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1 //===-- SymbolContext.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_SYMBOLCONTEXT_H
10 #define LLDB_SYMBOL_SYMBOLCONTEXT_H
11 
12 #include <memory>
13 #include <string>
14 #include <vector>
15 
16 #include "lldb/Core/Address.h"
17 #include "lldb/Core/Mangled.h"
18 #include "lldb/Symbol/LineEntry.h"
19 #include "lldb/Utility/Iterable.h"
20 #include "lldb/lldb-private.h"
21 
22 namespace lldb_private {
23 
24 class SymbolContextScope;
25 
26 /// \class SymbolContext SymbolContext.h "lldb/Symbol/SymbolContext.h" Defines
27 /// a symbol context baton that can be handed other debug core functions.
28 ///
29 /// Many debugger functions require a context when doing lookups. This class
30 /// provides a common structure that can be used as the result of a query that
31 /// can contain a single result. Examples of such queries include
32 ///     \li Looking up a load address.
33 class SymbolContext {
34 public:
35   /// Default constructor.
36   ///
37   /// Initialize all pointer members to nullptr and all struct members to
38   /// their default state.
39   SymbolContext();
40 
41   /// Construct with an object that knows how to reconstruct its symbol
42   /// context.
43   ///
44   /// \param[in] sc_scope
45   ///     A symbol context scope object that knows how to reconstruct
46   ///     it's context.
47   explicit SymbolContext(SymbolContextScope *sc_scope);
48 
49   /// Construct with module, and optional compile unit, function, block, line
50   /// table, line entry and symbol.
51   ///
52   /// Initialize all pointer to the specified values.
53   ///
54   /// \param[in] module_sp
55   ///     A Module pointer to the module for this context.
56   ///
57   /// \param[in] comp_unit
58   ///     A CompileUnit pointer to the compile unit for this context.
59   ///
60   /// \param[in] function
61   ///     A Function pointer to the function for this context.
62   ///
63   /// \param[in] block
64   ///     A Block pointer to the deepest block for this context.
65   ///
66   /// \param[in] line_entry
67   ///     A LineEntry pointer to the line entry for this context.
68   ///
69   /// \param[in] symbol
70   ///     A Symbol pointer to the symbol for this context.
71   explicit SymbolContext(const lldb::TargetSP &target_sp,
72                          const lldb::ModuleSP &module_sp,
73                          CompileUnit *comp_unit = nullptr,
74                          Function *function = nullptr, Block *block = nullptr,
75                          LineEntry *line_entry = nullptr,
76                          Symbol *symbol = nullptr);
77 
78   // This version sets the target to a NULL TargetSP if you don't know it.
79   explicit SymbolContext(const lldb::ModuleSP &module_sp,
80                          CompileUnit *comp_unit = nullptr,
81                          Function *function = nullptr, Block *block = nullptr,
82                          LineEntry *line_entry = nullptr,
83                          Symbol *symbol = nullptr);
84 
85   ~SymbolContext();
86 
87   /// Clear the object's state.
88   ///
89   /// Resets all pointer members to nullptr, and clears any class objects to
90   /// their default state.
91   void Clear(bool clear_target);
92 
93   /// Dump a description of this object to a Stream.
94   ///
95   /// Dump a description of the contents of this object to the supplied stream
96   /// \a s.
97   ///
98   /// \param[in] s
99   ///     The stream to which to dump the object description.
100   void Dump(Stream *s, Target *target) const;
101 
102   /// Dump the stop context in this object to a Stream.
103   ///
104   /// Dump the best description of this object to the stream. The information
105   /// displayed depends on the amount and quality of the information in this
106   /// context. If a module, function, file and line number are available, they
107   /// will be dumped. If only a module and function or symbol name with offset
108   /// is available, that will be output. Else just the address at which the
109   /// target was stopped will be displayed.
110   ///
111   /// \param[in] s
112   ///     The stream to which to dump the object description.
