rewrite_cp_refs_in_annotations_typeArray(field_annotations, byte_i)) {
2556       log_debug(redefine, class, annotation)("bad field_annotations at %d", i);
2557       // propagate failure back to caller
2558       return false;
2559     }
2560   }
2561 
2562   return true;
2563 } // end rewrite_cp_refs_in_fields_annotations()
2564 
2565 
2566 // Rewrite constant pool references in a methods_annotations field.
2567 bool VM_RedefineClasses::rewrite_cp_refs_in_methods_annotations(
2568        InstanceKlass* scratch_class) {
2569 
2570   for (int i = 0; i < scratch_class->methods()->length(); i++) {
2571     Method* m = scratch_class->methods()->at(i);
2572     AnnotationArray* method_annotations = m->constMethod()->method_annotations();
2573 
2574     if (method_annotations == nullptr || method_annotations->length() == 0) {
2575       // this method does not have any annotations so skip it
2576       continue;
2577     }
2578 
2579     int byte_i = 0;  // byte index into method_annotations
2580     if (!rewrite_cp_refs_in_annotations_typeArray(method_annotations, byte_i)) {
2581       log_debug(redefine, class, annotation)("bad method_annotations at %d", i);
2582       // propagate failure back to caller
2583       return false;
2584     }
2585   }
2586 
2587   return true;
2588 } // end rewrite_cp_refs_in_methods_annotations()
2589 
2590 
2591 // Rewrite constant pool references in a methods_parameter_annotations
2592 // field. This "structure" is adapted from the
2593 // RuntimeVisibleParameterAnnotations_attribute described in section
2594 // 4.8.17 of the 2nd-edition of the VM spec:
2595 //
2596 // methods_parameter_annotations_typeArray {
2597 //   u1 num_parameters;
2598 //   {
2599 //     u2 num_annotations;
2600 //     annotation annotations[num_annotations];
2601 //   } parameter_annotations[num_parameters];
2602 // }
2603 //
2604 bool VM_RedefineClasses::rewrite_cp_refs_in_methods_parameter_annotations(
2605        InstanceKlass* scratch_class) {
2606 
2607   for (int i = 0; i < scratch_class->methods()->length(); i++) {
2608     Method* m = scratch_class->methods()->at(i);
2609     AnnotationArray* method_parameter_annotations = m->constMethod()->parameter_annotations();
2610     if (method_parameter_annotations == nullptr
2611         || method_parameter_annotations->length() == 0) {
2612       // this method does not have any parameter annotations so skip it
2613       continue;
2614     }
2615 
2616     if (method_parameter_annotations->length() < 1) {
2617       // not enough room for a num_parameters field
2618       log_debug(redefine, class, annotation)("length() is too small for a num_parameters field at %d", i);
2619       return false;
2620     }
2621 
2622     int byte_i = 0;  // byte index into method_parameter_annotations
2623 
2624     u1 num_parameters = method_parameter_annotations->at(byte_i);
2625     byte_i++;
2626 
2627     log_debug(redefine, class, annotation)("num_parameters=%d", num_parameters);
2628 
2629     int calc_num_parameters = 0;
2630     for (; calc_num_parameters < num_parameters; calc_num_parameters++) {
2631       if (!rewrite_cp_refs_in_annotations_typeArray(method_parameter_annotations, byte_i)) {
2632         log_debug(redefine, class, annotation)("bad method_parameter_annotations at %d", calc_num_parameters);
2633         // propagate failure back to caller
2634         return false;
2635       }
2636     }
2637     assert(num_parameters == calc_num_parameters, "sanity check");
2638   }
2639 
2640   return true;
2641 } // end rewrite_cp_refs_in_methods_parameter_annotations()
2642 
2643 
2644 // Rewrite constant pool references in a methods_default_annotations
2645 // field. This "structure" is adapted from the AnnotationDefault_attribute
2646 // that is described in section 4.8.19 of the 2nd-edition of the VM spec:
2647 //
2648 // methods_default_annotations_typeArray {
2649 //   element_value default_value;
2650 // }
2651 //
2652 bool VM_RedefineClasses::rewrite_cp_refs_in_methods_default_annotations(
2653        InstanceKlass* scratch_class) {
2654 
2655   for (int i = 0; i < scratch_class->methods()->length(); i++) {
2656     Method* m = scratch_class->methods()->at(i);
2657     AnnotationArray* method_default_annotations = m->constMethod()->default_annotations();
2658     if (method_default_annotations == nullptr
2659         || method_default_annotations->length() == 0) {
2660       // this method does not have any default annotations so skip it
2661       continue;
2662     }
2663 
2664     int byte_i = 0;  // byte index into method_default_annotations
2665 
2666     if (!rewrite_cp_refs_in_element_value(
2667            method_default_annotations, byte_i)) {
2668       log_debug(redefine, class, annotation)("bad default element_value at %d", i);
2669       // propagate failure back to caller
2670       return false;
2671     }
2672   }
2673 
2674   return true;
2675 } // end rewrite_cp_refs_in_methods_default_annotations()
2676 
2677 
2678 // Rewrite constant pool references in a class_type_annotations field.
2679 bool VM_RedefineClasses::rewrite_cp_refs_in_class_type_annotations(
2680        InstanceKlass* scratch_class) {
2681 
2682   AnnotationArray* class_type_annotations = scratch_class->class_type_annotations();
2683   if (class_type_annotations == nullptr || class_type_annotations->length() == 0) {
2684     // no class_type_annotations so nothing to do
2685     return true;
2686   }
2687 
2688   log_debug(redefine, class, annotation)("class_type_annotations length=%d", class_type_annotations->length());
2689 
2690   int byte_i = 0;  // byte index into class_type_annotations
2691   return rewrite_cp_refs_in_type_annotations_typeArray(class_type_annotations,
2692       byte_i, "ClassFile");
2693 } // end rewrite_cp_refs_in_class_type_annotations()
2694 
2695 
2696 // Rewrite constant pool references in a fields_type_annotations field.
2697 bool VM_RedefineClasses::rewrite_cp_refs_in_fields_type_annotations(InstanceKlass* scratch_class) {
2698 
2699   Array<AnnotationArray*>* fields_type_annotations = scratch_class->fields_type_annotations();
2700   if (fields_type_annotations == nullptr || fields_type_annotations->length() == 0) {
2701     // no fields_type_annotations so nothing to do
2702     return true;
2703   }
2704 
2705   log_debug(redefine, class, annotation)("fields_type_annotations length=%d", fields_type_annotations->length());
2706 
2707   for (int i = 0; i < fields_type_annotations->length(); i++) {
2708     AnnotationArray* field_type_annotations = fields_type_annotations->at(i);
2709     if (field_type_annotations == nullptr || field_type_annotations->length() == 0) {
2710       // this field does not have any annotations so skip it
2711       continue;
2712     }
2713 
2714     int byte_i = 0;  // byte index into field_type_annotations
2715     if (!rewrite_cp_refs_in_type_annotations_typeArray(field_type_annotations,
2716            byte_i, "field_info")) {
2717       log_debug(redefine, class, annotation)("bad field_type_annotations at %d", i);
2718       // propagate failure back to caller
2719       return false;
2720     }
2721   }
2722 
2723   return true;
2724 } // end rewrite_cp_refs_in_fields_type_annotations()
2725 
2726 
2727 // Rewrite constant pool references in a methods_type_annotations field.
2728 bool VM_RedefineClasses::rewrite_cp_refs_in_methods_type_annotations(
2729        InstanceKlass* scratch_class) {
2730 
2731   for (int i = 0; i < scratch_class->methods()->length(); i++) {
2732     Method* m = scratch_class->methods()->at(i);
2733     AnnotationArray* method_type_annotations = m->constMethod()->type_annotations();
2734 
2735     if (method_type_annotations == nullptr || method_type_annotations->length() == 0) {
2736       // this method does not have any annotations so skip it
2737       continue;
2738     }
2739 
2740     log_debug(redefine, class, annotation)("methods type_annotations length=%d", method_type_annotations->length());
2741 
2742     int byte_i = 0;  // byte index into method_type_annotations
2743     if (!rewrite_cp_refs_in_type_annotations_typeArray(method_type_annotations,
2744            byte_i, "method_info")) {
2745       log_debug(redefine, class, annotation)("bad method_type_annotations at %d", i);
2746       // propagate failure back to caller
2747       return false;
2748     }
2749   }
2750 
2751   return true;
2752 } // end rewrite_cp_refs_in_methods_type_annotations()
2753 
2754 
2755 // Rewrite constant pool references in a type_annotations
2756 // field. This "structure" is adapted from the
2757 // RuntimeVisibleTypeAnnotations_attribute described in
2758 // section 4.7.20 of the Java SE 8 Edition of the VM spec:
2759 //
2760 // type_annotations_typeArray {
2761 //   u2              num_annotations;
2762 //   type_annotation annotations[num_annotations];
2763 // }
2764 //
2765 bool VM_RedefineClasses::rewrite_cp_refs_in_type_annotations_typeArray(
2766        AnnotationArray* type_annotations_typeArray, int &byte_i_ref,
2767        const char * location_mesg) {
2768 
2769   if ((byte_i_ref + 2) > type_annotations_typeArray->length()) {
2770     // not enough room for num_annotations field
2771     log_debug(redefine, class, annotation)("length() is too small for num_annotations field");
2772     return false;
2773   }
2774 
2775   u2 num_annotations = Bytes::get_Java_u2((address)
2776                          type_annotations_typeArray->adr_at(byte_i_ref));
2777   byte_i_ref += 2;
2778 
2779   log_debug(redefine, class, annotation)("num_type_annotations=%d", num_annotations);
2780 
2781   int calc_num_annotations = 0;
2782   for (; calc_num_annotations < num_annotations; calc_num_annotations++) {
2783     if (!rewrite_cp_refs_in_type_annotation_struct(type_annotations_typeArray,
2784            byte_i_ref, location_mesg)) {
2785       log_debug(redefine, class, annotation)("bad type_annotation_struct at %d", calc_num_annotations);
2786       // propagate failure back to caller
2787       return false;
2788     }
2789   }
2790   assert(num_annotations == calc_num_annotations, "sanity check");
2791 
2792   if (byte_i_ref != type_annotations_typeArray->length()) {
2793     log_debug(redefine, class, annotation)
2794       ("read wrong amount of bytes at end of processing type_annotations_typeArray (%d of %d bytes were read)",
2795        byte_i_ref, type_annotations_typeArray->length());
2796     return false;
2797   }
2798 
2799   return true;
2800 } // end rewrite_cp_refs_in_type_annotations_typeArray()
2801 
2802 
2803 // Rewrite constant pool references in a type_annotation
2804 // field. This "structure" is adapted from the
2805 // RuntimeVisibleTypeAnnotations_attribute described in
2806 // section 4.7.20 of the Java SE 8 Edition of the VM spec:
2807 //
2808 // type_annotation {
2809 //   u1 target_type;
2810 //   union {
2811 //     type_parameter_target;
2812 //     supertype_target;
2813 //     type_parameter_bound_target;
2814 //     empty_target;
2815 //     method_formal_parameter_target;
2816 //     throws_target;
2817 //     localvar_target;
2818 //     catch_target;
2819 //     offset_target;
2820 //     type_argument_target;
2821 //   } target_info;
2822 //   type_path target_path;
2823 //   annotation anno;
2824 // }
2825 //
2826 bool VM_RedefineClasses::rewrite_cp_refs_in_type_annotation_struct(
2827        AnnotationArray* type_annotations_typeArray, int &byte_i_ref,
2828        const char * location_mesg) {
2829 
2830   if (!skip_type_annotation_target(type_annotations_typeArray,
2831          byte_i_ref, location_mesg)) {
2832     return false;
2833   }
2834 
2835   if (!skip_type_annotation_type_path(type_annotations_typeArray, byte_i_ref)) {
2836     return false;
2837   }
2838 
2839   if (!rewrite_cp_refs_in_annotation_struct(type_annotations_typeArray, byte_i_ref)) {
2840     return false;
2841   }
2842 
2843   return true;
2844 } // end rewrite_cp_refs_in_type_annotation_struct()
2845 
2846 
2847 // Read, verify and skip over the target_type and target_info part
2848 // so that rewriting can continue in the later parts of the struct.
