1 //===-- SymbolFileDWARF.cpp ------------------------------------*- C++ -*-===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 10 #include "SymbolFileDWARF.h" 11 12 // Other libraries and framework includes 13 #include "clang/AST/ASTConsumer.h" 14 #include "clang/AST/ASTContext.h" 15 #include "clang/AST/Decl.h" 16 #include "clang/AST/DeclGroup.h" 17 #include "clang/AST/DeclObjC.h" 18 #include "clang/AST/DeclTemplate.h" 19 #include "clang/Basic/Builtins.h" 20 #include "clang/Basic/IdentifierTable.h" 21 #include "clang/Basic/LangOptions.h" 22 #include "clang/Basic/SourceManager.h" 23 #include "clang/Basic/TargetInfo.h" 24 #include "clang/Basic/Specifiers.h" 25 #include "clang/Sema/DeclSpec.h" 26 27 #include "llvm/Support/Casting.h" 28 29 #include "lldb/Core/Module.h" 30 #include "lldb/Core/PluginManager.h" 31 #include "lldb/Core/RegularExpression.h" 32 #include "lldb/Core/Scalar.h" 33 #include "lldb/Core/Section.h" 34 #include "lldb/Core/StreamFile.h" 35 #include "lldb/Core/StreamString.h" 36 #include "lldb/Core/Timer.h" 37 #include "lldb/Core/Value.h" 38 39 #include "lldb/Host/Host.h" 40 41 #include "lldb/Symbol/Block.h" 42 #include "lldb/Symbol/ClangExternalASTSourceCallbacks.h" 43 #include "lldb/Symbol/CompileUnit.h" 44 #include "lldb/Symbol/LineTable.h" 45 #include "lldb/Symbol/ObjectFile.h" 46 #include "lldb/Symbol/SymbolVendor.h" 47 #include "lldb/Symbol/VariableList.h" 48 49 #include "lldb/Target/ObjCLanguageRuntime.h" 50 #include "lldb/Target/CPPLanguageRuntime.h" 51 52 #include "DWARFCompileUnit.h" 53 #include "DWARFDebugAbbrev.h" 54 #include "DWARFDebugAranges.h" 55 #include "DWARFDebugInfo.h" 56 #include "DWARFDebugInfoEntry.h" 57 #include "DWARFDebugLine.h" 58 #include "DWARFDebugPubnames.h" 59 #include "DWARFDebugRanges.h" 60 #include "DWARFDIECollection.h" 61 #include "DWARFFormValue.h" 62 #include "DWARFLocationList.h" 63 #include "LogChannelDWARF.h" 64 #include "SymbolFileDWARFDebugMap.h" 65 66 #include <map> 67 68 //#define ENABLE_DEBUG_PRINTF // COMMENT OUT THIS LINE PRIOR TO CHECKIN 69 70 #ifdef ENABLE_DEBUG_PRINTF 71 #include <stdio.h> 72 #define DEBUG_PRINTF(fmt, ...) printf(fmt, ## __VA_ARGS__) 73 #else 74 #define DEBUG_PRINTF(fmt, ...) 75 #endif 76 77 #define DIE_IS_BEING_PARSED ((lldb_private::Type*)1) 78 79 using namespace lldb; 80 using namespace lldb_private; 81 82 static inline bool 83 child_requires_parent_class_union_or_struct_to_be_completed (dw_tag_t tag) 84 { 85 switch (tag) 86 { 87 default: 88 break; 89 case DW_TAG_subprogram: 90 case DW_TAG_inlined_subroutine: 91 case DW_TAG_class_type: 92 case DW_TAG_structure_type: 93 case DW_TAG_union_type: 94 return true; 95 } 96 return false; 97 } 98 99 static AccessType 100 DW_ACCESS_to_AccessType (uint32_t dwarf_accessibility) 101 { 102 switch (dwarf_accessibility) 103 { 104 case DW_ACCESS_public: return eAccessPublic; 105 case DW_ACCESS_private: return eAccessPrivate; 106 case DW_ACCESS_protected: return eAccessProtected; 107 default: break; 108 } 109 return eAccessNone; 110 } 111 112 #if defined(LLDB_CONFIGURATION_DEBUG) or defined(LLDB_CONFIGURATION_RELEASE) 113 114 class DIEStack 115 { 116 public: 117 118 void Push (DWARFCompileUnit *cu, const DWARFDebugInfoEntry *die) 119 { 120 m_dies.push_back (DIEInfo(cu, die)); 121 } 122 123 124 void LogDIEs (Log *log, SymbolFileDWARF *dwarf) 125 { 126 StreamString log_strm; 127 const size_t n = m_dies.size(); 128 log_strm.Printf("DIEStack[%zu]:\n", n); 129 for (size_t i=0; i<n; i++) 130 { 131 DWARFCompileUnit *cu = m_dies[i].cu; 132 const DWARFDebugInfoEntry *die = m_dies[i].die; 133 std::string qualified_name; 134 die->GetQualifiedName(dwarf, cu, qualified_name); 135 log_strm.Printf ("[%zu] 0x%8.8x: %s name='%s'\n", 136 i, 137 die->GetOffset(), 138 DW_TAG_value_to_name(die->Tag()), 139 qualified_name.c_str()); 140 } 141 log->PutCString(log_strm.GetData()); 142 } 143 void Pop () 144 { 145 m_dies.pop_back(); 146 } 147 148 class ScopedPopper 149 { 150 public: 151 ScopedPopper (DIEStack &die_stack) : 152 m_die_stack (die_stack), 153 m_valid (false) 154 { 155 } 156 157 void 158 Push (DWARFCompileUnit *cu, const DWARFDebugInfoEntry *die) 159 { 160 m_valid = true; 161 m_die_stack.Push (cu, die); 162 } 163 164 ~ScopedPopper () 165 { 166 if (m_valid) 167 m_die_stack.Pop(); 168 } 169 170 171 172 protected: 173 DIEStack &m_die_stack; 174 bool m_valid; 175 }; 176 177 protected: 178 struct DIEInfo { 179 DIEInfo (DWARFCompileUnit *c, const DWARFDebugInfoEntry *d) : 180 cu(c), 181 die(d) 182 { 183 } 184 DWARFCompileUnit *cu; 185 const DWARFDebugInfoEntry *die; 186 }; 187 typedef std::vector<DIEInfo> Stack; 188 Stack m_dies; 189 }; 190 #endif 191 192 void 193 SymbolFileDWARF::Initialize() 194 { 195 LogChannelDWARF::Initialize(); 196 PluginManager::RegisterPlugin (GetPluginNameStatic(), 197 GetPluginDescriptionStatic(), 198 CreateInstance); 199 } 200 201 void 202 SymbolFileDWARF::Terminate() 203 { 204 PluginManager::UnregisterPlugin (CreateInstance); 205 LogChannelDWARF::Initialize(); 206 } 207 208 209 const char * 210 SymbolFileDWARF::GetPluginNameStatic() 211 { 212 return "dwarf"; 213 } 214 215 const char * 216 SymbolFileDWARF::GetPluginDescriptionStatic() 217 { 218 return "DWARF and DWARF3 debug symbol file reader."; 219 } 220 221 222 SymbolFile* 223 SymbolFileDWARF::CreateInstance (ObjectFile* obj_file) 224 { 225 return new SymbolFileDWARF(obj_file); 226 } 227 228 TypeList * 229 SymbolFileDWARF::GetTypeList () 230 { 231 if (m_debug_map_symfile) 232 return m_debug_map_symfile->GetTypeList(); 233 return m_obj_file->GetModule()->GetTypeList(); 234 235 } 236 237 //---------------------------------------------------------------------- 238 // Gets the first parent that is a lexical block, function or inlined 239 // subroutine, or compile unit. 240 //---------------------------------------------------------------------- 241 static const DWARFDebugInfoEntry * 242 GetParentSymbolContextDIE(const DWARFDebugInfoEntry *child_die) 243 { 244 const DWARFDebugInfoEntry *die; 245 for (die = child_die->GetParent(); die != NULL; die = die->GetParent()) 246 { 247 dw_tag_t tag = die->Tag(); 248 249 switch (tag) 250 { 251 case DW_TAG_compile_unit: 252 case DW_TAG_subprogram: 253 case DW_TAG_inlined_subroutine: 254 case DW_TAG_lexical_block: 255 return die; 256 } 257 } 258 return NULL; 259 } 260 261 262 SymbolFileDWARF::SymbolFileDWARF(ObjectFile* objfile) : 263 SymbolFile (objfile), 264 UserID (0), // Used by SymbolFileDWARFDebugMap to when this class parses .o files to contain the .o file index/ID 265 m_debug_map_symfile (NULL), 266 m_clang_tu_decl (NULL), 267 m_flags(), 268 m_data_debug_abbrev (), 269 m_data_debug_aranges (), 270 m_data_debug_frame (), 271 m_data_debug_info (), 272 m_data_debug_line (), 273 m_data_debug_loc (), 274 m_data_debug_ranges (), 275 m_data_debug_str (), 276 m_data_apple_names (), 277 m_data_apple_types (), 278 m_data_apple_namespaces (), 279 m_abbr(), 280 m_info(), 281 m_line(), 282 m_apple_names_ap (), 283 m_apple_types_ap (), 284 m_apple_namespaces_ap (), 285 m_apple_objc_ap (), 286 m_function_basename_index(), 287 m_function_fullname_index(), 288 m_function_method_index(), 289 m_function_selector_index(), 290 m_objc_class_selectors_index(), 291 m_global_index(), 292 m_type_index(), 293 m_namespace_index(), 294 m_indexed (false), 295 m_is_external_ast_source (false), 296 m_using_apple_tables (false), 297 m_supports_DW_AT_APPLE_objc_complete_type (eLazyBoolCalculate), 298 m_ranges(), 299 m_unique_ast_type_map () 300 { 301 } 302 303 SymbolFileDWARF::~SymbolFileDWARF() 304 { 305 if (m_is_external_ast_source) 306 { 307 ModuleSP module_sp (m_obj_file->GetModule()); 308 if (module_sp) 309 module_sp->GetClangASTContext().RemoveExternalSource (); 310 } 311 } 312 313 static const ConstString & 314 GetDWARFMachOSegmentName () 315 { 316 static ConstString g_dwarf_section_name ("__DWARF"); 317 return g_dwarf_section_name; 318 } 319 320 UniqueDWARFASTTypeMap & 321 SymbolFileDWARF::GetUniqueDWARFASTTypeMap () 322 { 323 if (m_debug_map_symfile) 324 return m_debug_map_symfile->GetUniqueDWARFASTTypeMap (); 325 return m_unique_ast_type_map; 326 } 327 328 ClangASTContext & 329 SymbolFileDWARF::GetClangASTContext () 330 { 331 if (m_debug_map_symfile) 332 return m_debug_map_symfile->GetClangASTContext (); 333 334 ClangASTContext &ast = m_obj_file->GetModule()->GetClangASTContext(); 335 if (!m_is_external_ast_source) 336 { 337 m_is_external_ast_source = true; 338 llvm::OwningPtr<clang::ExternalASTSource> ast_source_ap ( 339 new ClangExternalASTSourceCallbacks (SymbolFileDWARF::CompleteTagDecl, 340 SymbolFileDWARF::CompleteObjCInterfaceDecl, 341 SymbolFileDWARF::FindExternalVisibleDeclsByName, 342 SymbolFileDWARF::LayoutRecordType, 343 this)); 344 ast.SetExternalSource (ast_source_ap); 345 } 346 return ast; 347 } 348 349 void 350 SymbolFileDWARF::InitializeObject() 351 { 352 // Install our external AST source callbacks so we can complete Clang types. 353 ModuleSP module_sp (m_obj_file->GetModule()); 354 if (module_sp) 355 { 356 const SectionList *section_list = m_obj_file->GetSectionList(); 357 358 const Section* section = section_list->FindSectionByName(GetDWARFMachOSegmentName ()).get(); 359 360 // Memory map the DWARF mach-o segment so we have everything mmap'ed 361 // to keep our heap memory usage down. 362 if (section) 363 m_obj_file->MemoryMapSectionData(section, m_dwarf_data); 364 } 365 get_apple_names_data(); 366 if (m_data_apple_names.GetByteSize() > 0) 367 { 368 m_apple_names_ap.reset (new DWARFMappedHash::MemoryTable (m_data_apple_names, get_debug_str_data(), ".apple_names")); 369 if (m_apple_names_ap->IsValid()) 370 m_using_apple_tables = true; 371 else 372 m_apple_names_ap.reset(); 373 } 374 get_apple_types_data(); 375 if (m_data_apple_types.GetByteSize() > 0) 376 { 377 m_apple_types_ap.reset (new DWARFMappedHash::MemoryTable (m_data_apple_types, get_debug_str_data(), ".apple_types")); 378 if (m_apple_types_ap->IsValid()) 379 m_using_apple_tables = true; 380 else 381 m_apple_types_ap.reset(); 382 } 383 384 get_apple_namespaces_data(); 385 if (m_data_apple_namespaces.GetByteSize() > 0) 386 { 387 m_apple_namespaces_ap.reset (new DWARFMappedHash::MemoryTable (m_data_apple_namespaces, get_debug_str_data(), ".apple_namespaces")); 388 if (m_apple_namespaces_ap->IsValid()) 389 m_using_apple_tables = true; 390 else 391 m_apple_namespaces_ap.reset(); 392 } 393 394 get_apple_objc_data(); 395 if (m_data_apple_objc.GetByteSize() > 0) 396 { 397 m_apple_objc_ap.reset (new DWARFMappedHash::MemoryTable (m_data_apple_objc, get_debug_str_data(), ".apple_objc")); 398 if (m_apple_objc_ap->IsValid()) 399 m_using_apple_tables = true; 400 else 401 m_apple_objc_ap.reset(); 402 } 403 } 404 405 bool 406 SymbolFileDWARF::SupportedVersion(uint16_t version) 407 { 408 return version == 2 || version == 3; 409 } 410 411 uint32_t 412 SymbolFileDWARF::CalculateAbilities () 413 { 414 uint32_t abilities = 0; 415 if (m_obj_file != NULL) 416 { 417 const Section* section = NULL; 418 const SectionList *section_list = m_obj_file->GetSectionList(); 419 if (section_list == NULL) 420 return 0; 421 422 uint64_t debug_abbrev_file_size = 0; 423 uint64_t debug_aranges_file_size = 0; 424 uint64_t debug_frame_file_size = 0; 425 uint64_t debug_info_file_size = 0; 426 uint64_t debug_line_file_size = 0; 427 uint64_t debug_loc_file_size = 0; 428 uint64_t debug_macinfo_file_size = 0; 429 uint64_t debug_pubnames_file_size = 0; 430 uint64_t debug_pubtypes_file_size = 0; 431 uint64_t debug_ranges_file_size = 0; 432 uint64_t debug_str_file_size = 0; 433 434 section = section_list->FindSectionByName(GetDWARFMachOSegmentName ()).get(); 435 436 if (section) 437 section_list = §ion->GetChildren (); 438 439 section = section_list->FindSectionByType (eSectionTypeDWARFDebugInfo, true).get(); 440 if (section != NULL) 441 { 442 debug_info_file_size = section->GetByteSize(); 443 444 section = section_list->FindSectionByType (eSectionTypeDWARFDebugAbbrev, true).get(); 445 if (section) 446 debug_abbrev_file_size = section->GetByteSize(); 447 else 448 m_flags.Set (flagsGotDebugAbbrevData); 449 450 section = section_list->FindSectionByType (eSectionTypeDWARFDebugAranges, true).get(); 451 if (section) 452 debug_aranges_file_size = section->GetByteSize(); 453 else 454 m_flags.Set (flagsGotDebugArangesData); 455 456 section = section_list->FindSectionByType (eSectionTypeDWARFDebugFrame, true).get(); 457 if (section) 458 debug_frame_file_size = section->GetByteSize(); 459 else 460 m_flags.Set (flagsGotDebugFrameData); 461 462 section = section_list->FindSectionByType (eSectionTypeDWARFDebugLine, true).get(); 463 if (section) 464 debug_line_file_size = section->GetByteSize(); 465 else 466 m_flags.Set (flagsGotDebugLineData); 467 468 section = section_list->FindSectionByType (eSectionTypeDWARFDebugLoc, true).get(); 469 if (section) 470 debug_loc_file_size = section->GetByteSize(); 471 else 472 m_flags.Set (flagsGotDebugLocData); 473 474 section = section_list->FindSectionByType (eSectionTypeDWARFDebugMacInfo, true).get(); 475 if (section) 476 debug_macinfo_file_size = section->GetByteSize(); 477 else 478 m_flags.Set (flagsGotDebugMacInfoData); 479 480 section = section_list->FindSectionByType (eSectionTypeDWARFDebugPubNames, true).get(); 481 if (section) 482 debug_pubnames_file_size = section->GetByteSize(); 483 else 484 m_flags.Set (flagsGotDebugPubNamesData); 485 486 section = section_list->FindSectionByType (eSectionTypeDWARFDebugPubTypes, true).get(); 487 if (section) 488 debug_pubtypes_file_size = section->GetByteSize(); 489 else 490 m_flags.Set (flagsGotDebugPubTypesData); 491 492 section = section_list->FindSectionByType (eSectionTypeDWARFDebugRanges, true).get(); 493 if (section) 494 debug_ranges_file_size = section->GetByteSize(); 495 else 496 m_flags.Set (flagsGotDebugRangesData); 497 498 section = section_list->FindSectionByType (eSectionTypeDWARFDebugStr, true).get(); 499 if (section) 500 debug_str_file_size = section->GetByteSize(); 501 else 502 m_flags.Set (flagsGotDebugStrData); 503 } 504 505 if (debug_abbrev_file_size > 0 && debug_info_file_size > 0) 506 abilities |= CompileUnits | Functions | Blocks | GlobalVariables | LocalVariables | VariableTypes; 507 508 if (debug_line_file_size > 0) 509 abilities |= LineTables; 510 511 if (debug_aranges_file_size > 0) 512 abilities |= AddressAcceleratorTable; 513 514 if (debug_pubnames_file_size > 0) 515 abilities |= FunctionAcceleratorTable; 516 517 if (debug_pubtypes_file_size > 0) 518 abilities |= TypeAcceleratorTable; 519 520 if (debug_macinfo_file_size > 0) 521 abilities |= MacroInformation; 522 523 if (debug_frame_file_size > 0) 524 abilities |= CallFrameInformation; 525 } 526 return abilities; 527 } 528 529 const DataExtractor& 530 SymbolFileDWARF::GetCachedSectionData (uint32_t got_flag, SectionType sect_type, DataExtractor &data) 531 { 532 if (m_flags.IsClear (got_flag)) 533 { 534 m_flags.Set (got_flag); 535 const SectionList *section_list = m_obj_file->GetSectionList(); 536 if (section_list) 537 { 538 SectionSP section_sp (section_list->FindSectionByType(sect_type, true)); 539 if (section_sp) 540 { 541 // See if we memory mapped the DWARF segment? 542 if (m_dwarf_data.GetByteSize()) 543 { 544 data.SetData(m_dwarf_data, section_sp->GetOffset (), section_sp->GetByteSize()); 545 } 546 else 547 { 548 if (m_obj_file->ReadSectionData (section_sp.get(), data) == 0) 549 data.Clear(); 550 } 551 } 552 } 553 } 554 return data; 555 } 556 557 const DataExtractor& 558 SymbolFileDWARF::get_debug_abbrev_data() 559 { 560 return GetCachedSectionData (flagsGotDebugAbbrevData, eSectionTypeDWARFDebugAbbrev, m_data_debug_abbrev); 561 } 562 563 const DataExtractor& 564 SymbolFileDWARF::get_debug_aranges_data() 565 { 566 return GetCachedSectionData (flagsGotDebugArangesData, eSectionTypeDWARFDebugAranges, m_data_debug_aranges); 567 } 568 569 const DataExtractor& 570 SymbolFileDWARF::get_debug_frame_data() 571 { 572 return GetCachedSectionData (flagsGotDebugFrameData, eSectionTypeDWARFDebugFrame, m_data_debug_frame); 573 } 574 575 const DataExtractor& 576 SymbolFileDWARF::get_debug_info_data() 577 { 578 return GetCachedSectionData (flagsGotDebugInfoData, eSectionTypeDWARFDebugInfo, m_data_debug_info); 579 } 580 581 const DataExtractor& 582 SymbolFileDWARF::get_debug_line_data() 583 { 584 return GetCachedSectionData (flagsGotDebugLineData, eSectionTypeDWARFDebugLine, m_data_debug_line); 585 } 586 587 const DataExtractor& 588 SymbolFileDWARF::get_debug_loc_data() 589 { 590 return GetCachedSectionData (flagsGotDebugLocData, eSectionTypeDWARFDebugLoc, m_data_debug_loc); 591 } 592 593 const DataExtractor& 594 SymbolFileDWARF::get_debug_ranges_data() 595 { 596 return GetCachedSectionData (flagsGotDebugRangesData, eSectionTypeDWARFDebugRanges, m_data_debug_ranges); 597 } 598 599 const DataExtractor& 600 SymbolFileDWARF::get_debug_str_data() 601 { 602 return GetCachedSectionData (flagsGotDebugStrData, eSectionTypeDWARFDebugStr, m_data_debug_str); 603 } 604 605 const DataExtractor& 606 SymbolFileDWARF::get_apple_names_data() 607 { 608 return GetCachedSectionData (flagsGotAppleNamesData, eSectionTypeDWARFAppleNames, m_data_apple_names); 609 } 610 611 const DataExtractor& 612 SymbolFileDWARF::get_apple_types_data() 613 { 614 return GetCachedSectionData (flagsGotAppleTypesData, eSectionTypeDWARFAppleTypes, m_data_apple_types); 615 } 616 617 const DataExtractor& 618 SymbolFileDWARF::get_apple_namespaces_data() 619 { 620 return GetCachedSectionData (flagsGotAppleNamespacesData, eSectionTypeDWARFAppleNamespaces, m_data_apple_namespaces); 621 } 622 623 const DataExtractor& 624 SymbolFileDWARF::get_apple_objc_data() 625 { 626 return GetCachedSectionData (flagsGotAppleObjCData, eSectionTypeDWARFAppleObjC, m_data_apple_objc); 627 } 628 629 630 DWARFDebugAbbrev* 631 SymbolFileDWARF::DebugAbbrev() 632 { 633 if (m_abbr.get() == NULL) 634 { 635 const DataExtractor &debug_abbrev_data = get_debug_abbrev_data(); 636 if (debug_abbrev_data.GetByteSize() > 0) 637 { 638 m_abbr.reset(new DWARFDebugAbbrev()); 639 if (m_abbr.get()) 640 m_abbr->Parse(debug_abbrev_data); 641 } 642 } 643 return m_abbr.get(); 644 } 645 646 const DWARFDebugAbbrev* 647 SymbolFileDWARF::DebugAbbrev() const 648 { 649 return m_abbr.get(); 650 } 651 652 653 DWARFDebugInfo* 654 SymbolFileDWARF::DebugInfo() 655 { 656 if (m_info.get() == NULL) 657 { 658 Timer scoped_timer(__PRETTY_FUNCTION__, "%s this = %p", __PRETTY_FUNCTION__, this); 659 if (get_debug_info_data().GetByteSize() > 0) 660 { 661 m_info.reset(new DWARFDebugInfo()); 662 if (m_info.get()) 663 { 664 m_info->SetDwarfData(this); 665 } 666 } 667 } 668 return m_info.get(); 669 } 670 671 const DWARFDebugInfo* 672 SymbolFileDWARF::DebugInfo() const 673 { 674 return m_info.get(); 675 } 676 677 DWARFCompileUnit* 678 SymbolFileDWARF::GetDWARFCompileUnitForUID(lldb::user_id_t cu_uid) 679 { 680 DWARFDebugInfo* info = DebugInfo(); 681 if (info && UserIDMatches(cu_uid)) 682 return info->GetCompileUnit((dw_offset_t)cu_uid).get(); 683 return NULL; 684 } 685 686 687 DWARFDebugRanges* 688 SymbolFileDWARF::DebugRanges() 689 { 690 if (m_ranges.get() == NULL) 691 { 692 Timer scoped_timer(__PRETTY_FUNCTION__, "%s this = %p", __PRETTY_FUNCTION__, this); 693 if (get_debug_ranges_data().GetByteSize() > 0) 694 { 695 m_ranges.reset(new DWARFDebugRanges()); 696 if (m_ranges.get()) 697 m_ranges->Extract(this); 698 } 699 } 700 return m_ranges.get(); 701 } 702 703 const DWARFDebugRanges* 704 SymbolFileDWARF::DebugRanges() const 705 { 706 return m_ranges.get(); 707 } 708 709 bool 710 SymbolFileDWARF::ParseCompileUnit (DWARFCompileUnit* curr_cu, CompUnitSP& compile_unit_sp) 711 { 712 if (curr_cu != NULL) 713 { 714 const DWARFDebugInfoEntry * cu_die = curr_cu->GetCompileUnitDIEOnly (); 715 if (cu_die) 716 { 717 const char * cu_die_name = cu_die->GetName(this, curr_cu); 718 const char * cu_comp_dir = cu_die->GetAttributeValueAsString(this, curr_cu, DW_AT_comp_dir, NULL); 719 LanguageType cu_language = (LanguageType)cu_die->GetAttributeValueAsUnsigned(this, curr_cu, DW_AT_language, 0); 720 if (cu_die_name) 721 { 722 FileSpec cu_file_spec; 723 724 if (cu_die_name[0] == '/' || cu_comp_dir == NULL || cu_comp_dir[0] == '\0') 725 { 726 // If we have a full path to the compile unit, we don't need to resolve 727 // the file. This can be expensive e.g. when the source files are NFS mounted. 728 cu_file_spec.SetFile (cu_die_name, false); 729 } 730 else 731 { 732 std::string fullpath(cu_comp_dir); 733 if (*fullpath.rbegin() != '/') 734 fullpath += '/'; 735 fullpath += cu_die_name; 736 cu_file_spec.SetFile (fullpath.c_str(), false); 737 } 738 739 compile_unit_sp.reset(new CompileUnit (m_obj_file->GetModule(), 740 curr_cu, 741 cu_file_spec, 742 MakeUserID(curr_cu->GetOffset()), 743 cu_language)); 744 if (compile_unit_sp.get()) 745 { 746 curr_cu->SetUserData(compile_unit_sp.get()); 747 return true; 748 } 749 } 750 } 751 } 752 return false; 753 } 754 755 uint32_t 756 SymbolFileDWARF::GetNumCompileUnits() 757 { 758 DWARFDebugInfo* info = DebugInfo(); 759 if (info) 760 return info->GetNumCompileUnits(); 761 return 0; 762 } 763 764 CompUnitSP 765 SymbolFileDWARF::ParseCompileUnitAtIndex(uint32_t cu_idx) 766 { 767 CompUnitSP comp_unit; 768 DWARFDebugInfo* info = DebugInfo(); 769 if (info) 770 { 771 DWARFCompileUnit* curr_cu = info->GetCompileUnitAtIndex(cu_idx); 772 if (curr_cu != NULL) 773 { 774 // Our symbol vendor shouldn't be asking us to add a compile unit that 775 // has already been added to it, which this DWARF plug-in knows as it 776 // stores the lldb compile unit (CompileUnit) pointer in each 777 // DWARFCompileUnit object when it gets added. 778 assert(curr_cu->GetUserData() == NULL); 779 ParseCompileUnit(curr_cu, comp_unit); 780 } 781 } 782 return comp_unit; 783 } 784 785 static void 786 AddRangesToBlock (Block& block, 787 DWARFDebugRanges::RangeList& ranges, 788 addr_t block_base_addr) 789 { 790 const size_t num_ranges = ranges.GetSize(); 791 for (size_t i = 0; i<num_ranges; ++i) 792 { 793 const DWARFDebugRanges::Range &range = ranges.GetEntryRef (i); 794 const addr_t range_base = range.GetRangeBase(); 795 assert (range_base >= block_base_addr); 796 block.AddRange(Block::Range (range_base - block_base_addr, range.GetByteSize()));; 797 } 798 block.FinalizeRanges (); 799 } 800 801 802 Function * 803 SymbolFileDWARF::ParseCompileUnitFunction (const SymbolContext& sc, DWARFCompileUnit* dwarf_cu, const DWARFDebugInfoEntry *die) 804 { 805 DWARFDebugRanges::RangeList func_ranges; 806 const char *name = NULL; 807 const char *mangled = NULL; 808 int decl_file = 0; 809 int decl_line = 0; 810 int decl_column = 0; 811 int call_file = 0; 812 int call_line = 0; 813 int call_column = 0; 814 DWARFExpression frame_base; 815 816 assert (die->Tag() == DW_TAG_subprogram); 817 818 if (die->Tag() != DW_TAG_subprogram) 819 return NULL; 820 821 if (die->GetDIENamesAndRanges (this, 822 dwarf_cu, 823 name, 824 mangled, 825 func_ranges, 826 decl_file, 827 decl_line, 828 decl_column, 829 call_file, 830 call_line, 831 call_column, 832 &frame_base)) 833 { 834 // Union of all ranges in the function DIE (if the function is discontiguous) 835 AddressRange func_range; 836 lldb::addr_t lowest_func_addr = func_ranges.GetMinRangeBase (0); 837 lldb::addr_t highest_func_addr = func_ranges.GetMaxRangeEnd (0); 838 if (lowest_func_addr != LLDB_INVALID_ADDRESS && lowest_func_addr <= highest_func_addr) 839 { 840 func_range.GetBaseAddress().ResolveAddressUsingFileSections (lowest_func_addr, m_obj_file->GetSectionList()); 841 if (func_range.GetBaseAddress().IsValid()) 842 func_range.SetByteSize(highest_func_addr - lowest_func_addr); 843 } 844 845 if (func_range.GetBaseAddress().IsValid()) 846 { 847 Mangled func_name; 848 if (mangled) 849 func_name.SetValue(mangled, true); 850 else if (name) 851 func_name.SetValue(name, false); 852 853 FunctionSP func_sp; 854 std::auto_ptr<Declaration> decl_ap; 855 if (decl_file != 0 || decl_line != 0 || decl_column != 0) 856 decl_ap.reset(new Declaration (sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(decl_file), 857 decl_line, 858 decl_column)); 859 860 // Supply the type _only_ if it has already been parsed 861 Type *func_type = m_die_to_type.lookup (die); 862 863 assert(func_type == NULL || func_type != DIE_IS_BEING_PARSED); 864 865 func_range.GetBaseAddress().ResolveLinkedAddress(); 866 867 const user_id_t func_user_id = MakeUserID(die->GetOffset()); 868 func_sp.reset(new Function (sc.comp_unit, 869 func_user_id, // UserID is the DIE offset 870 func_user_id, 871 func_name, 872 func_type, 873 func_range)); // first address range 874 875 if (func_sp.get() != NULL) 876 { 877 if (frame_base.IsValid()) 878 func_sp->GetFrameBaseExpression() = frame_base; 879 sc.comp_unit->AddFunction(func_sp); 880 return func_sp.get(); 881 } 882 } 883 } 884 return NULL; 885 } 886 887 size_t 888 SymbolFileDWARF::ParseCompileUnitFunctions(const SymbolContext &sc) 889 { 890 assert (sc.comp_unit); 891 size_t functions_added = 0; 892 DWARFCompileUnit* dwarf_cu = GetDWARFCompileUnitForUID(sc.comp_unit->GetID()); 893 if (dwarf_cu) 894 { 895 DWARFDIECollection function_dies; 896 const size_t num_funtions = dwarf_cu->AppendDIEsWithTag (DW_TAG_subprogram, function_dies); 897 size_t func_idx; 898 for (func_idx = 0; func_idx < num_funtions; ++func_idx) 899 { 900 const DWARFDebugInfoEntry *die = function_dies.GetDIEPtrAtIndex(func_idx); 901 if (sc.comp_unit->FindFunctionByUID (MakeUserID(die->GetOffset())).get() == NULL) 902 { 903 if (ParseCompileUnitFunction(sc, dwarf_cu, die)) 904 ++functions_added; 905 } 906 } 907 //FixupTypes(); 908 } 909 return functions_added; 910 } 911 912 bool 913 SymbolFileDWARF::ParseCompileUnitSupportFiles (const SymbolContext& sc, FileSpecList& support_files) 914 { 915 assert (sc.comp_unit); 916 DWARFCompileUnit* curr_cu = GetDWARFCompileUnitForUID(sc.comp_unit->GetID()); 917 assert (curr_cu); 918 const DWARFDebugInfoEntry * cu_die = curr_cu->GetCompileUnitDIEOnly(); 919 920 if (cu_die) 921 { 922 const char * cu_comp_dir = cu_die->GetAttributeValueAsString(this, curr_cu, DW_AT_comp_dir, NULL); 923 dw_offset_t stmt_list = cu_die->GetAttributeValueAsUnsigned(this, curr_cu, DW_AT_stmt_list, DW_INVALID_OFFSET); 924 925 // All file indexes in DWARF are one based and a file of index zero is 926 // supposed to be the compile unit itself. 