113   ///
114   /// \param[in] so_addr
115   ///     The resolved section offset address.
116   ///
117   /// \param[in] show_fullpaths
118   ///     When printing file paths (with the Module), whether the
119   ///     base name of the Module should be printed or the full path.
120   ///
121   /// \param[in] show_module
122   ///     Whether the module name should be printed followed by a
123   ///     grave accent "`" character.
124   ///
125   /// \param[in] show_inlined_frames
126   ///     If a given pc is in inlined function(s), whether the inlined
127   ///     functions should be printed on separate lines in addition to
128   ///     the concrete function containing the pc.
129   ///
130   /// \param[in] show_function_arguments
131   ///     If false, this method will try to elide the function argument
132   ///     types when printing the function name.  This may be ambiguous
133   ///     for languages that have function overloading - but it may
134   ///     make the "function name" too long to include all the argument
135   ///     types.
136   ///
137   /// \param[in] show_function_name
138   ///     Normally this should be true - the function/symbol name should
139   ///     be printed.  In disassembly formatting, where we want a format
140   ///     like "<*+36>", this should be false and "*" will be printed
141   ///     instead.
142   ///
143   /// \param[in] show_inline_callsite_line_info
144   ///     When processing an inline block, the line info of the callsite
145   ///     is dumped if this flag is \b true, otherwise the line info
146   ///     of the actual inlined function is dumped.
147   ///
148   /// \return
149   ///     \b true if some text was dumped, \b false otherwise.
150   bool DumpStopContext(Stream *s, ExecutionContextScope *exe_scope,
151                        const Address &so_addr, bool show_fullpaths,
152                        bool show_module, bool show_inlined_frames,
153                        bool show_function_arguments, bool show_function_name,
154                        bool show_inline_callsite_line_info = true) const;
155 
156   /// Get the address range contained within a symbol context.
157   ///
158   /// Address range priority is as follows:
159   ///     - line_entry address range if line_entry is valid and
160   ///     eSymbolContextLineEntry is set in \a scope
161   ///     - block address range if block is not nullptr and eSymbolContextBlock
162   ///     is set in \a scope
163   ///     - function address range if function is not nullptr and
164   ///     eSymbolContextFunction is set in \a scope
165   ///     - symbol address range if symbol is not nullptr and
166   ///     eSymbolContextSymbol is set in \a scope
167   ///
168   /// \param[in] scope
169   ///     A mask of symbol context bits telling this function which
170   ///     address ranges it can use when trying to extract one from
171   ///     the valid (non-nullptr) symbol context classes.
172   ///
173   /// \param[in] range_idx
174   ///     The address range index to grab. Since many functions and
175   ///     blocks are not always contiguous, they may have more than
176   ///     one address range.
177   ///
178   /// \param[in] use_inline_block_range
179   ///     If \a scope has the eSymbolContextBlock bit set, and there
180   ///     is a valid block in the symbol context, return the block
181   ///     address range for the containing inline function block, not
182   ///     the deepest most block. This allows us to extract information
183   ///     for the address range of the inlined function block, not
184   ///     the deepest lexical block.
185   ///
186   /// \param[out] range
187   ///     An address range object that will be filled in if \b true
188   ///     is returned.
189   ///
190   /// \return
191   ///     \b True if this symbol context contains items that describe
192   ///     an address range, \b false otherwise.
193   bool GetAddressRange(uint32_t scope, uint32_t range_idx,
194                        bool use_inline_block_range, AddressRange &range) const;
195 
196   bool GetAddressRangeFromHereToEndLine(uint32_t end_line, AddressRange &range,
197                                         Status &error);
198 
199   /// Find the best global data symbol visible from this context.
200   ///
201   /// Symbol priority is:
202   ///     - extern symbol in the current module if there is one
203   ///     - non-extern symbol in the current module if there is one
204   ///     - extern symbol in the target
205   ///     - non-extern symbol in the target
206   /// It is an error if the highest-priority result is ambiguous.