2849 //
2850 // u1 target_type;
2851 // union {
2852 //   type_parameter_target;
2853 //   supertype_target;
2854 //   type_parameter_bound_target;
2855 //   empty_target;
2856 //   method_formal_parameter_target;
2857 //   throws_target;
2858 //   localvar_target;
2859 //   catch_target;
2860 //   offset_target;
2861 //   type_argument_target;
2862 // } target_info;
2863 //
2864 bool VM_RedefineClasses::skip_type_annotation_target(
2865        AnnotationArray* type_annotations_typeArray, int &byte_i_ref,
2866        const char * location_mesg) {
2867 
2868   if ((byte_i_ref + 1) > type_annotations_typeArray->length()) {
2869     // not enough room for a target_type let alone the rest of a type_annotation
2870     log_debug(redefine, class, annotation)("length() is too small for a target_type");
2871     return false;
2872   }
2873 
2874   u1 target_type = type_annotations_typeArray->at(byte_i_ref);
2875   byte_i_ref += 1;
2876   log_debug(redefine, class, annotation)("target_type=0x%.2x", target_type);
2877   log_debug(redefine, class, annotation)("location=%s", location_mesg);
2878 
2879   // Skip over target_info
2880   switch (target_type) {
2881     case 0x00:
2882     // kind: type parameter declaration of generic class or interface
2883     // location: ClassFile
2884     case 0x01:
2885     // kind: type parameter declaration of generic method or constructor
2886     // location: method_info
2887 
2888     {
2889       // struct:
2890       // type_parameter_target {
2891       //   u1 type_parameter_index;
2892       // }
2893       //
2894       if ((byte_i_ref + 1) > type_annotations_typeArray->length()) {
2895         log_debug(redefine, class, annotation)("length() is too small for a type_parameter_target");
2896         return false;
2897       }
2898 
2899       u1 type_parameter_index = type_annotations_typeArray->at(byte_i_ref);
2900       byte_i_ref += 1;
2901 
2902       log_debug(redefine, class, annotation)("type_parameter_target: type_parameter_index=%d", type_parameter_index);
2903     } break;
2904 
2905     case 0x10:
2906     // kind: type in extends clause of class or interface declaration
2907     //       or in implements clause of interface declaration
2908     // location: ClassFile
2909 
2910     {
2911       // struct:
2912       // supertype_target {
2913       //   u2 supertype_index;
2914       // }
2915       //
2916       if ((byte_i_ref + 2) > type_annotations_typeArray->length()) {
2917         log_debug(redefine, class, annotation)("length() is too small for a supertype_target");
2918         return false;
2919       }
2920 
2921       u2 supertype_index = Bytes::get_Java_u2((address)
2922                              type_annotations_typeArray->adr_at(byte_i_ref));
2923       byte_i_ref += 2;
2924 
2925       log_debug(redefine, class, annotation)("supertype_target: supertype_index=%d", supertype_index);
2926     } break;
2927 
2928     case 0x11:
2929     // kind: type in bound of type parameter declaration of generic class or interface
2930     // location: ClassFile
2931     case 0x12:
2932     // kind: type in bound of type parameter declaration of generic method or constructor
2933     // location: method_info
2934 
2935     {
2936       // struct:
2937       // type_parameter_bound_target {
2938       //   u1 type_parameter_index;
2939       //   u1 bound_index;
2940       // }
2941       //
2942       if ((byte_i_ref + 2) > type_annotations_typeArray->length()) {
2943         log_debug(redefine, class, annotation)("length() is too small for a type_parameter_bound_target");
2944         return false;
2945       }
2946 
2947       u1 type_parameter_index = type_annotations_typeArray->at(byte_i_ref);
2948       byte_i_ref += 1;
2949       u1 bound_index = type_annotations_typeArray->at(byte_i_ref);
2950       byte_i_ref += 1;
2951 
2952       log_debug(redefine, class, annotation)
2953         ("type_parameter_bound_target: type_parameter_index=%d, bound_index=%d", type_parameter_index, bound_index);
2954     } break;
2955 
2956     case 0x13:
2957     // kind: type in field declaration
2958     // location: field_info
2959     case 0x14:
2960     // kind: return type of method, or type of newly constructed object
2961     // location: method_info
2962     case 0x15:
2963     // kind: receiver type of method or constructor
2964     // location: method_info
2965 
2966     {
2967       // struct:
2968       // empty_target {
2969       // }
2970       //
2971       log_debug(redefine, class, annotation)("empty_target");
2972     } break;
2973 
2974     case 0x16:
2975     // kind: type in formal parameter declaration of method, constructor, or lambda expression
2976     // location: method_info
2977 
2978     {
2979       // struct:
2980       // formal_parameter_target {
2981       //   u1 formal_parameter_index;
2982       // }
2983       //
2984       if ((byte_i_ref + 1) > type_annotations_typeArray->length()) {
2985         log_debug(redefine, class, annotation)("length() is too small for a formal_parameter_target");
2986         return false;
2987       }
2988 
2989       u1 formal_parameter_index = type_annotations_typeArray->at(byte_i_ref);
2990       byte_i_ref += 1;
2991 
2992       log_debug(redefine, class, annotation)
2993         ("formal_parameter_target: formal_parameter_index=%d", formal_parameter_index);
2994     } break;
2995 
2996     case 0x17:
2997     // kind: type in throws clause of method or constructor
2998     // location: method_info
2999 
3000     {
3001       // struct:
3002       // throws_target {
3003       //   u2 throws_type_index
3004       // }
3005       //
3006       if ((byte_i_ref + 2) > type_annotations_typeArray->length()) {
3007         log_debug(redefine, class, annotation)("length() is too small for a throws_target");
3008         return false;
3009       }
3010 
3011       u2 throws_type_index = Bytes::get_Java_u2((address)
3012                                type_annotations_typeArray->adr_at(byte_i_ref));
3013       byte_i_ref += 2;
3014 
3015       log_debug(redefine, class, annotation)("throws_target: throws_type_index=%d", throws_type_index);
3016     } break;
3017 
3018     case 0x40:
3019     // kind: type in local variable declaration
3020     // location: Code
3021     case 0x41:
3022     // kind: type in resource variable declaration
3023     // location: Code
3024 
3025     {
3026       // struct:
3027       // localvar_target {
3028       //   u2 table_length;
3029       //   struct {
3030       //     u2 start_pc;
3031       //     u2 length;
3032       //     u2 index;
3033       //   } table[table_length];
3034       // }
3035       //
3036       if ((byte_i_ref + 2) > type_annotations_typeArray->length()) {
3037         // not enough room for a table_length let alone the rest of a localvar_target
3038         log_debug(redefine, class, annotation)("length() is too small for a localvar_target table_length");
3039         return false;
3040       }
3041 
3042       u2 table_length = Bytes::get_Java_u2((address)
3043                           type_annotations_typeArray->adr_at(byte_i_ref));
3044       byte_i_ref += 2;
3045 
3046       log_debug(redefine, class, annotation)("localvar_target: table_length=%d", table_length);
3047 
3048       int table_struct_size = 2 + 2 + 2; // 3 u2 variables per table entry
3049       int table_size = table_length * table_struct_size;
3050 
3051       if ((byte_i_ref + table_size) > type_annotations_typeArray->length()) {
3052         // not enough room for a table
3053         log_debug(redefine, class, annotation)("length() is too small for a table array of length %d", table_length);
3054         return false;
3055       }
3056 
3057       // Skip over table
3058       byte_i_ref += table_size;
3059     } break;
3060 
3061     case 0x42:
3062     // kind: type in exception parameter declaration
3063     // location: Code
3064 
3065     {
3066       // struct:
3067       // catch_target {
3068       //   u2 exception_table_index;
3069       // }
3070       //
3071       if ((byte_i_ref + 2) > type_annotations_typeArray->length()) {
3072         log_debug(redefine, class, annotation)("length() is too small for a catch_target");
3073         return false;
3074       }
3075 
3076       u2 exception_table_index = Bytes::get_Java_u2((address)
3077                                    type_annotations_typeArray->adr_at(byte_i_ref));
3078       byte_i_ref += 2;
3079 
3080       log_debug(redefine, class, annotation)("catch_target: exception_table_index=%d", exception_table_index);
3081     } break;
3082 
3083     case 0x43:
3084     // kind: type in instanceof expression
3085     // location: Code
3086     case 0x44:
3087     // kind: type in new expression
3088     // location: Code
3089     case 0x45:
3090     // kind: type in method reference expression using ::new
3091     // location: Code
3092     case 0x46:
3093     // kind: type in method reference expression using ::Identifier
3094     // location: Code
3095 
3096     {
3097       // struct:
3098       // offset_target {
3099       //   u2 offset;
3100       // }
3101       //
3102       if ((byte_i_ref + 2) > type_annotations_typeArray->length()) {
3103         log_debug(redefine, class, annotation)("length() is too small for a offset_target");
3104         return false;
3105       }
3106 
3107       u2 offset = Bytes::get_Java_u2((address)
3108                     type_annotations_typeArray->adr_at(byte_i_ref));
3109       byte_i_ref += 2;
3110 
3111       log_debug(redefine, class, annotation)("offset_target: offset=%d", offset);
3112     } break;
3113 
3114     case 0x47:
3115     // kind: type in cast expression
3116     // location: Code
3117     case 0x48:
3118     // kind: type argument for generic constructor in new expression or
3119     //       explicit constructor invocation statement
3120     // location: Code
3121     case 0x49:
3122     // kind: type argument for generic method in method invocation expression
3123     // location: Code
3124     case 0x4A:
3125     // kind: type argument for generic constructor in method reference expression using ::new
3126     // location: Code
3127     case 0x4B:
3128     // kind: type argument for generic method in method reference expression using ::Identifier
3129     // location: Code
3130 
3131     {
3132       // struct:
3133       // type_argument_target {
3134       //   u2 offset;
3135       //   u1 type_argument_index;
3136       // }
3137       //
3138       if ((byte_i_ref + 3) > type_annotations_typeArray->length()) {
3139         log_debug(redefine, class, annotation)("length() is too small for a type_argument_target");
3140         return false;
3141       }
3142 
3143       u2 offset = Bytes::get_Java_u2((address)
3144                     type_annotations_typeArray->adr_at(byte_i_ref));
3145       byte_i_ref += 2;
3146       u1 type_argument_index = type_annotations_typeArray->at(byte_i_ref);
3147       byte_i_ref += 1;
3148 
3149       log_debug(redefine, class, annotation)
3150         ("type_argument_target: offset=%d, type_argument_index=%d", offset, type_argument_index);
3151     } break;
3152 
3153     default:
3154       log_debug(redefine, class, annotation)("unknown target_type");
3155 #ifdef ASSERT
3156       ShouldNotReachHere();
3157 #endif
3158       return false;
3159   }
3160 
3161   return true;
3162 } // end skip_type_annotation_target()
3163 
3164 
3165 // Read, verify and skip over the type_path part so that rewriting
3166 // can continue in the later parts of the struct.