927 support_files.Append (*sc.comp_unit); 928 929 return DWARFDebugLine::ParseSupportFiles(get_debug_line_data(), cu_comp_dir, stmt_list, support_files); 930 } 931 return false; 932 } 933 934 struct ParseDWARFLineTableCallbackInfo 935 { 936 LineTable* line_table; 937 const SectionList *section_list; 938 lldb::addr_t prev_sect_file_base_addr; 939 lldb::addr_t curr_sect_file_base_addr; 940 bool is_oso_for_debug_map; 941 bool prev_in_final_executable; 942 DWARFDebugLine::Row prev_row; 943 SectionSP prev_section_sp; 944 SectionSP curr_section_sp; 945 }; 946 947 //---------------------------------------------------------------------- 948 // ParseStatementTableCallback 949 //---------------------------------------------------------------------- 950 static void 951 ParseDWARFLineTableCallback(dw_offset_t offset, const DWARFDebugLine::State& state, void* userData) 952 { 953 LineTable* line_table = ((ParseDWARFLineTableCallbackInfo*)userData)->line_table; 954 if (state.row == DWARFDebugLine::State::StartParsingLineTable) 955 { 956 // Just started parsing the line table 957 } 958 else if (state.row == DWARFDebugLine::State::DoneParsingLineTable) 959 { 960 // Done parsing line table, nothing to do for the cleanup 961 } 962 else 963 { 964 ParseDWARFLineTableCallbackInfo* info = (ParseDWARFLineTableCallbackInfo*)userData; 965 // We have a new row, lets append it 966 967 if (info->curr_section_sp.get() == NULL || info->curr_section_sp->ContainsFileAddress(state.address) == false) 968 { 969 info->prev_section_sp = info->curr_section_sp; 970 info->prev_sect_file_base_addr = info->curr_sect_file_base_addr; 971 // If this is an end sequence entry, then we subtract one from the 972 // address to make sure we get an address that is not the end of 973 // a section. 974 if (state.end_sequence && state.address != 0) 975 info->curr_section_sp = info->section_list->FindSectionContainingFileAddress (state.address - 1); 976 else 977 info->curr_section_sp = info->section_list->FindSectionContainingFileAddress (state.address); 978 979 if (info->curr_section_sp.get()) 980 info->curr_sect_file_base_addr = info->curr_section_sp->GetFileAddress (); 981 else 982 info->curr_sect_file_base_addr = 0; 983 } 984 if (info->curr_section_sp.get()) 985 { 986 lldb::addr_t curr_line_section_offset = state.address - info->curr_sect_file_base_addr; 987 // Check for the fancy section magic to determine if we 988 989 if (info->is_oso_for_debug_map) 990 { 991 // When this is a debug map object file that contains DWARF 992 // (referenced from an N_OSO debug map nlist entry) we will have 993 // a file address in the file range for our section from the 994 // original .o file, and a load address in the executable that 995 // contains the debug map. 996 // 997 // If the sections for the file range and load range are 998 // different, we have a remapped section for the function and 999 // this address is resolved. If they are the same, then the 1000 // function for this address didn't make it into the final 1001 // executable. 1002 bool curr_in_final_executable = info->curr_section_sp->GetLinkedSection () != NULL; 1003 1004 // If we are doing DWARF with debug map, then we need to carefully 1005 // add each line table entry as there may be gaps as functions 1006 // get moved around or removed. 1007 if (!info->prev_row.end_sequence && info->prev_section_sp.get()) 1008 { 1009 if (info->prev_in_final_executable) 1010 { 1011 bool terminate_previous_entry = false; 1012 if (!curr_in_final_executable) 1013 { 1014 // Check for the case where the previous line entry 1015 // in a function made it into the final executable, 1016 // yet the current line entry falls in a function 1017 // that didn't. The line table used to be contiguous 1018 // through this address range but now it isn't. We 1019 // need to terminate the previous line entry so 1020 // that we can reconstruct the line range correctly 1021 // for it and to keep the line table correct. 1022 terminate_previous_entry = true; 1023 } 1024 else if (info->curr_section_sp.get() != info->prev_section_sp.get()) 1025 { 1026 // Check for cases where the line entries used to be 1027 // contiguous address ranges, but now they aren't. 1028 // This can happen when order files specify the 1029 // ordering of the functions. 1030 lldb::addr_t prev_line_section_offset = info->prev_row.address - info->prev_sect_file_base_addr; 1031 Section *curr_sect = info->curr_section_sp.get(); 1032 Section *prev_sect = info->prev_section_sp.get(); 1033 assert (curr_sect->GetLinkedSection()); 1034 assert (prev_sect->GetLinkedSection()); 1035 lldb::addr_t object_file_addr_delta = state.address - info->prev_row.address; 1036 lldb::addr_t curr_linked_file_addr = curr_sect->GetLinkedFileAddress() + curr_line_section_offset; 1037 lldb::addr_t prev_linked_file_addr = prev_sect->GetLinkedFileAddress() + prev_line_section_offset; 1038 lldb::addr_t linked_file_addr_delta = curr_linked_file_addr - prev_linked_file_addr; 1039 if (object_file_addr_delta != linked_file_addr_delta) 1040 terminate_previous_entry = true; 1041 } 1042 1043 if (terminate_previous_entry) 1044 { 1045 line_table->InsertLineEntry (info->prev_section_sp, 1046 state.address - info->prev_sect_file_base_addr, 1047 info->prev_row.line, 1048 info->prev_row.column, 1049 info->prev_row.file, 1050 false, // is_stmt 1051 false, // basic_block 1052 false, // state.prologue_end 1053 false, // state.epilogue_begin 1054 true); // end_sequence); 1055 } 1056 } 1057 } 1058 1059 if (curr_in_final_executable) 1060 { 1061 line_table->InsertLineEntry (info->curr_section_sp, 1062 curr_line_section_offset, 1063 state.line, 1064 state.column, 1065 state.file, 1066 state.is_stmt, 1067 state.basic_block, 1068 state.prologue_end, 1069 state.epilogue_begin, 1070 state.end_sequence); 1071 info->prev_section_sp = info->curr_section_sp; 1072 } 1073 else 1074 { 1075 // If the current address didn't make it into the final 1076 // executable, the current section will be the __text 1077 // segment in the .o file, so we need to clear this so 1078 // we can catch the next function that did make it into 1079 // the final executable. 1080 info->prev_section_sp.reset(); 1081 info->curr_section_sp.reset(); 1082 } 1083 1084 info->prev_in_final_executable = curr_in_final_executable; 1085 } 1086 else 1087 { 1088 // We are not in an object file that contains DWARF for an 1089 // N_OSO, this is just a normal DWARF file. The DWARF spec 1090 // guarantees that the addresses will be in increasing order 1091 // so, since we store line tables in file address order, we 1092 // can always just append the line entry without needing to 1093 // search for the correct insertion point (we don't need to 1094 // use LineEntry::InsertLineEntry()). 1095 line_table->AppendLineEntry (info->curr_section_sp, 1096 curr_line_section_offset, 1097 state.line, 1098 state.column, 1099 state.file, 1100 state.is_stmt, 1101 state.basic_block, 1102 state.prologue_end, 1103 state.epilogue_begin, 1104 state.end_sequence); 1105 } 1106 } 1107 1108 info->prev_row = state; 1109 } 1110 } 1111 1112 bool 1113 SymbolFileDWARF::ParseCompileUnitLineTable (const SymbolContext &sc) 1114 { 1115 assert (sc.comp_unit); 1116 if (sc.comp_unit->GetLineTable() != NULL) 1117 return true; 1118 1119 DWARFCompileUnit* dwarf_cu = GetDWARFCompileUnitForUID(sc.comp_unit->GetID()); 1120 if (dwarf_cu) 1121 { 1122 const DWARFDebugInfoEntry *dwarf_cu_die = dwarf_cu->GetCompileUnitDIEOnly(); 1123 if (dwarf_cu_die) 1124 { 1125 const dw_offset_t cu_line_offset = dwarf_cu_die->GetAttributeValueAsUnsigned(this, dwarf_cu, DW_AT_stmt_list, DW_INVALID_OFFSET); 1126 if (cu_line_offset != DW_INVALID_OFFSET) 1127 { 1128 std::auto_ptr<LineTable> line_table_ap(new LineTable(sc.comp_unit)); 1129 if (line_table_ap.get()) 1130 { 1131 ParseDWARFLineTableCallbackInfo info = { 1132 line_table_ap.get(), 1133 m_obj_file->GetSectionList(), 1134 0, 1135 0, 1136 m_debug_map_symfile != NULL, 1137 false, 1138 DWARFDebugLine::Row(), 1139 SectionSP(), 1140 SectionSP() 1141 }; 1142 uint32_t offset = cu_line_offset; 1143 DWARFDebugLine::ParseStatementTable(get_debug_line_data(), &offset, ParseDWARFLineTableCallback, &info); 1144 sc.comp_unit->SetLineTable(line_table_ap.release()); 1145 return true; 1146 } 1147 } 1148 } 1149 } 1150 return false; 1151 } 1152 1153 size_t 1154 SymbolFileDWARF::ParseFunctionBlocks 1155 ( 1156 const SymbolContext& sc, 1157 Block *parent_block, 1158 DWARFCompileUnit* dwarf_cu, 1159 const DWARFDebugInfoEntry *die, 1160 addr_t subprogram_low_pc, 1161 uint32_t depth 1162 ) 1163 { 1164 size_t blocks_added = 0; 1165 while (die != NULL) 1166 { 1167 dw_tag_t tag = die->Tag(); 1168 1169 switch (tag) 1170 { 1171 case DW_TAG_inlined_subroutine: 1172 case DW_TAG_subprogram: 1173 case DW_TAG_lexical_block: 1174 { 1175 Block *block = NULL; 1176 if (tag == DW_TAG_subprogram) 1177 { 1178 // Skip any DW_TAG_subprogram DIEs that are inside 1179 // of a normal or inlined functions. These will be 1180 // parsed on their own as separate entities. 1181 1182 if (depth > 0) 1183 break; 1184 1185 block = parent_block; 1186 } 1187 else 1188 { 1189 BlockSP block_sp(new Block (MakeUserID(die->GetOffset()))); 1190 parent_block->AddChild(block_sp); 1191 block = block_sp.get(); 1192 } 1193 DWARFDebugRanges::RangeList ranges; 1194 const char *name = NULL; 1195 const char *mangled_name = NULL; 1196 1197 int decl_file = 0; 1198 int decl_line = 0; 1199 int decl_column = 0; 1200 int call_file = 0; 1201 int call_line = 0; 1202 int call_column = 0; 1203 if (die->GetDIENamesAndRanges (this, 1204 dwarf_cu, 1205 name, 1206 mangled_name, 1207 ranges, 1208 decl_file, decl_line, decl_column, 1209 call_file, call_line, call_column)) 1210 { 1211 if (tag == DW_TAG_subprogram) 1212 { 1213 assert (subprogram_low_pc == LLDB_INVALID_ADDRESS); 1214 subprogram_low_pc = ranges.GetMinRangeBase(0); 1215 } 1216 else if (tag == DW_TAG_inlined_subroutine) 1217 { 1218 // We get called here for inlined subroutines in two ways. 1219 // The first time is when we are making the Function object 1220 // for this inlined concrete instance. Since we're creating a top level block at 1221 // here, the subprogram_low_pc will be LLDB_INVALID_ADDRESS. So we need to 1222 // adjust the containing address. 1223 // The second time is when we are parsing the blocks inside the function that contains 1224 // the inlined concrete instance. Since these will be blocks inside the containing "real" 1225 // function the offset will be for that function. 1226 if (subprogram_low_pc == LLDB_INVALID_ADDRESS) 1227 { 1228 subprogram_low_pc = ranges.GetMinRangeBase(0); 1229 } 1230 } 1231 1232 AddRangesToBlock (*block, ranges, subprogram_low_pc); 1233 1234 if (tag != DW_TAG_subprogram && (name != NULL || mangled_name != NULL)) 1235 { 1236 std::auto_ptr<Declaration> decl_ap; 1237 if (decl_file != 0 || decl_line != 0 || decl_column != 0) 1238 decl_ap.reset(new Declaration(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(decl_file), 1239 decl_line, decl_column)); 1240 1241 std::auto_ptr<Declaration> call_ap; 1242 if (call_file != 0 || call_line != 0 || call_column != 0) 1243 call_ap.reset(new Declaration(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(call_file), 1244 call_line, call_column)); 1245 1246 block->SetInlinedFunctionInfo (name, mangled_name, decl_ap.get(), call_ap.get()); 1247 } 1248 1249 ++blocks_added; 1250 1251 if (die->HasChildren()) 1252 { 1253 blocks_added += ParseFunctionBlocks (sc, 1254 block, 1255 dwarf_cu, 1256 die->GetFirstChild(), 1257 subprogram_low_pc, 1258 depth + 1); 1259 } 1260 } 1261 } 1262 break; 1263 default: 1264 break; 1265 } 1266 1267 // Only parse siblings of the block if we are not at depth zero. A depth 1268 // of zero indicates we are currently parsing the top level 1269 // DW_TAG_subprogram DIE 1270 1271 if (depth == 0) 1272 die = NULL; 1273 else 1274 die = die->GetSibling(); 1275 } 1276 return blocks_added; 1277 } 1278 1279 bool 1280 SymbolFileDWARF::ParseTemplateDIE (DWARFCompileUnit* dwarf_cu, 1281 const DWARFDebugInfoEntry *die, 1282 ClangASTContext::TemplateParameterInfos &template_param_infos) 1283 { 1284 const dw_tag_t tag = die->Tag(); 1285 1286 switch (tag) 1287 { 1288 case DW_TAG_template_type_parameter: 1289 case DW_TAG_template_value_parameter: 1290 { 1291 const uint8_t *fixed_form_sizes = DWARFFormValue::GetFixedFormSizesForAddressSize (dwarf_cu->GetAddressByteSize()); 1292 1293 DWARFDebugInfoEntry::Attributes attributes; 1294 const size_t num_attributes = die->GetAttributes (this, 1295 dwarf_cu, 1296 fixed_form_sizes, 1297 attributes); 1298 const char *name = NULL; 1299 Type *lldb_type = NULL; 1300 clang_type_t clang_type = NULL; 1301 uint64_t uval64 = 0; 1302 bool uval64_valid = false; 1303 if (num_attributes > 0) 1304 { 1305 DWARFFormValue form_value; 1306 for (size_t i=0; i<num_attributes; ++i) 1307 { 1308 const dw_attr_t attr = attributes.AttributeAtIndex(i); 1309 1310 switch (attr) 1311 { 1312 case DW_AT_name: 1313 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 1314 name = form_value.AsCString(&get_debug_str_data()); 1315 break; 1316 1317 case DW_AT_type: 1318 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 1319 { 1320 const dw_offset_t type_die_offset = form_value.Reference(dwarf_cu); 1321 lldb_type = ResolveTypeUID(type_die_offset); 1322 if (lldb_type) 1323 clang_type = lldb_type->GetClangForwardType(); 1324 } 1325 break; 1326 1327 case DW_AT_const_value: 1328 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 1329 { 1330 uval64_valid = true; 1331 uval64 = form_value.Unsigned(); 1332 } 1333 break; 1334 default: 1335 break; 1336 } 1337 } 1338 1339 if (name && lldb_type && clang_type) 1340 { 1341 bool is_signed = false; 1342 template_param_infos.names.push_back(name); 1343 clang::QualType clang_qual_type (clang::QualType::getFromOpaquePtr (clang_type)); 1344 if (tag == DW_TAG_template_value_parameter && ClangASTContext::IsIntegerType (clang_type, is_signed) && uval64_valid) 1345 { 1346 llvm::APInt apint (lldb_type->GetByteSize() * 8, uval64, is_signed); 1347 template_param_infos.args.push_back (clang::TemplateArgument (llvm::APSInt(apint), clang_qual_type)); 1348 } 1349 else 1350 { 1351 template_param_infos.args.push_back (clang::TemplateArgument (clang_qual_type)); 1352 } 1353 } 1354 else 1355 { 1356 return false; 1357 } 1358 1359 } 1360 } 1361 return true; 1362 1363 default: 1364 break; 1365 } 1366 return false; 1367 } 1368 1369 bool 1370 SymbolFileDWARF::ParseTemplateParameterInfos (DWARFCompileUnit* dwarf_cu, 1371 const DWARFDebugInfoEntry *parent_die, 1372 ClangASTContext::TemplateParameterInfos &template_param_infos) 1373 { 1374 1375 if (parent_die == NULL) 1376 return NULL; 1377 1378 Args template_parameter_names; 1379 for (const DWARFDebugInfoEntry *die = parent_die->GetFirstChild(); 1380 die != NULL; 1381 die = die->GetSibling()) 1382 { 1383 const dw_tag_t tag = die->Tag(); 1384 1385 switch (tag) 1386 { 1387 case DW_TAG_template_type_parameter: 1388 case DW_TAG_template_value_parameter: 1389 ParseTemplateDIE (dwarf_cu, die, template_param_infos); 1390 break; 1391 1392 default: 1393 break; 1394 } 1395 } 1396 if (template_param_infos.args.empty()) 1397 return false; 1398 return template_param_infos.args.size() == template_param_infos.names.size(); 1399 } 1400 1401 clang::ClassTemplateDecl * 1402 SymbolFileDWARF::ParseClassTemplateDecl (clang::DeclContext *decl_ctx, 1403 lldb::AccessType access_type, 1404 const char *parent_name, 1405 int tag_decl_kind, 1406 const ClangASTContext::TemplateParameterInfos &template_param_infos) 1407 { 1408 if (template_param_infos.IsValid()) 1409 { 1410 std::string template_basename(parent_name); 1411 template_basename.erase (template_basename.find('<')); 1412 ClangASTContext &ast = GetClangASTContext(); 1413 1414 return ast.CreateClassTemplateDecl (decl_ctx, 1415 access_type, 1416 template_basename.c_str(), 1417 tag_decl_kind, 1418 template_param_infos); 1419 } 1420 return NULL; 1421 } 1422 1423 size_t 1424 SymbolFileDWARF::ParseChildMembers 1425 ( 1426 const SymbolContext& sc, 1427 DWARFCompileUnit* dwarf_cu, 1428 const DWARFDebugInfoEntry *parent_die, 1429 clang_type_t class_clang_type, 1430 const LanguageType class_language, 1431 std::vector<clang::CXXBaseSpecifier *>& base_classes, 1432 std::vector<int>& member_accessibilities, 1433 DWARFDIECollection& member_function_dies, 1434 AccessType& default_accessibility, 1435 bool &is_a_class, 1436 LayoutInfo &layout_info 1437 ) 1438 { 1439 if (parent_die == NULL) 1440 return 0; 1441 1442 size_t count = 0; 1443 const DWARFDebugInfoEntry *die; 1444 const uint8_t *fixed_form_sizes = DWARFFormValue::GetFixedFormSizesForAddressSize (dwarf_cu->GetAddressByteSize()); 1445 uint32_t member_idx = 0; 1446 1447 for (die = parent_die->GetFirstChild(); die != NULL; die = die->GetSibling()) 1448 { 1449 dw_tag_t tag = die->Tag(); 1450 1451 switch (tag) 1452 { 1453 case DW_TAG_member: 1454 { 1455 DWARFDebugInfoEntry::Attributes attributes; 1456 const size_t num_attributes = die->GetAttributes (this, 1457 dwarf_cu, 1458 fixed_form_sizes, 1459 attributes); 1460 if (num_attributes > 0) 1461 { 1462 Declaration decl; 1463 //DWARFExpression location; 1464 const char *name = NULL; 1465 const char *prop_name = NULL; 1466 const char *prop_getter_name = NULL; 1467 const char *prop_setter_name = NULL; 1468 uint32_t prop_attributes = 0; 1469 1470 1471 bool is_artificial = false; 1472 lldb::user_id_t encoding_uid = LLDB_INVALID_UID; 1473 AccessType accessibility = eAccessNone; 1474 uint32_t member_byte_offset = UINT32_MAX; 1475 size_t byte_size = 0; 1476 size_t bit_offset = 0; 1477 size_t bit_size = 0; 1478 uint32_t i; 1479 for (i=0; i<num_attributes && !is_artificial; ++i) 1480 { 1481 const dw_attr_t attr = attributes.AttributeAtIndex(i); 1482 DWARFFormValue form_value; 1483 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 1484 { 1485 switch (attr) 1486 { 1487 case DW_AT_decl_file: decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); break; 1488 case DW_AT_decl_line: decl.SetLine(form_value.Unsigned()); break; 1489 case DW_AT_decl_column: decl.SetColumn(form_value.Unsigned()); break; 1490 case DW_AT_name: name = form_value.AsCString(&get_debug_str_data()); break; 1491 case DW_AT_type: encoding_uid = form_value.Reference(dwarf_cu); break; 1492 case DW_AT_bit_offset: bit_offset = form_value.Unsigned(); break; 1493 case DW_AT_bit_size: bit_size = form_value.Unsigned(); break; 1494 case DW_AT_byte_size: byte_size = form_value.Unsigned(); break; 1495 case DW_AT_data_member_location: 1496 if (form_value.BlockData()) 1497 { 1498 Value initialValue(0); 1499 Value memberOffset(0); 1500 const DataExtractor& debug_info_data = get_debug_info_data(); 1501 uint32_t block_length = form_value.Unsigned(); 1502 uint32_t block_offset = form_value.BlockData() - debug_info_data.GetDataStart(); 1503 if (DWARFExpression::Evaluate(NULL, // ExecutionContext * 1504 NULL, // clang::ASTContext * 1505 NULL, // ClangExpressionVariableList * 1506 NULL, // ClangExpressionDeclMap * 1507 NULL, // RegisterContext * 1508 debug_info_data, 1509 block_offset, 1510 block_length, 1511 eRegisterKindDWARF, 1512 &initialValue, 1513 memberOffset, 1514 NULL)) 1515 { 1516 member_byte_offset = memberOffset.ResolveValue(NULL, NULL).UInt(); 1517 } 1518 } 1519 break; 1520 1521 case DW_AT_accessibility: accessibility = DW_ACCESS_to_AccessType (form_value.Unsigned()); break; 1522 case DW_AT_artificial: is_artificial = form_value.Unsigned() != 0; break; 1523 case DW_AT_declaration: 1524 case DW_AT_description: 1525 case DW_AT_mutable: 1526 case DW_AT_visibility: 1527 1528 case DW_AT_APPLE_property_name: prop_name = form_value.AsCString(&get_debug_str_data()); break; 1529 case DW_AT_APPLE_property_getter: prop_getter_name = form_value.AsCString(&get_debug_str_data()); break; 1530 case DW_AT_APPLE_property_setter: prop_setter_name = form_value.AsCString(&get_debug_str_data()); break; 1531 case DW_AT_APPLE_property_attribute: prop_attributes = form_value.Unsigned(); break; 1532 1533 default: 1534 case DW_AT_sibling: 1535 break; 1536 } 1537 } 1538 } 1539 1540 // Clang has a DWARF generation bug where sometimes it 1541 // represents fields that are references with bad byte size 1542 // and bit size/offset information such as: 1543 // 1544 // DW_AT_byte_size( 0x00 ) 1545 // DW_AT_bit_size( 0x40 ) 1546 // DW_AT_bit_offset( 0xffffffffffffffc0 ) 1547 // 1548 // So check the bit offset to make sure it is sane, and if 1549 // the values are not sane, remove them. If we don't do this 1550 // then we will end up with a crash if we try to use this 1551 // type in an expression when clang becomes unhappy with its 1552 // recycled debug info. 1553 1554 if (bit_offset > 128) 1555 { 1556 bit_size = 0; 1557 bit_offset = 0; 1558 } 1559 1560 // FIXME: Make Clang ignore Objective-C accessibility for expressions 1561 if (class_language == eLanguageTypeObjC || 1562 class_language == eLanguageTypeObjC_plus_plus) 1563 accessibility = eAccessNone; 1564 1565 if (member_idx == 0 && !is_artificial && name && (strstr (name, "_vptr$") == name)) 1566 { 1567 // Not all compilers will mark the vtable pointer 1568 // member as artificial (llvm-gcc). We can't have 1569 // the virtual members in our classes otherwise it 1570 // throws off all child offsets since we end up 1571 // having and extra pointer sized member in our 1572 // class layouts. 1573 is_artificial = true; 1574 } 1575 1576 if (is_artificial == false) 1577 { 1578 Type *member_type = ResolveTypeUID(encoding_uid); 1579 clang::FieldDecl *field_decl = NULL; 1580 if (member_type) 1581 { 1582 if (accessibility == eAccessNone) 1583 accessibility = default_accessibility; 1584 member_accessibilities.push_back(accessibility); 1585 1586 field_decl = GetClangASTContext().AddFieldToRecordType (class_clang_type, 1587 name, 1588 member_type->GetClangLayoutType(), 1589 accessibility, 1590 bit_size); 1591 } 1592 else 1593 { 1594 if (name) 1595 GetObjectFile()->GetModule()->ReportError ("0x%8.8llx: DW_TAG_member '%s' refers to type 0x%8.8llx which was unable to be parsed", 1596 MakeUserID(die->GetOffset()), 1597 name, 1598 encoding_uid); 1599 else 1600 GetObjectFile()->GetModule()->ReportError ("0x%8.8llx: DW_TAG_member refers to type 0x%8.8llx which was unable to be parsed", 1601 MakeUserID(die->GetOffset()), 1602 encoding_uid); 1603 } 1604 1605 if (member_byte_offset != UINT32_MAX || bit_size != 0) 1606 { 1607 ///////////////////////////////////////////////////////////// 1608 // How to locate a field given the DWARF debug information 1609 // 1610 // AT_byte_size indicates the size of the word in which the 1611 // bit offset must be interpreted. 1612 // 1613 // AT_data_member_location indicates the byte offset of the 1614 // word from the base address of the structure. 1615 // 1616 // AT_bit_offset indicates how many bits into the word 1617 // (according to the host endianness) the low-order bit of 1618 // the field starts. AT_bit_offset can be negative. 1619 // 1620 // AT_bit_size indicates the size of the field in bits. 1621 ///////////////////////////////////////////////////////////// 1622 1623 ByteOrder object_endian = GetObjectFile()->GetModule()->GetArchitecture().GetDefaultEndian(); 1624 1625 uint64_t total_bit_offset = 0; 1626 1627 total_bit_offset += (member_byte_offset == UINT32_MAX ? 