xref: /freebsd/contrib/llvm-project/lldb/include/lldb/Symbol/SymbolFile.h (revision 9bc300465e48e19d794d88d0c158a2adb92c7197)
1 //===-- SymbolFile.h --------------------------------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #ifndef LLDB_SYMBOL_SYMBOLFILE_H
10 #define LLDB_SYMBOL_SYMBOLFILE_H
11 
12 #include "lldb/Core/Module.h"
13 #include "lldb/Core/ModuleList.h"
14 #include "lldb/Core/PluginInterface.h"
15 #include "lldb/Core/SourceLocationSpec.h"
16 #include "lldb/Symbol/CompilerDecl.h"
17 #include "lldb/Symbol/CompilerDeclContext.h"
18 #include "lldb/Symbol/CompilerType.h"
19 #include "lldb/Symbol/Function.h"
20 #include "lldb/Symbol/SourceModule.h"
21 #include "lldb/Symbol/Type.h"
22 #include "lldb/Symbol/TypeList.h"
23 #include "lldb/Symbol/TypeSystem.h"
24 #include "lldb/Target/Statistics.h"
25 #include "lldb/Utility/StructuredData.h"
26 #include "lldb/Utility/XcodeSDK.h"
27 #include "lldb/lldb-private.h"
28 #include "llvm/ADT/DenseSet.h"
29 #include "llvm/ADT/SmallSet.h"
30 #include "llvm/Support/Errc.h"
31 
32 #include <mutex>
33 #include <optional>
34 #include <unordered_map>
35 
36 #if defined(LLDB_CONFIGURATION_DEBUG)
37 #define ASSERT_MODULE_LOCK(expr) (expr->AssertModuleLock())
38 #else
39 #define ASSERT_MODULE_LOCK(expr) ((void)0)
40 #endif
41 
42 namespace lldb_private {
43 
44 /// Provides public interface for all SymbolFiles. Any protected
45 /// virtual members should go into SymbolFileCommon; most SymbolFile
46 /// implementations should inherit from SymbolFileCommon to override
47 /// the behaviors except SymbolFileOnDemand which inherits
48 /// public interfaces from SymbolFile and forward to underlying concrete
49 /// SymbolFile implementation.
50 class SymbolFile : public PluginInterface {
51   /// LLVM RTTI support.
52   static char ID;
53 
54 public:
55   /// LLVM RTTI support.
56   /// \{
57   virtual bool isA(const void *ClassID) const { return ClassID == &ID; }
58   static bool classof(const SymbolFile *obj) { return obj->isA(&ID); }
59   /// \}
60 
61   // Symbol file ability bits.
62   //
63   // Each symbol file can claim to support one or more symbol file abilities.
64   // These get returned from SymbolFile::GetAbilities(). These help us to
65   // determine which plug-in will be best to load the debug information found
66   // in files.
67   enum Abilities {
68     CompileUnits = (1u << 0),
69     LineTables = (1u << 1),
70     Functions = (1u << 2),
71     Blocks = (1u << 3),
72     GlobalVariables = (1u << 4),
73     LocalVariables = (1u << 5),
74     VariableTypes = (1u << 6),
75     kAllAbilities = ((1u << 7) - 1u)
76   };
77 
78   static SymbolFile *FindPlugin(lldb::ObjectFileSP objfile_sp);
79 
80   // Constructors and Destructors
81   SymbolFile() = default;
82 
83   ~SymbolFile() override = default;
84 
85   /// SymbolFileOnDemand class overrides this to return the underlying
86   /// backing SymbolFile implementation that loads on-demand.
87   virtual SymbolFile *GetBackingSymbolFile() { return this; }
88 
89   /// Get a mask of what this symbol file supports for the object file
90   /// that it was constructed with.