3167 //
3168 // type_path {
3169 //   u1 path_length;
3170 //   {
3171 //     u1 type_path_kind;
3172 //     u1 type_argument_index;
3173 //   } path[path_length];
3174 // }
3175 //
3176 bool VM_RedefineClasses::skip_type_annotation_type_path(
3177        AnnotationArray* type_annotations_typeArray, int &byte_i_ref) {
3178 
3179   if ((byte_i_ref + 1) > type_annotations_typeArray->length()) {
3180     // not enough room for a path_length let alone the rest of the type_path
3181     log_debug(redefine, class, annotation)("length() is too small for a type_path");
3182     return false;
3183   }
3184 
3185   u1 path_length = type_annotations_typeArray->at(byte_i_ref);
3186   byte_i_ref += 1;
3187 
3188   log_debug(redefine, class, annotation)("type_path: path_length=%d", path_length);
3189 
3190   int calc_path_length = 0;
3191   for (; calc_path_length < path_length; calc_path_length++) {
3192     if ((byte_i_ref + 1 + 1) > type_annotations_typeArray->length()) {
3193       // not enough room for a path
3194       log_debug(redefine, class, annotation)
3195         ("length() is too small for path entry %d of %d", calc_path_length, path_length);
3196       return false;
3197     }
3198 
3199     u1 type_path_kind = type_annotations_typeArray->at(byte_i_ref);
3200     byte_i_ref += 1;
3201     u1 type_argument_index = type_annotations_typeArray->at(byte_i_ref);
3202     byte_i_ref += 1;
3203 
3204     log_debug(redefine, class, annotation)
3205       ("type_path: path[%d]: type_path_kind=%d, type_argument_index=%d",
3206        calc_path_length, type_path_kind, type_argument_index);
3207 
3208     if (type_path_kind > 3 || (type_path_kind != 3 && type_argument_index != 0)) {
3209       // not enough room for a path
3210       log_debug(redefine, class, annotation)("inconsistent type_path values");
3211       return false;
3212     }
3213   }
3214   assert(path_length == calc_path_length, "sanity check");
3215 
3216   return true;
3217 } // end skip_type_annotation_type_path()
3218 
3219 
3220 // Rewrite constant pool references in the method's stackmap table.
3221 // These "structures" are adapted from the StackMapTable_attribute that
3222 // is described in section 4.8.4 of the 6.0 version of the VM spec
3223 // (dated 2005.10.26):
3224 // file:///net/quincunx.sfbay/export/gbracha/ClassFile-Java6.pdf
3225 //
3226 // stack_map {
3227 //   u2 number_of_entries;
3228 //   stack_map_frame entries[number_of_entries];
3229 // }
3230 //
3231 void VM_RedefineClasses::rewrite_cp_refs_in_stack_map_table(
3232        const methodHandle& method) {
3233 
3234   if (!method->has_stackmap_table()) {
3235     return;
3236   }
3237 
3238   AnnotationArray* stackmap_data = method->stackmap_data();
3239   address stackmap_p = (address)stackmap_data->adr_at(0);
3240   address stackmap_end = stackmap_p + stackmap_data->length();
3241 
3242   assert(stackmap_p + 2 <= stackmap_end, "no room for number_of_entries");
3243   u2 number_of_entries = Bytes::get_Java_u2(stackmap_p);
3244   stackmap_p += 2;
3245 
3246   log_debug(redefine, class, stackmap)("number_of_entries=%u", number_of_entries);
3247 
3248   // walk through each stack_map_frame
3249   u2 calc_number_of_entries = 0;
3250   for (; calc_number_of_entries < number_of_entries; calc_number_of_entries++) {
3251     // The stack_map_frame structure is a u1 frame_type followed by
3252     // 0 or more bytes of data:
3253     //
3254     // union stack_map_frame {
3255     //   same_frame;
3256     //   same_locals_1_stack_item_frame;
3257     //   same_locals_1_stack_item_frame_extended;
3258     //   chop_frame;
3259     //   same_frame_extended;
3260     //   append_frame;
3261     //   full_frame;
3262     // }
3263 
3264     assert(stackmap_p + 1 <= stackmap_end, "no room for frame_type");
3265     u1 frame_type = *stackmap_p;
3266     stackmap_p++;
3267 
3268     // same_frame {
3269     //   u1 frame_type = SAME; /* 0-63 */
3270     // }
3271     if (frame_type <= StackMapReader::SAME_FRAME_END) {
3272       // nothing more to do for same_frame
3273     }
3274 
3275     // same_locals_1_stack_item_frame {
3276     //   u1 frame_type = SAME_LOCALS_1_STACK_ITEM; /* 64-127 */
3277     //   verification_type_info stack[1];
3278     // }
3279     else if (frame_type >= StackMapReader::SAME_LOCALS_1_STACK_ITEM_FRAME_START &&
3280              frame_type <= StackMapReader::SAME_LOCALS_1_STACK_ITEM_FRAME_END) {
3281       rewrite_cp_refs_in_verification_type_info(stackmap_p, stackmap_end,
3282         calc_number_of_entries, frame_type);
3283     }
3284 
3285     // reserved for future use
3286     else if (frame_type >= StackMapReader::RESERVED_START &&
3287              frame_type <= StackMapReader::RESERVED_END) {
3288       // nothing more to do for reserved frame_types
3289     }
3290 
3291     // same_locals_1_stack_item_frame_extended {
3292     //   u1 frame_type = SAME_LOCALS_1_STACK_ITEM_EXTENDED; /* 247 */
3293     //   u2 offset_delta;
3294     //   verification_type_info stack[1];
3295     // }
3296     else if (frame_type == StackMapReader::SAME_LOCALS_1_STACK_ITEM_EXTENDED) {
3297       stackmap_p += 2;
3298       rewrite_cp_refs_in_verification_type_info(stackmap_p, stackmap_end,
3299         calc_number_of_entries, frame_type);
3300     }
3301 
3302     // chop_frame {
3303     //   u1 frame_type = CHOP; /* 248-250 */
3304     //   u2 offset_delta;
3305     // }
3306     else if (frame_type >= StackMapReader::CHOP_FRAME_START &&
3307              frame_type <= StackMapReader::CHOP_FRAME_END) {
3308       stackmap_p += 2;
3309     }
3310 
3311     // same_frame_extended {
3312     //   u1 frame_type = SAME_EXTENDED; /* 251 */
3313     //   u2 offset_delta;
3314     // }
3315     else if (frame_type == StackMapReader::SAME_FRAME_EXTENDED) {
3316       stackmap_p += 2;
3317     }
3318 
3319     // append_frame {
3320     //   u1 frame_type = APPEND; /* 252-254 */
3321     //   u2 offset_delta;
3322     //   verification_type_info locals[frame_type - SAME_EXTENDED];
3323     // }
3324     else if (frame_type >= StackMapReader::APPEND_FRAME_START &&
3325              frame_type <= StackMapReader::APPEND_FRAME_END) {
3326       assert(stackmap_p + 2 <= stackmap_end,
3327         "no room for offset_delta");
3328       stackmap_p += 2;
3329       u1 len = frame_type - StackMapReader::APPEND_FRAME_START + 1;
3330       for (u1 i = 0; i < len; i++) {
3331         rewrite_cp_refs_in_verification_type_info(stackmap_p, stackmap_end,
3332           calc_number_of_entries, frame_type);
3333       }
3334     }
3335 
3336     // full_frame {
3337     //   u1 frame_type = FULL_FRAME; /* 255 */
3338     //   u2 offset_delta;
3339     //   u2 number_of_locals;
3340     //   verification_type_info locals[number_of_locals];
3341     //   u2 number_of_stack_items;
3342     //   verification_type_info stack[number_of_stack_items];
3343     // }
3344     else if (frame_type == StackMapReader::FULL_FRAME) {
3345       assert(stackmap_p + 2 + 2 <= stackmap_end,
3346         "no room for smallest full_frame");
3347       stackmap_p += 2;
3348 
3349       u2 number_of_locals = Bytes::get_Java_u2(stackmap_p);
3350       stackmap_p += 2;
3351 
3352       for (u2 locals_i = 0; locals_i < number_of_locals; locals_i++) {
3353         rewrite_cp_refs_in_verification_type_info(stackmap_p, stackmap_end,
3354           calc_number_of_entries, frame_type);
3355       }
3356 
3357       // Use the largest size for the number_of_stack_items, but only get
3358       // the right number of bytes.