0 : (member_byte_offset * 8)); 1628 1629 if (object_endian == eByteOrderLittle) 1630 { 1631 total_bit_offset += byte_size * 8; 1632 total_bit_offset -= (bit_offset + bit_size); 1633 } 1634 else 1635 { 1636 total_bit_offset += bit_offset; 1637 } 1638 1639 layout_info.field_offsets.insert(std::make_pair(field_decl, total_bit_offset)); 1640 } 1641 if (prop_name != NULL) 1642 { 1643 1644 clang::ObjCIvarDecl *ivar_decl = clang::dyn_cast<clang::ObjCIvarDecl>(field_decl); 1645 assert (ivar_decl != NULL); 1646 1647 1648 GetClangASTContext().AddObjCClassProperty (class_clang_type, 1649 prop_name, 1650 0, 1651 ivar_decl, 1652 prop_setter_name, 1653 prop_getter_name, 1654 prop_attributes); 1655 } 1656 } 1657 } 1658 ++member_idx; 1659 } 1660 break; 1661 1662 case DW_TAG_subprogram: 1663 // Let the type parsing code handle this one for us. 1664 member_function_dies.Append (die); 1665 break; 1666 1667 case DW_TAG_inheritance: 1668 { 1669 is_a_class = true; 1670 if (default_accessibility == eAccessNone) 1671 default_accessibility = eAccessPrivate; 1672 // TODO: implement DW_TAG_inheritance type parsing 1673 DWARFDebugInfoEntry::Attributes attributes; 1674 const size_t num_attributes = die->GetAttributes (this, 1675 dwarf_cu, 1676 fixed_form_sizes, 1677 attributes); 1678 if (num_attributes > 0) 1679 { 1680 Declaration decl; 1681 DWARFExpression location; 1682 lldb::user_id_t encoding_uid = LLDB_INVALID_UID; 1683 AccessType accessibility = default_accessibility; 1684 bool is_virtual = false; 1685 bool is_base_of_class = true; 1686 off_t member_offset = 0; 1687 uint32_t i; 1688 for (i=0; i<num_attributes; ++i) 1689 { 1690 const dw_attr_t attr = attributes.AttributeAtIndex(i); 1691 DWARFFormValue form_value; 1692 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 1693 { 1694 switch (attr) 1695 { 1696 case DW_AT_decl_file: decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); break; 1697 case DW_AT_decl_line: decl.SetLine(form_value.Unsigned()); break; 1698 case DW_AT_decl_column: decl.SetColumn(form_value.Unsigned()); break; 1699 case DW_AT_type: encoding_uid = form_value.Reference(dwarf_cu); break; 1700 case DW_AT_data_member_location: 1701 if (form_value.BlockData()) 1702 { 1703 Value initialValue(0); 1704 Value memberOffset(0); 1705 const DataExtractor& debug_info_data = get_debug_info_data(); 1706 uint32_t block_length = form_value.Unsigned(); 1707 uint32_t block_offset = form_value.BlockData() - debug_info_data.GetDataStart(); 1708 if (DWARFExpression::Evaluate (NULL, 1709 NULL, 1710 NULL, 1711 NULL, 1712 NULL, 1713 debug_info_data, 1714 block_offset, 1715 block_length, 1716 eRegisterKindDWARF, 1717 &initialValue, 1718 memberOffset, 1719 NULL)) 1720 { 1721 member_offset = memberOffset.ResolveValue(NULL, NULL).UInt(); 1722 } 1723 } 1724 break; 1725 1726 case DW_AT_accessibility: 1727 accessibility = DW_ACCESS_to_AccessType(form_value.Unsigned()); 1728 break; 1729 1730 case DW_AT_virtuality: is_virtual = form_value.Unsigned() != 0; break; 1731 default: 1732 case DW_AT_sibling: 1733 break; 1734 } 1735 } 1736 } 1737 1738 Type *base_class_type = ResolveTypeUID(encoding_uid); 1739 assert(base_class_type); 1740 1741 clang_type_t base_class_clang_type = base_class_type->GetClangFullType(); 1742 assert (base_class_clang_type); 1743 if (class_language == eLanguageTypeObjC) 1744 { 1745 GetClangASTContext().SetObjCSuperClass(class_clang_type, base_class_clang_type); 1746 } 1747 else 1748 { 1749 base_classes.push_back (GetClangASTContext().CreateBaseClassSpecifier (base_class_clang_type, 1750 accessibility, 1751 is_virtual, 1752 is_base_of_class)); 1753 } 1754 } 1755 } 1756 break; 1757 1758 default: 1759 break; 1760 } 1761 } 1762 return count; 1763 } 1764 1765 1766 clang::DeclContext* 1767 SymbolFileDWARF::GetClangDeclContextContainingTypeUID (lldb::user_id_t type_uid) 1768 { 1769 DWARFDebugInfo* debug_info = DebugInfo(); 1770 if (debug_info && UserIDMatches(type_uid)) 1771 { 1772 DWARFCompileUnitSP cu_sp; 1773 const DWARFDebugInfoEntry* die = debug_info->GetDIEPtr(type_uid, &cu_sp); 1774 if (die) 1775 return GetClangDeclContextContainingDIE (cu_sp.get(), die, NULL); 1776 } 1777 return NULL; 1778 } 1779 1780 clang::DeclContext* 1781 SymbolFileDWARF::GetClangDeclContextForTypeUID (const lldb_private::SymbolContext &sc, lldb::user_id_t type_uid) 1782 { 1783 if (UserIDMatches(type_uid)) 1784 return GetClangDeclContextForDIEOffset (sc, type_uid); 1785 return NULL; 1786 } 1787 1788 Type* 1789 SymbolFileDWARF::ResolveTypeUID (lldb::user_id_t type_uid) 1790 { 1791 if (UserIDMatches(type_uid)) 1792 { 1793 DWARFDebugInfo* debug_info = DebugInfo(); 1794 if (debug_info) 1795 { 1796 DWARFCompileUnitSP cu_sp; 1797 const DWARFDebugInfoEntry* type_die = debug_info->GetDIEPtr(type_uid, &cu_sp); 1798 const bool assert_not_being_parsed = true; 1799 return ResolveTypeUID (cu_sp.get(), type_die, assert_not_being_parsed); 1800 } 1801 } 1802 return NULL; 1803 } 1804 1805 Type* 1806 SymbolFileDWARF::ResolveTypeUID (DWARFCompileUnit* cu, const DWARFDebugInfoEntry* die, bool assert_not_being_parsed) 1807 { 1808 if (die != NULL) 1809 { 1810 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO)); 1811 if (log) 1812 GetObjectFile()->GetModule()->LogMessage (log.get(), 1813 "SymbolFileDWARF::ResolveTypeUID (die = 0x%8.8x) %s '%s'", 1814 die->GetOffset(), 1815 DW_TAG_value_to_name(die->Tag()), 1816 die->GetName(this, cu)); 1817 1818 // We might be coming in in the middle of a type tree (a class 1819 // withing a class, an enum within a class), so parse any needed 1820 // parent DIEs before we get to this one... 1821 const DWARFDebugInfoEntry *decl_ctx_die = GetDeclContextDIEContainingDIE (cu, die); 1822 switch (decl_ctx_die->Tag()) 1823 { 1824 case DW_TAG_structure_type: 1825 case DW_TAG_union_type: 1826 case DW_TAG_class_type: 1827 { 1828 // Get the type, which could be a forward declaration 1829 if (log) 1830 GetObjectFile()->GetModule()->LogMessage (log.get(), 1831 "SymbolFileDWARF::ResolveTypeUID (die = 0x%8.8x) %s '%s' resolve parent forward type for 0x%8.8x", 1832 die->GetOffset(), 1833 DW_TAG_value_to_name(die->Tag()), 1834 die->GetName(this, cu), 1835 decl_ctx_die->GetOffset()); 1836 1837 Type *parent_type = ResolveTypeUID (cu, decl_ctx_die, assert_not_being_parsed); 1838 if (child_requires_parent_class_union_or_struct_to_be_completed(die->Tag())) 1839 { 1840 if (log) 1841 GetObjectFile()->GetModule()->LogMessage (log.get(), 1842 "SymbolFileDWARF::ResolveTypeUID (die = 0x%8.8x) %s '%s' resolve parent full type for 0x%8.8x since die is a function", 1843 die->GetOffset(), 1844 DW_TAG_value_to_name(die->Tag()), 1845 die->GetName(this, cu), 1846 decl_ctx_die->GetOffset()); 1847 // Ask the type to complete itself if it already hasn't since if we 1848 // want a function (method or static) from a class, the class must 1849 // create itself and add it's own methods and class functions. 1850 if (parent_type) 1851 parent_type->GetClangFullType(); 1852 } 1853 } 1854 break; 1855 1856 default: 1857 break; 1858 } 1859 return ResolveType (cu, die); 1860 } 1861 return NULL; 1862 } 1863 1864 // This function is used when SymbolFileDWARFDebugMap owns a bunch of 1865 // SymbolFileDWARF objects to detect if this DWARF file is the one that 1866 // can resolve a clang_type. 1867 bool 1868 SymbolFileDWARF::HasForwardDeclForClangType (lldb::clang_type_t clang_type) 1869 { 1870 clang_type_t clang_type_no_qualifiers = ClangASTType::RemoveFastQualifiers(clang_type); 1871 const DWARFDebugInfoEntry* die = m_forward_decl_clang_type_to_die.lookup (clang_type_no_qualifiers); 1872 return die != NULL; 1873 } 1874 1875 1876 lldb::clang_type_t 1877 SymbolFileDWARF::ResolveClangOpaqueTypeDefinition (lldb::clang_type_t clang_type) 1878 { 1879 // We have a struct/union/class/enum that needs to be fully resolved. 1880 clang_type_t clang_type_no_qualifiers = ClangASTType::RemoveFastQualifiers(clang_type); 1881 const DWARFDebugInfoEntry* die = m_forward_decl_clang_type_to_die.lookup (clang_type_no_qualifiers); 1882 if (die == NULL) 1883 { 1884 // We have already resolved this type... 1885 return clang_type; 1886 } 1887 // Once we start resolving this type, remove it from the forward declaration 1888 // map in case anyone child members or other types require this type to get resolved. 1889 // The type will get resolved when all of the calls to SymbolFileDWARF::ResolveClangOpaqueTypeDefinition 1890 // are done. 1891 m_forward_decl_clang_type_to_die.erase (clang_type_no_qualifiers); 1892 1893 1894 // Disable external storage for this type so we don't get anymore 1895 // clang::ExternalASTSource queries for this type. 1896 ClangASTContext::SetHasExternalStorage (clang_type, false); 1897 1898 DWARFDebugInfo* debug_info = DebugInfo(); 1899 1900 DWARFCompileUnit *curr_cu = debug_info->GetCompileUnitContainingDIE (die->GetOffset()).get(); 1901 Type *type = m_die_to_type.lookup (die); 1902 1903 const dw_tag_t tag = die->Tag(); 1904 1905 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO)); 1906 if (log) 1907 GetObjectFile()->GetModule()->LogMessage (log.get(), 1908 "0x%8.8llx: %s '%s' resolving forward declaration...\n", 1909 MakeUserID(die->GetOffset()), 1910 DW_TAG_value_to_name(tag), 1911 type->GetName().AsCString()); 1912 assert (clang_type); 1913 DWARFDebugInfoEntry::Attributes attributes; 1914 1915 ClangASTContext &ast = GetClangASTContext(); 1916 1917 switch (tag) 1918 { 1919 case DW_TAG_structure_type: 1920 case DW_TAG_union_type: 1921 case DW_TAG_class_type: 1922 { 1923 LayoutInfo layout_info; 1924 1925 ast.StartTagDeclarationDefinition (clang_type); 1926 { 1927 if (die->HasChildren()) 1928 { 1929 1930 LanguageType class_language = eLanguageTypeUnknown; 1931 bool is_objc_class = ClangASTContext::IsObjCClassType (clang_type); 1932 if (is_objc_class) 1933 class_language = eLanguageTypeObjC; 1934 1935 int tag_decl_kind = -1; 1936 AccessType default_accessibility = eAccessNone; 1937 if (tag == DW_TAG_structure_type) 1938 { 1939 tag_decl_kind = clang::TTK_Struct; 1940 default_accessibility = eAccessPublic; 1941 } 1942 else if (tag == DW_TAG_union_type) 1943 { 1944 tag_decl_kind = clang::TTK_Union; 1945 default_accessibility = eAccessPublic; 1946 } 1947 else if (tag == DW_TAG_class_type) 1948 { 1949 tag_decl_kind = clang::TTK_Class; 1950 default_accessibility = eAccessPrivate; 1951 } 1952 1953 SymbolContext sc(GetCompUnitForDWARFCompUnit(curr_cu)); 1954 std::vector<clang::CXXBaseSpecifier *> base_classes; 1955 std::vector<int> member_accessibilities; 1956 bool is_a_class = false; 1957 // Parse members and base classes first 1958 DWARFDIECollection member_function_dies; 1959 1960 ParseChildMembers (sc, 1961 curr_cu, 1962 die, 1963 clang_type, 1964 class_language, 1965 base_classes, 1966 member_accessibilities, 1967 member_function_dies, 1968 default_accessibility, 1969 is_a_class, 1970 layout_info); 1971 1972 // Now parse any methods if there were any... 1973 size_t num_functions = member_function_dies.Size(); 1974 if (num_functions > 0) 1975 { 1976 for (size_t i=0; i<num_functions; ++i) 1977 { 1978 ResolveType(curr_cu, member_function_dies.GetDIEPtrAtIndex(i)); 1979 } 1980 } 1981 1982 if (class_language == eLanguageTypeObjC) 1983 { 1984 std::string class_str (ClangASTType::GetTypeNameForOpaqueQualType(clang_type)); 1985 if (!class_str.empty()) 1986 { 1987 1988 DIEArray method_die_offsets; 1989 if (m_using_apple_tables) 1990 { 1991 if (m_apple_objc_ap.get()) 1992 m_apple_objc_ap->FindByName(class_str.c_str(), method_die_offsets); 1993 } 1994 else 1995 { 1996 if (!m_indexed) 1997 Index (); 1998 1999 ConstString class_name (class_str.c_str()); 2000 m_objc_class_selectors_index.Find (class_name, method_die_offsets); 2001 } 2002 2003 if (!method_die_offsets.empty()) 2004 { 2005 DWARFDebugInfo* debug_info = DebugInfo(); 2006 2007 DWARFCompileUnit* method_cu = NULL; 2008 const size_t num_matches = method_die_offsets.size(); 2009 for (size_t i=0; i<num_matches; ++i) 2010 { 2011 const dw_offset_t die_offset = method_die_offsets[i]; 2012 DWARFDebugInfoEntry *method_die = debug_info->GetDIEPtrWithCompileUnitHint (die_offset, &method_cu); 2013 2014 if (method_die) 2015 ResolveType (method_cu, method_die); 2016 else 2017 { 2018 if (m_using_apple_tables) 2019 { 2020 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_objc accelerator table had bad die 0x%8.8x for '%s')\n", 2021 die_offset, class_str.c_str()); 2022 } 2023 } 2024 } 2025 } 2026 } 2027 } 2028 2029 // If we have a DW_TAG_structure_type instead of a DW_TAG_class_type we 2030 // need to tell the clang type it is actually a class. 2031 if (class_language != eLanguageTypeObjC) 2032 { 2033 if (is_a_class && tag_decl_kind != clang::TTK_Class) 2034 ast.SetTagTypeKind (clang_type, clang::TTK_Class); 2035 } 2036 2037 // Since DW_TAG_structure_type gets used for both classes 2038 // and structures, we may need to set any DW_TAG_member 2039 // fields to have a "private" access if none was specified. 2040 // When we parsed the child members we tracked that actual 2041 // accessibility value for each DW_TAG_member in the 2042 // "member_accessibilities" array. If the value for the 2043 // member is zero, then it was set to the "default_accessibility" 2044 // which for structs was "public". Below we correct this 2045 // by setting any fields to "private" that weren't correctly 2046 // set. 2047 if (is_a_class && !member_accessibilities.empty()) 2048 { 2049 // This is a class and all members that didn't have 2050 // their access specified are private. 2051 ast.SetDefaultAccessForRecordFields (clang_type, 2052 eAccessPrivate, 2053 &member_accessibilities.front(), 2054 member_accessibilities.size()); 2055 } 2056 2057 if (!base_classes.empty()) 2058 { 2059 ast.SetBaseClassesForClassType (clang_type, 2060 &base_classes.front(), 2061 base_classes.size()); 2062 2063 // Clang will copy each CXXBaseSpecifier in "base_classes" 2064 // so we have to free them all. 2065 ClangASTContext::DeleteBaseClassSpecifiers (&base_classes.front(), 2066 base_classes.size()); 2067 } 2068 } 2069 } 2070 2071 ast.BuildIndirectFields (clang_type); 2072 2073 ast.CompleteTagDeclarationDefinition (clang_type); 2074 2075 if (!layout_info.field_offsets.empty()) 2076 { 2077 if (type) 2078 layout_info.bit_size = type->GetByteSize() * 8; 2079 if (layout_info.bit_size == 0) 2080 layout_info.bit_size = die->GetAttributeValueAsUnsigned(this, curr_cu, DW_AT_byte_size, 0) * 8; 2081 clang::QualType qual_type(clang::QualType::getFromOpaquePtr(clang_type)); 2082 const clang::RecordType *record_type = clang::dyn_cast<clang::RecordType>(qual_type.getTypePtr()); 2083 if (record_type) 2084 { 2085 const clang::RecordDecl *record_decl = record_type->getDecl(); 2086 2087 if (log) 2088 { 2089 GetObjectFile()->GetModule()->LogMessage (log.get(), 2090 "SymbolFileDWARF::ResolveClangOpaqueTypeDefinition (clang_type = %p) caching layout info for record_decl = %p, bit_size = %llu, alignment = %llu, field_offsets[%u], base_offsets[0], vbase_offsets[0])", 2091 clang_type, 2092 record_decl, 2093 layout_info.bit_size, 2094 layout_info.alignment, 2095 (uint32_t)layout_info.field_offsets.size()); 2096 2097 llvm::DenseMap <const clang::FieldDecl *, uint64_t>::const_iterator pos, end = layout_info.field_offsets.end(); 2098 for (pos = layout_info.field_offsets.begin(); pos != end; ++pos) 2099 { 2100 GetObjectFile()->GetModule()->LogMessage (log.get(), 2101 "SymbolFileDWARF::ResolveClangOpaqueTypeDefinition (clang_type = %p) field = { bit_offset=%u, name='%s' }", 2102 clang_type, 2103 (uint32_t)pos->second, 2104 pos->first->getNameAsString().c_str()); 2105 } 2106 } 2107 m_record_decl_to_layout_map.insert(std::make_pair(record_decl, layout_info)); 2108 } 2109 } 2110 } 2111 2112 return clang_type; 2113 2114 case DW_TAG_enumeration_type: 2115 ast.StartTagDeclarationDefinition (clang_type); 2116 if (die->HasChildren()) 2117 { 2118 SymbolContext sc(GetCompUnitForDWARFCompUnit(curr_cu)); 2119 ParseChildEnumerators(sc, clang_type, type->GetByteSize(), curr_cu, die); 2120 } 2121 ast.CompleteTagDeclarationDefinition (clang_type); 2122 return clang_type; 2123 2124 default: 2125 assert(false && "not a forward clang type decl!"); 2126 break; 2127 } 2128 return NULL; 2129 } 2130 2131 Type* 2132 SymbolFileDWARF::ResolveType (DWARFCompileUnit* curr_cu, const DWARFDebugInfoEntry* type_die, bool assert_not_being_parsed) 2133 { 2134 if (type_die != NULL) 2135 { 2136 Type *type = m_die_to_type.lookup (type_die); 2137 2138 if (type == NULL) 2139 type = GetTypeForDIE (curr_cu, type_die).get(); 2140 2141 if (assert_not_being_parsed) 2142 { 2143 if (type != DIE_IS_BEING_PARSED) 2144 return type; 2145 2146 GetObjectFile()->GetModule()->ReportError ("Parsing a die that is being parsed die: 0x%8.8x: %s %s", 2147 type_die->GetOffset(), 2148 DW_TAG_value_to_name(type_die->Tag()), 2149 type_die->GetName(this, curr_cu)); 2150 2151 } 2152 else 2153 return type; 2154 } 2155 return NULL; 2156 } 2157 2158 CompileUnit* 2159 SymbolFileDWARF::GetCompUnitForDWARFCompUnit (DWARFCompileUnit* curr_cu, uint32_t cu_idx) 2160 { 2161 // Check if the symbol vendor already knows about this compile unit? 2162 if (curr_cu->GetUserData() == NULL) 2163 { 2164 // The symbol vendor doesn't know about this compile unit, we 2165 // need to parse and add it to the symbol vendor object. 2166 CompUnitSP dc_cu; 2167 ParseCompileUnit(curr_cu, dc_cu); 2168 if (dc_cu.get()) 2169 { 2170 // Figure out the compile unit index if we weren't given one 2171 if (cu_idx == UINT32_MAX) 2172 DebugInfo()->GetCompileUnit(curr_cu->GetOffset(), &cu_idx); 2173 2174 m_obj_file->GetModule()->GetSymbolVendor()->SetCompileUnitAtIndex(dc_cu, cu_idx); 2175 2176 if (m_debug_map_symfile) 2177 m_debug_map_symfile->SetCompileUnit(this, dc_cu); 2178 } 2179 } 2180 return (CompileUnit*)curr_cu->GetUserData(); 2181 } 2182 2183 bool 2184 SymbolFileDWARF::GetFunction (DWARFCompileUnit* curr_cu, const DWARFDebugInfoEntry* func_die, SymbolContext& sc) 2185 { 2186 sc.Clear(); 2187 // Check if the symbol vendor already knows about this compile unit? 2188 sc.comp_unit = GetCompUnitForDWARFCompUnit(curr_cu, UINT32_MAX); 2189 2190 sc.function = sc.comp_unit->FindFunctionByUID (MakeUserID(func_die->GetOffset())).get(); 2191 if (sc.function == NULL) 2192 sc.function = ParseCompileUnitFunction(sc, curr_cu, func_die); 2193 2194 if (sc.function) 2195 { 2196 sc.module_sp = sc.function->CalculateSymbolContextModule(); 2197 return true; 2198 } 2199 2200 return false; 2201 } 2202 2203 uint32_t 2204 SymbolFileDWARF::ResolveSymbolContext (const Address& so_addr, uint32_t resolve_scope, SymbolContext& sc) 2205 { 2206 Timer scoped_timer(__PRETTY_FUNCTION__, 2207 "SymbolFileDWARF::ResolveSymbolContext (so_addr = { section = %p, offset = 0x%llx }, resolve_scope = 0x%8.8x)", 2208 so_addr.GetSection().get(), 2209 so_addr.GetOffset(), 2210 resolve_scope); 2211 uint32_t resolved = 0; 2212 if (resolve_scope & ( eSymbolContextCompUnit | 2213 eSymbolContextFunction | 2214 eSymbolContextBlock | 2215 eSymbolContextLineEntry)) 2216 { 2217 lldb::addr_t file_vm_addr = so_addr.GetFileAddress(); 2218 2219 DWARFDebugInfo* debug_info = DebugInfo(); 2220 if (debug_info) 2221 { 2222 dw_offset_t cu_offset = debug_info->GetCompileUnitAranges().FindAddress(file_vm_addr); 2223 if (cu_offset != DW_INVALID_OFFSET) 2224 { 2225 uint32_t cu_idx; 2226 DWARFCompileUnit* curr_cu = debug_info->GetCompileUnit(cu_offset, &cu_idx).get(); 2227 if (curr_cu) 2228 { 2229 sc.comp_unit = GetCompUnitForDWARFCompUnit(curr_cu, cu_idx); 2230 assert(sc.comp_unit != NULL); 2231 resolved |= eSymbolContextCompUnit; 2232 2233 if (resolve_scope & eSymbolContextLineEntry) 2234 { 2235 LineTable *line_table = sc.comp_unit->GetLineTable(); 2236 if (line_table != NULL) 2237 { 2238 if (so_addr.IsLinkedAddress()) 2239 { 2240 Address linked_addr (so_addr); 2241 linked_addr.ResolveLinkedAddress(); 2242 if (line_table->FindLineEntryByAddress (linked_addr, sc.line_entry)) 2243 { 2244 resolved |= eSymbolContextLineEntry; 2245 } 2246 } 2247 else if (line_table->FindLineEntryByAddress (so_addr, sc.line_entry)) 2248 { 2249 resolved |= eSymbolContextLineEntry; 2250 } 2251 } 2252 } 2253 2254 if (resolve_scope & (eSymbolContextFunction | eSymbolContextBlock)) 2255 { 2256 DWARFDebugInfoEntry *function_die = NULL; 2257 DWARFDebugInfoEntry *block_die = NULL; 2258 if (resolve_scope & eSymbolContextBlock) 2259 { 2260 curr_cu->LookupAddress(file_vm_addr, &function_die, &block_die); 2261 } 2262 else 2263 { 2264 curr_cu->LookupAddress(file_vm_addr, &function_die, NULL); 2265 } 2266 2267 if (function_die != NULL) 2268 { 2269 sc.function = sc.comp_unit->FindFunctionByUID (MakeUserID(function_die->GetOffset())).get(); 2270 if (sc.function == NULL) 2271 sc.function = ParseCompileUnitFunction(sc, curr_cu, function_die); 2272 } 2273 2274 if (sc.function != NULL) 2275 { 2276 resolved |= eSymbolContextFunction; 2277 2278 if (resolve_scope & eSymbolContextBlock) 2279 { 2280 Block& block = sc.function->GetBlock (true); 2281 2282 if (block_die != NULL) 2283 sc.block = block.FindBlockByID (MakeUserID(block_die->GetOffset())); 2284 else 2285 sc.block = block.FindBlockByID (MakeUserID(function_die->GetOffset())); 2286 if (sc.block) 2287 resolved |= eSymbolContextBlock; 2288 } 2289 } 2290 } 2291 } 2292 } 2293 } 2294 } 2295 return resolved; 2296 } 2297 2298 2299 2300 uint32_t 2301 SymbolFileDWARF::ResolveSymbolContext(const FileSpec& file_spec, uint32_t line, bool check_inlines, uint32_t resolve_scope, SymbolContextList& sc_list) 2302 { 2303 const uint32_t prev_size = sc_list.GetSize(); 2304 if (resolve_scope & eSymbolContextCompUnit) 2305 { 2306 DWARFDebugInfo* debug_info = DebugInfo(); 2307 if (debug_info) 2308 { 2309 uint32_t cu_idx; 2310 DWARFCompileUnit* curr_cu = NULL; 2311 2312 for (cu_idx = 0; (curr_cu = debug_info->GetCompileUnitAtIndex(cu_idx)) != NULL; ++cu_idx) 2313 { 2314 CompileUnit *dc_cu = GetCompUnitForDWARFCompUnit(curr_cu, cu_idx); 2315 bool file_spec_matches_cu_file_spec = dc_cu != NULL && FileSpec::Compare(file_spec, *dc_cu, false) == 0; 2316 if (check_inlines || file_spec_matches_cu_file_spec) 2317 { 2318 SymbolContext sc (m_obj_file->GetModule()); 2319 sc.comp_unit = GetCompUnitForDWARFCompUnit(curr_cu, cu_idx); 2320 assert(sc.comp_unit != NULL); 2321 2322 uint32_t file_idx = UINT32_MAX; 2323 2324 // If we are looking for inline functions only and we don't 2325 // find it in the support files, we are done. 2326 if (check_inlines) 2327 { 2328 file_idx = sc.comp_unit->GetSupportFiles().FindFileIndex (1, file_spec, true); 2329 if (file_idx == UINT32_MAX) 2330 continue; 2331 } 2332 2333 if (line != 0) 2334 { 2335 LineTable *line_table = sc.comp_unit->GetLineTable(); 2336 2337 if (line_table != NULL && line != 0) 2338 { 2339 // We will have already looked up the file index if 2340 // we are searching for inline entries. 2341 if (!check_inlines) 2342 file_idx = sc.comp_unit->GetSupportFiles().FindFileIndex (1, file_spec, true); 2343 2344 if (file_idx != UINT32_MAX) 2345 { 2346 uint32_t found_line; 2347 uint32_t line_idx = line_table->FindLineEntryIndexByFileIndex (0, file_idx, line, false, &sc.line_entry); 2348 found_line = sc.line_entry.line; 2349 2350 while (line_idx != UINT32_MAX) 2351 { 2352 sc.function = NULL; 2353 sc.block = NULL; 2354 if (resolve_scope & (eSymbolContextFunction | eSymbolContextBlock)) 2355 { 2356 const lldb::addr_t file_vm_addr = sc.line_entry.range.GetBaseAddress().GetFileAddress(); 2357 if (file_vm_addr != LLDB_INVALID_ADDRESS) 2358 { 2359 DWARFDebugInfoEntry *function_die = NULL; 2360 DWARFDebugInfoEntry *block_die = NULL; 2361 curr_cu->LookupAddress(file_vm_addr, &function_die, resolve_scope & eSymbolContextBlock ? &block_die : NULL); 2362 2363 if (function_die != NULL) 2364 { 2365 sc.function = sc.comp_unit->FindFunctionByUID (MakeUserID(function_die->GetOffset())).get(); 2366 if (sc.function == NULL) 2367 sc.function = ParseCompileUnitFunction(sc, curr_cu, function_die); 2368 } 2369 2370 if (sc.function != NULL) 2371 { 2372 Block& block = sc.function->GetBlock (true); 2373 2374 if (block_die != NULL) 2375 sc.block = block.FindBlockByID (MakeUserID(block_die->GetOffset())); 2376 else 2377 sc.block = block.FindBlockByID (MakeUserID(function_die->GetOffset())); 2378 } 2379 } 2380 } 2381 2382 sc_list.Append(sc); 2383 line_idx = line_table->FindLineEntryIndexByFileIndex (line_idx + 1, file_idx, found_line, true, &sc.line_entry); 2384 } 2385 } 2386 } 2387 else if (file_spec_matches_cu_file_spec && !check_inlines) 2388 { 2389 // only append the context if we aren't looking for inline call sites 2390 // by file and line and if the file spec matches that of the compile unit 2391 sc_list.Append(sc); 2392 } 2393 } 2394 else if (file_spec_matches_cu_file_spec && !check_inlines) 2395 { 2396 // only append the context if we aren't looking for inline call sites 2397 // by file and line and if the file spec matches that of the compile unit 2398 sc_list.Append(sc); 2399 } 2400 2401 if (!check_inlines) 2402 break; 2403 } 2404 } 2405 } 2406 } 2407 return sc_list.GetSize() - prev_size; 2408 } 2409 2410 void 2411 SymbolFileDWARF::Index () 2412 { 2413 if (m_indexed) 2414 return; 2415 m_indexed = true; 2416 Timer scoped_timer (__PRETTY_FUNCTION__, 2417 "SymbolFileDWARF::Index (%s)", 2418 GetObjectFile()->GetFileSpec().GetFilename().AsCString()); 2419 2420 DWARFDebugInfo* debug_info = DebugInfo(); 2421 if (debug_info) 2422 { 2423 uint32_t cu_idx = 0; 2424 const uint32_t num_compile_units = GetNumCompileUnits(); 2425 for (cu_idx = 0; cu_idx < num_compile_units; ++cu_idx) 2426 { 2427 DWARFCompileUnit* curr_cu = debug_info->GetCompileUnitAtIndex(cu_idx); 2428 2429 bool clear_dies = curr_cu->ExtractDIEsIfNeeded (false) > 1; 2430 2431 curr_cu->Index (cu_idx, 2432 m_function_basename_index, 2433 m_function_fullname_index, 2434 m_function_method_index, 2435 m_function_selector_index, 2436 m_objc_class_selectors_index, 2437 m_global_index, 2438 m_type_index, 2439 m_namespace_index); 2440 2441 // Keep memory down by clearing DIEs if this generate function 2442 // caused them to be parsed 2443 if (clear_dies) 2444 curr_cu->ClearDIEs (true); 2445 } 2446 2447 m_function_basename_index.Finalize(); 2448 m_function_fullname_index.Finalize(); 2449 m_function_method_index.Finalize(); 2450 m_function_selector_index.Finalize(); 2451 m_objc_class_selectors_index.Finalize(); 2452 m_global_index.Finalize(); 2453 m_type_index.Finalize(); 2454 m_namespace_index.Finalize(); 2455 2456 #if defined (ENABLE_DEBUG_PRINTF) 2457 StreamFile s(stdout, false); 2458 s.Printf ("DWARF index for '%s/%s':", 2459 GetObjectFile()->GetFileSpec().GetDirectory().AsCString(), 2460 GetObjectFile()->GetFileSpec().GetFilename().AsCString()); 2461 s.Printf("\nFunction basenames:\n"); m_function_basename_index.Dump (&s); 2462 s.Printf("\nFunction fullnames:\n"); m_function_fullname_index.Dump (&s); 2463 s.Printf("\nFunction methods:\n"); m_function_method_index.Dump (&s); 2464 s.Printf("\nFunction selectors:\n"); m_function_selector_index.Dump (&s); 2465 s.Printf("\nObjective C class selectors:\n"); m_objc_class_selectors_index.Dump (&s); 2466 s.Printf("\nGlobals and statics:\n"); m_global_index.Dump (&s); 2467 s.Printf("\nTypes:\n"); m_type_index.Dump (&s); 2468 s.Printf("\nNamepaces:\n"); m_namespace_index.Dump (&s); 2469 #endif 2470 } 2471 } 2472 2473 bool 2474 SymbolFileDWARF::NamespaceDeclMatchesThisSymbolFile (const ClangNamespaceDecl *namespace_decl) 2475 { 2476 if (namespace_decl == NULL) 2477 { 2478 // Invalid namespace decl which means we aren't matching only things 2479 // in this symbol file, so return true to indicate it matches this 2480 // symbol file. 2481 return true; 2482 } 2483 2484 clang::ASTContext *namespace_ast = namespace_decl->GetASTContext(); 2485 2486 if (namespace_ast == NULL) 2487 return true; // No AST in the "namespace_decl", return true since it 2488 // could then match any symbol file, including this one 2489 2490 if (namespace_ast == GetClangASTContext().getASTContext()) 2491 return true; // The ASTs match, return true 2492 2493 // The namespace AST was valid, and it does not match... 