91   ///
92   /// Each symbol file gets to respond with a mask of abilities that
93   /// it supports for each object file. This happens when we are
94   /// trying to figure out which symbol file plug-in will get used
95   /// for a given object file. The plug-in that responds with the
96   /// best mix of "SymbolFile::Abilities" bits set, will get chosen to
97   /// be the symbol file parser. This allows each plug-in to check for
98   /// sections that contain data a symbol file plug-in would need. For
99   /// example the DWARF plug-in requires DWARF sections in a file that
100   /// contain debug information. If the DWARF plug-in doesn't find
101   /// these sections, it won't respond with many ability bits set, and
102   /// we will probably fall back to the symbol table SymbolFile plug-in
103   /// which uses any information in the symbol table. Also, plug-ins
104   /// might check for some specific symbols in a symbol table in the
105   /// case where the symbol table contains debug information (STABS
106   /// and COFF). Not a lot of work should happen in these functions
107   /// as the plug-in might not get selected due to another plug-in
108   /// having more abilities. Any initialization work should be saved
109   /// for "void SymbolFile::InitializeObject()" which will get called
110   /// on the SymbolFile object with the best set of abilities.
111   ///
112   /// \return
113   ///     A uint32_t mask containing bits from the SymbolFile::Abilities
114   ///     enumeration. Any bits that are set represent an ability that
115   ///     this symbol plug-in can parse from the object file.
116   virtual uint32_t GetAbilities() = 0;
117   virtual uint32_t CalculateAbilities() = 0;
118 
119   /// Symbols file subclasses should override this to return the Module that
120   /// owns the TypeSystem that this symbol file modifies type information in.
121   virtual std::recursive_mutex &GetModuleMutex() const;
122 
123   /// Initialize the SymbolFile object.
124   ///
125   /// The SymbolFile object with the best set of abilities (detected
126   /// in "uint32_t SymbolFile::GetAbilities()) will have this function
127   /// called if it is chosen to parse an object file. More complete
128   /// initialization can happen in this function which will get called
129   /// prior to any other functions in the SymbolFile protocol.
130   virtual void InitializeObject() {}
131 
132   /// Whether debug info will be loaded or not.
133   ///
134   /// It will be true for most implementations except SymbolFileOnDemand.
135   virtual bool GetLoadDebugInfoEnabled() { return true; }
136 
137   /// Specify debug info should be loaded.
138   ///
139   /// It will be no-op for most implementations except SymbolFileOnDemand.
140   virtual void SetLoadDebugInfoEnabled() {}
141 
142   // Compile Unit function calls
143   // Approach 1 - iterator
144   virtual uint32_t GetNumCompileUnits() = 0;
145   virtual lldb::CompUnitSP GetCompileUnitAtIndex(uint32_t idx) = 0;
146 
147   virtual Symtab *GetSymtab() = 0;
148 
149   virtual lldb::LanguageType ParseLanguage(CompileUnit &comp_unit) = 0;
150   /// Return the Xcode SDK comp_unit was compiled against.
151   virtual XcodeSDK ParseXcodeSDK(CompileUnit &comp_unit) { return {}; }
152 
153   /// This function exists because SymbolFileDWARFDebugMap may extra compile
154   /// units which aren't exposed as "real" compile units. In every other
155   /// case this function should behave identically as ParseLanguage.
156   virtual llvm::SmallSet<lldb::LanguageType, 4>
157   ParseAllLanguages(CompileUnit &comp_unit) {
158     llvm::SmallSet<lldb::LanguageType, 4> langs;
159     langs.insert(ParseLanguage(comp_unit));
160     return langs;
161   }
162 
163   virtual size_t ParseFunctions(CompileUnit &comp_unit) = 0;
164   virtual bool ParseLineTable(CompileUnit &comp_unit) = 0;
165   virtual bool ParseDebugMacros(CompileUnit &comp_unit) = 0;
166 
167   /// Apply a lambda to each external lldb::Module referenced by this
168   /// \p comp_unit. Recursively also descends into the referenced external
169   /// modules of any encountered compilation unit.
170   ///
171   /// This function can be used to traverse Clang -gmodules debug
172   /// information, which is stored in DWARF files separate from the
173   /// object files.