3359       u2 number_of_stack_items = Bytes::get_Java_u2(stackmap_p);
3360       stackmap_p += 2;
3361 
3362       for (u2 stack_i = 0; stack_i < number_of_stack_items; stack_i++) {
3363         rewrite_cp_refs_in_verification_type_info(stackmap_p, stackmap_end,
3364           calc_number_of_entries, frame_type);
3365       }
3366     }
3367   } // end while there is a stack_map_frame
3368   assert(number_of_entries == calc_number_of_entries, "sanity check");
3369 } // end rewrite_cp_refs_in_stack_map_table()
3370 
3371 
3372 // Rewrite constant pool references in the verification type info
3373 // portion of the method's stackmap table. These "structures" are
3374 // adapted from the StackMapTable_attribute that is described in
3375 // section 4.8.4 of the 6.0 version of the VM spec (dated 2005.10.26):
3376 // file:///net/quincunx.sfbay/export/gbracha/ClassFile-Java6.pdf
3377 //
3378 // The verification_type_info structure is a u1 tag followed by 0 or
3379 // more bytes of data:
3380 //
3381 // union verification_type_info {
3382 //   Top_variable_info;
3383 //   Integer_variable_info;
3384 //   Float_variable_info;
3385 //   Long_variable_info;
3386 //   Double_variable_info;
3387 //   Null_variable_info;
3388 //   UninitializedThis_variable_info;
3389 //   Object_variable_info;
3390 //   Uninitialized_variable_info;
3391 // }
3392 //
3393 void VM_RedefineClasses::rewrite_cp_refs_in_verification_type_info(
3394        address& stackmap_p_ref, address stackmap_end, u2 frame_i,
3395        u1 frame_type) {
3396 
3397   assert(stackmap_p_ref + 1 <= stackmap_end, "no room for tag");
3398   u1 tag = *stackmap_p_ref;
3399   stackmap_p_ref++;
3400 
3401   switch (tag) {
3402   // Top_variable_info {
3403   //   u1 tag = ITEM_Top; /* 0 */
3404   // }
3405   // verificationType.hpp has zero as ITEM_Bogus instead of ITEM_Top
3406   case 0:  // fall through
3407 
3408   // Integer_variable_info {
3409   //   u1 tag = ITEM_Integer; /* 1 */
3410   // }
3411   case ITEM_Integer:  // fall through
3412 
3413   // Float_variable_info {
3414   //   u1 tag = ITEM_Float; /* 2 */
3415   // }
3416   case ITEM_Float:  // fall through
3417 
3418   // Double_variable_info {
3419   //   u1 tag = ITEM_Double; /* 3 */
3420   // }
3421   case ITEM_Double:  // fall through
3422 
3423   // Long_variable_info {
3424   //   u1 tag = ITEM_Long; /* 4 */
3425   // }
3426   case ITEM_Long:  // fall through
3427 
3428   // Null_variable_info {
3429   //   u1 tag = ITEM_Null; /* 5 */
3430   // }
3431   case ITEM_Null:  // fall through
3432 
3433   // UninitializedThis_variable_info {
3434   //   u1 tag = ITEM_UninitializedThis; /* 6 */
3435   // }
3436   case ITEM_UninitializedThis:
3437     // nothing more to do for the above tag types
3438     break;
3439 
3440   // Object_variable_info {
3441   //   u1 tag = ITEM_Object; /* 7 */
3442   //   u2 cpool_index;
3443   // }
3444   case ITEM_Object:
3445   {
3446     assert(stackmap_p_ref + 2 <= stackmap_end, "no room for cpool_index");
3447     u2 cpool_index = Bytes::get_Java_u2(stackmap_p_ref);
3448     u2 new_cp_index = find_new_index(cpool_index);
3449     if (new_cp_index != 0) {
3450       log_debug(redefine, class, stackmap)("mapped old cpool_index=%d", cpool_index);
3451       Bytes::put_Java_u2(stackmap_p_ref, new_cp_index);
3452       cpool_index = new_cp_index;
3453     }
3454     stackmap_p_ref += 2;
3455 
3456     log_debug(redefine, class, stackmap)
3457       ("frame_i=%u, frame_type=%u, cpool_index=%d", frame_i, frame_type, cpool_index);
3458   } break;
3459 
3460   // Uninitialized_variable_info {
3461   //   u1 tag = ITEM_Uninitialized; /* 8 */
3462   //   u2 offset;
3463   // }
3464   case ITEM_Uninitialized:
3465     assert(stackmap_p_ref + 2 <= stackmap_end, "no room for offset");
3466     stackmap_p_ref += 2;
3467     break;
3468 
3469   default:
3470     log_debug(redefine, class, stackmap)("frame_i=%u, frame_type=%u, bad tag=0x%x", frame_i, frame_type, tag);
3471     ShouldNotReachHere();
3472     break;
3473   } // end switch (tag)
3474 } // end rewrite_cp_refs_in_verification_type_info()
3475 
3476 
3477 // Change the constant pool associated with klass scratch_class to scratch_cp.
3478 // scratch_cp_length elements are copied from scratch_cp to a smaller constant pool
3479 // and the smaller constant pool is associated with scratch_class.
3480 void VM_RedefineClasses::set_new_constant_pool(
3481        ClassLoaderData* loader_data,
3482        InstanceKlass* scratch_class, constantPoolHandle scratch_cp,
3483        int scratch_cp_length, TRAPS) {
3484   assert(scratch_cp->length() >= scratch_cp_length, "sanity check");
3485 
3486   // scratch_cp is a merged constant pool and has enough space for a
3487   // worst case merge situation. We want to associate the minimum
3488   // sized constant pool with the klass to save space.
3489   ConstantPool* cp = ConstantPool::allocate(loader_data, scratch_cp_length, CHECK);
3490   constantPoolHandle smaller_cp(THREAD, cp);
3491 
3492   // preserve version() value in the smaller copy
3493   int version = scratch_cp->version();
3494   assert(version != 0, "sanity check");
3495   smaller_cp->set_version(version);
3496 
3497   // attach klass to new constant pool
3498   // reference to the cp holder is needed for copy_operands()
3499   smaller_cp->set_pool_holder(scratch_class);
3500 
3501   smaller_cp->copy_fields(scratch_cp());
3502 
3503   scratch_cp->copy_cp_to(1, scratch_cp_length - 1, smaller_cp, 1, THREAD);
3504   if (HAS_PENDING_EXCEPTION) {
3505     // Exception is handled in the caller
3506     loader_data->add_to_deallocate_list(smaller_cp());
3507     return;
3508   }
3509   scratch_cp = smaller_cp;
3510 
3511   // attach new constant pool to klass
3512   scratch_class->set_constants(scratch_cp());
3513   scratch_cp->initialize_unresolved_klasses(loader_data, CHECK);
3514 
3515   int i;  // for portability
3516 
3517   // update each field in klass to use new constant pool indices as needed
3518   int java_fields;
3519   int injected_fields;
3520   bool update_required = false;
3521   GrowableArray<FieldInfo>* fields = FieldInfoStream::create_FieldInfoArray(scratch_class->fieldinfo_stream(), &java_fields, &injected_fields);
3522   for (int i = 0; i < java_fields; i++) {
3523     FieldInfo* fi = fields->adr_at(i);
3524     jshort cur_index = fi->name_index();
3525     jshort new_index = find_new_index(cur_index);
3526     if (new_index != 0) {
3527       log_trace(redefine, class, constantpool)("field-name_index change: %d to %d", cur_index, new_index);
3528       fi->set_name_index(new_index);
3529       update_required = true;
3530     }
3531     cur_index = fi->signature_index();
3532     new_index = find_new_index(cur_index);
3533     if (new_index != 0) {
3534       log_trace(redefine, class, constantpool)("field-signature_index change: %d to %d", cur_index, new_index);
3535       fi->set_signature_index(new_index);
3536       update_required = true;
3537     }
3538     cur_index = fi->initializer_index();
3539     new_index = find_new_index(cur_index);
3540     if (new_index != 0) {
3541       log_trace(redefine, class, constantpool)("field-initval_index change: %d to %d", cur_index, new_index);
3542       fi->set_initializer_index(new_index);
3543       update_required = true;
3544     }
3545     cur_index = fi->generic_signature_index();
3546     new_index = find_new_index(cur_index);
3547     if (new_index != 0) {
3548       log_trace(redefine, class, constantpool)("field-generic_signature change: %d to %d", cur_index, new_index);
3549       fi->set_generic_signature_index(new_index);
3550       update_required = true;
3551     }
3552   }
3553   if (update_required) {
3554     Array<u1>* old_stream = scratch_class->fieldinfo_stream();
3555     assert(fields->length() == (java_fields + injected_fields), "Must be");
3556     Array<u1>* new_fis = FieldInfoStream::create_FieldInfoStream(fields, java_fields, injected_fields, scratch_class->class_loader_data(), CHECK);
3557     scratch_class->set_fieldinfo_stream(new_fis);
3558     MetadataFactory::free_array<u1>(scratch_class->class_loader_data(), old_stream);
3559 
3560     Array<u1>* old_table = scratch_class->fieldinfo_search_table();
3561     Array<u1>* search_table = FieldInfoStream::create_search_table(scratch_class->constants(), new_fis, scratch_class->class_loader_data(), CHECK);
3562     scratch_class->set_fieldinfo_search_table(search_table);
3563     MetadataFactory::free_array<u1>(scratch_class->class_loader_data(), old_table);
3564 
3565     DEBUG_ONLY(FieldInfoStream::validate_search_table(scratch_class->constants(), new_fis, search_table));
3566   }
3567 
3568   // Update constant pool indices in the inner classes info to use
3569   // new constant indices as needed. The inner classes info is a
3570   // quadruple:
3571   // (inner_class_info, outer_class_info, inner_name, inner_access_flags)
3572   InnerClassesIterator iter(scratch_class);
3573   for (; !iter.done(); iter.next()) {
3574     int cur_index = iter.inner_class_info_index();
3575     if (cur_index == 0) {
3576       continue;  // JVM spec. allows null inner class refs so skip it
3577     }
3578     u2 new_index = find_new_index(cur_index);
3579     if (new_index != 0) {
3580       log_trace(redefine, class, constantpool)("inner_class_info change: %d to %d", cur_index, new_index);
3581       iter.set_inner_class_info_index(new_index);
3582     }
3583     cur_index = iter.outer_class_info_index();
3584     new_index = find_new_index(cur_index);
3585     if (new_index != 0) {
3586       log_trace(redefine, class, constantpool)("outer_class_info change: %d to %d", cur_index, new_index);
3587       iter.set_outer_class_info_index(new_index);
3588     }
3589     cur_index = iter.inner_name_index();
3590     new_index = find_new_index(cur_index);
3591     if (new_index != 0) {
3592       log_trace(redefine, class, constantpool)("inner_name change: %d to %d", cur_index, new_index);
3593       iter.set_inner_name_index(new_index);
3594     }
3595   } // end for each inner class
3596 
3597   // Attach each method in klass to the new constant pool and update
3598   // to use new constant pool indices as needed:
3599   Array<Method*>* methods = scratch_class->methods();
3600   for (i = methods->length() - 1; i >= 0; i--) {
3601     methodHandle method(THREAD, methods->at(i));
3602     method->set_constants(scratch_cp());
3603 
3604     u2 new_index = find_new_index(method->name_index());
3605     if (new_index != 0) {
3606       log_trace(redefine, class, constantpool)
3607         ("method-name_index change: %d to %d", method->name_index(), new_index);
3608       method->set_name_index(new_index);
3609     }
3610     new_index = find_new_index(method->signature_index());
3611     if (new_index != 0) {
3612       log_trace(redefine, class, constantpool)
3613         ("method-signature_index change: %d to %d", method->signature_index(), new_index);
3614       method->set_signature_index(new_index);
3615     }
3616     new_index = find_new_index(method->generic_signature_index());
3617     if (new_index != 0) {
3618       log_trace(redefine, class, constantpool)
3619         ("method-generic_signature_index change: %d to %d", method->generic_signature_index(), new_index);
3620       method->constMethod()->set_generic_signature_index(new_index);
3621     }
3622 
3623     // Update constant pool indices in the method's checked exception
3624     // table to use new constant indices as needed.