2494 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS)); 2495 2496 if (log) 2497 GetObjectFile()->GetModule()->LogMessage(log.get(), "Valid namespace does not match symbol file"); 2498 2499 return false; 2500 } 2501 2502 bool 2503 SymbolFileDWARF::DIEIsInNamespace (const ClangNamespaceDecl *namespace_decl, 2504 DWARFCompileUnit* cu, 2505 const DWARFDebugInfoEntry* die) 2506 { 2507 // No namespace specified, so the answesr i 2508 if (namespace_decl == NULL) 2509 return true; 2510 2511 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS)); 2512 2513 const DWARFDebugInfoEntry *decl_ctx_die = GetDeclContextDIEContainingDIE (cu, die); 2514 if (decl_ctx_die) 2515 { 2516 2517 clang::NamespaceDecl *clang_namespace_decl = namespace_decl->GetNamespaceDecl(); 2518 if (clang_namespace_decl) 2519 { 2520 if (decl_ctx_die->Tag() != DW_TAG_namespace) 2521 { 2522 if (log) 2523 GetObjectFile()->GetModule()->LogMessage(log.get(), "Found a match, but its parent is not a namespace"); 2524 return false; 2525 } 2526 2527 DeclContextToDIEMap::iterator pos = m_decl_ctx_to_die.find(clang_namespace_decl); 2528 2529 if (pos == m_decl_ctx_to_die.end()) 2530 { 2531 if (log) 2532 GetObjectFile()->GetModule()->LogMessage(log.get(), "Found a match in a namespace, but its parent is not the requested namespace"); 2533 2534 return false; 2535 } 2536 2537 return pos->second.count (decl_ctx_die); 2538 } 2539 else 2540 { 2541 // We have a namespace_decl that was not NULL but it contained 2542 // a NULL "clang::NamespaceDecl", so this means the global namespace 2543 // So as long the the contained decl context DIE isn't a namespace 2544 // we should be ok. 2545 if (decl_ctx_die->Tag() != DW_TAG_namespace) 2546 return true; 2547 } 2548 } 2549 2550 if (log) 2551 GetObjectFile()->GetModule()->LogMessage(log.get(), "Found a match, but its parent doesn't exist"); 2552 2553 return false; 2554 } 2555 uint32_t 2556 SymbolFileDWARF::FindGlobalVariables (const ConstString &name, const lldb_private::ClangNamespaceDecl *namespace_decl, bool append, uint32_t max_matches, VariableList& variables) 2557 { 2558 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS)); 2559 2560 if (log) 2561 { 2562 GetObjectFile()->GetModule()->LogMessage (log.get(), 2563 "SymbolFileDWARF::FindGlobalVariables (name=\"%s\", namespace_decl=%p, append=%u, max_matches=%u, variables)", 2564 name.GetCString(), 2565 namespace_decl, 2566 append, 2567 max_matches); 2568 } 2569 2570 if (!NamespaceDeclMatchesThisSymbolFile(namespace_decl)) 2571 return 0; 2572 2573 DWARFDebugInfo* info = DebugInfo(); 2574 if (info == NULL) 2575 return 0; 2576 2577 // If we aren't appending the results to this list, then clear the list 2578 if (!append) 2579 variables.Clear(); 2580 2581 // Remember how many variables are in the list before we search in case 2582 // we are appending the results to a variable list. 2583 const uint32_t original_size = variables.GetSize(); 2584 2585 DIEArray die_offsets; 2586 2587 if (m_using_apple_tables) 2588 { 2589 if (m_apple_names_ap.get()) 2590 { 2591 const char *name_cstr = name.GetCString(); 2592 const char *base_name_start; 2593 const char *base_name_end = NULL; 2594 2595 if (!CPPLanguageRuntime::StripNamespacesFromVariableName(name_cstr, base_name_start, base_name_end)) 2596 base_name_start = name_cstr; 2597 2598 m_apple_names_ap->FindByName (base_name_start, die_offsets); 2599 } 2600 } 2601 else 2602 { 2603 // Index the DWARF if we haven't already 2604 if (!m_indexed) 2605 Index (); 2606 2607 m_global_index.Find (name, die_offsets); 2608 } 2609 2610 const size_t num_matches = die_offsets.size(); 2611 if (num_matches) 2612 { 2613 SymbolContext sc; 2614 sc.module_sp = m_obj_file->GetModule(); 2615 assert (sc.module_sp); 2616 2617 DWARFDebugInfo* debug_info = DebugInfo(); 2618 DWARFCompileUnit* dwarf_cu = NULL; 2619 const DWARFDebugInfoEntry* die = NULL; 2620 for (size_t i=0; i<num_matches; ++i) 2621 { 2622 const dw_offset_t die_offset = die_offsets[i]; 2623 die = debug_info->GetDIEPtrWithCompileUnitHint (die_offset, &dwarf_cu); 2624 2625 if (die) 2626 { 2627 sc.comp_unit = GetCompUnitForDWARFCompUnit(dwarf_cu, UINT32_MAX); 2628 assert(sc.comp_unit != NULL); 2629 2630 if (namespace_decl && !DIEIsInNamespace (namespace_decl, dwarf_cu, die)) 2631 continue; 2632 2633 ParseVariables(sc, dwarf_cu, LLDB_INVALID_ADDRESS, die, false, false, &variables); 2634 2635 if (variables.GetSize() - original_size >= max_matches) 2636 break; 2637 } 2638 else 2639 { 2640 if (m_using_apple_tables) 2641 { 2642 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_names accelerator table had bad die 0x%8.8x for '%s')\n", 2643 die_offset, name.GetCString()); 2644 } 2645 } 2646 } 2647 } 2648 2649 // Return the number of variable that were appended to the list 2650 return variables.GetSize() - original_size; 2651 } 2652 2653 uint32_t 2654 SymbolFileDWARF::FindGlobalVariables(const RegularExpression& regex, bool append, uint32_t max_matches, VariableList& variables) 2655 { 2656 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS)); 2657 2658 if (log) 2659 { 2660 GetObjectFile()->GetModule()->LogMessage (log.get(), 2661 "SymbolFileDWARF::FindGlobalVariables (regex=\"%s\", append=%u, max_matches=%u, variables)", 2662 regex.GetText(), 2663 append, 2664 max_matches); 2665 } 2666 2667 DWARFDebugInfo* info = DebugInfo(); 2668 if (info == NULL) 2669 return 0; 2670 2671 // If we aren't appending the results to this list, then clear the list 2672 if (!append) 2673 variables.Clear(); 2674 2675 // Remember how many variables are in the list before we search in case 2676 // we are appending the results to a variable list. 2677 const uint32_t original_size = variables.GetSize(); 2678 2679 DIEArray die_offsets; 2680 2681 if (m_using_apple_tables) 2682 { 2683 if (m_apple_names_ap.get()) 2684 { 2685 DWARFMappedHash::DIEInfoArray hash_data_array; 2686 if (m_apple_names_ap->AppendAllDIEsThatMatchingRegex (regex, hash_data_array)) 2687 DWARFMappedHash::ExtractDIEArray (hash_data_array, die_offsets); 2688 } 2689 } 2690 else 2691 { 2692 // Index the DWARF if we haven't already 2693 if (!m_indexed) 2694 Index (); 2695 2696 m_global_index.Find (regex, die_offsets); 2697 } 2698 2699 SymbolContext sc; 2700 sc.module_sp = m_obj_file->GetModule(); 2701 assert (sc.module_sp); 2702 2703 DWARFCompileUnit* dwarf_cu = NULL; 2704 const DWARFDebugInfoEntry* die = NULL; 2705 const size_t num_matches = die_offsets.size(); 2706 if (num_matches) 2707 { 2708 DWARFDebugInfo* debug_info = DebugInfo(); 2709 for (size_t i=0; i<num_matches; ++i) 2710 { 2711 const dw_offset_t die_offset = die_offsets[i]; 2712 die = debug_info->GetDIEPtrWithCompileUnitHint (die_offset, &dwarf_cu); 2713 2714 if (die) 2715 { 2716 sc.comp_unit = GetCompUnitForDWARFCompUnit(dwarf_cu, UINT32_MAX); 2717 2718 ParseVariables(sc, dwarf_cu, LLDB_INVALID_ADDRESS, die, false, false, &variables); 2719 2720 if (variables.GetSize() - original_size >= max_matches) 2721 break; 2722 } 2723 else 2724 { 2725 if (m_using_apple_tables) 2726 { 2727 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_names accelerator table had bad die 0x%8.8x for regex '%s')\n", 2728 die_offset, regex.GetText()); 2729 } 2730 } 2731 } 2732 } 2733 2734 // Return the number of variable that were appended to the list 2735 return variables.GetSize() - original_size; 2736 } 2737 2738 2739 bool 2740 SymbolFileDWARF::ResolveFunction (dw_offset_t die_offset, 2741 DWARFCompileUnit *&dwarf_cu, 2742 SymbolContextList& sc_list) 2743 { 2744 const DWARFDebugInfoEntry *die = DebugInfo()->GetDIEPtrWithCompileUnitHint (die_offset, &dwarf_cu); 2745 return ResolveFunction (dwarf_cu, die, sc_list); 2746 } 2747 2748 2749 bool 2750 SymbolFileDWARF::ResolveFunction (DWARFCompileUnit *cu, 2751 const DWARFDebugInfoEntry *die, 2752 SymbolContextList& sc_list) 2753 { 2754 SymbolContext sc; 2755 2756 if (die == NULL) 2757 return false; 2758 2759 // If we were passed a die that is not a function, just return false... 2760 if (die->Tag() != DW_TAG_subprogram && die->Tag() != DW_TAG_inlined_subroutine) 2761 return false; 2762 2763 const DWARFDebugInfoEntry* inlined_die = NULL; 2764 if (die->Tag() == DW_TAG_inlined_subroutine) 2765 { 2766 inlined_die = die; 2767 2768 while ((die = die->GetParent()) != NULL) 2769 { 2770 if (die->Tag() == DW_TAG_subprogram) 2771 break; 2772 } 2773 } 2774 assert (die->Tag() == DW_TAG_subprogram); 2775 if (GetFunction (cu, die, sc)) 2776 { 2777 Address addr; 2778 // Parse all blocks if needed 2779 if (inlined_die) 2780 { 2781 sc.block = sc.function->GetBlock (true).FindBlockByID (MakeUserID(inlined_die->GetOffset())); 2782 assert (sc.block != NULL); 2783 if (sc.block->GetStartAddress (addr) == false) 2784 addr.Clear(); 2785 } 2786 else 2787 { 2788 sc.block = NULL; 2789 addr = sc.function->GetAddressRange().GetBaseAddress(); 2790 } 2791 2792 if (addr.IsValid()) 2793 { 2794 sc_list.Append(sc); 2795 return true; 2796 } 2797 } 2798 2799 return false; 2800 } 2801 2802 void 2803 SymbolFileDWARF::FindFunctions (const ConstString &name, 2804 const NameToDIE &name_to_die, 2805 SymbolContextList& sc_list) 2806 { 2807 DIEArray die_offsets; 2808 if (name_to_die.Find (name, die_offsets)) 2809 { 2810 ParseFunctions (die_offsets, sc_list); 2811 } 2812 } 2813 2814 2815 void 2816 SymbolFileDWARF::FindFunctions (const RegularExpression ®ex, 2817 const NameToDIE &name_to_die, 2818 SymbolContextList& sc_list) 2819 { 2820 DIEArray die_offsets; 2821 if (name_to_die.Find (regex, die_offsets)) 2822 { 2823 ParseFunctions (die_offsets, sc_list); 2824 } 2825 } 2826 2827 2828 void 2829 SymbolFileDWARF::FindFunctions (const RegularExpression ®ex, 2830 const DWARFMappedHash::MemoryTable &memory_table, 2831 SymbolContextList& sc_list) 2832 { 2833 DIEArray die_offsets; 2834 DWARFMappedHash::DIEInfoArray hash_data_array; 2835 if (memory_table.AppendAllDIEsThatMatchingRegex (regex, hash_data_array)) 2836 { 2837 DWARFMappedHash::ExtractDIEArray (hash_data_array, die_offsets); 2838 ParseFunctions (die_offsets, sc_list); 2839 } 2840 } 2841 2842 void 2843 SymbolFileDWARF::ParseFunctions (const DIEArray &die_offsets, 2844 SymbolContextList& sc_list) 2845 { 2846 const size_t num_matches = die_offsets.size(); 2847 if (num_matches) 2848 { 2849 SymbolContext sc; 2850 2851 DWARFCompileUnit* dwarf_cu = NULL; 2852 for (size_t i=0; i<num_matches; ++i) 2853 { 2854 const dw_offset_t die_offset = die_offsets[i]; 2855 ResolveFunction (die_offset, dwarf_cu, sc_list); 2856 } 2857 } 2858 } 2859 2860 bool 2861 SymbolFileDWARF::FunctionDieMatchesPartialName (const DWARFDebugInfoEntry* die, 2862 const DWARFCompileUnit *dwarf_cu, 2863 uint32_t name_type_mask, 2864 const char *partial_name, 2865 const char *base_name_start, 2866 const char *base_name_end) 2867 { 2868 // If we are looking only for methods, throw away all the ones that aren't in C++ classes: 2869 if (name_type_mask == eFunctionNameTypeMethod 2870 || name_type_mask == eFunctionNameTypeBase) 2871 { 2872 clang::DeclContext *containing_decl_ctx = GetClangDeclContextContainingDIEOffset(die->GetOffset()); 2873 if (!containing_decl_ctx) 2874 return false; 2875 2876 bool is_cxx_method = DeclKindIsCXXClass(containing_decl_ctx->getDeclKind()); 2877 2878 if (!is_cxx_method && name_type_mask == eFunctionNameTypeMethod) 2879 return false; 2880 if (is_cxx_method && name_type_mask == eFunctionNameTypeBase) 2881 return false; 2882 } 2883 2884 // Now we need to check whether the name we got back for this type matches the extra specifications 2885 // that were in the name we're looking up: 2886 if (base_name_start != partial_name || *base_name_end != '\0') 2887 { 2888 // First see if the stuff to the left matches the full name. To do that let's see if 2889 // we can pull out the mips linkage name attribute: 2890 2891 Mangled best_name; 2892 2893 DWARFDebugInfoEntry::Attributes attributes; 2894 die->GetAttributes(this, dwarf_cu, NULL, attributes); 2895 uint32_t idx = attributes.FindAttributeIndex(DW_AT_MIPS_linkage_name); 2896 if (idx != UINT32_MAX) 2897 { 2898 DWARFFormValue form_value; 2899 if (attributes.ExtractFormValueAtIndex(this, idx, form_value)) 2900 { 2901 const char *name = form_value.AsCString(&get_debug_str_data()); 2902 best_name.SetValue (name, true); 2903 } 2904 } 2905 if (best_name) 2906 { 2907 const char *demangled = best_name.GetDemangledName().GetCString(); 2908 if (demangled) 2909 { 2910 std::string name_no_parens(partial_name, base_name_end - partial_name); 2911 const char *partial_in_demangled = strstr (demangled, name_no_parens.c_str()); 2912 if (partial_in_demangled == NULL) 2913 return false; 2914 else 2915 { 2916 // Sort out the case where our name is something like "Process::Destroy" and the match is 2917 // "SBProcess::Destroy" - that shouldn't be a match. We should really always match on 2918 // namespace boundaries... 2919 2920 if (partial_name[0] == ':' && partial_name[1] == ':') 2921 { 2922 // The partial name was already on a namespace boundary so all matches are good. 2923 return true; 2924 } 2925 else if (partial_in_demangled == demangled) 2926 { 2927 // They both start the same, so this is an good match. 2928 return true; 2929 } 2930 else 2931 { 2932 if (partial_in_demangled - demangled == 1) 2933 { 2934 // Only one character difference, can't be a namespace boundary... 2935 return false; 2936 } 2937 else if (*(partial_in_demangled - 1) == ':' && *(partial_in_demangled - 2) == ':') 2938 { 2939 // We are on a namespace boundary, so this is also good. 2940 return true; 2941 } 2942 else 2943 return false; 2944 } 2945 } 2946 } 2947 } 2948 } 2949 2950 return true; 2951 } 2952 2953 uint32_t 2954 SymbolFileDWARF::FindFunctions (const ConstString &name, 2955 const lldb_private::ClangNamespaceDecl *namespace_decl, 2956 uint32_t name_type_mask, 2957 bool include_inlines, 2958 bool append, 2959 SymbolContextList& sc_list) 2960 { 2961 Timer scoped_timer (__PRETTY_FUNCTION__, 2962 "SymbolFileDWARF::FindFunctions (name = '%s')", 2963 name.AsCString()); 2964 2965 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS)); 2966 2967 if (log) 2968 { 2969 GetObjectFile()->GetModule()->LogMessage (log.get(), 2970 "SymbolFileDWARF::FindFunctions (name=\"%s\", name_type_mask=0x%x, append=%u, sc_list)", 2971 name.GetCString(), 2972 name_type_mask, 2973 append); 2974 } 2975 2976 // If we aren't appending the results to this list, then clear the list 2977 if (!append) 2978 sc_list.Clear(); 2979 2980 if (!NamespaceDeclMatchesThisSymbolFile(namespace_decl)) 2981 return 0; 2982 2983 // If name is empty then we won't find anything. 2984 if (name.IsEmpty()) 2985 return 0; 2986 2987 // Remember how many sc_list are in the list before we search in case 2988 // we are appending the results to a variable list. 2989 2990 const uint32_t original_size = sc_list.GetSize(); 2991 2992 const char *name_cstr = name.GetCString(); 2993 uint32_t effective_name_type_mask = eFunctionNameTypeNone; 2994 const char *base_name_start = name_cstr; 2995 const char *base_name_end = name_cstr + strlen(name_cstr); 2996 2997 if (name_type_mask & eFunctionNameTypeAuto) 2998 { 2999 if (CPPLanguageRuntime::IsCPPMangledName (name_cstr)) 3000 effective_name_type_mask = eFunctionNameTypeFull; 3001 else if (ObjCLanguageRuntime::IsPossibleObjCMethodName (name_cstr)) 3002 effective_name_type_mask = eFunctionNameTypeFull; 3003 else 3004 { 3005 if (ObjCLanguageRuntime::IsPossibleObjCSelector(name_cstr)) 3006 effective_name_type_mask |= eFunctionNameTypeSelector; 3007 3008 if (CPPLanguageRuntime::IsPossibleCPPCall(name_cstr, base_name_start, base_name_end)) 3009 effective_name_type_mask |= (eFunctionNameTypeMethod | eFunctionNameTypeBase); 3010 } 3011 } 3012 else 3013 { 3014 effective_name_type_mask = name_type_mask; 3015 if (effective_name_type_mask & eFunctionNameTypeMethod || name_type_mask & eFunctionNameTypeBase) 3016 { 3017 // If they've asked for a CPP method or function name and it can't be that, we don't 3018 // even need to search for CPP methods or names. 3019 if (!CPPLanguageRuntime::IsPossibleCPPCall(name_cstr, base_name_start, base_name_end)) 3020 { 3021 effective_name_type_mask &= ~(eFunctionNameTypeMethod | eFunctionNameTypeBase); 3022 if (effective_name_type_mask == eFunctionNameTypeNone) 3023 return 0; 3024 } 3025 } 3026 3027 if (effective_name_type_mask & eFunctionNameTypeSelector) 3028 { 3029 if (!ObjCLanguageRuntime::IsPossibleObjCSelector(name_cstr)) 3030 { 3031 effective_name_type_mask &= ~(eFunctionNameTypeSelector); 3032 if (effective_name_type_mask == eFunctionNameTypeNone) 3033 return 0; 3034 } 3035 } 3036 } 3037 3038 DWARFDebugInfo* info = DebugInfo(); 3039 if (info == NULL) 3040 return 0; 3041 3042 DWARFCompileUnit *dwarf_cu = NULL; 3043 if (m_using_apple_tables) 3044 { 3045 if (m_apple_names_ap.get()) 3046 { 3047 3048 DIEArray die_offsets; 3049 3050 uint32_t num_matches = 0; 3051 3052 if (effective_name_type_mask & eFunctionNameTypeFull) 3053 { 3054 // If they asked for the full name, match what they typed. At some point we may 3055 // want to canonicalize this (strip double spaces, etc. For now, we just add all the 3056 // dies that we find by exact match. 3057 num_matches = m_apple_names_ap->FindByName (name_cstr, die_offsets); 3058 for (uint32_t i = 0; i < num_matches; i++) 3059 { 3060 const dw_offset_t die_offset = die_offsets[i]; 3061 const DWARFDebugInfoEntry *die = info->GetDIEPtrWithCompileUnitHint (die_offset, &dwarf_cu); 3062 if (die) 3063 { 3064 if (namespace_decl && !DIEIsInNamespace (namespace_decl, dwarf_cu, die)) 3065 continue; 3066 3067 if (!include_inlines && die->Tag() == DW_TAG_inlined_subroutine) 3068 continue; 3069 3070 ResolveFunction (dwarf_cu, die, sc_list); 3071 } 3072 else 3073 { 3074 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_names accelerator table had bad die 0x%8.8x for '%s')", 3075 die_offset, name_cstr); 3076 } 3077 } 3078 } 3079 else 3080 { 3081 if (effective_name_type_mask & eFunctionNameTypeSelector) 3082 { 3083 if (namespace_decl && *namespace_decl) 3084 return 0; // no selectors in namespaces 3085 3086 num_matches = m_apple_names_ap->FindByName (name_cstr, die_offsets); 3087 // Now make sure these are actually ObjC methods. In this case we can simply look up the name, 3088 // and if it is an ObjC method name, we're good. 3089 3090 for (uint32_t i = 0; i < num_matches; i++) 3091 { 3092 const dw_offset_t die_offset = die_offsets[i]; 3093 const DWARFDebugInfoEntry* die = info->GetDIEPtrWithCompileUnitHint (die_offset, &dwarf_cu); 3094 if (die) 3095 { 3096 const char *die_name = die->GetName(this, dwarf_cu); 3097 if (ObjCLanguageRuntime::IsPossibleObjCMethodName(die_name)) 3098 { 3099 if (!include_inlines && die->Tag() == DW_TAG_inlined_subroutine) 3100 continue; 3101 3102 ResolveFunction (dwarf_cu, die, sc_list); 3103 } 3104 } 3105 else 3106 { 3107 GetObjectFile()->GetModule()->ReportError ("the DWARF debug information has been modified (.apple_names accelerator table had bad die 0x%8.8x for '%s')", 3108 die_offset, name_cstr); 3109 } 3110 } 3111 die_offsets.clear(); 3112 } 3113 3114 if (effective_name_type_mask & eFunctionNameTypeMethod 3115 || effective_name_type_mask & eFunctionNameTypeBase) 3116 { 3117 if ((effective_name_type_mask & eFunctionNameTypeMethod) && 3118 (namespace_decl && *namespace_decl)) 3119 return 0; // no methods in namespaces 3120 3121 // The apple_names table stores just the "base name" of C++ methods in the table. So we have to 3122 // extract the base name, look that up, and if there is any other information in the name we were 3123 // passed in we have to post-filter based on that. 3124 3125 // FIXME: Arrange the logic above so that we don't calculate the base name twice: 3126 std::string base_name(base_name_start, base_name_end - base_name_start); 3127 num_matches = m_apple_names_ap->FindByName (base_name.c_str(), die_offsets); 3128 3129 for (uint32_t i = 0; i < num_matches; i++) 3130 { 3131 const dw_offset_t die_offset = die_offsets[i]; 3132 const DWARFDebugInfoEntry* die = info->GetDIEPtrWithCompileUnitHint (die_offset, &dwarf_cu); 3133 if (die) 3134 { 3135 if (namespace_decl && !DIEIsInNamespace (namespace_decl, dwarf_cu, die)) 3136 continue; 3137 3138 if (!FunctionDieMatchesPartialName(die, 3139 dwarf_cu, 3140 effective_name_type_mask, 3141 name_cstr, 3142 base_name_start, 3143 base_name_end)) 3144 continue; 3145 3146 if (!include_inlines && die->Tag() == DW_TAG_inlined_subroutine) 3147 continue; 3148 3149 // If we get to here, the die is good, and we should add it: 3150 ResolveFunction (dwarf_cu, die, sc_list); 3151 } 3152 else 3153 { 3154 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_names accelerator table had bad die 0x%8.8x for '%s')", 3155 die_offset, name_cstr); 3156 } 3157 } 3158 die_offsets.clear(); 3159 } 3160 } 3161 } 3162 } 3163 else 3164 { 3165 3166 // Index the DWARF if we haven't already 3167 if (!m_indexed) 3168 Index (); 3169 3170 if (name_type_mask & eFunctionNameTypeFull) 3171 FindFunctions (name, m_function_fullname_index, sc_list); 3172 3173 std::string base_name(base_name_start, base_name_end - base_name_start); 3174 ConstString base_name_const(base_name.c_str()); 3175 DIEArray die_offsets; 3176 DWARFCompileUnit *dwarf_cu = NULL; 3177 3178 if (effective_name_type_mask & eFunctionNameTypeBase) 3179 { 3180 uint32_t num_base = m_function_basename_index.Find(base_name_const, die_offsets); 3181 for (uint32_t i = 0; i < num_base; i++) 3182 { 3183 const DWARFDebugInfoEntry* die = info->GetDIEPtrWithCompileUnitHint (die_offsets[i], &dwarf_cu); 3184 if (die) 3185 { 3186 if (namespace_decl && !DIEIsInNamespace (namespace_decl, dwarf_cu, die)) 3187 continue; 3188 3189 if (!FunctionDieMatchesPartialName(die, 3190 dwarf_cu, 3191 effective_name_type_mask, 3192 name_cstr, 3193 base_name_start, 3194 base_name_end)) 3195 continue; 3196 3197 if (!include_inlines && die->Tag() == DW_TAG_inlined_subroutine) 3198 continue; 3199 3200 // If we get to here, the die is good, and we should add it: 3201 ResolveFunction (dwarf_cu, die, sc_list); 3202 } 3203 } 3204 die_offsets.clear(); 3205 } 3206 3207 if (effective_name_type_mask & eFunctionNameTypeMethod) 3208 { 3209 if (namespace_decl && *namespace_decl) 3210 return 0; // no methods in namespaces 3211 3212 uint32_t num_base = m_function_method_index.Find(base_name_const, die_offsets); 3213 { 3214 for (uint32_t i = 0; i < num_base; i++) 3215 { 3216 const DWARFDebugInfoEntry* die = info->GetDIEPtrWithCompileUnitHint (die_offsets[i], &dwarf_cu); 3217 if (die) 3218 { 3219 if (!FunctionDieMatchesPartialName(die, 3220 dwarf_cu, 3221 effective_name_type_mask, 3222 name_cstr, 3223 base_name_start, 3224 base_name_end)) 3225 continue; 3226 3227 if (!include_inlines && die->Tag() == DW_TAG_inlined_subroutine) 3228 continue; 3229 3230 // If we get to here, the die is good, and we should add it: 3231 ResolveFunction (dwarf_cu, die, sc_list); 3232 } 3233 } 3234 } 3235 die_offsets.clear(); 3236 } 3237 3238 if ((effective_name_type_mask & eFunctionNameTypeSelector) && (!namespace_decl || !