174   ///
175   /// \param comp_unit
176   ///     When this SymbolFile consists of multiple auxilliary
177   ///     SymbolFiles, for example, a Darwin debug map that references
178   ///     multiple .o files, comp_unit helps choose the auxilliary
179   ///     file. In most other cases comp_unit's symbol file is
180   ///     identical with *this.
181   ///
182   /// \param[in] lambda
183   ///     The lambda that should be applied to every function. The lambda can
184   ///     return true if the iteration should be aborted earlier.
185   ///
186   /// \param visited_symbol_files
187   ///     A set of SymbolFiles that were already visited to avoid
188   ///     visiting one file more than once.
189   ///
190   /// \return
191   ///     If the lambda early-exited, this function returns true to
192   ///     propagate the early exit.
193   virtual bool ForEachExternalModule(
194       lldb_private::CompileUnit &comp_unit,
195       llvm::DenseSet<lldb_private::SymbolFile *> &visited_symbol_files,
196       llvm::function_ref<bool(Module &)> lambda) {
197     return false;
198   }
199   virtual bool ParseSupportFiles(CompileUnit &comp_unit,
200                                  SupportFileList &support_files) = 0;
201   virtual size_t ParseTypes(CompileUnit &comp_unit) = 0;
202   virtual bool ParseIsOptimized(CompileUnit &comp_unit) { return false; }
203 
204   virtual bool
205   ParseImportedModules(const SymbolContext &sc,
206                        std::vector<SourceModule> &imported_modules) = 0;
207   virtual size_t ParseBlocksRecursive(Function &func) = 0;
208   virtual size_t ParseVariablesForContext(const SymbolContext &sc) = 0;
209   virtual Type *ResolveTypeUID(lldb::user_id_t type_uid) = 0;
210 
211   /// The characteristics of an array type.
212   struct ArrayInfo {
213     int64_t first_index = 0;
214     llvm::SmallVector<uint64_t, 1> element_orders;
215     uint32_t byte_stride = 0;
216     uint32_t bit_stride = 0;
217   };
218   /// If \c type_uid points to an array type, return its characteristics.
219   /// To support variable-length array types, this function takes an
220   /// optional \p ExecutionContext. If \c exe_ctx is non-null, the
221   /// dynamic characteristics for that context are returned.
222   virtual std::optional<ArrayInfo>
223   GetDynamicArrayInfoForUID(lldb::user_id_t type_uid,
224                             const lldb_private::ExecutionContext *exe_ctx) = 0;
225 
226   virtual bool CompleteType(CompilerType &compiler_type) = 0;
227   virtual void ParseDeclsForContext(CompilerDeclContext decl_ctx) {}
228   virtual CompilerDecl GetDeclForUID(lldb::user_id_t uid) { return {}; }
229   virtual CompilerDeclContext GetDeclContextForUID(lldb::user_id_t uid) {
230     return {};
231   }
232   virtual CompilerDeclContext GetDeclContextContainingUID(lldb::user_id_t uid) {
233     return {};
234   }
235   virtual std::vector<CompilerContext>
236   GetCompilerContextForUID(lldb::user_id_t uid) {
237     return {};
238   }
239   virtual uint32_t ResolveSymbolContext(const Address &so_addr,
240                                         lldb::SymbolContextItem resolve_scope,
241                                         SymbolContext &sc) = 0;
242 
243   /// Get an error that describes why variables might be missing for a given
244   /// symbol context.