3625     int cext_length = method->checked_exceptions_length();
3626     if (cext_length > 0) {
3627       CheckedExceptionElement * cext_table =
3628         method->checked_exceptions_start();
3629       for (int j = 0; j < cext_length; j++) {
3630         int cur_index = cext_table[j].class_cp_index;
3631         int new_index = find_new_index(cur_index);
3632         if (new_index != 0) {
3633           log_trace(redefine, class, constantpool)("cext-class_cp_index change: %d to %d", cur_index, new_index);
3634           cext_table[j].class_cp_index = (u2)new_index;
3635         }
3636       } // end for each checked exception table entry
3637     } // end if there are checked exception table entries
3638 
3639     // Update each catch type index in the method's exception table
3640     // to use new constant pool indices as needed. The exception table
3641     // holds quadruple entries of the form:
3642     //   (beg_bci, end_bci, handler_bci, klass_index)
3643 
3644     ExceptionTable ex_table(method());
3645     int ext_length = ex_table.length();
3646 
3647     for (int j = 0; j < ext_length; j ++) {
3648       int cur_index = ex_table.catch_type_index(j);
3649       u2 new_index = find_new_index(cur_index);
3650       if (new_index != 0) {
3651         log_trace(redefine, class, constantpool)("ext-klass_index change: %d to %d", cur_index, new_index);
3652         ex_table.set_catch_type_index(j, new_index);
3653       }
3654     } // end for each exception table entry
3655 
3656     // Update constant pool indices in the method's local variable
3657     // table to use new constant indices as needed. The local variable
3658     // table hold sextuple entries of the form:
3659     // (start_pc, length, name_index, descriptor_index, signature_index, slot)
3660     int lvt_length = method->localvariable_table_length();
3661     if (lvt_length > 0) {
3662       LocalVariableTableElement * lv_table =
3663         method->localvariable_table_start();
3664       for (int j = 0; j < lvt_length; j++) {
3665         int cur_index = lv_table[j].name_cp_index;
3666         int new_index = find_new_index(cur_index);
3667         if (new_index != 0) {
3668           log_trace(redefine, class, constantpool)("lvt-name_cp_index change: %d to %d", cur_index, new_index);
3669           lv_table[j].name_cp_index = (u2)new_index;
3670         }
3671         cur_index = lv_table[j].descriptor_cp_index;
3672         new_index = find_new_index(cur_index);
3673         if (new_index != 0) {
3674           log_trace(redefine, class, constantpool)("lvt-descriptor_cp_index change: %d to %d", cur_index, new_index);
3675           lv_table[j].descriptor_cp_index = (u2)new_index;
3676         }
3677         cur_index = lv_table[j].signature_cp_index;
3678         new_index = find_new_index(cur_index);
3679         if (new_index != 0) {
3680           log_trace(redefine, class, constantpool)("lvt-signature_cp_index change: %d to %d", cur_index, new_index);
3681           lv_table[j].signature_cp_index = (u2)new_index;
3682         }
3683       } // end for each local variable table entry
3684     } // end if there are local variable table entries
3685 
3686     // Update constant pool indices in the method's method_parameters.
3687     int mp_length = method->method_parameters_length();
3688     if (mp_length > 0) {
3689       MethodParametersElement* elem = method->method_parameters_start();
3690       for (int j = 0; j < mp_length; j++) {
3691         const int cp_index = elem[j].name_cp_index;
3692         const int new_cp_index = find_new_index(cp_index);
3693         if (new_cp_index != 0) {
3694           elem[j].name_cp_index = (u2)new_cp_index;
3695         }
3696       }
3697     }
3698 
3699     rewrite_cp_refs_in_stack_map_table(method);
3700   } // end for each method
3701 } // end set_new_constant_pool()
3702 
3703 
3704 // Unevolving classes may point to methods of the_class directly
3705 // from their constant pool caches, itables, and/or vtables. We
3706 // use the ClassLoaderDataGraph::classes_do() facility and this helper
3707 // to fix up these pointers.  MethodData also points to old methods and
3708 // must be cleaned.
3709 
3710 // Adjust cpools and vtables closure
3711 void VM_RedefineClasses::AdjustAndCleanMetadata::do_klass(Klass* k) {
3712 
3713   // This is a very busy routine. We don't want too much tracing
3714   // printed out.
3715   bool trace_name_printed = false;
3716 
3717   // If the class being redefined is java.lang.Object, we need to fix all
3718   // array class vtables also. The _has_redefined_Object flag is global.
3719   // Once the java.lang.Object has been redefined (by the current or one
3720   // of the previous VM_RedefineClasses operations) we have to always
3721   // adjust method entries for array classes.
3722   if (k->is_array_klass() && _has_redefined_Object) {
3723     k->vtable().adjust_method_entries(&trace_name_printed);
3724 
3725   } else if (k->is_instance_klass()) {
3726     HandleMark hm(_thread);
3727     InstanceKlass *ik = InstanceKlass::cast(k);
3728 
3729     // Clean MethodData of this class's methods so they don't refer to
3730     // old methods that are no longer running.
3731     Array<Method*>* methods = ik->methods();
3732     int num_methods = methods->length();
3733     for (int index = 0; index < num_methods; ++index) {
3734       if (methods->at(index)->method_data() != nullptr) {
3735         methods->at(index)->method_data()->clean_weak_method_links();
3736       }
3737     }
3738 
3739     // Adjust all vtables, default methods and itables, to clean out old methods.
3740     ResourceMark rm(_thread);
3741     if (ik->vtable_length() > 0) {
3742       ik->vtable().adjust_method_entries(&trace_name_printed);
3743       ik->adjust_default_methods(&trace_name_printed);
3744     }
3745 
3746     if (ik->itable_length() > 0) {
3747       ik->itable().adjust_method_entries(&trace_name_printed);
3748     }
3749 
3750     // The constant pools in other classes (other_cp) can refer to
3751     // old methods.  We have to update method information in
3752     // other_cp's cache. If other_cp has a previous version, then we
3753     // have to repeat the process for each previous version. The
3754     // constant pool cache holds the Method*s for non-virtual
3755     // methods and for virtual, final methods.
3756     //
3757     // Special case: if the current class is being redefined by the current
3758     // VM_RedefineClasses operation, then new_cp has already been attached
3759     // to the_class and old_cp has already been added as a previous version.
3760     // The new_cp doesn't have any cached references to old methods so it
3761     // doesn't need to be updated and we could optimize by skipping it.
3762     // However, the current class can be marked as being redefined by another
3763     // VM_RedefineClasses operation which has already executed its doit_prologue
3764     // and needs cpcache method entries adjusted. For simplicity, the cpcache
3765     // update is done unconditionally. It should result in doing nothing for
3766     // classes being redefined by the current VM_RedefineClasses operation.
3767     // Method entries in the previous version(s) are adjusted as well.
3768     ConstantPoolCache* cp_cache;
3769 
3770     // this klass' constant pool cache may need adjustment
3771     ConstantPool* other_cp = ik->constants();
3772     cp_cache = other_cp->cache();
3773     if (cp_cache != nullptr) {
3774       cp_cache->adjust_method_entries(&trace_name_printed);
3775     }
3776 
3777     // the previous versions' constant pool caches may need adjustment
3778     for (InstanceKlass* pv_node = ik->previous_versions();
3779          pv_node != nullptr;
3780          pv_node = pv_node->previous_versions()) {
3781       cp_cache = pv_node->constants()->cache();
3782       if (cp_cache != nullptr) {
3783         cp_cache->adjust_method_entries(&trace_name_printed);
3784       }
3785     }
3786   }
3787 }
3788 
3789 void VM_RedefineClasses::update_jmethod_ids() {
3790   for (int j = 0; j < _matching_methods_length; ++j) {
3791     Method* old_method = _matching_old_methods[j];
3792     // The method_idnum should be within the range of 1..number-of-methods
3793     // until incremented later for obsolete methods.
3794     // The increment is so if a jmethodID is created for an old obsolete method
3795     // it gets a new jmethodID cache slot in the InstanceKlass.
3796     // They're cleaned out later when all methods of the previous version are purged.
3797     assert(old_method->method_idnum() <= _old_methods->length(),
3798            "shouldn't be incremented yet for obsolete methods");
3799     jmethodID jmid = old_method->find_jmethod_id_or_null();
3800     if (jmid != nullptr) {
3801       // There is a jmethodID, change it to point to the new method
3802       Method* new_method = _matching_new_methods[j];
3803       Method::change_method_associated_with_jmethod_id(jmid, new_method);
3804       assert(Method::resolve_jmethod_id(jmid) == _matching_new_methods[j],
3805              "should be replaced");
3806     }
3807   }
3808 }
3809 
3810 int VM_RedefineClasses::check_methods_and_mark_as_obsolete() {
3811   int emcp_method_count = 0;
3812   int obsolete_count = 0;
3813   int old_index = 0;
3814   for (int j = 0; j < _matching_methods_length; ++j, ++old_index) {
3815     Method* old_method = _matching_old_methods[j];
3816     Method* new_method = _matching_new_methods[j];
3817     Method* old_array_method;
3818 
3819     // Maintain an old_index into the _old_methods array by skipping
3820     // deleted methods
3821     while ((old_array_method = _old_methods->at(old_index)) != old_method) {
3822       ++old_index;
3823     }
3824 
3825     if (MethodComparator::methods_EMCP(old_method, new_method)) {
3826       // The EMCP definition from JSR-163 requires the bytecodes to be
3827       // the same with the exception of constant pool indices which may
3828       // differ. However, the constants referred to by those indices
3829       // must be the same.
3830       //
3831       // We use methods_EMCP() for comparison since constant pool
3832       // merging can remove duplicate constant pool entries that were
3833       // present in the old method and removed from the rewritten new
3834       // method. A faster binary comparison function would consider the
3835       // old and new methods to be different when they are actually
3836       // EMCP.
3837       //
3838       // The old and new methods are EMCP and you would think that we
3839       // could get rid of one of them here and now and save some space.
3840       // However, the concept of EMCP only considers the bytecodes and
3841       // the constant pool entries in the comparison. Other things,
3842       // e.g., the line number table (LNT) or the local variable table
3843       // (LVT) don't count in the comparison. So the new (and EMCP)
3844       // method can have a new LNT that we need so we can't just
3845       // overwrite the new method with the old method.
3846       //
3847       // When this routine is called, we have already attached the new
3848       // methods to the_class so the old methods are effectively
3849       // overwritten. However, if an old method is still executing,
3850       // then the old method cannot be collected until sometime after
3851       // the old method call has returned. So the overwriting of old
3852       // methods by new methods will save us space except for those
3853       // (hopefully few) old methods that are still executing.
3854       //
3855       // A method refers to a ConstMethod* and this presents another
3856       // possible avenue to space savings. The ConstMethod* in the
3857       // new method contains possibly new attributes (LNT, LVT, etc).
3858       // At first glance, it seems possible to save space by replacing
3859       // the ConstMethod* in the old method with the ConstMethod*
3860       // from the new method. The old and new methods would share the
3861       // same ConstMethod* and we would save the space occupied by
3862       // the old ConstMethod*. However, the ConstMethod* contains
3863       // a back reference to the containing method. Sharing the
3864       // ConstMethod* between two methods could lead to confusion in
3865       // the code that uses the back reference. This would lead to
3866       // brittle code that could be broken in non-obvious ways now or
3867       // in the future.