*namespace_decl)) 3239 { 3240 FindFunctions (name, m_function_selector_index, sc_list); 3241 } 3242 3243 } 3244 3245 // Return the number of variable that were appended to the list 3246 return sc_list.GetSize() - original_size; 3247 } 3248 3249 uint32_t 3250 SymbolFileDWARF::FindFunctions(const RegularExpression& regex, bool include_inlines, bool append, SymbolContextList& sc_list) 3251 { 3252 Timer scoped_timer (__PRETTY_FUNCTION__, 3253 "SymbolFileDWARF::FindFunctions (regex = '%s')", 3254 regex.GetText()); 3255 3256 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS)); 3257 3258 if (log) 3259 { 3260 GetObjectFile()->GetModule()->LogMessage (log.get(), 3261 "SymbolFileDWARF::FindFunctions (regex=\"%s\", append=%u, sc_list)", 3262 regex.GetText(), 3263 append); 3264 } 3265 3266 3267 // If we aren't appending the results to this list, then clear the list 3268 if (!append) 3269 sc_list.Clear(); 3270 3271 // Remember how many sc_list are in the list before we search in case 3272 // we are appending the results to a variable list. 3273 uint32_t original_size = sc_list.GetSize(); 3274 3275 if (m_using_apple_tables) 3276 { 3277 if (m_apple_names_ap.get()) 3278 FindFunctions (regex, *m_apple_names_ap, sc_list); 3279 } 3280 else 3281 { 3282 // Index the DWARF if we haven't already 3283 if (!m_indexed) 3284 Index (); 3285 3286 FindFunctions (regex, m_function_basename_index, sc_list); 3287 3288 FindFunctions (regex, m_function_fullname_index, sc_list); 3289 } 3290 3291 // Return the number of variable that were appended to the list 3292 return sc_list.GetSize() - original_size; 3293 } 3294 3295 uint32_t 3296 SymbolFileDWARF::FindTypes (const SymbolContext& sc, 3297 const ConstString &name, 3298 const lldb_private::ClangNamespaceDecl *namespace_decl, 3299 bool append, 3300 uint32_t max_matches, 3301 TypeList& types) 3302 { 3303 DWARFDebugInfo* info = DebugInfo(); 3304 if (info == NULL) 3305 return 0; 3306 3307 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS)); 3308 3309 if (log) 3310 { 3311 GetObjectFile()->GetModule()->LogMessage (log.get(), 3312 "SymbolFileDWARF::FindTypes (sc, name=\"%s\", append=%u, max_matches=%u, type_list)", 3313 name.GetCString(), 3314 append, 3315 max_matches); 3316 } 3317 3318 // If we aren't appending the results to this list, then clear the list 3319 if (!append) 3320 types.Clear(); 3321 3322 if (!NamespaceDeclMatchesThisSymbolFile(namespace_decl)) 3323 return 0; 3324 3325 DIEArray die_offsets; 3326 3327 if (m_using_apple_tables) 3328 { 3329 if (m_apple_types_ap.get()) 3330 { 3331 const char *name_cstr = name.GetCString(); 3332 m_apple_types_ap->FindByName (name_cstr, die_offsets); 3333 } 3334 } 3335 else 3336 { 3337 if (!m_indexed) 3338 Index (); 3339 3340 m_type_index.Find (name, die_offsets); 3341 } 3342 3343 const size_t num_matches = die_offsets.size(); 3344 3345 if (num_matches) 3346 { 3347 const uint32_t initial_types_size = types.GetSize(); 3348 DWARFCompileUnit* dwarf_cu = NULL; 3349 const DWARFDebugInfoEntry* die = NULL; 3350 DWARFDebugInfo* debug_info = DebugInfo(); 3351 for (size_t i=0; i<num_matches; ++i) 3352 { 3353 const dw_offset_t die_offset = die_offsets[i]; 3354 die = debug_info->GetDIEPtrWithCompileUnitHint (die_offset, &dwarf_cu); 3355 3356 if (die) 3357 { 3358 if (namespace_decl && !DIEIsInNamespace (namespace_decl, dwarf_cu, die)) 3359 continue; 3360 3361 Type *matching_type = ResolveType (dwarf_cu, die); 3362 if (matching_type) 3363 { 3364 // We found a type pointer, now find the shared pointer form our type list 3365 types.InsertUnique (matching_type->shared_from_this()); 3366 if (types.GetSize() >= max_matches) 3367 break; 3368 } 3369 } 3370 else 3371 { 3372 if (m_using_apple_tables) 3373 { 3374 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_types accelerator table had bad die 0x%8.8x for '%s')\n", 3375 die_offset, name.GetCString()); 3376 } 3377 } 3378 3379 } 3380 return types.GetSize() - initial_types_size; 3381 } 3382 return 0; 3383 } 3384 3385 3386 ClangNamespaceDecl 3387 SymbolFileDWARF::FindNamespace (const SymbolContext& sc, 3388 const ConstString &name, 3389 const lldb_private::ClangNamespaceDecl *parent_namespace_decl) 3390 { 3391 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_LOOKUPS)); 3392 3393 if (log) 3394 { 3395 GetObjectFile()->GetModule()->LogMessage (log.get(), 3396 "SymbolFileDWARF::FindNamespace (sc, name=\"%s\")", 3397 name.GetCString()); 3398 } 3399 3400 if (!NamespaceDeclMatchesThisSymbolFile(parent_namespace_decl)) 3401 return ClangNamespaceDecl(); 3402 3403 ClangNamespaceDecl namespace_decl; 3404 DWARFDebugInfo* info = DebugInfo(); 3405 if (info) 3406 { 3407 DIEArray die_offsets; 3408 3409 // Index if we already haven't to make sure the compile units 3410 // get indexed and make their global DIE index list 3411 if (m_using_apple_tables) 3412 { 3413 if (m_apple_namespaces_ap.get()) 3414 { 3415 const char *name_cstr = name.GetCString(); 3416 m_apple_namespaces_ap->FindByName (name_cstr, die_offsets); 3417 } 3418 } 3419 else 3420 { 3421 if (!m_indexed) 3422 Index (); 3423 3424 m_namespace_index.Find (name, die_offsets); 3425 } 3426 3427 DWARFCompileUnit* dwarf_cu = NULL; 3428 const DWARFDebugInfoEntry* die = NULL; 3429 const size_t num_matches = die_offsets.size(); 3430 if (num_matches) 3431 { 3432 DWARFDebugInfo* debug_info = DebugInfo(); 3433 for (size_t i=0; i<num_matches; ++i) 3434 { 3435 const dw_offset_t die_offset = die_offsets[i]; 3436 die = debug_info->GetDIEPtrWithCompileUnitHint (die_offset, &dwarf_cu); 3437 3438 if (die) 3439 { 3440 if (parent_namespace_decl && !DIEIsInNamespace (parent_namespace_decl, dwarf_cu, die)) 3441 continue; 3442 3443 clang::NamespaceDecl *clang_namespace_decl = ResolveNamespaceDIE (dwarf_cu, die); 3444 if (clang_namespace_decl) 3445 { 3446 namespace_decl.SetASTContext (GetClangASTContext().getASTContext()); 3447 namespace_decl.SetNamespaceDecl (clang_namespace_decl); 3448 break; 3449 } 3450 } 3451 else 3452 { 3453 if (m_using_apple_tables) 3454 { 3455 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_namespaces accelerator table had bad die 0x%8.8x for '%s')\n", 3456 die_offset, name.GetCString()); 3457 } 3458 } 3459 3460 } 3461 } 3462 } 3463 return namespace_decl; 3464 } 3465 3466 uint32_t 3467 SymbolFileDWARF::FindTypes(std::vector<dw_offset_t> die_offsets, uint32_t max_matches, TypeList& types) 3468 { 3469 // Remember how many sc_list are in the list before we search in case 3470 // we are appending the results to a variable list. 3471 uint32_t original_size = types.GetSize(); 3472 3473 const uint32_t num_die_offsets = die_offsets.size(); 3474 // Parse all of the types we found from the pubtypes matches 3475 uint32_t i; 3476 uint32_t num_matches = 0; 3477 for (i = 0; i < num_die_offsets; ++i) 3478 { 3479 Type *matching_type = ResolveTypeUID (die_offsets[i]); 3480 if (matching_type) 3481 { 3482 // We found a type pointer, now find the shared pointer form our type list 3483 types.InsertUnique (matching_type->shared_from_this()); 3484 ++num_matches; 3485 if (num_matches >= max_matches) 3486 break; 3487 } 3488 } 3489 3490 // Return the number of variable that were appended to the list 3491 return types.GetSize() - original_size; 3492 } 3493 3494 3495 size_t 3496 SymbolFileDWARF::ParseChildParameters (const SymbolContext& sc, 3497 clang::DeclContext *containing_decl_ctx, 3498 DWARFCompileUnit* dwarf_cu, 3499 const DWARFDebugInfoEntry *parent_die, 3500 bool skip_artificial, 3501 bool &is_static, 3502 TypeList* type_list, 3503 std::vector<clang_type_t>& function_param_types, 3504 std::vector<clang::ParmVarDecl*>& function_param_decls, 3505 unsigned &type_quals, 3506 ClangASTContext::TemplateParameterInfos &template_param_infos) 3507 { 3508 if (parent_die == NULL) 3509 return 0; 3510 3511 const uint8_t *fixed_form_sizes = DWARFFormValue::GetFixedFormSizesForAddressSize (dwarf_cu->GetAddressByteSize()); 3512 3513 size_t arg_idx = 0; 3514 const DWARFDebugInfoEntry *die; 3515 for (die = parent_die->GetFirstChild(); die != NULL; die = die->GetSibling()) 3516 { 3517 dw_tag_t tag = die->Tag(); 3518 switch (tag) 3519 { 3520 case DW_TAG_formal_parameter: 3521 { 3522 DWARFDebugInfoEntry::Attributes attributes; 3523 const size_t num_attributes = die->GetAttributes(this, dwarf_cu, fixed_form_sizes, attributes); 3524 if (num_attributes > 0) 3525 { 3526 const char *name = NULL; 3527 Declaration decl; 3528 dw_offset_t param_type_die_offset = DW_INVALID_OFFSET; 3529 bool is_artificial = false; 3530 // one of None, Auto, Register, Extern, Static, PrivateExtern 3531 3532 clang::StorageClass storage = clang::SC_None; 3533 uint32_t i; 3534 for (i=0; i<num_attributes; ++i) 3535 { 3536 const dw_attr_t attr = attributes.AttributeAtIndex(i); 3537 DWARFFormValue form_value; 3538 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 3539 { 3540 switch (attr) 3541 { 3542 case DW_AT_decl_file: decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); break; 3543 case DW_AT_decl_line: decl.SetLine(form_value.Unsigned()); break; 3544 case DW_AT_decl_column: decl.SetColumn(form_value.Unsigned()); break; 3545 case DW_AT_name: name = form_value.AsCString(&get_debug_str_data()); break; 3546 case DW_AT_type: param_type_die_offset = form_value.Reference(dwarf_cu); break; 3547 case DW_AT_artificial: is_artificial = form_value.Unsigned() != 0; break; 3548 case DW_AT_location: 3549 // if (form_value.BlockData()) 3550 // { 3551 // const DataExtractor& debug_info_data = debug_info(); 3552 // uint32_t block_length = form_value.Unsigned(); 3553 // DataExtractor location(debug_info_data, form_value.BlockData() - debug_info_data.GetDataStart(), block_length); 3554 // } 3555 // else 3556 // { 3557 // } 3558 // break; 3559 case DW_AT_const_value: 3560 case DW_AT_default_value: 3561 case DW_AT_description: 3562 case DW_AT_endianity: 3563 case DW_AT_is_optional: 3564 case DW_AT_segment: 3565 case DW_AT_variable_parameter: 3566 default: 3567 case DW_AT_abstract_origin: 3568 case DW_AT_sibling: 3569 break; 3570 } 3571 } 3572 } 3573 3574 bool skip = false; 3575 if (skip_artificial) 3576 { 3577 if (is_artificial) 3578 { 3579 // In order to determine if a C++ member function is 3580 // "const" we have to look at the const-ness of "this"... 3581 // Ugly, but that 3582 if (arg_idx == 0) 3583 { 3584 if (DeclKindIsCXXClass(containing_decl_ctx->getDeclKind())) 3585 { 3586 // Often times compilers omit the "this" name for the 3587 // specification DIEs, so we can't rely upon the name 3588 // being in the formal parameter DIE... 3589 if (name == NULL || ::strcmp(name, "this")==0) 3590 { 3591 Type *this_type = ResolveTypeUID (param_type_die_offset); 3592 if (this_type) 3593 { 3594 uint32_t encoding_mask = this_type->GetEncodingMask(); 3595 if (encoding_mask & Type::eEncodingIsPointerUID) 3596 { 3597 is_static = false; 3598 3599 if (encoding_mask & (1u << Type::eEncodingIsConstUID)) 3600 type_quals |= clang::Qualifiers::Const; 3601 if (encoding_mask & (1u << Type::eEncodingIsVolatileUID)) 3602 type_quals |= clang::Qualifiers::Volatile; 3603 } 3604 } 3605 } 3606 } 3607 } 3608 skip = true; 3609 } 3610 else 3611 { 3612 3613 // HACK: Objective C formal parameters "self" and "_cmd" 3614 // are not marked as artificial in the DWARF... 3615 CompileUnit *curr_cu = GetCompUnitForDWARFCompUnit(dwarf_cu, UINT32_MAX); 3616 if (curr_cu && (curr_cu->GetLanguage() == eLanguageTypeObjC || curr_cu->GetLanguage() == eLanguageTypeObjC_plus_plus)) 3617 { 3618 if (name && name[0] && (strcmp (name, "self") == 0 || strcmp (name, "_cmd") == 0)) 3619 skip = true; 3620 } 3621 } 3622 } 3623 3624 if (!skip) 3625 { 3626 Type *type = ResolveTypeUID(param_type_die_offset); 3627 if (type) 3628 { 3629 function_param_types.push_back (type->GetClangForwardType()); 3630 3631 clang::ParmVarDecl *param_var_decl = GetClangASTContext().CreateParameterDeclaration (name, 3632 type->GetClangForwardType(), 3633 storage); 3634 assert(param_var_decl); 3635 function_param_decls.push_back(param_var_decl); 3636 } 3637 } 3638 } 3639 arg_idx++; 3640 } 3641 break; 3642 3643 case DW_TAG_template_type_parameter: 3644 case DW_TAG_template_value_parameter: 3645 ParseTemplateDIE (dwarf_cu, die,template_param_infos); 3646 break; 3647 3648 default: 3649 break; 3650 } 3651 } 3652 return arg_idx; 3653 } 3654 3655 size_t 3656 SymbolFileDWARF::ParseChildEnumerators 3657 ( 3658 const SymbolContext& sc, 3659 clang_type_t enumerator_clang_type, 3660 uint32_t enumerator_byte_size, 3661 DWARFCompileUnit* dwarf_cu, 3662 const DWARFDebugInfoEntry *parent_die 3663 ) 3664 { 3665 if (parent_die == NULL) 3666 return 0; 3667 3668 size_t enumerators_added = 0; 3669 const DWARFDebugInfoEntry *die; 3670 const uint8_t *fixed_form_sizes = DWARFFormValue::GetFixedFormSizesForAddressSize (dwarf_cu->GetAddressByteSize()); 3671 3672 for (die = parent_die->GetFirstChild(); die != NULL; die = die->GetSibling()) 3673 { 3674 const dw_tag_t tag = die->Tag(); 3675 if (tag == DW_TAG_enumerator) 3676 { 3677 DWARFDebugInfoEntry::Attributes attributes; 3678 const size_t num_child_attributes = die->GetAttributes(this, dwarf_cu, fixed_form_sizes, attributes); 3679 if (num_child_attributes > 0) 3680 { 3681 const char *name = NULL; 3682 bool got_value = false; 3683 int64_t enum_value = 0; 3684 Declaration decl; 3685 3686 uint32_t i; 3687 for (i=0; i<num_child_attributes; ++i) 3688 { 3689 const dw_attr_t attr = attributes.AttributeAtIndex(i); 3690 DWARFFormValue form_value; 3691 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 3692 { 3693 switch (attr) 3694 { 3695 case DW_AT_const_value: 3696 got_value = true; 3697 enum_value = form_value.Unsigned(); 3698 break; 3699 3700 case DW_AT_name: 3701 name = form_value.AsCString(&get_debug_str_data()); 3702 break; 3703 3704 case DW_AT_description: 3705 default: 3706 case DW_AT_decl_file: decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); break; 3707 case DW_AT_decl_line: decl.SetLine(form_value.Unsigned()); break; 3708 case DW_AT_decl_column: decl.SetColumn(form_value.Unsigned()); break; 3709 case DW_AT_sibling: 3710 break; 3711 } 3712 } 3713 } 3714 3715 if (name && name[0] && got_value) 3716 { 3717 GetClangASTContext().AddEnumerationValueToEnumerationType (enumerator_clang_type, 3718 enumerator_clang_type, 3719 decl, 3720 name, 3721 enum_value, 3722 enumerator_byte_size * 8); 3723 ++enumerators_added; 3724 } 3725 } 3726 } 3727 } 3728 return enumerators_added; 3729 } 3730 3731 void 3732 SymbolFileDWARF::ParseChildArrayInfo 3733 ( 3734 const SymbolContext& sc, 3735 DWARFCompileUnit* dwarf_cu, 3736 const DWARFDebugInfoEntry *parent_die, 3737 int64_t& first_index, 3738 std::vector<uint64_t>& element_orders, 3739 uint32_t& byte_stride, 3740 uint32_t& bit_stride 3741 ) 3742 { 3743 if (parent_die == NULL) 3744 return; 3745 3746 const DWARFDebugInfoEntry *die; 3747 const uint8_t *fixed_form_sizes = DWARFFormValue::GetFixedFormSizesForAddressSize (dwarf_cu->GetAddressByteSize()); 3748 for (die = parent_die->GetFirstChild(); die != NULL; die = die->GetSibling()) 3749 { 3750 const dw_tag_t tag = die->Tag(); 3751 switch (tag) 3752 { 3753 case DW_TAG_enumerator: 3754 { 3755 DWARFDebugInfoEntry::Attributes attributes; 3756 const size_t num_child_attributes = die->GetAttributes(this, dwarf_cu, fixed_form_sizes, attributes); 3757 if (num_child_attributes > 0) 3758 { 3759 const char *name = NULL; 3760 bool got_value = false; 3761 int64_t enum_value = 0; 3762 3763 uint32_t i; 3764 for (i=0; i<num_child_attributes; ++i) 3765 { 3766 const dw_attr_t attr = attributes.AttributeAtIndex(i); 3767 DWARFFormValue form_value; 3768 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 3769 { 3770 switch (attr) 3771 { 3772 case DW_AT_const_value: 3773 got_value = true; 3774 enum_value = form_value.Unsigned(); 3775 break; 3776 3777 case DW_AT_name: 3778 name = form_value.AsCString(&get_debug_str_data()); 3779 break; 3780 3781 case DW_AT_description: 3782 default: 3783 case DW_AT_decl_file: 3784 case DW_AT_decl_line: 3785 case DW_AT_decl_column: 3786 case DW_AT_sibling: 3787 break; 3788 } 3789 } 3790 } 3791 } 3792 } 3793 break; 3794 3795 case DW_TAG_subrange_type: 3796 { 3797 DWARFDebugInfoEntry::Attributes attributes; 3798 const size_t num_child_attributes = die->GetAttributes(this, dwarf_cu, fixed_form_sizes, attributes); 3799 if (num_child_attributes > 0) 3800 { 3801 const char *name = NULL; 3802 bool got_value = false; 3803 uint64_t byte_size = 0; 3804 int64_t enum_value = 0; 3805 uint64_t num_elements = 0; 3806 uint64_t lower_bound = 0; 3807 uint64_t upper_bound = 0; 3808 uint32_t i; 3809 for (i=0; i<num_child_attributes; ++i) 3810 { 3811 const dw_attr_t attr = attributes.AttributeAtIndex(i); 3812 DWARFFormValue form_value; 3813 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 3814 { 3815 switch (attr) 3816 { 3817 case DW_AT_const_value: 3818 got_value = true; 3819 enum_value = form_value.Unsigned(); 3820 break; 3821 3822 case DW_AT_name: 3823 name = form_value.AsCString(&get_debug_str_data()); 3824 break; 3825 3826 case DW_AT_count: 3827 num_elements = form_value.Unsigned(); 3828 break; 3829 3830 case DW_AT_bit_stride: 3831 bit_stride = form_value.Unsigned(); 3832 break; 3833 3834 case DW_AT_byte_stride: 3835 byte_stride = form_value.Unsigned(); 3836 break; 3837 3838 case DW_AT_byte_size: 3839 byte_size = form_value.Unsigned(); 3840 break; 3841 3842 case DW_AT_lower_bound: 3843 lower_bound = form_value.Unsigned(); 3844 break; 3845 3846 case DW_AT_upper_bound: 3847 upper_bound = form_value.Unsigned(); 3848 break; 3849 3850 default: 3851 case DW_AT_abstract_origin: 3852 case DW_AT_accessibility: 3853 case DW_AT_allocated: 3854 case DW_AT_associated: 3855 case DW_AT_data_location: 3856 case DW_AT_declaration: 3857 case DW_AT_description: 3858 case DW_AT_sibling: 3859 case DW_AT_threads_scaled: 3860 case DW_AT_type: 3861 case DW_AT_visibility: 3862 break; 3863 } 3864 } 3865 } 3866 3867 if (upper_bound > lower_bound) 3868 num_elements = upper_bound - lower_bound + 1; 3869 3870 if (num_elements > 0) 3871 element_orders.push_back (num_elements); 3872 } 3873 } 3874 break; 3875 } 3876 } 3877 } 3878 3879 TypeSP 3880 SymbolFileDWARF::GetTypeForDIE (DWARFCompileUnit *curr_cu, const DWARFDebugInfoEntry* die) 3881 { 3882 TypeSP type_sp; 3883 if (die != NULL) 3884 { 3885 assert(curr_cu != NULL); 3886 Type *type_ptr = m_die_to_type.lookup (die); 3887 if (type_ptr == NULL) 3888 { 3889 CompileUnit* lldb_cu = GetCompUnitForDWARFCompUnit(curr_cu); 3890 assert (lldb_cu); 3891 SymbolContext sc(lldb_cu); 3892 type_sp = ParseType(sc, curr_cu, die, NULL); 3893 } 3894 else if (type_ptr != DIE_IS_BEING_PARSED) 3895 { 3896 // Grab the existing type from the master types lists 3897 type_sp = type_ptr->shared_from_this(); 3898 } 3899 3900 } 3901 return type_sp; 3902 } 3903 3904 clang::DeclContext * 3905 SymbolFileDWARF::GetClangDeclContextContainingDIEOffset (dw_offset_t die_offset) 3906 { 3907 if (die_offset != DW_INVALID_OFFSET) 3908 { 3909 DWARFCompileUnitSP cu_sp; 3910 const DWARFDebugInfoEntry* die = DebugInfo()->GetDIEPtr(die_offset, &cu_sp); 3911 return GetClangDeclContextContainingDIE (cu_sp.get(), die, NULL); 3912 } 3913 return NULL; 3914 } 3915 3916 clang::DeclContext * 3917 SymbolFileDWARF::GetClangDeclContextForDIEOffset (const SymbolContext &sc, dw_offset_t die_offset) 3918 { 3919 if (die_offset != DW_INVALID_OFFSET) 3920 { 3921 DWARFDebugInfo* debug_info = DebugInfo(); 3922 if (debug_info) 3923 { 3924 DWARFCompileUnitSP cu_sp; 3925 const DWARFDebugInfoEntry* die = debug_info->GetDIEPtr(die_offset, &cu_sp); 3926 if (die) 3927 return GetClangDeclContextForDIE (sc, cu_sp.get(), die); 3928 } 3929 } 3930 return NULL; 3931 } 3932 3933 clang::NamespaceDecl * 3934 SymbolFileDWARF::ResolveNamespaceDIE (DWARFCompileUnit *curr_cu, const DWARFDebugInfoEntry *die) 3935 { 3936 if (die && die->Tag() == DW_TAG_namespace) 3937 { 3938 // See if we already parsed this namespace DIE and associated it with a 3939 // uniqued namespace declaration 3940 clang::NamespaceDecl *namespace_decl = static_cast<clang::NamespaceDecl *>(m_die_to_decl_ctx[die]); 3941 if (namespace_decl) 3942 return namespace_decl; 3943 else 3944 { 3945 const char *namespace_name = die->GetAttributeValueAsString(this, curr_cu, DW_AT_name, NULL); 3946 clang::DeclContext *containing_decl_ctx = GetClangDeclContextContainingDIE (curr_cu, die, NULL); 3947 namespace_decl = GetClangASTContext().GetUniqueNamespaceDeclaration (namespace_name, containing_decl_ctx); 3948 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO)); 3949 if (log) 3950 { 3951 if (namespace_name) 3952 { 3953 GetObjectFile()->GetModule()->LogMessage (log.get(), 3954 "ASTContext => %p: 0x%8.8llx: DW_TAG_namespace with DW_AT_name(\"%s\") => clang::NamespaceDecl *%p (original = %p)", 3955 GetClangASTContext().getASTContext(), 3956 MakeUserID(die->GetOffset()), 3957 namespace_name, 3958 namespace_decl, 3959 namespace_decl->getOriginalNamespace()); 3960 } 3961 else 3962 { 3963 GetObjectFile()->GetModule()->LogMessage (log.get(), 3964 "ASTContext => %p: 0x%8.8llx: DW_TAG_namespace (anonymous) => clang::NamespaceDecl *%p (original = %p)", 3965 GetClangASTContext().getASTContext(), 3966 MakeUserID(die->GetOffset()), 3967 namespace_decl, 3968 namespace_decl->getOriginalNamespace()); 3969 } 3970 } 3971 3972 if (namespace_decl) 3973 LinkDeclContextToDIE((clang::DeclContext*)namespace_decl, die); 3974 return namespace_decl; 3975 } 3976 } 3977 return NULL; 3978 } 3979 3980 clang::DeclContext * 3981 SymbolFileDWARF::GetClangDeclContextForDIE (const SymbolContext &sc, DWARFCompileUnit *cu, const DWARFDebugInfoEntry *die) 3982 { 3983 clang::DeclContext *clang_decl_ctx = GetCachedClangDeclContextForDIE (die); 3984 if (clang_decl_ctx) 3985 return clang_decl_ctx; 3986 // If this DIE has a specification, or an abstract origin, then trace to those. 3987 3988 dw_offset_t die_offset = die->GetAttributeValueAsReference(this, cu, DW_AT_specification, DW_INVALID_OFFSET); 3989 if (die_offset != DW_INVALID_OFFSET) 3990 return GetClangDeclContextForDIEOffset (sc, die_offset); 3991 3992 die_offset = die->GetAttributeValueAsReference(this, cu, DW_AT_abstract_origin, DW_INVALID_OFFSET); 3993 if (die_offset != DW_INVALID_OFFSET) 3994 return GetClangDeclContextForDIEOffset (sc, die_offset); 3995 3996 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO)); 3997 if (log) 3998 GetObjectFile()->GetModule()->LogMessage(log.get(), "SymbolFileDWARF::GetClangDeclContextForDIE (die = 0x%8.8x) %s '%s'", die->GetOffset(), DW_TAG_value_to_name(die->Tag()), die->GetName(this, cu)); 3999 // This is the DIE we want. Parse it, then query our map. 4000 bool assert_not_being_parsed = true; 4001 ResolveTypeUID (cu, die, assert_not_being_parsed); 4002 4003 clang_decl_ctx = GetCachedClangDeclContextForDIE (die); 4004 4005 return clang_decl_ctx; 4006 } 4007 4008 clang::DeclContext * 4009 SymbolFileDWARF::GetClangDeclContextContainingDIE (DWARFCompileUnit *cu, const DWARFDebugInfoEntry *die, const DWARFDebugInfoEntry **decl_ctx_die_copy) 4010 { 4011 if (m_clang_tu_decl == NULL) 4012 m_clang_tu_decl = GetClangASTContext().getASTContext()->getTranslationUnitDecl(); 4013 4014 const DWARFDebugInfoEntry *decl_ctx_die = GetDeclContextDIEContainingDIE (cu, die); 4015 4016 if (decl_ctx_die_copy) 4017 *decl_ctx_die_copy = decl_ctx_die; 4018 4019 if (decl_ctx_die) 4020 { 4021 4022 DIEToDeclContextMap::iterator pos = m_die_to_decl_ctx.find (decl_ctx_die); 4023 if (pos != m_die_to_decl_ctx.end()) 4024 return pos->second; 4025 4026 switch (decl_ctx_die->Tag()) 4027 { 4028 case DW_TAG_compile_unit: 4029 return m_clang_tu_decl; 4030 4031 case DW_TAG_namespace: 4032 return ResolveNamespaceDIE (cu, decl_ctx_die); 4033 break; 4034 4035 case DW_TAG_structure_type: 4036 case DW_TAG_union_type: 4037 case DW_TAG_class_type: 4038 { 4039 Type* type = ResolveType (cu, decl_ctx_die); 4040 if (type) 4041 { 4042 clang::DeclContext *decl_ctx = ClangASTContext::GetDeclContextForType (type->GetClangForwardType ()); 4043 if (decl_ctx) 4044 { 4045 LinkDeclContextToDIE (decl_ctx, decl_ctx_die); 4046 if (decl_ctx) 4047 return decl_ctx; 4048 } 4049 } 4050 } 4051 break; 4052 4053 default: 4054 break; 4055 } 4056 } 4057 return m_clang_tu_decl; 4058 } 4059 4060 4061 const DWARFDebugInfoEntry * 4062 SymbolFileDWARF::GetDeclContextDIEContainingDIE (DWARFCompileUnit *cu, const DWARFDebugInfoEntry *die) 4063 { 4064 if (cu && die) 4065 { 4066 const DWARFDebugInfoEntry * const decl_die = die; 4067 4068 while (die != NULL) 4069 { 4070 // If this is the original DIE that we are searching for a declaration 4071 // for, then don't look in the cache as we don't want our own decl 4072 // context to be our decl context... 4073 if (decl_die != die) 4074 { 4075 switch (die->Tag()) 4076 { 4077 case DW_TAG_compile_unit: 4078 case DW_TAG_namespace: 4079 case DW_TAG_structure_type: 4080 case DW_TAG_union_type: 4081 case DW_TAG_class_type: 4082 return die; 4083 4084 default: 4085 break; 4086 } 4087 } 4088 4089 dw_offset_t die_offset = die->GetAttributeValueAsReference(this, cu, DW_AT_specification, DW_INVALID_OFFSET); 4090 if (die_offset != DW_INVALID_OFFSET) 4091 { 4092 DWARFCompileUnit *spec_cu = cu; 4093 const DWARFDebugInfoEntry *spec_die = DebugInfo()->GetDIEPtrWithCompileUnitHint (die_offset, &spec_cu); 4094 const DWARFDebugInfoEntry *spec_die_decl_ctx_die = GetDeclContextDIEContainingDIE (spec_cu, spec_die); 4095 if (spec_die_decl_ctx_die) 4096 return spec_die_decl_ctx_die; 4097 } 4098 4099 die_offset = die->GetAttributeValueAsReference(this, cu, DW_AT_abstract_origin, DW_INVALID_OFFSET); 4100 if (die_offset != DW_INVALID_OFFSET) 4101 { 4102 DWARFCompileUnit *abs_cu = cu; 4103 const DWARFDebugInfoEntry *abs_die = DebugInfo()->GetDIEPtrWithCompileUnitHint (die_offset, &abs_cu); 4104 const DWARFDebugInfoEntry *abs_die_decl_ctx_die = GetDeclContextDIEContainingDIE (abs_cu, abs_die); 4105 if (abs_die_decl_ctx_die) 4106 return abs_die_decl_ctx_die; 4107 } 4108 4109 die = die->GetParent(); 4110 } 4111 } 4112 return NULL; 4113 } 4114 4115 4116 Symbol * 4117 SymbolFileDWARF::GetObjCClassSymbol (const ConstString &objc_class_name) 4118 { 4119 Symbol *objc_class_symbol = NULL; 4120 if (m_obj_file) 4121 { 4122 Symtab *symtab = m_obj_file->GetSymtab(); 4123 if (symtab) 4124 { 4125 objc_class_symbol = symtab->FindFirstSymbolWithNameAndType (objc_class_name, 4126 eSymbolTypeObjCClass, 4127 Symtab::eDebugNo, 4128 Symtab::eVisibilityAny); 4129 } 4130 } 4131 return objc_class_symbol; 4132 } 4133 4134 // Some compilers don't emit the DW_AT_APPLE_objc_complete_type attribute. If they don't 4135 // then we can end up looking through all class types for a complete type and never find 4136 // the full definition. We need to know if this attribute is supported, so we determine 4137 // this here and cache th result. We also need to worry about the debug map DWARF file 4138 // if we are doing darwin DWARF in .o file debugging. 4139 bool 4140 SymbolFileDWARF::Supports_DW_AT_APPLE_objc_complete_type (DWARFCompileUnit *cu) 4141 { 4142 if (m_supports_DW_AT_APPLE_objc_complete_type == eLazyBoolCalculate) 4143 { 4144 m_supports_DW_AT_APPLE_objc_complete_type = eLazyBoolNo; 4145 if (cu && cu->Supports_DW_AT_APPLE_objc_complete_type()) 4146 m_supports_DW_AT_APPLE_objc_complete_type = eLazyBoolYes; 4147 else 4148 { 4149 DWARFDebugInfo* debug_info = DebugInfo(); 4150 const uint32_t num_compile_units = GetNumCompileUnits(); 4151 for (uint32_t cu_idx = 0; cu_idx < num_compile_units; ++cu_idx) 4152 { 4153 DWARFCompileUnit* curr_cu = debug_info->GetCompileUnitAtIndex(cu_idx); 4154 if (curr_cu != cu && curr_cu->Supports_DW_AT_APPLE_objc_complete_type()) 4155 { 4156 m_supports_DW_AT_APPLE_objc_complete_type = eLazyBoolYes; 4157 break; 4158 } 4159 } 4160 } 4161 if (m_supports_DW_AT_APPLE_objc_complete_type == eLazyBoolNo && m_debug_map_symfile) 4162 return m_debug_map_symfile->Supports_DW_AT_APPLE_objc_complete_type (this); 4163 } 4164 return m_supports_DW_AT_APPLE_objc_complete_type == eLazyBoolYes; 4165 } 4166 4167 // This function can be used when a DIE is found that is a forward declaration 4168 // DIE and we want to try and find a type that has the complete definition. 4169 TypeSP 4170 SymbolFileDWARF::FindCompleteObjCDefinitionTypeForDIE (const DWARFDebugInfoEntry *die, 4171 const ConstString &type_name, 4172 bool must_be_implementation) 4173 { 4174 4175 TypeSP type_sp; 4176 4177 if (!type_name || (must_be_implementation && !GetObjCClassSymbol (type_name))) 4178 return type_sp; 4179 4180 DIEArray die_offsets; 4181 4182 if (m_using_apple_tables) 4183 { 4184 if (m_apple_types_ap.get()) 4185 { 4186 const char *name_cstr = type_name.GetCString(); 4187 m_apple_types_ap->FindCompleteObjCClassByName (name_cstr, die_offsets, must_be_implementation); 4188 } 4189 } 4190 else 4191 { 4192 if (!m_indexed) 4193 Index (); 4194 4195 m_type_index.Find (type_name, die_offsets); 4196 } 4197 4198 const size_t num_matches = die_offsets.size(); 4199 4200 DWARFCompileUnit* type_cu = NULL; 4201 const DWARFDebugInfoEntry* type_die = NULL; 4202 if (num_matches) 4203 { 4204 DWARFDebugInfo* debug_info = DebugInfo(); 4205 for (size_t i=0; i<num_matches; ++i) 4206 { 4207 const dw_offset_t die_offset = die_offsets[i]; 4208 type_die = debug_info->GetDIEPtrWithCompileUnitHint (die_offset, &type_cu); 4209 4210 if (type_die) 4211 { 4212 bool try_resolving_type = false; 4213 4214 // Don't try and resolve the DIE we are looking for with the DIE itself! 