245   ///
246   /// If there is an error in the debug information that prevents variables from
247   /// being fetched, this error will get filled in. If there is no debug
248   /// informaiton, no error should be returned. But if there is debug
249   /// information and something prevents the variables from being available a
250   /// valid error should be returned. Valid cases include:
251   /// - compiler option that removes variables (-gline-tables-only)
252   /// - missing external files
253   ///   - .dwo files in fission are not accessible or missing
254   ///   - .o files on darwin when not using dSYM files that are not accessible
255   ///     or missing
256   /// - mismatched exteral files
257   ///   - .dwo files in fission where the DWO ID doesn't match
258   ///   - .o files on darwin when modification timestamp doesn't match
259   /// - corrupted debug info
260   ///
261   /// \param[in] frame
262   ///   The stack frame to use as a basis for the context to check. The frame
263   ///   address can be used if there is not debug info due to it not being able
264   ///   to be loaded, or if there is a debug info context, like a compile unit,
265   ///   or function, it can be used to track down more information on why
266   ///   variables are missing.
267   ///
268   /// \returns
269   ///   An error specifying why there should have been debug info with variable
270   ///   information but the variables were not able to be resolved.
271   Status GetFrameVariableError(StackFrame &frame) {
272     Status err = CalculateFrameVariableError(frame);
273     if (err.Fail())
274       SetDebugInfoHadFrameVariableErrors();
275     return err;
276   }
277 
278   /// Subclasses will override this function to for GetFrameVariableError().
279   ///
280   /// This allows GetFrameVariableError() to set the member variable
281   /// m_debug_info_had_variable_errors correctly without users having to do it
282   /// manually which is error prone.
283   virtual Status CalculateFrameVariableError(StackFrame &frame) {
284     return Status();
285   }
286   virtual uint32_t
287   ResolveSymbolContext(const SourceLocationSpec &src_location_spec,
288                        lldb::SymbolContextItem resolve_scope,
289                        SymbolContextList &sc_list);
290 
291   virtual void DumpClangAST(Stream &s) {}
292   virtual void FindGlobalVariables(ConstString name,
293                                    const CompilerDeclContext &parent_decl_ctx,
294                                    uint32_t max_matches,
295                                    VariableList &variables);
296   virtual void FindGlobalVariables(const RegularExpression &regex,
297                                    uint32_t max_matches,
298                                    VariableList &variables);
299   virtual void FindFunctions(const Module::LookupInfo &lookup_info,
300                              const CompilerDeclContext &parent_decl_ctx,
301                              bool include_inlines, SymbolContextList &sc_list);
302   virtual void FindFunctions(const RegularExpression &regex,
303                              bool include_inlines, SymbolContextList &sc_list);
304 
305   /// Find types using a type-matching object that contains all search
306   /// parameters.
307   ///
308   /// \see lldb_private::TypeQuery
309   ///
310   /// \param[in] query
311   ///     A type matching object that contains all of the details of the type
312   ///     search.
313   ///
314   /// \param[in] results
315   ///     Any matching types will be populated into the \a results object using
316   ///     TypeMap::InsertUnique(...).
317   virtual void FindTypes(const TypeQuery &query, TypeResults &results) {}
318 
319   virtual void
320   GetMangledNamesForFunction(const std::string &scope_qualified_name,
321                              std::vector<ConstString> &mangled_names);
322 
323   virtual void GetTypes(lldb_private::SymbolContextScope *sc_scope,
324                         lldb::TypeClass type_mask,
325                         lldb_private::TypeList &type_list) = 0;
326 
327   virtual void PreloadSymbols();
328 
329   virtual llvm::Expected<lldb::TypeSystemSP>
330   GetTypeSystemForLanguage(lldb::LanguageType language) = 0;
331 
332   /// Finds a namespace of name \ref name and whose parent
333   /// context is \ref parent_decl_ctx.
334   ///
335   /// If \code{.cpp} !parent_decl_ctx.IsValid() \endcode
336   /// then this function will consider all namespaces that
337   /// match the name. If \ref only_root_namespaces is
338   /// true, only consider in the search those DIEs that
339   /// represent top-level namespaces.