3868       //
3869       // Another possibility is to copy the ConstMethod* from the new
3870       // method to the old method and then overwrite the new method with
3871       // the old method. Since the ConstMethod* contains the bytecodes
3872       // for the method embedded in the oop, this option would change
3873       // the bytecodes out from under any threads executing the old
3874       // method and make the thread's bcp invalid. Since EMCP requires
3875       // that the bytecodes be the same modulo constant pool indices, it
3876       // is straight forward to compute the correct new bcp in the new
3877       // ConstMethod* from the old bcp in the old ConstMethod*. The
3878       // time consuming part would be searching all the frames in all
3879       // of the threads to find all of the calls to the old method.
3880       //
3881       // It looks like we will have to live with the limited savings
3882       // that we get from effectively overwriting the old methods
3883       // when the new methods are attached to the_class.
3884 
3885       // Count number of methods that are EMCP.  The method will be marked
3886       // old but not obsolete if it is EMCP.
3887       emcp_method_count++;
3888 
3889       // An EMCP method is _not_ obsolete. An obsolete method has a
3890       // different jmethodID than the current method. An EMCP method
3891       // has the same jmethodID as the current method. Having the
3892       // same jmethodID for all EMCP versions of a method allows for
3893       // a consistent view of the EMCP methods regardless of which
3894       // EMCP method you happen to have in hand. For example, a
3895       // breakpoint set in one EMCP method will work for all EMCP
3896       // versions of the method including the current one.
3897     } else {
3898       // mark obsolete methods as such
3899       old_method->set_is_obsolete();
3900       obsolete_count++;
3901 
3902       // obsolete methods need a unique idnum so they become new entries in
3903       // the jmethodID cache in InstanceKlass
3904       assert(old_method->method_idnum() == new_method->method_idnum(), "must match");
3905       u2 num = InstanceKlass::cast(_the_class)->next_method_idnum();
3906       if (num != ConstMethod::UNSET_IDNUM) {
3907         old_method->set_method_idnum(num);
3908       }
3909 
3910       // With tracing we try not to "yack" too much. The position of
3911       // this trace assumes there are fewer obsolete methods than
3912       // EMCP methods.
3913       if (log_is_enabled(Trace, redefine, class, obsolete, mark)) {
3914         ResourceMark rm;
3915         log_trace(redefine, class, obsolete, mark)
3916           ("mark %s(%s) as obsolete", old_method->name()->as_C_string(), old_method->signature()->as_C_string());
3917       }
3918     }
3919     old_method->set_is_old();
3920   }
3921   for (int i = 0; i < _deleted_methods_length; ++i) {
3922     Method* old_method = _deleted_methods[i];
3923 
3924     assert(!old_method->has_vtable_index(),
3925            "cannot delete methods with vtable entries");;
3926 
3927     // Mark all deleted methods as old, obsolete and deleted
3928     old_method->set_is_deleted();
3929     old_method->set_is_old();
3930     old_method->set_is_obsolete();
3931     ++obsolete_count;
3932     // With tracing we try not to "yack" too much. The position of
3933     // this trace assumes there are fewer obsolete methods than
3934     // EMCP methods.
3935     if (log_is_enabled(Trace, redefine, class, obsolete, mark)) {
3936       ResourceMark rm;
3937       log_trace(redefine, class, obsolete, mark)
3938         ("mark deleted %s(%s) as obsolete", old_method->name()->as_C_string(), old_method->signature()->as_C_string());
3939     }
3940   }
3941   assert((emcp_method_count + obsolete_count) == _old_methods->length(),
3942     "sanity check");
3943   log_trace(redefine, class, obsolete, mark)("EMCP_cnt=%d, obsolete_cnt=%d", emcp_method_count, obsolete_count);
3944   return emcp_method_count;
3945 }
3946 
3947 // This internal class transfers the native function registration from old methods
3948 // to new methods.  It is designed to handle both the simple case of unchanged
3949 // native methods and the complex cases of native method prefixes being added and/or
3950 // removed.
3951 // It expects only to be used during the VM_RedefineClasses op (a safepoint).
3952 //
3953 // This class is used after the new methods have been installed in "the_class".
3954 //
3955 // So, for example, the following must be handled.  Where 'm' is a method and
3956 // a number followed by an underscore is a prefix.
3957 //
3958 //                                      Old Name    New Name
3959 // Simple transfer to new method        m       ->  m
3960 // Add prefix                           m       ->  1_m
3961 // Remove prefix                        1_m     ->  m
3962 // Simultaneous add of prefixes         m       ->  3_2_1_m
3963 // Simultaneous removal of prefixes     3_2_1_m ->  m
3964 // Simultaneous add and remove          1_m     ->  2_m
3965 // Same, caused by prefix removal only  3_2_1_m ->  3_2_m
3966 //
3967 class TransferNativeFunctionRegistration {
3968  private:
3969   InstanceKlass* the_class;
3970   int prefix_count;
3971   char** prefixes;
3972 
3973   // Recursively search the binary tree of possibly prefixed method names.
3974   // Iteration could be used if all agents were well behaved. Full tree walk is
3975   // more resilent to agents not cleaning up intermediate methods.
3976   // Branch at each depth in the binary tree is:
3977   //    (1) without the prefix.
3978   //    (2) with the prefix.
3979   // where 'prefix' is the prefix at that 'depth' (first prefix, second prefix,...)
3980   Method* search_prefix_name_space(int depth, char* name_str, size_t name_len,
3981                                      Symbol* signature) {
3982     TempNewSymbol name_symbol = SymbolTable::probe(name_str, (int)name_len);
3983     if (name_symbol != nullptr) {
3984       Method* method = the_class->lookup_method(name_symbol, signature);
3985       if (method != nullptr) {
3986         // Even if prefixed, intermediate methods must exist.
3987         if (method->is_native()) {
3988           // Wahoo, we found a (possibly prefixed) version of the method, return it.
3989           return method;
3990         }
3991         if (depth < prefix_count) {
3992           // Try applying further prefixes (other than this one).
3993           method = search_prefix_name_space(depth+1, name_str, name_len, signature);
3994           if (method != nullptr) {
3995             return method; // found
3996           }
3997 
3998           // Try adding this prefix to the method name and see if it matches
3999           // another method name.
4000           char* prefix = prefixes[depth];
4001           size_t prefix_len = strlen(prefix);
4002           size_t trial_len = name_len + prefix_len;
4003           char* trial_name_str = NEW_RESOURCE_ARRAY(char, trial_len + 1);
4004           strcpy(trial_name_str, prefix);
4005           strcat(trial_name_str, name_str);
4006           method = search_prefix_name_space(depth+1, trial_name_str, trial_len,
4007                                             signature);
4008           if (method != nullptr) {
4009             // If found along this branch, it was prefixed, mark as such
4010             method->set_is_prefixed_native();
4011             return method; // found
4012           }
4013         }
4014       }
4015     }
4016     return nullptr;  // This whole branch bore nothing
4017   }
4018 
4019   // Return the method name with old prefixes stripped away.
4020   char* method_name_without_prefixes(Method* method) {
4021     Symbol* name = method->name();
4022     char* name_str = name->as_utf8();
4023 
4024     // Old prefixing may be defunct, strip prefixes, if any.
4025     for (int i = prefix_count-1; i >= 0; i--) {
4026       char* prefix = prefixes[i];
4027       size_t prefix_len = strlen(prefix);
4028       if (strncmp(prefix, name_str, prefix_len) == 0) {
4029         name_str += prefix_len;
4030       }
4031     }
4032     return name_str;
4033   }
4034 
4035   // Strip any prefixes off the old native method, then try to find a
4036   // (possibly prefixed) new native that matches it.
4037   Method* strip_and_search_for_new_native(Method* method) {
4038     ResourceMark rm;
4039     char* name_str = method_name_without_prefixes(method);
4040     return search_prefix_name_space(0, name_str, strlen(name_str),
4041                                     method->signature());
4042   }
4043 
4044  public:
4045 
4046   // Construct a native method transfer processor for this class.
4047   TransferNativeFunctionRegistration(InstanceKlass* _the_class) {
4048     assert(SafepointSynchronize::is_at_safepoint(), "sanity check");
4049 
4050     the_class = _the_class;
4051     prefixes = JvmtiExport::get_all_native_method_prefixes(&prefix_count);
4052   }
4053 
4054   // Attempt to transfer any of the old or deleted methods that are native
4055   void transfer_registrations(Method** old_methods, int methods_length) {
4056     for (int j = 0; j < methods_length; j++) {
4057       Method* old_method = old_methods[j];
4058 
4059       if (old_method->is_native() && old_method->has_native_function()) {
4060         Method* new_method = strip_and_search_for_new_native(old_method);
4061         if (new_method != nullptr) {
4062           // Actually set the native function in the new method.
4063           // Redefine does not send events (except CFLH), certainly not this
4064           // behind the scenes re-registration.
4065           new_method->set_native_function(old_method->native_function(),
4066                               !Method::native_bind_event_is_interesting);
4067         }
4068       }
4069     }
4070   }
4071 };
4072 
4073 // Don't lose the association between a native method and its JNI function.
4074 void VM_RedefineClasses::transfer_old_native_function_registrations(InstanceKlass* the_class) {
4075   TransferNativeFunctionRegistration transfer(the_class);
4076   transfer.transfer_registrations(_deleted_methods, _deleted_methods_length);
4077   transfer.transfer_registrations(_matching_old_methods, _matching_methods_length);
4078 }
4079 
4080 // Deoptimize all compiled code that depends on the classes redefined.
4081 //
4082 // If the can_redefine_classes capability is obtained in the onload
4083 // phase or 'AlwaysRecordEvolDependencies' is true, then the compiler has
4084 // recorded all dependencies from startup. In that case we need only
4085 // deoptimize and throw away all compiled code that depends on the class.
4086 //
4087 // If can_redefine_classes is obtained sometime after the onload phase
4088 // (and 'AlwaysRecordEvolDependencies' is false) then the dependency
4089 // information may be incomplete. In that case the first call to
4090 // RedefineClasses causes all compiled code to be thrown away. As
4091 // can_redefine_classes has been obtained then all future compilations will
4092 // record dependencies so second and subsequent calls to RedefineClasses
4093 // need only throw away code that depends on the class.