4215 if (type_die != die) 4216 { 4217 switch (type_die->Tag()) 4218 { 4219 case DW_TAG_class_type: 4220 case DW_TAG_structure_type: 4221 try_resolving_type = true; 4222 break; 4223 default: 4224 break; 4225 } 4226 } 4227 4228 if (try_resolving_type) 4229 { 4230 if (must_be_implementation && type_cu->Supports_DW_AT_APPLE_objc_complete_type()) 4231 try_resolving_type = type_die->GetAttributeValueAsUnsigned (this, type_cu, DW_AT_APPLE_objc_complete_type, 0); 4232 4233 if (try_resolving_type) 4234 { 4235 Type *resolved_type = ResolveType (type_cu, type_die, false); 4236 if (resolved_type && resolved_type != DIE_IS_BEING_PARSED) 4237 { 4238 DEBUG_PRINTF ("resolved 0x%8.8llx (cu 0x%8.8llx) from %s to 0x%8.8llx (cu 0x%8.8llx)\n", 4239 MakeUserID(die->GetOffset()), 4240 MakeUserID(curr_cu->GetOffset()), 4241 m_obj_file->GetFileSpec().GetFilename().AsCString(), 4242 MakeUserID(type_die->GetOffset()), 4243 MakeUserID(type_cu->GetOffset())); 4244 4245 if (die) 4246 m_die_to_type[die] = resolved_type; 4247 type_sp = resolved_type->shared_from_this(); 4248 break; 4249 } 4250 } 4251 } 4252 } 4253 else 4254 { 4255 if (m_using_apple_tables) 4256 { 4257 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_types accelerator table had bad die 0x%8.8x for '%s')\n", 4258 die_offset, type_name.GetCString()); 4259 } 4260 } 4261 4262 } 4263 } 4264 return type_sp; 4265 } 4266 4267 //---------------------------------------------------------------------- 4268 // This function helps to ensure that the declaration contexts match for 4269 // two different DIEs. Often times debug information will refer to a 4270 // forward declaration of a type (the equivalent of "struct my_struct;". 4271 // There will often be a declaration of that type elsewhere that has the 4272 // full definition. When we go looking for the full type "my_struct", we 4273 // will find one or more matches in the accelerator tables and we will 4274 // then need to make sure the type was in the same declaration context 4275 // as the original DIE. This function can efficiently compare two DIEs 4276 // and will return true when the declaration context matches, and false 4277 // when they don't. 4278 //---------------------------------------------------------------------- 4279 bool 4280 SymbolFileDWARF::DIEDeclContextsMatch (DWARFCompileUnit* cu1, const DWARFDebugInfoEntry *die1, 4281 DWARFCompileUnit* cu2, const DWARFDebugInfoEntry *die2) 4282 { 4283 assert (die1 != die2); 4284 DWARFDIECollection decl_ctx_1; 4285 DWARFDIECollection decl_ctx_2; 4286 //The declaration DIE stack is a stack of the declaration context 4287 // DIEs all the way back to the compile unit. If a type "T" is 4288 // declared inside a class "B", and class "B" is declared inside 4289 // a class "A" and class "A" is in a namespace "lldb", and the 4290 // namespace is in a compile unit, there will be a stack of DIEs: 4291 // 4292 // [0] DW_TAG_class_type for "B" 4293 // [1] DW_TAG_class_type for "A" 4294 // [2] DW_TAG_namespace for "lldb" 4295 // [3] DW_TAG_compile_unit for the source file. 4296 // 4297 // We grab both contexts and make sure that everything matches 4298 // all the way back to the compiler unit. 4299 4300 // First lets grab the decl contexts for both DIEs 4301 die1->GetDeclContextDIEs (this, cu1, decl_ctx_1); 4302 die2->GetDeclContextDIEs (this, cu2, decl_ctx_2); 4303 // Make sure the context arrays have the same size, otherwise 4304 // we are done 4305 const size_t count1 = decl_ctx_1.Size(); 4306 const size_t count2 = decl_ctx_2.Size(); 4307 if (count1 != count2) 4308 return false; 4309 4310 // Make sure the DW_TAG values match all the way back up the the 4311 // compile unit. If they don't, then we are done. 4312 const DWARFDebugInfoEntry *decl_ctx_die1; 4313 const DWARFDebugInfoEntry *decl_ctx_die2; 4314 size_t i; 4315 for (i=0; i<count1; i++) 4316 { 4317 decl_ctx_die1 = decl_ctx_1.GetDIEPtrAtIndex (i); 4318 decl_ctx_die2 = decl_ctx_2.GetDIEPtrAtIndex (i); 4319 if (decl_ctx_die1->Tag() != decl_ctx_die2->Tag()) 4320 return false; 4321 } 4322 #if defined LLDB_CONFIGURATION_DEBUG 4323 4324 // Make sure the top item in the decl context die array is always 4325 // DW_TAG_compile_unit. If it isn't then something went wrong in 4326 // the DWARFDebugInfoEntry::GetDeclContextDIEs() function... 4327 assert (decl_ctx_1.GetDIEPtrAtIndex (count1 - 1)->Tag() == DW_TAG_compile_unit); 4328 4329 #endif 4330 // Always skip the compile unit when comparing by only iterating up to 4331 // "count - 1". Here we compare the names as we go. 4332 for (i=0; i<count1 - 1; i++) 4333 { 4334 decl_ctx_die1 = decl_ctx_1.GetDIEPtrAtIndex (i); 4335 decl_ctx_die2 = decl_ctx_2.GetDIEPtrAtIndex (i); 4336 const char *name1 = decl_ctx_die1->GetName(this, cu1); 4337 const char *name2 = decl_ctx_die2->GetName(this, cu2); 4338 // If the string was from a DW_FORM_strp, then the pointer will often 4339 // be the same! 4340 if (name1 == name2) 4341 continue; 4342 4343 // Name pointers are not equal, so only compare the strings 4344 // if both are not NULL. 4345 if (name1 && name2) 4346 { 4347 // If the strings don't compare, we are done... 4348 if (strcmp(name1, name2) != 0) 4349 return false; 4350 } 4351 else 4352 { 4353 // One name was NULL while the other wasn't 4354 return false; 4355 } 4356 } 4357 // We made it through all of the checks and the declaration contexts 4358 // are equal. 4359 return true; 4360 } 4361 4362 // This function can be used when a DIE is found that is a forward declaration 4363 // DIE and we want to try and find a type that has the complete definition. 4364 TypeSP 4365 SymbolFileDWARF::FindDefinitionTypeForDIE (DWARFCompileUnit* cu, 4366 const DWARFDebugInfoEntry *die, 4367 const ConstString &type_name) 4368 { 4369 TypeSP type_sp; 4370 4371 if (cu == NULL || die == NULL || !type_name) 4372 return type_sp; 4373 4374 DIEArray die_offsets; 4375 4376 if (m_using_apple_tables) 4377 { 4378 if (m_apple_types_ap.get()) 4379 { 4380 if (m_apple_types_ap->GetHeader().header_data.atoms.size() > 1) 4381 { 4382 m_apple_types_ap->FindByNameAndTag (type_name.GetCString(), die->Tag(), die_offsets); 4383 } 4384 else 4385 { 4386 m_apple_types_ap->FindByName (type_name.GetCString(), die_offsets); 4387 } 4388 } 4389 } 4390 else 4391 { 4392 if (!m_indexed) 4393 Index (); 4394 4395 m_type_index.Find (type_name, die_offsets); 4396 } 4397 4398 const size_t num_matches = die_offsets.size(); 4399 4400 const dw_tag_t die_tag = die->Tag(); 4401 4402 DWARFCompileUnit* type_cu = NULL; 4403 const DWARFDebugInfoEntry* type_die = NULL; 4404 if (num_matches) 4405 { 4406 DWARFDebugInfo* debug_info = DebugInfo(); 4407 for (size_t i=0; i<num_matches; ++i) 4408 { 4409 const dw_offset_t die_offset = die_offsets[i]; 4410 type_die = debug_info->GetDIEPtrWithCompileUnitHint (die_offset, &type_cu); 4411 4412 if (type_die) 4413 { 4414 bool try_resolving_type = false; 4415 4416 // Don't try and resolve the DIE we are looking for with the DIE itself! 4417 if (type_die != die) 4418 { 4419 const dw_tag_t type_die_tag = type_die->Tag(); 4420 // Make sure the tags match 4421 if (type_die_tag == die_tag) 4422 { 4423 // The tags match, lets try resolving this type 4424 try_resolving_type = true; 4425 } 4426 else 4427 { 4428 // The tags don't match, but we need to watch our for a 4429 // forward declaration for a struct and ("struct foo") 4430 // ends up being a class ("class foo { ... };") or 4431 // vice versa. 4432 switch (type_die_tag) 4433 { 4434 case DW_TAG_class_type: 4435 // We had a "class foo", see if we ended up with a "struct foo { ... };" 4436 try_resolving_type = (die_tag == DW_TAG_structure_type); 4437 break; 4438 case DW_TAG_structure_type: 4439 // We had a "struct foo", see if we ended up with a "class foo { ... };" 4440 try_resolving_type = (die_tag == DW_TAG_class_type); 4441 break; 4442 default: 4443 // Tags don't match, don't event try to resolve 4444 // using this type whose name matches.... 4445 break; 4446 } 4447 } 4448 } 4449 4450 if (try_resolving_type) 4451 { 4452 // Make sure the decl contexts match all the way up 4453 if (DIEDeclContextsMatch(cu, die, type_cu, type_die)) 4454 { 4455 Type *resolved_type = ResolveType (type_cu, type_die, false); 4456 if (resolved_type && resolved_type != DIE_IS_BEING_PARSED) 4457 { 4458 DEBUG_PRINTF ("resolved 0x%8.8llx (cu 0x%8.8llx) from %s to 0x%8.8llx (cu 0x%8.8llx)\n", 4459 MakeUserID(die->GetOffset()), 4460 MakeUserID(curr_cu->GetOffset()), 4461 m_obj_file->GetFileSpec().GetFilename().AsCString(), 4462 MakeUserID(type_die->GetOffset()), 4463 MakeUserID(type_cu->GetOffset())); 4464 4465 m_die_to_type[die] = resolved_type; 4466 type_sp = resolved_type->shared_from_this(); 4467 break; 4468 } 4469 } 4470 } 4471 } 4472 else 4473 { 4474 if (m_using_apple_tables) 4475 { 4476 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_types accelerator table had bad die 0x%8.8x for '%s')\n", 4477 die_offset, type_name.GetCString()); 4478 } 4479 } 4480 4481 } 4482 } 4483 return type_sp; 4484 } 4485 4486 TypeSP 4487 SymbolFileDWARF::ParseType (const SymbolContext& sc, DWARFCompileUnit* dwarf_cu, const DWARFDebugInfoEntry *die, bool *type_is_new_ptr) 4488 { 4489 TypeSP type_sp; 4490 4491 if (type_is_new_ptr) 4492 *type_is_new_ptr = false; 4493 4494 #if defined(LLDB_CONFIGURATION_DEBUG) or defined(LLDB_CONFIGURATION_RELEASE) 4495 static DIEStack g_die_stack; 4496 DIEStack::ScopedPopper scoped_die_logger(g_die_stack); 4497 #endif 4498 4499 AccessType accessibility = eAccessNone; 4500 if (die != NULL) 4501 { 4502 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO)); 4503 if (log) 4504 { 4505 const DWARFDebugInfoEntry *context_die; 4506 clang::DeclContext *context = GetClangDeclContextContainingDIE (dwarf_cu, die, &context_die); 4507 4508 GetObjectFile()->GetModule()->LogMessage (log.get(), "SymbolFileDWARF::ParseType (die = 0x%8.8x, decl_ctx = %p (die 0x%8.8x)) %s name = '%s')", 4509 die->GetOffset(), 4510 context, 4511 context_die->GetOffset(), 4512 DW_TAG_value_to_name(die->Tag()), 4513 die->GetName(this, dwarf_cu)); 4514 4515 #if defined(LLDB_CONFIGURATION_DEBUG) or defined(LLDB_CONFIGURATION_RELEASE) 4516 scoped_die_logger.Push (dwarf_cu, die); 4517 g_die_stack.LogDIEs(log.get(), this); 4518 #endif 4519 } 4520 // 4521 // LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO)); 4522 // if (log && dwarf_cu) 4523 // { 4524 // StreamString s; 4525 // die->DumpLocation (this, dwarf_cu, s); 4526 // GetObjectFile()->GetModule()->LogMessage (log.get(), "SymbolFileDwarf::%s %s", __FUNCTION__, s.GetData()); 4527 // 4528 // } 4529 4530 Type *type_ptr = m_die_to_type.lookup (die); 4531 TypeList* type_list = GetTypeList(); 4532 if (type_ptr == NULL) 4533 { 4534 ClangASTContext &ast = GetClangASTContext(); 4535 if (type_is_new_ptr) 4536 *type_is_new_ptr = true; 4537 4538 const dw_tag_t tag = die->Tag(); 4539 4540 bool is_forward_declaration = false; 4541 DWARFDebugInfoEntry::Attributes attributes; 4542 const char *type_name_cstr = NULL; 4543 ConstString type_name_const_str; 4544 Type::ResolveState resolve_state = Type::eResolveStateUnresolved; 4545 size_t byte_size = 0; 4546 bool byte_size_valid = false; 4547 Declaration decl; 4548 4549 Type::EncodingDataType encoding_data_type = Type::eEncodingIsUID; 4550 clang_type_t clang_type = NULL; 4551 4552 dw_attr_t attr; 4553 4554 switch (tag) 4555 { 4556 case DW_TAG_base_type: 4557 case DW_TAG_pointer_type: 4558 case DW_TAG_reference_type: 4559 case DW_TAG_typedef: 4560 case DW_TAG_const_type: 4561 case DW_TAG_restrict_type: 4562 case DW_TAG_volatile_type: 4563 case DW_TAG_unspecified_type: 4564 { 4565 // Set a bit that lets us know that we are currently parsing this 4566 m_die_to_type[die] = DIE_IS_BEING_PARSED; 4567 4568 const size_t num_attributes = die->GetAttributes(this, dwarf_cu, NULL, attributes); 4569 uint32_t encoding = 0; 4570 lldb::user_id_t encoding_uid = LLDB_INVALID_UID; 4571 4572 if (num_attributes > 0) 4573 { 4574 uint32_t i; 4575 for (i=0; i<num_attributes; ++i) 4576 { 4577 attr = attributes.AttributeAtIndex(i); 4578 DWARFFormValue form_value; 4579 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 4580 { 4581 switch (attr) 4582 { 4583 case DW_AT_decl_file: decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); break; 4584 case DW_AT_decl_line: decl.SetLine(form_value.Unsigned()); break; 4585 case DW_AT_decl_column: decl.SetColumn(form_value.Unsigned()); break; 4586 case DW_AT_name: 4587 4588 type_name_cstr = form_value.AsCString(&get_debug_str_data()); 4589 // Work around a bug in llvm-gcc where they give a name to a reference type which doesn't 4590 // include the "&"... 4591 if (tag == DW_TAG_reference_type) 4592 { 4593 if (strchr (type_name_cstr, '&') == NULL) 4594 type_name_cstr = NULL; 4595 } 4596 if (type_name_cstr) 4597 type_name_const_str.SetCString(type_name_cstr); 4598 break; 4599 case DW_AT_byte_size: byte_size = form_value.Unsigned(); byte_size_valid = true; break; 4600 case DW_AT_encoding: encoding = form_value.Unsigned(); break; 4601 case DW_AT_type: encoding_uid = form_value.Reference(dwarf_cu); break; 4602 default: 4603 case DW_AT_sibling: 4604 break; 4605 } 4606 } 4607 } 4608 } 4609 4610 DEBUG_PRINTF ("0x%8.8llx: %s (\"%s\") type => 0x%8.8x\n", MakeUserID(die->GetOffset()), DW_TAG_value_to_name(tag), type_name_cstr, encoding_uid); 4611 4612 switch (tag) 4613 { 4614 default: 4615 break; 4616 4617 case DW_TAG_unspecified_type: 4618 if (strcmp(type_name_cstr, "nullptr_t") == 0) 4619 { 4620 resolve_state = Type::eResolveStateFull; 4621 clang_type = ast.getASTContext()->NullPtrTy.getAsOpaquePtr(); 4622 break; 4623 } 4624 // Fall through to base type below in case we can handle the type there... 4625 4626 case DW_TAG_base_type: 4627 resolve_state = Type::eResolveStateFull; 4628 clang_type = ast.GetBuiltinTypeForDWARFEncodingAndBitSize (type_name_cstr, 4629 encoding, 4630 byte_size * 8); 4631 break; 4632 4633 case DW_TAG_pointer_type: encoding_data_type = Type::eEncodingIsPointerUID; break; 4634 case DW_TAG_reference_type: encoding_data_type = Type::eEncodingIsLValueReferenceUID; break; 4635 case DW_TAG_typedef: encoding_data_type = Type::eEncodingIsTypedefUID; break; 4636 case DW_TAG_const_type: encoding_data_type = Type::eEncodingIsConstUID; break; 4637 case DW_TAG_restrict_type: encoding_data_type = Type::eEncodingIsRestrictUID; break; 4638 case DW_TAG_volatile_type: encoding_data_type = Type::eEncodingIsVolatileUID; break; 4639 } 4640 4641 if (clang_type == NULL && (encoding_data_type == Type::eEncodingIsPointerUID || encoding_data_type == Type::eEncodingIsTypedefUID)) 4642 { 4643 if (type_name_cstr != NULL && sc.comp_unit != NULL && 4644 (sc.comp_unit->GetLanguage() == eLanguageTypeObjC || sc.comp_unit->GetLanguage() == eLanguageTypeObjC_plus_plus)) 4645 { 4646 static ConstString g_objc_type_name_id("id"); 4647 static ConstString g_objc_type_name_Class("Class"); 4648 static ConstString g_objc_type_name_selector("SEL"); 4649 4650 if (type_name_const_str == g_objc_type_name_id) 4651 { 4652 if (log) 4653 GetObjectFile()->GetModule()->LogMessage (log.get(), "SymbolFileDWARF::ParseType (die = 0x%8.8x) %s '%s' is Objective C 'id' built-in type.", 4654 die->GetOffset(), 4655 DW_TAG_value_to_name(die->Tag()), 4656 die->GetName(this, dwarf_cu)); 4657 clang_type = ast.GetBuiltInType_objc_id(); 4658 encoding_data_type = Type::eEncodingIsUID; 4659 encoding_uid = LLDB_INVALID_UID; 4660 resolve_state = Type::eResolveStateFull; 4661 4662 } 4663 else if (type_name_const_str == g_objc_type_name_Class) 4664 { 4665 if (log) 4666 GetObjectFile()->GetModule()->LogMessage (log.get(), "SymbolFileDWARF::ParseType (die = 0x%8.8x) %s '%s' is Objective C 'Class' built-in type.", 4667 die->GetOffset(), 4668 DW_TAG_value_to_name(die->Tag()), 4669 die->GetName(this, dwarf_cu)); 4670 clang_type = ast.GetBuiltInType_objc_Class(); 4671 encoding_data_type = Type::eEncodingIsUID; 4672 encoding_uid = LLDB_INVALID_UID; 4673 resolve_state = Type::eResolveStateFull; 4674 } 4675 else if (type_name_const_str == g_objc_type_name_selector) 4676 { 4677 if (log) 4678 GetObjectFile()->GetModule()->LogMessage (log.get(), "SymbolFileDWARF::ParseType (die = 0x%8.8x) %s '%s' is Objective C 'selector' built-in type.", 4679 die->GetOffset(), 4680 DW_TAG_value_to_name(die->Tag()), 4681 die->GetName(this, dwarf_cu)); 4682 clang_type = ast.GetBuiltInType_objc_selector(); 4683 encoding_data_type = Type::eEncodingIsUID; 4684 encoding_uid = LLDB_INVALID_UID; 4685 resolve_state = Type::eResolveStateFull; 4686 } 4687 } 4688 } 4689 4690 type_sp.reset( new Type (MakeUserID(die->GetOffset()), 4691 this, 4692 type_name_const_str, 4693 byte_size, 4694 NULL, 4695 encoding_uid, 4696 encoding_data_type, 4697 &decl, 4698 clang_type, 4699 resolve_state)); 4700 4701 m_die_to_type[die] = type_sp.get(); 4702 4703 // Type* encoding_type = GetUniquedTypeForDIEOffset(encoding_uid, type_sp, NULL, 0, 0, false); 4704 // if (encoding_type != NULL) 4705 // { 4706 // if (encoding_type != DIE_IS_BEING_PARSED) 4707 // type_sp->SetEncodingType(encoding_type); 4708 // else 4709 // m_indirect_fixups.push_back(type_sp.get()); 4710 // } 4711 } 4712 break; 4713 4714 case DW_TAG_structure_type: 4715 case DW_TAG_union_type: 4716 case DW_TAG_class_type: 4717 { 4718 // Set a bit that lets us know that we are currently parsing this 4719 m_die_to_type[die] = DIE_IS_BEING_PARSED; 4720 4721 LanguageType class_language = eLanguageTypeUnknown; 4722 bool is_complete_objc_class = false; 4723 //bool struct_is_class = false; 4724 const size_t num_attributes = die->GetAttributes(this, dwarf_cu, NULL, attributes); 4725 if (num_attributes > 0) 4726 { 4727 uint32_t i; 4728 for (i=0; i<num_attributes; ++i) 4729 { 4730 attr = attributes.AttributeAtIndex(i); 4731 DWARFFormValue form_value; 4732 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 4733 { 4734 switch (attr) 4735 { 4736 case DW_AT_decl_file: 4737 if (dwarf_cu->DW_AT_decl_file_attributes_are_invalid()) 4738 { 4739 // llvm-gcc outputs invalid DW_AT_decl_file attributes that always 4740 // point to the compile unit file, so we clear this invalid value 4741 // so that we can still unique types efficiently. 4742 decl.SetFile(FileSpec ("<invalid>", false)); 4743 } 4744 else 4745 decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); 4746 break; 4747 4748 case DW_AT_decl_line: 4749 decl.SetLine(form_value.Unsigned()); 4750 break; 4751 4752 case DW_AT_decl_column: 4753 decl.SetColumn(form_value.Unsigned()); 4754 break; 4755 4756 case DW_AT_name: 4757 type_name_cstr = form_value.AsCString(&get_debug_str_data()); 4758 type_name_const_str.SetCString(type_name_cstr); 4759 break; 4760 4761 case DW_AT_byte_size: 4762 byte_size = form_value.Unsigned(); 4763 byte_size_valid = true; 4764 break; 4765 4766 case DW_AT_accessibility: 4767 accessibility = DW_ACCESS_to_AccessType(form_value.Unsigned()); 4768 break; 4769 4770 case DW_AT_declaration: 4771 is_forward_declaration = form_value.Unsigned() != 0; 4772 break; 4773 4774 case DW_AT_APPLE_runtime_class: 4775 class_language = (LanguageType)form_value.Signed(); 4776 break; 4777 4778 case DW_AT_APPLE_objc_complete_type: 4779 is_complete_objc_class = form_value.Signed(); 4780 break; 4781 4782 case DW_AT_allocated: 4783 case DW_AT_associated: 4784 case DW_AT_data_location: 4785 case DW_AT_description: 4786 case DW_AT_start_scope: 4787 case DW_AT_visibility: 4788 default: 4789 case DW_AT_sibling: 4790 break; 4791 } 4792 } 4793 } 4794 } 4795 4796 UniqueDWARFASTType unique_ast_entry; 4797 4798 // Only try and unique the type if it has a name. 4799 if (type_name_const_str && 4800 GetUniqueDWARFASTTypeMap().Find (type_name_const_str, 4801 this, 4802 dwarf_cu, 4803 die, 4804 decl, 4805 byte_size_valid ? byte_size : -1, 4806 unique_ast_entry)) 4807 { 4808 // We have already parsed this type or from another 4809 // compile unit. GCC loves to use the "one definition 4810 // rule" which can result in multiple definitions 4811 // of the same class over and over in each compile 4812 // unit. 4813 type_sp = unique_ast_entry.m_type_sp; 4814 if (type_sp) 4815 { 4816 m_die_to_type[die] = type_sp.get(); 4817 return type_sp; 4818 } 4819 } 4820 4821 DEBUG_PRINTF ("0x%8.8llx: %s (\"%s\")\n", MakeUserID(die->GetOffset()), DW_TAG_value_to_name(tag), type_name_cstr); 4822 4823 int tag_decl_kind = -1; 4824 AccessType default_accessibility = eAccessNone; 4825 if (tag == DW_TAG_structure_type) 4826 { 4827 tag_decl_kind = clang::TTK_Struct; 4828 default_accessibility = eAccessPublic; 4829 } 4830 else if (tag == DW_TAG_union_type) 4831 { 4832 tag_decl_kind = clang::TTK_Union; 4833 default_accessibility = eAccessPublic; 4834 } 4835 else if (tag == DW_TAG_class_type) 4836 { 4837 tag_decl_kind = clang::TTK_Class; 4838 default_accessibility = eAccessPrivate; 4839 } 4840 4841 if (byte_size_valid && byte_size == 0 && type_name_cstr && 4842 die->HasChildren() == false && 4843 sc.comp_unit->GetLanguage() == eLanguageTypeObjC) 4844 { 4845 // Work around an issue with clang at the moment where 4846 // forward declarations for objective C classes are emitted 4847 // as: 4848 // DW_TAG_structure_type [2] 4849 // DW_AT_name( "ForwardObjcClass" ) 4850 // DW_AT_byte_size( 0x00 ) 4851 // DW_AT_decl_file( "..." ) 4852 // DW_AT_decl_line( 1 ) 4853 // 4854 // Note that there is no DW_AT_declaration and there are 4855 // no children, and the byte size is zero. 4856 is_forward_declaration = true; 4857 } 4858 4859 if (class_language == eLanguageTypeObjC) 4860 { 4861 if (!is_complete_objc_class && Supports_DW_AT_APPLE_objc_complete_type(dwarf_cu)) 4862 { 4863 // We have a valid eSymbolTypeObjCClass class symbol whose 4864 // name matches the current objective C class that we 4865 // are trying to find and this DIE isn't the complete 4866 // definition (we checked is_complete_objc_class above and 4867 // know it is false), so the real definition is in here somewhere 4868 type_sp = FindCompleteObjCDefinitionTypeForDIE (die, type_name_const_str, true); 4869 4870 if (!type_sp && m_debug_map_symfile) 4871 { 4872 // We weren't able to find a full declaration in 4873 // this DWARF, see if we have a declaration anywhere 4874 // else... 4875 type_sp = m_debug_map_symfile->FindCompleteObjCDefinitionTypeForDIE (die, type_name_const_str, true); 4876 } 4877 4878 if (type_sp) 4879 { 4880 if (log) 4881 { 4882 GetObjectFile()->GetModule()->LogMessage (log.get(), 4883 "SymbolFileDWARF(%p) - 0x%8.8x: %s type \"%s\" is an incomplete objc type, complete type is 0x%8.8llx", 4884 this, 4885 die->GetOffset(), 4886 DW_TAG_value_to_name(tag), 4887 type_name_cstr, 4888 type_sp->GetID()); 4889 } 4890 4891 // We found a real definition for this type elsewhere 4892 // so lets use it and cache the fact that we found 4893 // a complete type for this die 4894 m_die_to_type[die] = type_sp.get(); 4895 return type_sp; 4896 } 4897 } 4898 } 4899 4900 4901 if (is_forward_declaration) 4902 { 4903 // We have a forward declaration to a type and we need 4904 // to try and find a full declaration. We look in the 4905 // current type index just in case we have a forward 4906 // declaration followed by an actual declarations in the 4907 // DWARF. If this fails, we need to look elsewhere... 4908 if (log) 4909 { 4910 GetObjectFile()->GetModule()->LogMessage (log.get(), 4911 "SymbolFileDWARF(%p) - 0x%8.8x: %s type \"%s\" is a forward declaration, trying to find complete type", 4912 this, 4913 die->GetOffset(), 4914 DW_TAG_value_to_name(tag), 4915 type_name_cstr); 4916 } 4917 4918 type_sp = FindDefinitionTypeForDIE (dwarf_cu, die, type_name_const_str); 4919 4920 if (!type_sp && m_debug_map_symfile) 4921 { 4922 // We weren't able to find a full declaration in 4923 // this DWARF, see if we have a declaration anywhere 4924 // else... 4925 type_sp = m_debug_map_symfile->FindDefinitionTypeForDIE (dwarf_cu, die, type_name_const_str); 4926 } 4927 4928 if (type_sp) 4929 { 4930 if (log) 4931 { 4932 GetObjectFile()->GetModule()->LogMessage (log.get(), 4933 "SymbolFileDWARF(%p) - 0x%8.8x: %s type \"%s\" is a forward declaration, complete type is 0x%8.8llx", 4934 this, 4935 die->GetOffset(), 4936 DW_TAG_value_to_name(tag), 4937 type_name_cstr, 4938 type_sp->GetID()); 4939 } 4940 4941 // We found a real definition for this type elsewhere 4942 // so lets use it and cache the fact that we found 4943 // a complete type for this die 4944 m_die_to_type[die] = type_sp.get(); 4945 return type_sp; 4946 } 4947 } 4948 assert (tag_decl_kind != -1); 4949 bool clang_type_was_created = false; 4950 clang_type = m_forward_decl_die_to_clang_type.lookup (die); 4951 if (clang_type == NULL) 4952 { 4953 const DWARFDebugInfoEntry *decl_ctx_die; 4954 4955 clang::DeclContext *decl_ctx = GetClangDeclContextContainingDIE (dwarf_cu, die, &decl_ctx_die); 4956 if (accessibility == eAccessNone && decl_ctx) 4957 { 4958 // Check the decl context that contains this class/struct/union. 4959 // If it is a class we must give it an accessability. 4960 const clang::Decl::Kind containing_decl_kind = decl_ctx->getDeclKind(); 4961 if (DeclKindIsCXXClass (containing_decl_kind)) 4962 accessibility = default_accessibility; 4963 } 4964 4965 if (type_name_cstr && strchr (type_name_cstr, '<')) 4966 { 4967 ClangASTContext::TemplateParameterInfos template_param_infos; 4968 if (ParseTemplateParameterInfos (dwarf_cu, die, template_param_infos)) 4969 { 4970 clang::ClassTemplateDecl *class_template_decl = ParseClassTemplateDecl (decl_ctx, 4971 accessibility, 4972 type_name_cstr, 4973 tag_decl_kind, 4974 template_param_infos); 4975 4976 clang::ClassTemplateSpecializationDecl *class_specialization_decl = ast.CreateClassTemplateSpecializationDecl (decl_ctx, 4977 class_template_decl, 4978 tag_decl_kind, 4979 template_param_infos); 4980 clang_type = ast.CreateClassTemplateSpecializationType (class_specialization_decl); 4981 clang_type_was_created = true; 4982 } 4983 } 4984 4985 if (!clang_type_was_created) 4986 { 4987 clang_type_was_created = true; 4988 clang_type = ast.CreateRecordType (decl_ctx, 4989 accessibility, 4990 type_name_cstr, 4991 tag_decl_kind, 4992 class_language); 4993 } 4994 } 4995 4996 // Store a forward declaration to this class type in case any 4997 // parameters in any class methods need it for the clang 4998 // types for function prototypes. 