340   virtual CompilerDeclContext
341   FindNamespace(ConstString name, const CompilerDeclContext &parent_decl_ctx,
342                 bool only_root_namespaces = false) {
343     return CompilerDeclContext();
344   }
345 
346   virtual ObjectFile *GetObjectFile() = 0;
347   virtual const ObjectFile *GetObjectFile() const = 0;
348   virtual ObjectFile *GetMainObjectFile() = 0;
349 
350   virtual std::vector<std::unique_ptr<CallEdge>>
351   ParseCallEdgesInFunction(UserID func_id) {
352     return {};
353   }
354 
355   virtual void AddSymbols(Symtab &symtab) {}
356 
357   /// Notify the SymbolFile that the file addresses in the Sections
358   /// for this module have been changed.
359   virtual void SectionFileAddressesChanged() = 0;
360 
361   struct RegisterInfoResolver {
362     virtual ~RegisterInfoResolver(); // anchor
363 
364     virtual const RegisterInfo *ResolveName(llvm::StringRef name) const = 0;
365     virtual const RegisterInfo *ResolveNumber(lldb::RegisterKind kind,
366                                               uint32_t number) const = 0;
367   };
368   virtual lldb::UnwindPlanSP
369   GetUnwindPlan(const Address &address, const RegisterInfoResolver &resolver) {
370     return nullptr;
371   }
372 
373   /// Return the number of stack bytes taken up by the parameters to this
374   /// function.
375   virtual llvm::Expected<lldb::addr_t> GetParameterStackSize(Symbol &symbol) {
376     return llvm::createStringError(make_error_code(llvm::errc::not_supported),
377                                    "Operation not supported.");
378   }
379 
380   virtual void Dump(Stream &s) = 0;
381 
382   /// Metrics gathering functions
383 
384   /// Return the size in bytes of all debug information in the symbol file.
385   ///
386   /// If the debug information is contained in sections of an ObjectFile, then
387   /// this call should add the size of all sections that contain debug
388   /// information. Symbols the symbol tables are not considered debug
389   /// information for this call to make it easy and quick for this number to be
390   /// calculated. If the symbol file is all debug information, the size of the
391   /// entire file should be returned. The default implementation of this
392   /// function will iterate over all sections in a module and add up their
393   /// debug info only section byte sizes.
394   virtual uint64_t GetDebugInfoSize() = 0;
395 
396   /// Return the time taken to parse the debug information.
397   ///
398   /// \returns 0.0 if no information has been parsed or if there is
399   /// no computational cost to parsing the debug information.
400   virtual StatsDuration::Duration GetDebugInfoParseTime() { return {}; }
401 
402   /// Return the time it took to index the debug information in the object
403   /// file.
404   ///
405   /// \returns 0.0 if the file doesn't need to be indexed or if it
406   /// hasn't been indexed yet, or a valid duration if it has.
407   virtual StatsDuration::Duration GetDebugInfoIndexTime() { return {}; }
408 
409   /// Get the additional modules that this symbol file uses to parse debug info.
410   ///
411   /// Some debug info is stored in stand alone object files that are represented
412   /// by unique modules that will show up in the statistics module list. Return
413   /// a list of modules that are not in the target module list that this symbol
414   /// file is currently using so that they can be tracked and assoicated with
415   /// the module in the statistics.
416   virtual ModuleList GetDebugInfoModules() { return ModuleList(); }
417 
418   /// Accessors for the bool that indicates if the debug info index was loaded
419   /// from, or saved to the module index cache.
420   ///
421   /// In statistics it is handy to know if a module's debug info was loaded from
422   /// or saved to the cache. When the debug info index is loaded from the cache
423   /// startup times can be faster. When the cache is enabled and the debug info
424   /// index is saved to the cache, debug sessions can be slower. These accessors
425   /// can be accessed by the statistics and emitted to help track these costs.
426   /// \{
427   virtual bool GetDebugInfoIndexWasLoadedFromCache() const = 0;
428   virtual void SetDebugInfoIndexWasLoadedFromCache() = 0;
429   virtual bool GetDebugInfoIndexWasSavedToCache() const = 0;
430   virtual void SetDebugInfoIndexWasSavedToCache() = 0;
431   /// \}
432 
433   /// Accessors for the bool that indicates if there was debug info, but errors
434   /// stopped variables from being able to be displayed correctly. See
435   /// GetFrameVariableError() for details on what are considered errors.