207   ///
208   /// \param[in] name
209   ///     The name of the symbol to search for.
210   ///
211   /// \param[out] error
212   ///     An error that will be populated with a message if there was an
213   ///     ambiguous result.  The error will not be populated if no result
214   ///     was found.
215   ///
216   /// \return
217   ///     The symbol that was found, or \b nullptr if none was found.
218   const Symbol *FindBestGlobalDataSymbol(ConstString name, Status &error);
219 
220   void GetDescription(Stream *s, lldb::DescriptionLevel level,
221                       Target *target) const;
222 
223   uint32_t GetResolvedMask() const;
224 
225   lldb::LanguageType GetLanguage() const;
226 
227   /// Find a block that defines the function represented by this symbol
228   /// context.
229   ///
230   /// If this symbol context points to a block that is an inlined function, or
231   /// is contained within an inlined function, the block that defines the
232   /// inlined function is returned.
233   ///
234   /// If this symbol context has no block in it, or the block is not itself an
235   /// inlined function block or contained within one, we return the top level
236   /// function block.
237   ///
238   /// This is a handy function to call when you want to get the block whose
239   /// variable list will include the arguments for the function that is
240   /// represented by this symbol context (whether the function is an inline
241   /// function or not).
242   ///
243   /// \return
244   ///     The block object pointer that defines the function that is
245   ///     represented by this symbol context object, nullptr otherwise.
246   Block *GetFunctionBlock();
247 
248   /// If this symbol context represents a function that is a method, return
249   /// true and provide information about the method.
250   ///
251   /// \param[out] language
252   ///     If \b true is returned, the language for the method.
253   ///
254   /// \param[out] is_instance_method
255   ///     If \b true is returned, \b true if this is a instance method,
256   ///     \b false if this is a static/class function.
257   ///
258   /// \param[out] language_object_name
259   ///     If \b true is returned, the name of the artificial variable
260   ///     for the language ("this" for C++, "self" for ObjC).
261   ///
262   /// \return
263   ///     \b True if this symbol context represents a function that
264   ///     is a method of a class, \b false otherwise.
265   bool GetFunctionMethodInfo(lldb::LanguageType &language,
266                              bool &is_instance_method,
267                              ConstString &language_object_name);
268 
269   /// Sorts the types in TypeMap according to SymbolContext to TypeList
270   ///
271   void SortTypeList(TypeMap &type_map, TypeList &type_list) const;
272 
273   /// Find a name of the innermost function for the symbol context.
274   ///
275   /// For instance, if the symbol context contains an inlined block, it will
276   /// return the inlined function name.
277   ///
278   /// \return
279   ///     The name of the function represented by this symbol context.
280   ConstString GetFunctionName(
281       Mangled::NamePreference preference = Mangled::ePreferDemangled) const;
282 
283   /// Get the line entry that corresponds to the function.
284   ///
285   /// If the symbol context contains an inlined block, the line entry for the
286   /// start address of the inlined function will be returned, otherwise the
287   /// line entry for the start address of the function will be returned. This
288   /// can be used after doing a Module::FindFunctions(...) or
289   /// ModuleList::FindFunctions(...) call in order to get the correct line
290   /// table information for the symbol context. it will return the inlined
291   /// function name.
292   LineEntry GetFunctionStartLineEntry() const;
293 
294   /// Find the block containing the inlined block that contains this block.
295   ///
296   /// For instance, if the symbol context contains an inlined block, it will
297   /// return the inlined function name.
298   ///
299   /// \param[in] curr_frame_pc
300   ///    The address within the block of this object.
301   ///
302   /// \param[out] next_frame_sc
303   ///     A new symbol context that does what the title says it does.
304   ///
305   /// \param[out] inlined_frame_addr
306   ///     This is what you should report as the PC in \a next_frame_sc.
307   ///
308   /// \return
309   ///     \b true if this SymbolContext specifies a block contained in an
310   ///     inlined block.  If this returns \b true, \a next_frame_sc and
311   ///     \a inlined_frame_addr will be filled in correctly.