4999 LinkDeclContextToDIE(ClangASTContext::GetDeclContextForType(clang_type), die); 5000 type_sp.reset (new Type (MakeUserID(die->GetOffset()), 5001 this, 5002 type_name_const_str, 5003 byte_size, 5004 NULL, 5005 LLDB_INVALID_UID, 5006 Type::eEncodingIsUID, 5007 &decl, 5008 clang_type, 5009 Type::eResolveStateForward)); 5010 5011 type_sp->SetIsCompleteObjCClass(is_complete_objc_class); 5012 5013 5014 // Add our type to the unique type map so we don't 5015 // end up creating many copies of the same type over 5016 // and over in the ASTContext for our module 5017 unique_ast_entry.m_type_sp = type_sp; 5018 unique_ast_entry.m_symfile = this; 5019 unique_ast_entry.m_cu = dwarf_cu; 5020 unique_ast_entry.m_die = die; 5021 unique_ast_entry.m_declaration = decl; 5022 unique_ast_entry.m_byte_size = byte_size; 5023 GetUniqueDWARFASTTypeMap().Insert (type_name_const_str, 5024 unique_ast_entry); 5025 5026 if (!is_forward_declaration) 5027 { 5028 if (die->HasChildren() == false) 5029 { 5030 // No children for this struct/union/class, lets finish it 5031 ast.StartTagDeclarationDefinition (clang_type); 5032 ast.CompleteTagDeclarationDefinition (clang_type); 5033 } 5034 else if (clang_type_was_created) 5035 { 5036 // Leave this as a forward declaration until we need 5037 // to know the details of the type. lldb_private::Type 5038 // will automatically call the SymbolFile virtual function 5039 // "SymbolFileDWARF::ResolveClangOpaqueTypeDefinition(Type *)" 5040 // When the definition needs to be defined. 5041 m_forward_decl_die_to_clang_type[die] = clang_type; 5042 m_forward_decl_clang_type_to_die[ClangASTType::RemoveFastQualifiers (clang_type)] = die; 5043 ClangASTContext::SetHasExternalStorage (clang_type, true); 5044 } 5045 } 5046 5047 } 5048 break; 5049 5050 case DW_TAG_enumeration_type: 5051 { 5052 // Set a bit that lets us know that we are currently parsing this 5053 m_die_to_type[die] = DIE_IS_BEING_PARSED; 5054 5055 lldb::user_id_t encoding_uid = DW_INVALID_OFFSET; 5056 5057 const size_t num_attributes = die->GetAttributes(this, dwarf_cu, NULL, attributes); 5058 if (num_attributes > 0) 5059 { 5060 uint32_t i; 5061 5062 for (i=0; i<num_attributes; ++i) 5063 { 5064 attr = attributes.AttributeAtIndex(i); 5065 DWARFFormValue form_value; 5066 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 5067 { 5068 switch (attr) 5069 { 5070 case DW_AT_decl_file: decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); break; 5071 case DW_AT_decl_line: decl.SetLine(form_value.Unsigned()); break; 5072 case DW_AT_decl_column: decl.SetColumn(form_value.Unsigned()); break; 5073 case DW_AT_name: 5074 type_name_cstr = form_value.AsCString(&get_debug_str_data()); 5075 type_name_const_str.SetCString(type_name_cstr); 5076 break; 5077 case DW_AT_type: encoding_uid = form_value.Reference(dwarf_cu); break; 5078 case DW_AT_byte_size: byte_size = form_value.Unsigned(); byte_size_valid = true; break; 5079 case DW_AT_accessibility: accessibility = DW_ACCESS_to_AccessType(form_value.Unsigned()); break; 5080 case DW_AT_declaration: is_forward_declaration = form_value.Unsigned() != 0; break; 5081 case DW_AT_allocated: 5082 case DW_AT_associated: 5083 case DW_AT_bit_stride: 5084 case DW_AT_byte_stride: 5085 case DW_AT_data_location: 5086 case DW_AT_description: 5087 case DW_AT_start_scope: 5088 case DW_AT_visibility: 5089 case DW_AT_specification: 5090 case DW_AT_abstract_origin: 5091 case DW_AT_sibling: 5092 break; 5093 } 5094 } 5095 } 5096 5097 DEBUG_PRINTF ("0x%8.8llx: %s (\"%s\")\n", MakeUserID(die->GetOffset()), DW_TAG_value_to_name(tag), type_name_cstr); 5098 5099 clang_type_t enumerator_clang_type = NULL; 5100 clang_type = m_forward_decl_die_to_clang_type.lookup (die); 5101 if (clang_type == NULL) 5102 { 5103 enumerator_clang_type = ast.GetBuiltinTypeForDWARFEncodingAndBitSize (NULL, 5104 DW_ATE_signed, 5105 byte_size * 8); 5106 clang_type = ast.CreateEnumerationType (type_name_cstr, 5107 GetClangDeclContextContainingDIE (dwarf_cu, die, NULL), 5108 decl, 5109 enumerator_clang_type); 5110 } 5111 else 5112 { 5113 enumerator_clang_type = ClangASTContext::GetEnumerationIntegerType (clang_type); 5114 assert (enumerator_clang_type != NULL); 5115 } 5116 5117 LinkDeclContextToDIE(ClangASTContext::GetDeclContextForType(clang_type), die); 5118 5119 type_sp.reset( new Type (MakeUserID(die->GetOffset()), 5120 this, 5121 type_name_const_str, 5122 byte_size, 5123 NULL, 5124 encoding_uid, 5125 Type::eEncodingIsUID, 5126 &decl, 5127 clang_type, 5128 Type::eResolveStateForward)); 5129 5130 ast.StartTagDeclarationDefinition (clang_type); 5131 if (die->HasChildren()) 5132 { 5133 SymbolContext cu_sc(GetCompUnitForDWARFCompUnit(dwarf_cu)); 5134 ParseChildEnumerators(cu_sc, clang_type, type_sp->GetByteSize(), dwarf_cu, die); 5135 } 5136 ast.CompleteTagDeclarationDefinition (clang_type); 5137 } 5138 } 5139 break; 5140 5141 case DW_TAG_inlined_subroutine: 5142 case DW_TAG_subprogram: 5143 case DW_TAG_subroutine_type: 5144 { 5145 // Set a bit that lets us know that we are currently parsing this 5146 m_die_to_type[die] = DIE_IS_BEING_PARSED; 5147 5148 const char *mangled = NULL; 5149 dw_offset_t type_die_offset = DW_INVALID_OFFSET; 5150 bool is_variadic = false; 5151 bool is_inline = false; 5152 bool is_static = false; 5153 bool is_virtual = false; 5154 bool is_explicit = false; 5155 bool is_artificial = false; 5156 dw_offset_t specification_die_offset = DW_INVALID_OFFSET; 5157 dw_offset_t abstract_origin_die_offset = DW_INVALID_OFFSET; 5158 5159 unsigned type_quals = 0; 5160 clang::StorageClass storage = clang::SC_None;//, Extern, Static, PrivateExtern 5161 5162 5163 const size_t num_attributes = die->GetAttributes(this, dwarf_cu, NULL, attributes); 5164 if (num_attributes > 0) 5165 { 5166 uint32_t i; 5167 for (i=0; i<num_attributes; ++i) 5168 { 5169 attr = attributes.AttributeAtIndex(i); 5170 DWARFFormValue form_value; 5171 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 5172 { 5173 switch (attr) 5174 { 5175 case DW_AT_decl_file: decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); break; 5176 case DW_AT_decl_line: decl.SetLine(form_value.Unsigned()); break; 5177 case DW_AT_decl_column: decl.SetColumn(form_value.Unsigned()); break; 5178 case DW_AT_name: 5179 type_name_cstr = form_value.AsCString(&get_debug_str_data()); 5180 type_name_const_str.SetCString(type_name_cstr); 5181 break; 5182 5183 case DW_AT_MIPS_linkage_name: mangled = form_value.AsCString(&get_debug_str_data()); break; 5184 case DW_AT_type: type_die_offset = form_value.Reference(dwarf_cu); break; 5185 case DW_AT_accessibility: accessibility = DW_ACCESS_to_AccessType(form_value.Unsigned()); break; 5186 case DW_AT_declaration: is_forward_declaration = form_value.Unsigned() != 0; break; 5187 case DW_AT_inline: is_inline = form_value.Unsigned() != 0; break; 5188 case DW_AT_virtuality: is_virtual = form_value.Unsigned() != 0; break; 5189 case DW_AT_explicit: is_explicit = form_value.Unsigned() != 0; break; 5190 case DW_AT_artificial: is_artificial = form_value.Unsigned() != 0; break; 5191 5192 5193 case DW_AT_external: 5194 if (form_value.Unsigned()) 5195 { 5196 if (storage == clang::SC_None) 5197 storage = clang::SC_Extern; 5198 else 5199 storage = clang::SC_PrivateExtern; 5200 } 5201 break; 5202 5203 case DW_AT_specification: 5204 specification_die_offset = form_value.Reference(dwarf_cu); 5205 break; 5206 5207 case DW_AT_abstract_origin: 5208 abstract_origin_die_offset = form_value.Reference(dwarf_cu); 5209 break; 5210 5211 case DW_AT_allocated: 5212 case DW_AT_associated: 5213 case DW_AT_address_class: 5214 case DW_AT_calling_convention: 5215 case DW_AT_data_location: 5216 case DW_AT_elemental: 5217 case DW_AT_entry_pc: 5218 case DW_AT_frame_base: 5219 case DW_AT_high_pc: 5220 case DW_AT_low_pc: 5221 case DW_AT_object_pointer: 5222 case DW_AT_prototyped: 5223 case DW_AT_pure: 5224 case DW_AT_ranges: 5225 case DW_AT_recursive: 5226 case DW_AT_return_addr: 5227 case DW_AT_segment: 5228 case DW_AT_start_scope: 5229 case DW_AT_static_link: 5230 case DW_AT_trampoline: 5231 case DW_AT_visibility: 5232 case DW_AT_vtable_elem_location: 5233 case DW_AT_description: 5234 case DW_AT_sibling: 5235 break; 5236 } 5237 } 5238 } 5239 } 5240 5241 DEBUG_PRINTF ("0x%8.8llx: %s (\"%s\")\n", MakeUserID(die->GetOffset()), DW_TAG_value_to_name(tag), type_name_cstr); 5242 5243 clang_type_t return_clang_type = NULL; 5244 Type *func_type = NULL; 5245 5246 if (type_die_offset != DW_INVALID_OFFSET) 5247 func_type = ResolveTypeUID(type_die_offset); 5248 5249 if (func_type) 5250 return_clang_type = func_type->GetClangForwardType(); 5251 else 5252 return_clang_type = ast.GetBuiltInType_void(); 5253 5254 5255 std::vector<clang_type_t> function_param_types; 5256 std::vector<clang::ParmVarDecl*> function_param_decls; 5257 5258 // Parse the function children for the parameters 5259 5260 const DWARFDebugInfoEntry *decl_ctx_die = NULL; 5261 clang::DeclContext *containing_decl_ctx = GetClangDeclContextContainingDIE (dwarf_cu, die, &decl_ctx_die); 5262 const clang::Decl::Kind containing_decl_kind = containing_decl_ctx->getDeclKind(); 5263 5264 const bool is_cxx_method = DeclKindIsCXXClass (containing_decl_kind); 5265 // Start off static. This will be set to false in ParseChildParameters(...) 5266 // if we find a "this" paramters as the first parameter 5267 if (is_cxx_method) 5268 is_static = true; 5269 ClangASTContext::TemplateParameterInfos template_param_infos; 5270 5271 if (die->HasChildren()) 5272 { 5273 bool skip_artificial = true; 5274 ParseChildParameters (sc, 5275 containing_decl_ctx, 5276 dwarf_cu, 5277 die, 5278 skip_artificial, 5279 is_static, 5280 type_list, 5281 function_param_types, 5282 function_param_decls, 5283 type_quals, 5284 template_param_infos); 5285 } 5286 5287 // clang_type will get the function prototype clang type after this call 5288 clang_type = ast.CreateFunctionType (return_clang_type, 5289 &function_param_types[0], 5290 function_param_types.size(), 5291 is_variadic, 5292 type_quals); 5293 5294 if (type_name_cstr) 5295 { 5296 bool type_handled = false; 5297 if (tag == DW_TAG_subprogram) 5298 { 5299 ConstString class_name; 5300 ConstString class_name_no_category; 5301 if (ObjCLanguageRuntime::ParseMethodName (type_name_cstr, &class_name, NULL, NULL, &class_name_no_category)) 5302 { 5303 // Use the class name with no category if there is one 5304 if (class_name_no_category) 5305 class_name = class_name_no_category; 5306 5307 SymbolContext empty_sc; 5308 clang_type_t class_opaque_type = NULL; 5309 if (class_name) 5310 { 5311 TypeList types; 5312 TypeSP complete_objc_class_type_sp (FindCompleteObjCDefinitionTypeForDIE (NULL, class_name, false)); 5313 5314 if (complete_objc_class_type_sp) 5315 { 5316 clang_type_t type_clang_forward_type = complete_objc_class_type_sp->GetClangForwardType(); 5317 if (ClangASTContext::IsObjCClassType (type_clang_forward_type)) 5318 class_opaque_type = type_clang_forward_type; 5319 } 5320 } 5321 5322 if (class_opaque_type) 5323 { 5324 // If accessibility isn't set to anything valid, assume public for 5325 // now... 5326 if (accessibility == eAccessNone) 5327 accessibility = eAccessPublic; 5328 5329 clang::ObjCMethodDecl *objc_method_decl; 5330 objc_method_decl = ast.AddMethodToObjCObjectType (class_opaque_type, 5331 type_name_cstr, 5332 clang_type, 5333 accessibility); 5334 LinkDeclContextToDIE(ClangASTContext::GetAsDeclContext(objc_method_decl), die); 5335 type_handled = objc_method_decl != NULL; 5336 } 5337 } 5338 else if (is_cxx_method) 5339 { 5340 // Look at the parent of this DIE and see if is is 5341 // a class or struct and see if this is actually a 5342 // C++ method 5343 Type *class_type = ResolveType (dwarf_cu, decl_ctx_die); 5344 if (class_type) 5345 { 5346 if (specification_die_offset != DW_INVALID_OFFSET) 5347 { 5348 // We have a specification which we are going to base our function 5349 // prototype off of, so we need this type to be completed so that the 5350 // m_die_to_decl_ctx for the method in the specification has a valid 5351 // clang decl context. 5352 class_type->GetClangForwardType(); 5353 // If we have a specification, then the function type should have been 5354 // made with the specification and not with this die. 5355 DWARFCompileUnitSP spec_cu_sp; 5356 const DWARFDebugInfoEntry* spec_die = DebugInfo()->GetDIEPtr(specification_die_offset, &spec_cu_sp); 5357 clang::DeclContext *spec_clang_decl_ctx = GetCachedClangDeclContextForDIE (spec_die); 5358 if (spec_clang_decl_ctx) 5359 { 5360 LinkDeclContextToDIE(spec_clang_decl_ctx, die); 5361 } 5362 else 5363 { 5364 GetObjectFile()->GetModule()->ReportWarning ("0x%8.8llx: DW_AT_specification(0x%8.8x) has no decl\n", 5365 MakeUserID(die->GetOffset()), 5366 specification_die_offset); 5367 } 5368 type_handled = true; 5369 } 5370 else if (abstract_origin_die_offset != DW_INVALID_OFFSET) 5371 { 5372 // We have a specification which we are going to base our function 5373 // prototype off of, so we need this type to be completed so that the 5374 // m_die_to_decl_ctx for the method in the abstract origin has a valid 5375 // clang decl context. 5376 class_type->GetClangForwardType(); 5377 5378 DWARFCompileUnitSP abs_cu_sp; 5379 const DWARFDebugInfoEntry* abs_die = DebugInfo()->GetDIEPtr(abstract_origin_die_offset, &abs_cu_sp); 5380 clang::DeclContext *abs_clang_decl_ctx = GetCachedClangDeclContextForDIE (abs_die); 5381 if (abs_clang_decl_ctx) 5382 { 5383 LinkDeclContextToDIE (abs_clang_decl_ctx, die); 5384 } 5385 else 5386 { 5387 GetObjectFile()->GetModule()->ReportWarning ("0x%8.8llx: DW_AT_abstract_origin(0x%8.8x) has no decl\n", 5388 MakeUserID(die->GetOffset()), 5389 abstract_origin_die_offset); 5390 } 5391 type_handled = true; 5392 } 5393 else 5394 { 5395 clang_type_t class_opaque_type = class_type->GetClangForwardType(); 5396 if (ClangASTContext::IsCXXClassType (class_opaque_type)) 5397 { 5398 if (ClangASTContext::IsBeingDefined (class_opaque_type)) 5399 { 5400 // Neither GCC 4.2 nor clang++ currently set a valid accessibility 5401 // in the DWARF for C++ methods... Default to public for now... 5402 if (accessibility == eAccessNone) 5403 accessibility = eAccessPublic; 5404 5405 if (!is_static && !die->HasChildren()) 5406 { 5407 // We have a C++ member function with no children (this pointer!) 5408 // and clang will get mad if we try and make a function that isn't 5409 // well formed in the DWARF, so we will just skip it... 5410 type_handled = true; 5411 } 5412 else 5413 { 5414 clang::CXXMethodDecl *cxx_method_decl; 5415 // REMOVE THE CRASH DESCRIPTION BELOW 5416 Host::SetCrashDescriptionWithFormat ("SymbolFileDWARF::ParseType() is adding a method %s to class %s in DIE 0x%8.8llx from %s/%s", 5417 type_name_cstr, 5418 class_type->GetName().GetCString(), 5419 MakeUserID(die->GetOffset()), 5420 m_obj_file->GetFileSpec().GetDirectory().GetCString(), 5421 m_obj_file->GetFileSpec().GetFilename().GetCString()); 5422 5423 const bool is_attr_used = false; 5424 5425 cxx_method_decl = ast.AddMethodToCXXRecordType (class_opaque_type, 5426 type_name_cstr, 5427 clang_type, 5428 accessibility, 5429 is_virtual, 5430 is_static, 5431 is_inline, 5432 is_explicit, 5433 is_attr_used, 5434 is_artificial); 5435 LinkDeclContextToDIE(ClangASTContext::GetAsDeclContext(cxx_method_decl), die); 5436 5437 Host::SetCrashDescription (NULL); 5438 5439 type_handled = cxx_method_decl != NULL; 5440 } 5441 } 5442 else 5443 { 5444 // We were asked to parse the type for a method in a class, yet the 5445 // class hasn't been asked to complete itself through the 5446 // clang::ExternalASTSource protocol, so we need to just have the 5447 // class complete itself and do things the right way, then our 5448 // DIE should then have an entry in the m_die_to_type map. First 5449 // we need to modify the m_die_to_type so it doesn't think we are 5450 // trying to parse this DIE anymore... 5451 m_die_to_type[die] = NULL; 5452 5453 // Now we get the full type to force our class type to complete itself 5454 // using the clang::ExternalASTSource protocol which will parse all 5455 // base classes and all methods (including the method for this DIE). 5456 class_type->GetClangFullType(); 5457 5458 // The type for this DIE should have been filled in the function call above 5459 type_ptr = m_die_to_type[die]; 5460 if (type_ptr) 5461 { 5462 type_sp = type_ptr->shared_from_this(); 5463 break; 5464 } 5465 } 5466 } 5467 } 5468 } 5469 } 5470 } 5471 5472 if (!type_handled) 5473 { 5474 // We just have a function that isn't part of a class 5475 clang::FunctionDecl *function_decl = ast.CreateFunctionDeclaration (containing_decl_ctx, 5476 type_name_cstr, 5477 clang_type, 5478 storage, 5479 is_inline); 5480 5481 // if (template_param_infos.GetSize() > 0) 5482 // { 5483 // clang::FunctionTemplateDecl *func_template_decl = ast.CreateFunctionTemplateDecl (containing_decl_ctx, 5484 // function_decl, 5485 // type_name_cstr, 5486 // template_param_infos); 5487 // 5488 // ast.CreateFunctionTemplateSpecializationInfo (function_decl, 5489 // func_template_decl, 5490 // template_param_infos); 5491 // } 5492 // Add the decl to our DIE to decl context map 5493 assert (function_decl); 5494 LinkDeclContextToDIE(function_decl, die); 5495 if (!function_param_decls.empty()) 5496 ast.SetFunctionParameters (function_decl, 5497 &function_param_decls.front(), 5498 function_param_decls.size()); 5499 } 5500 } 5501 type_sp.reset( new Type (MakeUserID(die->GetOffset()), 5502 this, 5503 type_name_const_str, 5504 0, 5505 NULL, 5506 LLDB_INVALID_UID, 5507 Type::eEncodingIsUID, 5508 &decl, 5509 clang_type, 5510 Type::eResolveStateFull)); 5511 assert(type_sp.get()); 5512 } 5513 break; 5514 5515 case DW_TAG_array_type: 5516 { 5517 // Set a bit that lets us know that we are currently parsing this 5518 m_die_to_type[die] = DIE_IS_BEING_PARSED; 5519 5520 lldb::user_id_t type_die_offset = DW_INVALID_OFFSET; 5521 int64_t first_index = 0; 5522 uint32_t byte_stride = 0; 5523 uint32_t bit_stride = 0; 5524 const size_t num_attributes = die->GetAttributes(this, dwarf_cu, NULL, attributes); 5525 5526 if (num_attributes > 0) 5527 { 5528 uint32_t i; 5529 for (i=0; i<num_attributes; ++i) 5530 { 5531 attr = attributes.AttributeAtIndex(i); 5532 DWARFFormValue form_value; 5533 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 5534 { 5535 switch (attr) 5536 { 5537 case DW_AT_decl_file: decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); break; 5538 case DW_AT_decl_line: decl.SetLine(form_value.Unsigned()); break; 5539 case DW_AT_decl_column: decl.SetColumn(form_value.Unsigned()); break; 5540 case DW_AT_name: 5541 type_name_cstr = form_value.AsCString(&get_debug_str_data()); 5542 type_name_const_str.SetCString(type_name_cstr); 5543 break; 5544 5545 case DW_AT_type: type_die_offset = form_value.Reference(dwarf_cu); break; 5546 case DW_AT_byte_size: byte_size = form_value.Unsigned(); byte_size_valid = true; break; 5547 case DW_AT_byte_stride: byte_stride = form_value.Unsigned(); break; 5548 case DW_AT_bit_stride: bit_stride = form_value.Unsigned(); break; 5549 case DW_AT_accessibility: accessibility = DW_ACCESS_to_AccessType(form_value.Unsigned()); break; 5550 case DW_AT_declaration: is_forward_declaration = form_value.Unsigned() != 0; break; 5551 case DW_AT_allocated: 5552 case DW_AT_associated: 5553 case DW_AT_data_location: 5554 case DW_AT_description: 5555 case DW_AT_ordering: 5556 case DW_AT_start_scope: 5557 case DW_AT_visibility: 5558 case DW_AT_specification: 5559 case DW_AT_abstract_origin: 5560 case DW_AT_sibling: 5561 break; 5562 } 5563 } 5564 } 5565 5566 DEBUG_PRINTF ("0x%8.8llx: %s (\"%s\")\n", MakeUserID(die->GetOffset()), DW_TAG_value_to_name(tag), type_name_cstr); 5567 5568 Type *element_type = ResolveTypeUID(type_die_offset); 5569 5570 if (element_type) 5571 { 5572 std::vector<uint64_t> element_orders; 5573 ParseChildArrayInfo(sc, dwarf_cu, die, first_index, element_orders, byte_stride, bit_stride); 5574 // We have an array that claims to have no members, lets give it at least one member... 5575 if (element_orders.empty()) 5576 element_orders.push_back (1); 5577 if (byte_stride == 0 && bit_stride == 0) 5578 byte_stride = element_type->GetByteSize(); 5579 clang_type_t array_element_type = element_type->GetClangForwardType(); 5580 uint64_t array_element_bit_stride = byte_stride * 8 + bit_stride; 5581 uint64_t num_elements = 0; 5582 std::vector<uint64_t>::const_reverse_iterator pos; 5583 std::vector<uint64_t>::const_reverse_iterator end = element_orders.rend(); 5584 for (pos = element_orders.rbegin(); pos != end; ++pos) 5585 { 5586 num_elements = *pos; 5587 clang_type = ast.CreateArrayType (array_element_type, 5588 num_elements, 5589 num_elements * array_element_bit_stride); 5590 array_element_type = clang_type; 5591 array_element_bit_stride = array_element_bit_stride * num_elements; 5592 } 5593 ConstString empty_name; 5594 type_sp.reset( new Type (MakeUserID(die->GetOffset()), 5595 this, 5596 empty_name, 5597 array_element_bit_stride / 8, 5598 NULL, 5599 type_die_offset, 5600 Type::eEncodingIsUID, 5601 &decl, 5602 clang_type, 5603 Type::eResolveStateFull)); 5604 type_sp->SetEncodingType (element_type); 5605 } 5606 } 5607 } 5608 break; 5609 5610 case DW_TAG_ptr_to_member_type: 5611 { 5612 dw_offset_t type_die_offset = DW_INVALID_OFFSET; 5613 dw_offset_t containing_type_die_offset = DW_INVALID_OFFSET; 5614 5615 const size_t num_attributes = die->GetAttributes(this, dwarf_cu, NULL, attributes); 5616 5617 if (num_attributes > 0) { 5618 uint32_t i; 5619 for (i=0; i<num_attributes; ++i) 5620 { 5621 attr = attributes.AttributeAtIndex(i); 5622 DWARFFormValue form_value; 5623 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 5624 { 5625 switch (attr) 5626 { 5627 case DW_AT_type: 5628 type_die_offset = form_value.Reference(dwarf_cu); break; 5629 case DW_AT_containing_type: 5630 containing_type_die_offset = form_value.Reference(dwarf_cu); break; 5631 } 5632 } 5633 } 5634 5635 Type *pointee_type = ResolveTypeUID(type_die_offset); 5636 Type *class_type = ResolveTypeUID(containing_type_die_offset); 5637 5638 clang_type_t pointee_clang_type = pointee_type->GetClangForwardType(); 5639 clang_type_t class_clang_type = class_type->GetClangLayoutType(); 5640 5641 clang_type = ast.CreateMemberPointerType(pointee_clang_type, 5642 class_clang_type); 5643 5644 byte_size = ClangASTType::GetClangTypeBitWidth (ast.getASTContext(), 5645 clang_type) / 8; 5646 5647 type_sp.reset( new Type (MakeUserID(die->GetOffset()), 5648 this, 5649 type_name_const_str, 5650 byte_size, 5651 NULL, 5652 LLDB_INVALID_UID, 5653 Type::eEncodingIsUID, 5654 NULL, 5655 clang_type, 5656 Type::eResolveStateForward)); 5657 } 5658 5659 break; 5660 } 5661 default: 5662 assert(false && "Unhandled type tag!"); 5663 break; 5664 } 5665 5666 if (type_sp.get()) 5667 { 5668 const DWARFDebugInfoEntry *sc_parent_die = GetParentSymbolContextDIE(die); 5669 dw_tag_t sc_parent_tag = sc_parent_die ? sc_parent_die->Tag() : 0; 5670 5671 SymbolContextScope * symbol_context_scope = NULL; 5672 if (sc_parent_tag == DW_TAG_compile_unit) 5673 { 5674 symbol_context_scope = sc.comp_unit; 5675 } 5676 else if (sc.function != NULL) 5677 { 5678 symbol_context_scope = sc.function->GetBlock(true).FindBlockByID(MakeUserID(sc_parent_die->GetOffset())); 5679 if (symbol_context_scope == NULL) 5680 symbol_context_scope = sc.function; 5681 } 5682 5683 if (symbol_context_scope != NULL) 5684 { 5685 type_sp->SetSymbolContextScope(symbol_context_scope); 5686 } 5687 5688 // We are ready to put this type into the uniqued list up at the module level 5689 type_list->Insert (type_sp); 5690 5691 m_die_to_type[die] = type_sp.get(); 5692 } 5693 } 5694 else if (type_ptr != DIE_IS_BEING_PARSED) 5695 { 5696 type_sp = type_ptr->shared_from_this(); 5697 } 5698 } 5699 return type_sp; 5700 } 5701 5702 size_t 5703 SymbolFileDWARF::ParseTypes 5704 ( 5705 const SymbolContext& sc, 5706 DWARFCompileUnit* dwarf_cu, 5707 const DWARFDebugInfoEntry *die, 5708 bool parse_siblings, 5709 bool parse_children 5710 ) 5711 { 5712 size_t types_added = 0; 5713 while (die != NULL) 5714 { 5715 bool type_is_new = false; 5716 if (ParseType(sc, dwarf_cu, die, &type_is_new).get()) 5717 { 5718 if (type_is_new) 5719 ++types_added; 5720 } 5721 5722 if (parse_children && die->HasChildren()) 5723 { 5724 if (die->Tag() == DW_TAG_subprogram) 5725 { 5726 SymbolContext child_sc(sc); 5727 child_sc.function = sc.comp_unit->FindFunctionByUID(MakeUserID(die->GetOffset())).get(); 5728 types_added += ParseTypes(child_sc, dwarf_cu, die->GetFirstChild(), true, true); 5729 } 5730 else 5731 types_added += ParseTypes(sc, dwarf_cu, die->GetFirstChild(), true, true); 5732 } 5733 5734 if (parse_siblings) 5735 die = die->GetSibling(); 5736 else 5737 die = NULL; 5738 } 5739 return types_added; 5740 } 5741 5742 5743 size_t 5744 SymbolFileDWARF::ParseFunctionBlocks (const SymbolContext &sc) 5745 { 5746 assert(sc.comp_unit && sc.function); 5747 size_t functions_added = 0; 5748 DWARFCompileUnit* dwarf_cu = GetDWARFCompileUnitForUID(sc.comp_unit->GetID()); 5749 if (dwarf_cu) 5750 { 5751 dw_offset_t function_die_offset = sc.function->GetID(); 5752 const DWARFDebugInfoEntry *function_die = dwarf_cu->GetDIEPtr(function_die_offset); 5753 if (function_die) 5754 { 5755 ParseFunctionBlocks(sc, &sc.function->GetBlock (false), dwarf_cu, function_die, LLDB_INVALID_ADDRESS, 0); 5756 } 5757 } 5758 5759 return functions_added; 5760 } 5761 5762 5763 size_t 