436   virtual bool GetDebugInfoHadFrameVariableErrors() const = 0;
437   virtual void SetDebugInfoHadFrameVariableErrors() = 0;
438 
439   /// Return true if separate debug info files are supported and this function
440   /// succeeded, false otherwise.
441   ///
442   /// \param[out] d
443   ///     If this function succeeded, then this will be a dictionary that
444   ///     contains the keys "type", "symfile", and "separate-debug-info-files".
445   ///     "type" can be used to assume the structure of each object in
446   ///     "separate-debug-info-files".
447   /// \param errors_only
448   ///     If true, then only return separate debug info files that encountered
449   ///     errors during loading. If false, then return all expected separate
450   ///     debug info files, regardless of whether they were successfully loaded.
451   virtual bool GetSeparateDebugInfo(StructuredData::Dictionary &d,
452                                     bool errors_only) {
453     return false;
454   };
455 
456   virtual lldb::TypeSP
457   MakeType(lldb::user_id_t uid, ConstString name,
458            std::optional<uint64_t> byte_size, SymbolContextScope *context,
459            lldb::user_id_t encoding_uid,
460            Type::EncodingDataType encoding_uid_type, const Declaration &decl,
461            const CompilerType &compiler_qual_type,
462            Type::ResolveState compiler_type_resolve_state,
463            uint32_t opaque_payload = 0) = 0;
464 
465   virtual lldb::TypeSP CopyType(const lldb::TypeSP &other_type) = 0;
466 
467   /// Returns a map of compilation unit to the compile option arguments
468   /// associated with that compilation unit.
469   std::unordered_map<lldb::CompUnitSP, Args> GetCompileOptions() {
470     std::unordered_map<lldb::CompUnitSP, Args> args;
471     GetCompileOptions(args);
472     return args;
473   }
474 
475 protected:
476   void AssertModuleLock();
477 
478   virtual void GetCompileOptions(
479       std::unordered_map<lldb::CompUnitSP, lldb_private::Args> &args) {}
480 
481 private:
482   SymbolFile(const SymbolFile &) = delete;
483   const SymbolFile &operator=(const SymbolFile &) = delete;
484 };
485 
486 /// Containing protected virtual methods for child classes to override.
487 /// Most actual SymbolFile implementations should inherit from this class.
488 class SymbolFileCommon : public SymbolFile {
489   /// LLVM RTTI support.
490   static char ID;
491 
492 public:
493   /// LLVM RTTI support.
494   /// \{
495   bool isA(const void *ClassID) const override {
496     return ClassID == &ID || SymbolFile::isA(ClassID);
497   }
498   static bool classof(const SymbolFileCommon *obj) { return obj->isA(&ID); }
499   /// \}
500 
501   // Constructors and Destructors
502   SymbolFileCommon(lldb::ObjectFileSP objfile_sp)
503       : m_objfile_sp(std::move(objfile_sp)) {}
504 
505   ~SymbolFileCommon() override = default;
506 
507   uint32_t GetAbilities() override {
508     if (!m_calculated_abilities) {
509       m_abilities = CalculateAbilities();
510       m_calculated_abilities = true;
511     }
512     return m_abilities;
513   }
514 
515   Symtab *GetSymtab() override;
516 
517   ObjectFile *GetObjectFile() override { return m_objfile_sp.get(); }
518   const ObjectFile *GetObjectFile() const override {
519     return m_objfile_sp.get();
520   }
521   ObjectFile *GetMainObjectFile() override;
522 
523   /// Notify the SymbolFile that the file addresses in the Sections
524   /// for this module have been changed.