4094 //
4095 
4096 void VM_RedefineClasses::flush_dependent_code() {
4097   assert(SafepointSynchronize::is_at_safepoint(), "sanity check");
4098   assert(JvmtiExport::all_dependencies_are_recorded() || !AlwaysRecordEvolDependencies, "sanity check");
4099 
4100   DeoptimizationScope deopt_scope;
4101 
4102   // This is the first redefinition, mark all the nmethods for deoptimization
4103   if (!JvmtiExport::all_dependencies_are_recorded()) {
4104     CodeCache::mark_all_nmethods_for_evol_deoptimization(&deopt_scope);
4105     log_debug(redefine, class, nmethod)("Marked all nmethods for deopt");
4106   } else {
4107     CodeCache::mark_dependents_for_evol_deoptimization(&deopt_scope);
4108     log_debug(redefine, class, nmethod)("Marked dependent nmethods for deopt");
4109   }
4110 
4111   deopt_scope.deoptimize_marked();
4112 
4113   // From now on we know that the dependency information is complete
4114   JvmtiExport::set_all_dependencies_are_recorded(true);
4115 }
4116 
4117 void VM_RedefineClasses::compute_added_deleted_matching_methods() {
4118   Method* old_method;
4119   Method* new_method;
4120 
4121   _matching_old_methods = NEW_RESOURCE_ARRAY(Method*, _old_methods->length());
4122   _matching_new_methods = NEW_RESOURCE_ARRAY(Method*, _old_methods->length());
4123   _added_methods        = NEW_RESOURCE_ARRAY(Method*, _new_methods->length());
4124   _deleted_methods      = NEW_RESOURCE_ARRAY(Method*, _old_methods->length());
4125 
4126   _matching_methods_length = 0;
4127   _deleted_methods_length  = 0;
4128   _added_methods_length    = 0;
4129 
4130   int nj = 0;
4131   int oj = 0;
4132   while (true) {
4133     if (oj >= _old_methods->length()) {
4134       if (nj >= _new_methods->length()) {
4135         break; // we've looked at everything, done
4136       }
4137       // New method at the end
4138       new_method = _new_methods->at(nj);
4139       _added_methods[_added_methods_length++] = new_method;
4140       ++nj;
4141     } else if (nj >= _new_methods->length()) {
4142       // Old method, at the end, is deleted
4143       old_method = _old_methods->at(oj);
4144       _deleted_methods[_deleted_methods_length++] = old_method;
4145       ++oj;
4146     } else {
4147       old_method = _old_methods->at(oj);
4148       new_method = _new_methods->at(nj);
4149       if (old_method->name() == new_method->name()) {
4150         if (old_method->signature() == new_method->signature()) {
4151           _matching_old_methods[_matching_methods_length  ] = old_method;
4152           _matching_new_methods[_matching_methods_length++] = new_method;
4153           ++nj;
4154           ++oj;
4155         } else {
4156           // added overloaded have already been moved to the end,
4157           // so this is a deleted overloaded method
4158           _deleted_methods[_deleted_methods_length++] = old_method;
4159           ++oj;
4160         }
4161       } else { // names don't match
4162         if (old_method->name()->fast_compare(new_method->name()) > 0) {
4163           // new method
4164           _added_methods[_added_methods_length++] = new_method;
4165           ++nj;
4166         } else {
4167           // deleted method
4168           _deleted_methods[_deleted_methods_length++] = old_method;
4169           ++oj;
4170         }
4171       }
4172     }
4173   }
4174   assert(_matching_methods_length + _deleted_methods_length == _old_methods->length(), "sanity");
4175   assert(_matching_methods_length + _added_methods_length == _new_methods->length(), "sanity");
4176 }
4177 
4178 
4179 void VM_RedefineClasses::swap_annotations(InstanceKlass* the_class,
4180                                           InstanceKlass* scratch_class) {
4181   // Swap annotation fields values
4182   Annotations* old_annotations = the_class->annotations();
4183   the_class->set_annotations(scratch_class->annotations());
4184   scratch_class->set_annotations(old_annotations);
4185 }
4186 
4187 
4188 // Install the redefinition of a class:
4189 //    - house keeping (flushing breakpoints and caches, deoptimizing
4190 //      dependent compiled code)
4191 //    - replacing parts in the_class with parts from scratch_class
4192 //    - adding a weak reference to track the obsolete but interesting
4193 //      parts of the_class
4194 //    - adjusting constant pool caches and vtables in other classes
4195 //      that refer to methods in the_class. These adjustments use the
4196 //      ClassLoaderDataGraph::classes_do() facility which only allows
4197 //      a helper method to be specified. The interesting parameters
4198 //      that we would like to pass to the helper method are saved in
4199 //      static global fields in the VM operation.
4200 void VM_RedefineClasses::redefine_single_class(Thread* current, jclass the_jclass,
4201                                                InstanceKlass* scratch_class) {
4202 
4203   HandleMark hm(current);   // make sure handles from this call are freed
4204 
4205   if (log_is_enabled(Info, redefine, class, timer)) {
4206     _timer_rsc_phase1.start();
4207   }
4208 
4209   InstanceKlass* the_class = get_ik(the_jclass);
4210 
4211   // Set a flag to control and optimize adjusting method entries
4212   _has_redefined_Object |= the_class == vmClasses::Object_klass();
4213 
4214   // Remove all breakpoints in methods of this class
4215   JvmtiBreakpoints& jvmti_breakpoints = JvmtiCurrentBreakpoints::get_jvmti_breakpoints();
4216   jvmti_breakpoints.clearall_in_class_at_safepoint(the_class);
4217 
4218   _old_methods = the_class->methods();
4219   _new_methods = scratch_class->methods();
4220   _the_class = the_class;
4221   compute_added_deleted_matching_methods();
4222   update_jmethod_ids();
4223 
4224   _any_class_has_resolved_methods = the_class->has_resolved_methods() || _any_class_has_resolved_methods;
4225 
4226   // Attach new constant pool to the original klass. The original
4227   // klass still refers to the old constant pool (for now).
4228   scratch_class->constants()->set_pool_holder(the_class);
4229 
4230 #if 0
4231   // In theory, with constant pool merging in place we should be able
4232   // to save space by using the new, merged constant pool in place of
4233   // the old constant pool(s). By "pool(s)" I mean the constant pool in
4234   // the klass version we are replacing now and any constant pool(s) in
4235   // previous versions of klass. Nice theory, doesn't work in practice.
4236   // When this code is enabled, even simple programs throw NullPointer
4237   // exceptions. I'm guessing that this is caused by some constant pool
4238   // cache difference between the new, merged constant pool and the
4239   // constant pool that was just being used by the klass. I'm keeping
4240   // this code around to archive the idea, but the code has to remain
4241   // disabled for now.
4242 
4243   // Attach each old method to the new constant pool. This can be
4244   // done here since we are past the bytecode verification and
4245   // constant pool optimization phases.
4246   for (int i = _old_methods->length() - 1; i >= 0; i--) {
4247     Method* method = _old_methods->at(i);
4248     method->set_constants(scratch_class->constants());
4249   }
4250 
4251   // NOTE: this doesn't work because you can redefine the same class in two
4252   // threads, each getting their own constant pool data appended to the
4253   // original constant pool.  In order for the new methods to work when they
4254   // become old methods, they need to keep their updated copy of the constant pool.
4255 
4256   {
4257     // walk all previous versions of the klass
4258     InstanceKlass *ik = the_class;
4259     PreviousVersionWalker pvw(ik);
4260     do {
4261       ik = pvw.next_previous_version();
4262       if (ik != nullptr) {
4263 
4264         // attach previous version of klass to the new constant pool
4265         ik->set_constants(scratch_class->constants());
4266 
4267         // Attach each method in the previous version of klass to the
4268         // new constant pool
4269         Array<Method*>* prev_methods = ik->methods();
4270         for (int i = prev_methods->length() - 1; i >= 0; i--) {
4271           Method* method = prev_methods->at(i);
4272           method->set_constants(scratch_class->constants());
4273         }
4274       }
4275     } while (ik != nullptr);
4276   }
4277 #endif
4278 
4279   // Replace methods and constantpool
4280   the_class->set_methods(_new_methods);
4281   scratch_class->set_methods(_old_methods);     // To prevent potential GCing of the old methods,
4282                                           // and to be able to undo operation easily.
4283 
4284   Array<int>* old_ordering = the_class->method_ordering();
4285   the_class->set_method_ordering(scratch_class->method_ordering());
4286   scratch_class->set_method_ordering(old_ordering);
4287 
4288   ConstantPool* old_constants = the_class->constants();
4289   the_class->set_constants(scratch_class->constants());
4290   scratch_class->set_constants(old_constants);  // See the previous comment.
4291 #if 0
4292   // We are swapping the guts of "the new class" with the guts of "the
4293   // class". Since the old constant pool has just been attached to "the
4294   // new class", it seems logical to set the pool holder in the old
4295   // constant pool also. However, doing this will change the observable
4296   // class hierarchy for any old methods that are still executing. A
4297   // method can query the identity of its "holder" and this query uses
4298   // the method's constant pool link to find the holder. The change in
4299   // holding class from "the class" to "the new class" can confuse
4300   // things.
4301   //
4302   // Setting the old constant pool's holder will also cause
4303   // verification done during vtable initialization below to fail.
4304   // During vtable initialization, the vtable's class is verified to be
4305   // a subtype of the method's holder. The vtable's class is "the
4306   // class" and the method's holder is gotten from the constant pool
4307   // link in the method itself. For "the class"'s directly implemented
4308   // methods, the method holder is "the class" itself (as gotten from
4309   // the new constant pool). The check works fine in this case. The
4310   // check also works fine for methods inherited from super classes.
4311   //
4312   // Miranda methods are a little more complicated. A miranda method is
4313   // provided by an interface when the class implementing the interface
4314   // does not provide its own method.  These interfaces are implemented
4315   // internally as an InstanceKlass. These special instanceKlasses
4316   // share the constant pool of the class that "implements" the
4317   // interface. By sharing the constant pool, the method holder of a
4318   // miranda method is the class that "implements" the interface. In a
4319   // non-redefine situation, the subtype check works fine. However, if
4320   // the old constant pool's pool holder is modified, then the check
4321   // fails because there is no class hierarchy relationship between the
4322   // vtable's class and "the new class".
4323 
4324   old_constants->set_pool_holder(scratch_class());
4325 #endif
4326 
4327   // track number of methods that are EMCP for add_previous_version() call below
4328   int emcp_method_count = check_methods_and_mark_as_obsolete();
4329   transfer_old_native_function_registrations(the_class);
4330 
4331   if (scratch_class->get_cached_class_file() != the_class->get_cached_class_file()) {
4332     // 1. the_class doesn't have a cache yet, scratch_class does have a cache.
4333     // 2. The same class can be present twice in the scratch classes list or there
4334     // are multiple concurrent RetransformClasses calls on different threads.
4335     // the_class and scratch_class have the same cached bytes, but different buffers.
4336     // In such cases we need to deallocate one of the buffers.
4337     // 3. RedefineClasses and the_class has cached bytes from a previous transformation.
4338     // In the case we need to use class bytes from scratch_class.
4339     if (the_class->get_cached_class_file() != nullptr) {
4340       os::free(the_class->get_cached_class_file());
4341     }
4342     the_class->set_cached_class_file(scratch_class->get_cached_class_file());
4343   }
4344 
4345   // null out in scratch class to not delete twice.  The class to be redefined
4346   // always owns these bytes.
4347   scratch_class->set_cached_class_file(nullptr);
4348 
4349   // Replace inner_classes
4350   Array<u2>* old_inner_classes = the_class->inner_classes();
4351   the_class->set_inner_classes(scratch_class->inner_classes());
4352   scratch_class->set_inner_classes(old_inner_classes);
4353 
4354   // Initialize the vtable and interface table after
4355   // methods have been rewritten
4356   // no exception should happen here since we explicitly
4357   // do not check loader constraints.