5764 SymbolFileDWARF::ParseTypes (const SymbolContext &sc) 5765 { 5766 // At least a compile unit must be valid 5767 assert(sc.comp_unit); 5768 size_t types_added = 0; 5769 DWARFCompileUnit* dwarf_cu = GetDWARFCompileUnitForUID(sc.comp_unit->GetID()); 5770 if (dwarf_cu) 5771 { 5772 if (sc.function) 5773 { 5774 dw_offset_t function_die_offset = sc.function->GetID(); 5775 const DWARFDebugInfoEntry *func_die = dwarf_cu->GetDIEPtr(function_die_offset); 5776 if (func_die && func_die->HasChildren()) 5777 { 5778 types_added = ParseTypes(sc, dwarf_cu, func_die->GetFirstChild(), true, true); 5779 } 5780 } 5781 else 5782 { 5783 const DWARFDebugInfoEntry *dwarf_cu_die = dwarf_cu->DIE(); 5784 if (dwarf_cu_die && dwarf_cu_die->HasChildren()) 5785 { 5786 types_added = ParseTypes(sc, dwarf_cu, dwarf_cu_die->GetFirstChild(), true, true); 5787 } 5788 } 5789 } 5790 5791 return types_added; 5792 } 5793 5794 size_t 5795 SymbolFileDWARF::ParseVariablesForContext (const SymbolContext& sc) 5796 { 5797 if (sc.comp_unit != NULL) 5798 { 5799 DWARFDebugInfo* info = DebugInfo(); 5800 if (info == NULL) 5801 return 0; 5802 5803 uint32_t cu_idx = UINT32_MAX; 5804 DWARFCompileUnit* dwarf_cu = info->GetCompileUnit(sc.comp_unit->GetID(), &cu_idx).get(); 5805 5806 if (dwarf_cu == NULL) 5807 return 0; 5808 5809 if (sc.function) 5810 { 5811 const DWARFDebugInfoEntry *function_die = dwarf_cu->GetDIEPtr(sc.function->GetID()); 5812 5813 dw_addr_t func_lo_pc = function_die->GetAttributeValueAsUnsigned (this, dwarf_cu, DW_AT_low_pc, DW_INVALID_ADDRESS); 5814 if (func_lo_pc != DW_INVALID_ADDRESS) 5815 { 5816 const size_t num_variables = ParseVariables(sc, dwarf_cu, func_lo_pc, function_die->GetFirstChild(), true, true); 5817 5818 // Let all blocks know they have parse all their variables 5819 sc.function->GetBlock (false).SetDidParseVariables (true, true); 5820 return num_variables; 5821 } 5822 } 5823 else if (sc.comp_unit) 5824 { 5825 uint32_t vars_added = 0; 5826 VariableListSP variables (sc.comp_unit->GetVariableList(false)); 5827 5828 if (variables.get() == NULL) 5829 { 5830 variables.reset(new VariableList()); 5831 sc.comp_unit->SetVariableList(variables); 5832 5833 DWARFCompileUnit* match_dwarf_cu = NULL; 5834 const DWARFDebugInfoEntry* die = NULL; 5835 DIEArray die_offsets; 5836 if (m_using_apple_tables) 5837 { 5838 if (m_apple_names_ap.get()) 5839 { 5840 DWARFMappedHash::DIEInfoArray hash_data_array; 5841 if (m_apple_names_ap->AppendAllDIEsInRange (dwarf_cu->GetOffset(), 5842 dwarf_cu->GetNextCompileUnitOffset(), 5843 hash_data_array)) 5844 { 5845 DWARFMappedHash::ExtractDIEArray (hash_data_array, die_offsets); 5846 } 5847 } 5848 } 5849 else 5850 { 5851 // Index if we already haven't to make sure the compile units 5852 // get indexed and make their global DIE index list 5853 if (!m_indexed) 5854 Index (); 5855 5856 m_global_index.FindAllEntriesForCompileUnit (dwarf_cu->GetOffset(), 5857 dwarf_cu->GetNextCompileUnitOffset(), 5858 die_offsets); 5859 } 5860 5861 const size_t num_matches = die_offsets.size(); 5862 if (num_matches) 5863 { 5864 DWARFDebugInfo* debug_info = DebugInfo(); 5865 for (size_t i=0; i<num_matches; ++i) 5866 { 5867 const dw_offset_t die_offset = die_offsets[i]; 5868 die = debug_info->GetDIEPtrWithCompileUnitHint (die_offset, &match_dwarf_cu); 5869 if (die) 5870 { 5871 VariableSP var_sp (ParseVariableDIE(sc, dwarf_cu, die, LLDB_INVALID_ADDRESS)); 5872 if (var_sp) 5873 { 5874 variables->AddVariableIfUnique (var_sp); 5875 ++vars_added; 5876 } 5877 } 5878 else 5879 { 5880 if (m_using_apple_tables) 5881 { 5882 GetObjectFile()->GetModule()->ReportErrorIfModifyDetected ("the DWARF debug information has been modified (.apple_names accelerator table had bad die 0x%8.8x)\n", die_offset); 5883 } 5884 } 5885 5886 } 5887 } 5888 } 5889 return vars_added; 5890 } 5891 } 5892 return 0; 5893 } 5894 5895 5896 VariableSP 5897 SymbolFileDWARF::ParseVariableDIE 5898 ( 5899 const SymbolContext& sc, 5900 DWARFCompileUnit* dwarf_cu, 5901 const DWARFDebugInfoEntry *die, 5902 const lldb::addr_t func_low_pc 5903 ) 5904 { 5905 5906 VariableSP var_sp (m_die_to_variable_sp[die]); 5907 if (var_sp) 5908 return var_sp; // Already been parsed! 5909 5910 const dw_tag_t tag = die->Tag(); 5911 5912 if ((tag == DW_TAG_variable) || 5913 (tag == DW_TAG_constant) || 5914 (tag == DW_TAG_formal_parameter && sc.function)) 5915 { 5916 DWARFDebugInfoEntry::Attributes attributes; 5917 const size_t num_attributes = die->GetAttributes(this, dwarf_cu, NULL, attributes); 5918 if (num_attributes > 0) 5919 { 5920 const char *name = NULL; 5921 const char *mangled = NULL; 5922 Declaration decl; 5923 uint32_t i; 5924 lldb::user_id_t type_uid = LLDB_INVALID_UID; 5925 DWARFExpression location; 5926 bool is_external = false; 5927 bool is_artificial = false; 5928 bool location_is_const_value_data = false; 5929 AccessType accessibility = eAccessNone; 5930 5931 for (i=0; i<num_attributes; ++i) 5932 { 5933 dw_attr_t attr = attributes.AttributeAtIndex(i); 5934 DWARFFormValue form_value; 5935 if (attributes.ExtractFormValueAtIndex(this, i, form_value)) 5936 { 5937 switch (attr) 5938 { 5939 case DW_AT_decl_file: decl.SetFile(sc.comp_unit->GetSupportFiles().GetFileSpecAtIndex(form_value.Unsigned())); break; 5940 case DW_AT_decl_line: decl.SetLine(form_value.Unsigned()); break; 5941 case DW_AT_decl_column: decl.SetColumn(form_value.Unsigned()); break; 5942 case DW_AT_name: name = form_value.AsCString(&get_debug_str_data()); break; 5943 case DW_AT_MIPS_linkage_name: mangled = form_value.AsCString(&get_debug_str_data()); break; 5944 case DW_AT_type: type_uid = form_value.Reference(dwarf_cu); break; 5945 case DW_AT_external: is_external = form_value.Unsigned() != 0; break; 5946 case DW_AT_const_value: 5947 location_is_const_value_data = true; 5948 // Fall through... 5949 case DW_AT_location: 5950 { 5951 if (form_value.BlockData()) 5952 { 5953 const DataExtractor& debug_info_data = get_debug_info_data(); 5954 5955 uint32_t block_offset = form_value.BlockData() - debug_info_data.GetDataStart(); 5956 uint32_t block_length = form_value.Unsigned(); 5957 location.SetOpcodeData(get_debug_info_data(), block_offset, block_length); 5958 } 5959 else 5960 { 5961 const DataExtractor& debug_loc_data = get_debug_loc_data(); 5962 const dw_offset_t debug_loc_offset = form_value.Unsigned(); 5963 5964 size_t loc_list_length = DWARFLocationList::Size(debug_loc_data, debug_loc_offset); 5965 if (loc_list_length > 0) 5966 { 5967 location.SetOpcodeData(debug_loc_data, debug_loc_offset, loc_list_length); 5968 assert (func_low_pc != LLDB_INVALID_ADDRESS); 5969 location.SetLocationListSlide (func_low_pc - dwarf_cu->GetBaseAddress()); 5970 } 5971 } 5972 } 5973 break; 5974 5975 case DW_AT_artificial: is_artificial = form_value.Unsigned() != 0; break; 5976 case DW_AT_accessibility: accessibility = DW_ACCESS_to_AccessType(form_value.Unsigned()); break; 5977 case DW_AT_declaration: 5978 case DW_AT_description: 5979 case DW_AT_endianity: 5980 case DW_AT_segment: 5981 case DW_AT_start_scope: 5982 case DW_AT_visibility: 5983 default: 5984 case DW_AT_abstract_origin: 5985 case DW_AT_sibling: 5986 case DW_AT_specification: 5987 break; 5988 } 5989 } 5990 } 5991 5992 if (location.IsValid()) 5993 { 5994 ValueType scope = eValueTypeInvalid; 5995 5996 const DWARFDebugInfoEntry *sc_parent_die = GetParentSymbolContextDIE(die); 5997 dw_tag_t parent_tag = sc_parent_die ? sc_parent_die->Tag() : 0; 5998 SymbolContextScope * symbol_context_scope = NULL; 5999 6000 // DWARF doesn't specify if a DW_TAG_variable is a local, global 6001 // or static variable, so we have to do a little digging by 6002 // looking at the location of a varaible to see if it contains 6003 // a DW_OP_addr opcode _somewhere_ in the definition. I say 6004 // somewhere because clang likes to combine small global variables 6005 // into the same symbol and have locations like: 6006 // DW_OP_addr(0x1000), DW_OP_constu(2), DW_OP_plus 6007 // So if we don't have a DW_TAG_formal_parameter, we can look at 6008 // the location to see if it contains a DW_OP_addr opcode, and 6009 // then we can correctly classify our variables. 6010 if (tag == DW_TAG_formal_parameter) 6011 scope = eValueTypeVariableArgument; 6012 else 6013 { 6014 bool op_error = false; 6015 // Check if the location has a DW_OP_addr with any address value... 6016 addr_t location_has_op_addr = false; 6017 if (!location_is_const_value_data) 6018 { 6019 location_has_op_addr = location.LocationContains_DW_OP_addr (LLDB_INVALID_ADDRESS, op_error); 6020 if (op_error) 6021 { 6022 StreamString strm; 6023 location.DumpLocationForAddress (&strm, eDescriptionLevelFull, 0, 0, NULL); 6024 GetObjectFile()->GetModule()->ReportError ("0x%8.8x: %s has an invalid location: %s", die->GetOffset(), DW_TAG_value_to_name(die->Tag()), strm.GetString().c_str()); 6025 } 6026 } 6027 6028 if (location_has_op_addr) 6029 { 6030 if (is_external) 6031 { 6032 scope = eValueTypeVariableGlobal; 6033 6034 if (m_debug_map_symfile) 6035 { 6036 // When leaving the DWARF in the .o files on darwin, 6037 // when we have a global variable that wasn't initialized, 6038 // the .o file might not have allocated a virtual 6039 // address for the global variable. In this case it will 6040 // have created a symbol for the global variable 6041 // that is undefined and external and the value will 6042 // be the byte size of the variable. When we do the 6043 // address map in SymbolFileDWARFDebugMap we rely on 6044 // having an address, we need to do some magic here 6045 // so we can get the correct address for our global 6046 // variable. The address for all of these entries 6047 // will be zero, and there will be an undefined symbol 6048 // in this object file, and the executable will have 6049 // a matching symbol with a good address. So here we 6050 // dig up the correct address and replace it in the 6051 // location for the variable, and set the variable's 6052 // symbol context scope to be that of the main executable 6053 // so the file address will resolve correctly. 6054 if (location.LocationContains_DW_OP_addr (0, op_error)) 6055 { 6056 6057 // we have a possible uninitialized extern global 6058 Symtab *symtab = m_obj_file->GetSymtab(); 6059 if (symtab) 6060 { 6061 ConstString const_name(name); 6062 Symbol *undefined_symbol = symtab->FindFirstSymbolWithNameAndType (const_name, 6063 eSymbolTypeUndefined, 6064 Symtab::eDebugNo, 6065 Symtab::eVisibilityExtern); 6066 6067 if (undefined_symbol) 6068 { 6069 ObjectFile *debug_map_objfile = m_debug_map_symfile->GetObjectFile(); 6070 if (debug_map_objfile) 6071 { 6072 Symtab *debug_map_symtab = debug_map_objfile->GetSymtab(); 6073 Symbol *defined_symbol = debug_map_symtab->FindFirstSymbolWithNameAndType (const_name, 6074 eSymbolTypeData, 6075 Symtab::eDebugYes, 6076 Symtab::eVisibilityExtern); 6077 if (defined_symbol) 6078 { 6079 if (defined_symbol->ValueIsAddress()) 6080 { 6081 const addr_t defined_addr = defined_symbol->GetAddress().GetFileAddress(); 6082 if (defined_addr != LLDB_INVALID_ADDRESS) 6083 { 6084 if (location.Update_DW_OP_addr (defined_addr)) 6085 { 6086 symbol_context_scope = defined_symbol; 6087 } 6088 } 6089 } 6090 } 6091 } 6092 } 6093 } 6094 } 6095 } 6096 } 6097 else 6098 { 6099 scope = eValueTypeVariableStatic; 6100 } 6101 } 6102 else 6103 { 6104 scope = eValueTypeVariableLocal; 6105 } 6106 } 6107 6108 if (symbol_context_scope == NULL) 6109 { 6110 switch (parent_tag) 6111 { 6112 case DW_TAG_subprogram: 6113 case DW_TAG_inlined_subroutine: 6114 case DW_TAG_lexical_block: 6115 if (sc.function) 6116 { 6117 symbol_context_scope = sc.function->GetBlock(true).FindBlockByID(MakeUserID(sc_parent_die->GetOffset())); 6118 if (symbol_context_scope == NULL) 6119 symbol_context_scope = sc.function; 6120 } 6121 break; 6122 6123 default: 6124 symbol_context_scope = sc.comp_unit; 6125 break; 6126 } 6127 } 6128 6129 if (symbol_context_scope) 6130 { 6131 var_sp.reset (new Variable (MakeUserID(die->GetOffset()), 6132 name, 6133 mangled, 6134 SymbolFileTypeSP (new SymbolFileType(*this, type_uid)), 6135 scope, 6136 symbol_context_scope, 6137 &decl, 6138 location, 6139 is_external, 6140 is_artificial)); 6141 6142 var_sp->SetLocationIsConstantValueData (location_is_const_value_data); 6143 } 6144 else 6145 { 6146 // Not ready to parse this variable yet. It might be a global 6147 // or static variable that is in a function scope and the function 6148 // in the symbol context wasn't filled in yet 6149 return var_sp; 6150 } 6151 } 6152 } 6153 // Cache var_sp even if NULL (the variable was just a specification or 6154 // was missing vital information to be able to be displayed in the debugger 6155 // (missing location due to optimization, etc)) so we don't re-parse 6156 // this DIE over and over later... 6157 m_die_to_variable_sp[die] = var_sp; 6158 } 6159 return var_sp; 6160 } 6161 6162 6163 const DWARFDebugInfoEntry * 6164 SymbolFileDWARF::FindBlockContainingSpecification (dw_offset_t func_die_offset, 6165 dw_offset_t spec_block_die_offset, 6166 DWARFCompileUnit **result_die_cu_handle) 6167 { 6168 // Give the concrete function die specified by "func_die_offset", find the 6169 // concrete block whose DW_AT_specification or DW_AT_abstract_origin points 6170 // to "spec_block_die_offset" 6171 DWARFDebugInfo* info = DebugInfo(); 6172 6173 const DWARFDebugInfoEntry *die = info->GetDIEPtrWithCompileUnitHint(func_die_offset, result_die_cu_handle); 6174 if (die) 6175 { 6176 assert (*result_die_cu_handle); 6177 return FindBlockContainingSpecification (*result_die_cu_handle, die, spec_block_die_offset, result_die_cu_handle); 6178 } 6179 return NULL; 6180 } 6181 6182 6183 const DWARFDebugInfoEntry * 6184 SymbolFileDWARF::FindBlockContainingSpecification(DWARFCompileUnit* dwarf_cu, 6185 const DWARFDebugInfoEntry *die, 6186 dw_offset_t spec_block_die_offset, 6187 DWARFCompileUnit **result_die_cu_handle) 6188 { 6189 if (die) 6190 { 6191 switch (die->Tag()) 6192 { 6193 case DW_TAG_subprogram: 6194 case DW_TAG_inlined_subroutine: 6195 case DW_TAG_lexical_block: 6196 { 6197 if (die->GetAttributeValueAsReference (this, dwarf_cu, DW_AT_specification, DW_INVALID_OFFSET) == spec_block_die_offset) 6198 { 6199 *result_die_cu_handle = dwarf_cu; 6200 return die; 6201 } 6202 6203 if (die->GetAttributeValueAsReference (this, dwarf_cu, DW_AT_abstract_origin, DW_INVALID_OFFSET) == spec_block_die_offset) 6204 { 6205 *result_die_cu_handle = dwarf_cu; 6206 return die; 6207 } 6208 } 6209 break; 6210 } 6211 6212 // Give the concrete function die specified by "func_die_offset", find the 6213 // concrete block whose DW_AT_specification or DW_AT_abstract_origin points 6214 // to "spec_block_die_offset" 6215 for (const DWARFDebugInfoEntry *child_die = die->GetFirstChild(); child_die != NULL; child_die = child_die->GetSibling()) 6216 { 6217 const DWARFDebugInfoEntry *result_die = FindBlockContainingSpecification (dwarf_cu, 6218 child_die, 6219 spec_block_die_offset, 6220 result_die_cu_handle); 6221 if (result_die) 6222 return result_die; 6223 } 6224 } 6225 6226 *result_die_cu_handle = NULL; 6227 return NULL; 6228 } 6229 6230 size_t 6231 SymbolFileDWARF::ParseVariables 6232 ( 6233 const SymbolContext& sc, 6234 DWARFCompileUnit* dwarf_cu, 6235 const lldb::addr_t func_low_pc, 6236 const DWARFDebugInfoEntry *orig_die, 6237 bool parse_siblings, 6238 bool parse_children, 6239 VariableList* cc_variable_list 6240 ) 6241 { 6242 if (orig_die == NULL) 6243 return 0; 6244 6245 VariableListSP variable_list_sp; 6246 6247 size_t vars_added = 0; 6248 const DWARFDebugInfoEntry *die = orig_die; 6249 while (die != NULL) 6250 { 6251 dw_tag_t tag = die->Tag(); 6252 6253 // Check to see if we have already parsed this variable or constant? 6254 if (m_die_to_variable_sp[die]) 6255 { 6256 if (cc_variable_list) 6257 cc_variable_list->AddVariableIfUnique (m_die_to_variable_sp[die]); 6258 } 6259 else 6260 { 6261 // We haven't already parsed it, lets do that now. 6262 if ((tag == DW_TAG_variable) || 6263 (tag == DW_TAG_constant) || 6264 (tag == DW_TAG_formal_parameter && sc.function)) 6265 { 6266 if (variable_list_sp.get() == NULL) 6267 { 6268 const DWARFDebugInfoEntry *sc_parent_die = GetParentSymbolContextDIE(orig_die); 6269 dw_tag_t parent_tag = sc_parent_die ? sc_parent_die->Tag() : 0; 6270 switch (parent_tag) 6271 { 6272 case DW_TAG_compile_unit: 6273 if (sc.comp_unit != NULL) 6274 { 6275 variable_list_sp = sc.comp_unit->GetVariableList(false); 6276 if (variable_list_sp.get() == NULL) 6277 { 6278 variable_list_sp.reset(new VariableList()); 6279 sc.comp_unit->SetVariableList(variable_list_sp); 6280 } 6281 } 6282 else 6283 { 6284 GetObjectFile()->GetModule()->ReportError ("parent 0x%8.8llx %s with no valid compile unit in symbol context for 0x%8.8llx %s.\n", 6285 MakeUserID(sc_parent_die->GetOffset()), 6286 DW_TAG_value_to_name (parent_tag), 6287 MakeUserID(orig_die->GetOffset()), 6288 DW_TAG_value_to_name (orig_die->Tag())); 6289 } 6290 break; 6291 6292 case DW_TAG_subprogram: 6293 case DW_TAG_inlined_subroutine: 6294 case DW_TAG_lexical_block: 6295 if (sc.function != NULL) 6296 { 6297 // Check to see if we already have parsed the variables for the given scope 6298 6299 Block *block = sc.function->GetBlock(true).FindBlockByID(MakeUserID(sc_parent_die->GetOffset())); 6300 if (block == NULL) 6301 { 6302 // This must be a specification or abstract origin with 6303 // a concrete block couterpart in the current function. We need 6304 // to find the concrete block so we can correctly add the 6305 // variable to it 6306 DWARFCompileUnit *concrete_block_die_cu = dwarf_cu; 6307 const DWARFDebugInfoEntry *concrete_block_die = FindBlockContainingSpecification (sc.function->GetID(), 6308 sc_parent_die->GetOffset(), 6309 &concrete_block_die_cu); 6310 if (concrete_block_die) 6311 block = sc.function->GetBlock(true).FindBlockByID(MakeUserID(concrete_block_die->GetOffset())); 6312 } 6313 6314 if (block != NULL) 6315 { 6316 const bool can_create = false; 6317 variable_list_sp = block->GetBlockVariableList (can_create); 6318 if (variable_list_sp.get() == NULL) 6319 { 6320 variable_list_sp.reset(new VariableList()); 6321 block->SetVariableList(variable_list_sp); 6322 } 6323 } 6324 } 6325 break; 6326 6327 default: 6328 GetObjectFile()->GetModule()->ReportError ("didn't find appropriate parent DIE for variable list for 0x%8.8llx %s.\n", 6329 MakeUserID(orig_die->GetOffset()), 6330 DW_TAG_value_to_name (orig_die->Tag())); 6331 break; 6332 } 6333 } 6334 6335 if (variable_list_sp) 6336 { 6337 VariableSP var_sp (ParseVariableDIE(sc, dwarf_cu, die, func_low_pc)); 6338 if (var_sp) 6339 { 6340 variable_list_sp->AddVariableIfUnique (var_sp); 6341 if (cc_variable_list) 6342 cc_variable_list->AddVariableIfUnique (var_sp); 6343 ++vars_added; 6344 } 6345 } 6346 } 6347 } 6348 6349 bool skip_children = (sc.function == NULL && tag == DW_TAG_subprogram); 6350 6351 if (!skip_children && parse_children && die->HasChildren()) 6352 { 6353 vars_added += ParseVariables(sc, dwarf_cu, func_low_pc, die->GetFirstChild(), true, true, cc_variable_list); 6354 } 6355 6356 if (parse_siblings) 6357 die = die->GetSibling(); 6358 else 6359 die = NULL; 6360 } 6361 return vars_added; 6362 } 6363 6364 //------------------------------------------------------------------ 6365 // PluginInterface protocol 6366 //------------------------------------------------------------------ 6367 const char * 6368 SymbolFileDWARF::GetPluginName() 6369 { 6370 return "SymbolFileDWARF"; 6371 } 6372 6373 const char * 6374 SymbolFileDWARF::GetShortPluginName() 6375 { 6376 return GetPluginNameStatic(); 6377 } 6378 6379 uint32_t 6380 SymbolFileDWARF::GetPluginVersion() 6381 { 6382 return 1; 6383 } 6384 6385 void 6386 SymbolFileDWARF::CompleteTagDecl (void *baton, clang::TagDecl *decl) 6387 { 6388 SymbolFileDWARF *symbol_file_dwarf = (SymbolFileDWARF *)baton; 6389 clang_type_t clang_type = symbol_file_dwarf->GetClangASTContext().GetTypeForDecl (decl); 6390 if (clang_type) 6391 symbol_file_dwarf->ResolveClangOpaqueTypeDefinition (clang_type); 6392 } 6393 6394 void 6395 SymbolFileDWARF::CompleteObjCInterfaceDecl (void *baton, clang::ObjCInterfaceDecl *decl) 6396 { 6397 SymbolFileDWARF *symbol_file_dwarf = (SymbolFileDWARF *)baton; 6398 clang_type_t clang_type = symbol_file_dwarf->GetClangASTContext().GetTypeForDecl (decl); 6399 if (clang_type) 6400 symbol_file_dwarf->ResolveClangOpaqueTypeDefinition (clang_type); 6401 } 6402 6403 void 6404 SymbolFileDWARF::DumpIndexes () 6405 { 6406 StreamFile s(stdout, false); 6407 6408 s.Printf ("DWARF index for (%s) '%s/%s':", 6409 GetObjectFile()->GetModule()->GetArchitecture().GetArchitectureName(), 6410 GetObjectFile()->GetFileSpec().GetDirectory().AsCString(), 6411 GetObjectFile()->GetFileSpec().GetFilename().AsCString()); 6412 s.Printf("\nFunction basenames:\n"); m_function_basename_index.Dump (&s); 6413 s.Printf("\nFunction fullnames:\n"); m_function_fullname_index.Dump (&s); 6414 s.Printf("\nFunction methods:\n"); m_function_method_index.Dump (&s); 6415 s.Printf("\nFunction selectors:\n"); m_function_selector_index.Dump (&s); 6416 s.Printf("\nObjective C class selectors:\n"); m_objc_class_selectors_index.Dump (&s); 6417 s.Printf("\nGlobals and statics:\n"); m_global_index.Dump (&s); 6418 s.Printf("\nTypes:\n"); m_type_index.Dump (&s); 6419 s.Printf("\nNamepaces:\n"); m_namespace_index.Dump (&s); 6420 } 6421 6422 void 6423 SymbolFileDWARF::SearchDeclContext (const clang::DeclContext *decl_context, 6424 const char *name, 6425 llvm::SmallVectorImpl <clang::NamedDecl *> *results) 6426 { 6427 DeclContextToDIEMap::iterator iter = m_decl_ctx_to_die.find(decl_context); 6428 6429 if (iter == m_decl_ctx_to_die.end()) 6430 return; 6431 6432 for (DIEPointerSet::iterator pos = iter->second.begin(), end = iter->second.end(); pos != end; ++pos) 6433 { 6434 const DWARFDebugInfoEntry *context_die = *pos; 6435 6436 if (!results) 6437 return; 6438 6439 DWARFDebugInfo* info = DebugInfo(); 6440 6441 DIEArray die_offsets; 6442 6443 DWARFCompileUnit* dwarf_cu = NULL; 6444 const DWARFDebugInfoEntry* die = NULL; 6445 6446 if (m_using_apple_tables) 6447 { 6448 if (m_apple_types_ap.get()) 6449 m_apple_types_ap->FindByName (name, die_offsets); 6450 } 6451 else 6452 { 6453 if (!m_indexed) 6454 Index (); 6455 6456 m_type_index.Find (ConstString(name), die_offsets); 6457 } 6458 6459 const size_t num_matches = die_offsets.size(); 6460 6461 if (num_matches) 6462 { 6463 for (size_t i = 0; i < num_matches; ++i) 6464 { 6465 const dw_offset_t die_offset = die_offsets[i]; 6466 die = info->GetDIEPtrWithCompileUnitHint (die_offset, &dwarf_cu); 6467 6468 if (die->GetParent() != context_die) 6469 continue; 6470 6471 Type *matching_type = ResolveType (dwarf_cu, die); 6472 6473 lldb::clang_type_t type = matching_type->GetClangForwardType(); 6474 clang::QualType qual_type = clang::QualType::getFromOpaquePtr(type); 6475 6476 if (const clang::TagType *tag_type = llvm::dyn_cast<clang::TagType>(qual_type.getTypePtr())) 6477 { 6478 clang::TagDecl *tag_decl = tag_type->getDecl(); 6479 results->push_back(tag_decl); 6480 } 6481 else if (const clang::TypedefType *typedef_type = llvm::dyn_cast<clang::TypedefType>(qual_type.getTypePtr())) 6482 { 6483 clang::TypedefNameDecl *typedef_decl = typedef_type->getDecl(); 6484 results->push_back(typedef_decl); 6485 } 6486 } 6487 } 6488 } 6489 } 6490 6491 void 6492 SymbolFileDWARF::FindExternalVisibleDeclsByName (void *baton, 6493 const clang::DeclContext *decl_context, 6494 clang::DeclarationName decl_name, 6495 llvm::SmallVectorImpl <clang::NamedDecl *> *results) 6496 { 6497 6498 switch (decl_context->getDeclKind()) 6499 { 6500 case clang::Decl::Namespace: 6501 case clang::Decl::TranslationUnit: 6502 { 6503 SymbolFileDWARF *symbol_file_dwarf = (SymbolFileDWARF *)baton; 6504 symbol_file_dwarf->SearchDeclContext (decl_context, decl_name.getAsString().c_str(), results); 6505 } 6506 break; 6507 default: 6508 break; 6509 } 6510 } 6511 6512 bool 6513 SymbolFileDWARF::LayoutRecordType (void *baton, 6514 const clang::RecordDecl *record_decl, 6515 uint64_t &size, 6516 uint64_t &alignment, 6517 llvm::DenseMap <const clang::FieldDecl *, uint64_t> &field_offsets, 6518 llvm::DenseMap <const clang::CXXRecordDecl *, clang::CharUnits> &base_offsets, 6519 llvm::DenseMap <const clang::CXXRecordDecl *, clang::CharUnits> &vbase_offsets) 6520 { 6521 SymbolFileDWARF *symbol_file_dwarf = (SymbolFileDWARF *)baton; 6522 return symbol_file_dwarf->LayoutRecordType (record_decl, size, alignment, field_offsets, base_offsets, vbase_offsets); 6523 } 6524 6525 6526 bool 6527 SymbolFileDWARF::LayoutRecordType (const clang::RecordDecl *record_decl, 6528 uint64_t &bit_size, 6529 uint64_t &alignment, 6530 llvm::DenseMap <const clang::FieldDecl *, uint64_t> &field_offsets, 6531 llvm::DenseMap <const clang::CXXRecordDecl *, clang::CharUnits> &base_offsets, 6532 llvm::DenseMap <const clang::CXXRecordDecl *, clang::CharUnits> &vbase_offsets) 6533 { 6534 LogSP log (LogChannelDWARF::GetLogIfAll(DWARF_LOG_DEBUG_INFO)); 6535 RecordDeclToLayoutMap::iterator pos = m_record_decl_to_layout_map.find (record_decl); 6536 bool success = false; 6537 base_offsets.clear(); 6538 vbase_offsets.clear(); 6539 if (pos != m_record_decl_to_layout_map.end()) 6540 { 6541 bit_size = pos->second.bit_size; 6542 alignment = pos->second.alignment; 6543 field_offsets.swap(pos->second.field_offsets); 6544 m_record_decl_to_layout_map.erase(pos); 6545 success = true; 6546 } 6547 else 6548 { 6549 bit_size = 0; 6550 alignment = 0; 6551 field_offsets.clear(); 6552 } 6553 6554 if (log) 6555 GetObjectFile()->GetModule()->LogMessage (log.get(), 6556 "SymbolFileDWARF::LayoutRecordType (record_decl = %p, bit_size = %llu, alignment = %llu, field_offsets[%u],base_offsets[%u], vbase_offsets[%u]) success = %i", 6557 record_decl, 6558 bit_size, 6559 alignment, 6560 (uint32_t)field_offsets.size(), 6561 (uint32_t)base_offsets.size(), 6562 (uint32_t)vbase_offsets.size(), 6563 success); 6564 return success; 6565 } 6566 6567 6568 6569