525   void SectionFileAddressesChanged() override;
526 
527   // Compile Unit function calls
528   // Approach 1 - iterator
529   uint32_t GetNumCompileUnits() override;
530   lldb::CompUnitSP GetCompileUnitAtIndex(uint32_t idx) override;
531 
532   llvm::Expected<lldb::TypeSystemSP>
533   GetTypeSystemForLanguage(lldb::LanguageType language) override;
534 
535   void Dump(Stream &s) override;
536 
537   uint64_t GetDebugInfoSize() override;
538 
539   bool GetDebugInfoIndexWasLoadedFromCache() const override {
540     return m_index_was_loaded_from_cache;
541   }
542   void SetDebugInfoIndexWasLoadedFromCache() override {
543     m_index_was_loaded_from_cache = true;
544   }
545   bool GetDebugInfoIndexWasSavedToCache() const override {
546     return m_index_was_saved_to_cache;
547   }
548   void SetDebugInfoIndexWasSavedToCache() override {
549     m_index_was_saved_to_cache = true;
550   }
551   bool GetDebugInfoHadFrameVariableErrors() const override {
552     return m_debug_info_had_variable_errors;
553   }
554   void SetDebugInfoHadFrameVariableErrors() override {
555      m_debug_info_had_variable_errors = true;
556   }
557 
558   /// This function is used to create types that belong to a SymbolFile. The
559   /// symbol file will own a strong reference to the type in an internal type
560   /// list.
561   lldb::TypeSP MakeType(lldb::user_id_t uid, ConstString name,
562                         std::optional<uint64_t> byte_size,
563                         SymbolContextScope *context,
564                         lldb::user_id_t encoding_uid,
565                         Type::EncodingDataType encoding_uid_type,
566                         const Declaration &decl,
567                         const CompilerType &compiler_qual_type,
568                         Type::ResolveState compiler_type_resolve_state,
569                         uint32_t opaque_payload = 0) override {
570      lldb::TypeSP type_sp (new Type(
571          uid, this, name, byte_size, context, encoding_uid,
572          encoding_uid_type, decl, compiler_qual_type,
573          compiler_type_resolve_state, opaque_payload));
574      m_type_list.Insert(type_sp);
575      return type_sp;
576   }
577 
578   lldb::TypeSP CopyType(const lldb::TypeSP &other_type) override {
579      // Make sure the real symbol file matches when copying types.
580      if (GetBackingSymbolFile() != other_type->GetSymbolFile())
581       return lldb::TypeSP();
582      lldb::TypeSP type_sp(new Type(*other_type));
583      m_type_list.Insert(type_sp);
584      return type_sp;
585   }
586 
587 protected:
588   virtual uint32_t CalculateNumCompileUnits() = 0;
589   virtual lldb::CompUnitSP ParseCompileUnitAtIndex(uint32_t idx) = 0;
590   virtual TypeList &GetTypeList() { return m_type_list; }
591   void SetCompileUnitAtIndex(uint32_t idx, const lldb::CompUnitSP &cu_sp);
592 
593   lldb::ObjectFileSP m_objfile_sp; // Keep a reference to the object file in
594                                    // case it isn't the same as the module
595                                    // object file (debug symbols in a separate
596                                    // file)
597   std::optional<std::vector<lldb::CompUnitSP>> m_compile_units;
598   TypeList m_type_list;
599   uint32_t m_abilities = 0;
600   bool m_calculated_abilities = false;
601   bool m_index_was_loaded_from_cache = false;
602   bool m_index_was_saved_to_cache = false;
603   /// Set to true if any variable feteching errors have been found when calling
604   /// GetFrameVariableError(). This will be emitted in the "statistics dump"
605   /// information for a module.
606   bool m_debug_info_had_variable_errors = false;
607 
608 private:
609   SymbolFileCommon(const SymbolFileCommon &) = delete;
610   const SymbolFileCommon &operator=(const SymbolFileCommon &) = delete;
611 
612   /// Do not use m_symtab directly, as it may be freed. Use GetSymtab()
613   /// to access it instead.
614   Symtab *m_symtab = nullptr;
615 };
616 
617 } // namespace lldb_private
618 
619 #endif // LLDB_SYMBOL_SYMBOLFILE_H
620