4358   // compare_and_normalize_class_versions has already checked:
4359   //  - classloaders unchanged, signatures unchanged
4360   //  - all instanceKlasses for redefined classes reused & contents updated
4361   the_class->vtable().initialize_vtable();
4362   the_class->itable().initialize_itable();
4363 
4364   // Update jmethodID cache if present.
4365   the_class->update_methods_jmethod_cache();
4366 
4367   // Copy the "source debug extension" attribute from new class version
4368   the_class->set_source_debug_extension(
4369     scratch_class->source_debug_extension(),
4370     scratch_class->source_debug_extension() == nullptr ? 0 :
4371     (int)strlen(scratch_class->source_debug_extension()));
4372 
4373   // Use of javac -g could be different in the old and the new
4374   if (scratch_class->has_localvariable_table() !=
4375       the_class->has_localvariable_table()) {
4376     the_class->set_has_localvariable_table(scratch_class->has_localvariable_table());
4377   }
4378 
4379   swap_annotations(the_class, scratch_class);
4380 
4381   // Replace minor version number of class file
4382   u2 old_minor_version = the_class->constants()->minor_version();
4383   the_class->constants()->set_minor_version(scratch_class->constants()->minor_version());
4384   scratch_class->constants()->set_minor_version(old_minor_version);
4385 
4386   // Replace major version number of class file
4387   u2 old_major_version = the_class->constants()->major_version();
4388   the_class->constants()->set_major_version(scratch_class->constants()->major_version());
4389   scratch_class->constants()->set_major_version(old_major_version);
4390 
4391   // Replace CP indexes for class and name+type of enclosing method
4392   u2 old_class_idx  = the_class->enclosing_method_class_index();
4393   u2 old_method_idx = the_class->enclosing_method_method_index();
4394   the_class->set_enclosing_method_indices(
4395     scratch_class->enclosing_method_class_index(),
4396     scratch_class->enclosing_method_method_index());
4397   scratch_class->set_enclosing_method_indices(old_class_idx, old_method_idx);
4398 
4399   if (!the_class->has_been_redefined()) {
4400     the_class->set_has_been_redefined();
4401   }
4402 
4403   // Scratch class is unloaded but still needs cleaning, and skipping for CDS.
4404   scratch_class->set_is_scratch_class();
4405 
4406   // keep track of previous versions of this class
4407   the_class->add_previous_version(scratch_class, emcp_method_count);
4408 
4409   JFR_ONLY(ON_KLASS_REDEFINITION(the_class, current);)
4410 
4411   _timer_rsc_phase1.stop();
4412   if (log_is_enabled(Info, redefine, class, timer)) {
4413     _timer_rsc_phase2.start();
4414   }
4415 
4416   if (the_class->oop_map_cache() != nullptr) {
4417     // Flush references to any obsolete methods from the oop map cache
4418     // so that obsolete methods are not pinned.
4419     the_class->oop_map_cache()->flush_obsolete_entries();
4420   }
4421 
4422   increment_class_counter(the_class);
4423 
4424   if (EventClassRedefinition::is_enabled()) {
4425     EventClassRedefinition event;
4426     event.set_classModificationCount(java_lang_Class::classRedefinedCount(the_class->java_mirror()));
4427     event.set_redefinedClass(the_class);
4428     event.set_redefinitionId(_id);
4429     event.commit();
4430   }
4431 
4432   {
4433     ResourceMark rm(current);
4434     // increment the classRedefinedCount field in the_class and in any
4435     // direct and indirect subclasses of the_class
4436     log_info(redefine, class, load)
4437       ("redefined name=%s, count=%d (avail_mem=" UINT64_FORMAT "K)",
4438        the_class->external_name(), java_lang_Class::classRedefinedCount(the_class->java_mirror()), os::available_memory() >> 10);
4439     Events::log_redefinition(current, "redefined class name=%s, count=%d",
4440                              the_class->external_name(),
4441                              java_lang_Class::classRedefinedCount(the_class->java_mirror()));
4442 
4443   }
4444   _timer_rsc_phase2.stop();
4445 
4446 } // end redefine_single_class()
4447 
4448 
4449 // Increment the classRedefinedCount field in the specific InstanceKlass
4450 // and in all direct and indirect subclasses.
4451 void VM_RedefineClasses::increment_class_counter(InstanceKlass* ik) {
4452   for (ClassHierarchyIterator iter(ik); !iter.done(); iter.next()) {
4453     // Only update instanceKlasses
4454     Klass* sub = iter.klass();
4455     if (sub->is_instance_klass()) {
4456       oop class_mirror = InstanceKlass::cast(sub)->java_mirror();
4457       Klass* class_oop = java_lang_Class::as_Klass(class_mirror);
4458       int new_count = java_lang_Class::classRedefinedCount(class_mirror) + 1;
4459       java_lang_Class::set_classRedefinedCount(class_mirror, new_count);
4460 
4461       if (class_oop != _the_class) {
4462         // _the_class count is printed at end of redefine_single_class()
4463         log_debug(redefine, class, subclass)("updated count in subclass=%s to %d", ik->external_name(), new_count);
4464       }
4465     }
4466   }
4467 }
4468 
4469 void VM_RedefineClasses::CheckClass::do_klass(Klass* k) {
4470   bool no_old_methods = true;  // be optimistic
4471 
4472   // Both array and instance classes have vtables.
4473   // a vtable should never contain old or obsolete methods
4474   ResourceMark rm(_thread);
4475   if (k->vtable_length() > 0 &&
4476       !k->vtable().check_no_old_or_obsolete_entries()) {
4477     if (log_is_enabled(Trace, redefine, class, obsolete, metadata)) {
4478       log_trace(redefine, class, obsolete, metadata)
4479         ("klassVtable::check_no_old_or_obsolete_entries failure -- OLD or OBSOLETE method found -- class: %s",
4480          k->signature_name());
4481       k->vtable().dump_vtable();
4482     }
4483     no_old_methods = false;
4484   }
4485 
4486   if (k->is_instance_klass()) {
4487     HandleMark hm(_thread);
4488     InstanceKlass *ik = InstanceKlass::cast(k);
4489 
4490     // an itable should never contain old or obsolete methods
4491     if (ik->itable_length() > 0 &&
4492         !ik->itable().check_no_old_or_obsolete_entries()) {
4493       if (log_is_enabled(Trace, redefine, class, obsolete, metadata)) {
4494         log_trace(redefine, class, obsolete, metadata)
4495           ("klassItable::check_no_old_or_obsolete_entries failure -- OLD or OBSOLETE method found -- class: %s",
4496            ik->signature_name());
4497         ik->itable().dump_itable();
4498       }
4499       no_old_methods = false;
4500     }
4501 
4502     // the constant pool cache should never contain non-deleted old or obsolete methods
4503     if (ik->constants() != nullptr &&
4504         ik->constants()->cache() != nullptr &&
4505         !ik->constants()->cache()->check_no_old_or_obsolete_entries()) {
4506       if (log_is_enabled(Trace, redefine, class, obsolete, metadata)) {
4507         log_trace(redefine, class, obsolete, metadata)
4508           ("cp-cache::check_no_old_or_obsolete_entries failure -- OLD or OBSOLETE method found -- class: %s",
4509            ik->signature_name());
4510         ik->constants()->cache()->dump_cache();
4511       }
4512       no_old_methods = false;
4513     }
4514   }
4515 
4516   // print and fail guarantee if old methods are found.
4517   if (!no_old_methods) {
4518     if (log_is_enabled(Trace, redefine, class, obsolete, metadata)) {
4519       dump_methods();
4520     } else {
4521       log_trace(redefine, class)("Use the '-Xlog:redefine+class*:' option "
4522         "to see more info about the following guarantee() failure.");
4523     }
4524     guarantee(false, "OLD and/or OBSOLETE method(s) found");
4525   }
4526 }
4527 
4528 u8 VM_RedefineClasses::next_id() {
4529   while (true) {
4530     u8 id = _id_counter;
4531     u8 next_id = id + 1;
4532     u8 result = Atomic::cmpxchg(&_id_counter, id, next_id);
4533     if (result == id) {
4534       return next_id;
4535     }
4536   }
4537 }
4538 
4539 void VM_RedefineClasses::dump_methods() {
4540   int j;
4541   log_trace(redefine, class, dump)("_old_methods --");
4542   for (j = 0; j < _old_methods->length(); ++j) {
4543     LogStreamHandle(Trace, redefine, class, dump) log_stream;
4544     Method* m = _old_methods->at(j);
4545     log_stream.print("%4d  (%5d)  ", j, m->vtable_index());
4546     m->access_flags().print_on(&log_stream);
4547     log_stream.print(" --  ");
4548     m->print_name(&log_stream);
4549     log_stream.cr();
4550   }
4551   log_trace(redefine, class, dump)("_new_methods --");
4552   for (j = 0; j < _new_methods->length(); ++j) {
4553     LogStreamHandle(Trace, redefine, class, dump) log_stream;
4554     Method* m = _new_methods->at(j);
4555     log_stream.print("%4d  (%5d)  ", j, m->vtable_index());
4556     m->access_flags().print_on(&log_stream);
4557     log_stream.print(" --  ");
4558     m->print_name(&log_stream);
4559     log_stream.cr();
4560   }
4561   log_trace(redefine, class, dump)("_matching_methods --");
4562   for (j = 0; j < _matching_methods_length; ++j) {
4563     LogStreamHandle(Trace, redefine, class, dump) log_stream;
4564     Method* m = _matching_old_methods[j];
4565     log_stream.print("%4d  (%5d)  ", j, m->vtable_index());
4566     m->access_flags().print_on(&log_stream);
4567     log_stream.print(" --  ");
4568     m->print_name();
4569     log_stream.cr();
4570 
4571     m = _matching_new_methods[j];
4572     log_stream.print("      (%5d)  ", m->vtable_index());
4573     m->access_flags().print_on(&log_stream);
4574     log_stream.cr();
4575   }
4576   log_trace(redefine, class, dump)("_deleted_methods --");
4577   for (j = 0; j < _deleted_methods_length; ++j) {
4578     LogStreamHandle(Trace, redefine, class, dump) log_stream;
4579     Method* m = _deleted_methods[j];
4580     log_stream.print("%4d  (%5d)  ", j, m->vtable_index());
4581     m->access_flags().print_on(&log_stream);
4582     log_stream.print(" --  ");
4583     m->print_name(&log_stream);
4584     log_stream.cr();
4585   }
4586   log_trace(redefine, class, dump)("_added_methods --");
4587   for (j = 0; j < _added_methods_length; ++j) {
4588     LogStreamHandle(Trace, redefine, class, dump) log_stream;
4589     Method* m = _added_methods[j];
4590     log_stream.print("%4d  (%5d)  ", j, m->vtable_index());
4591     m->access_flags().print_on(&log_stream);
4592     log_stream.print(" --  ");
4593     m->print_name(&log_stream);
4594     log_stream.cr();
4595   }
4596 }
4597 
4598 void VM_RedefineClasses::print_on_error(outputStream* st) const {
4599   VM_Operation::print_on_error(st);
4600   if (_the_class != nullptr) {
4601     ResourceMark rm;
4602     st->print_cr(", redefining class %s", _the_class->external_name());
4603   }
4604 }