312   bool GetParentOfInlinedScope(const Address &curr_frame_pc,
313                                SymbolContext &next_frame_sc,
314                                Address &inlined_frame_addr) const;
315 
316   // Member variables
317   lldb::TargetSP target_sp; ///< The Target for a given query
318   lldb::ModuleSP module_sp; ///< The Module for a given query
319   CompileUnit *comp_unit;   ///< The CompileUnit for a given query
320   Function *function;       ///< The Function for a given query
321   Block *block;             ///< The Block for a given query
322   LineEntry line_entry;     ///< The LineEntry for a given query
323   Symbol *symbol;           ///< The Symbol for a given query
324   Variable *variable;       ///< The global variable matching the given query
325 };
326 
327 class SymbolContextSpecifier {
328 public:
329   enum SpecificationType {
330     eNothingSpecified = 0,
331     eModuleSpecified = 1 << 0,
332     eFileSpecified = 1 << 1,
333     eLineStartSpecified = 1 << 2,
334     eLineEndSpecified = 1 << 3,
335     eFunctionSpecified = 1 << 4,
336     eClassOrNamespaceSpecified = 1 << 5,
337     eAddressRangeSpecified = 1 << 6
338   };
339 
340   // This one produces a specifier that matches everything...
341   SymbolContextSpecifier(const lldb::TargetSP &target_sp);
342 
343   ~SymbolContextSpecifier();
344 
345   bool AddSpecification(const char *spec_string, SpecificationType type);
346 
347   bool AddLineSpecification(uint32_t line_no, SpecificationType type);
348 
349   void Clear();
350 
351   bool SymbolContextMatches(const SymbolContext &sc);
352 
353   bool AddressMatches(lldb::addr_t addr);
354 
355   void GetDescription(Stream *s, lldb::DescriptionLevel level) const;
356 
357 private:
358   lldb::TargetSP m_target_sp;
359   std::string m_module_spec;
360   lldb::ModuleSP m_module_sp;
361   std::unique_ptr<FileSpec> m_file_spec_up;
362   size_t m_start_line;
363   size_t m_end_line;
364   std::string m_function_spec;
365   std::string m_class_name;
366   std::unique_ptr<AddressRange> m_address_range_up;
367   uint32_t m_type; // Or'ed bits from SpecificationType
368 };
369 
370 /// \class SymbolContextList SymbolContext.h "lldb/Symbol/SymbolContext.h"
371 /// Defines a list of symbol context objects.
372 ///
373 /// This class provides a common structure that can be used to contain the
374 /// result of a query that can contain a multiple results. Examples of such
375 /// queries include:
376 ///     \li Looking up a function by name.
377 ///     \li Finding all addresses for a specified file and line number.
378 class SymbolContextList {
379 public:
380   /// Default constructor.
381   ///
382   /// Initialize with an empty list.
383   SymbolContextList();
384 
385   /// Destructor.
386   ~SymbolContextList();
387 
388   /// Append a new symbol context to the list.
389   ///
390   /// \param[in] sc
391   ///     A symbol context to append to the list.
392   void Append(const SymbolContext &sc);
393 
394   void Append(const SymbolContextList &sc_list);
395 
396   bool AppendIfUnique(const SymbolContext &sc, bool merge_symbol_into_function);
397 
398   uint32_t AppendIfUnique(const SymbolContextList &sc_list,
399                           bool merge_symbol_into_function);
400 
401   /// Clear the object's state.
402   ///
403   /// Clears the symbol context list.
404   void Clear();
405 
406   /// Dump a description of this object to a Stream.
407   ///
408   /// Dump a description of the contents of each symbol context in the list to
409   /// the supplied stream \a s.
410   ///
411   /// \param[in] s
412   ///     The stream to which to dump the object description.
413   void Dump(Stream *s, Target *target) const;
414 
415   /// Get accessor for a symbol context at index \a idx.
416   ///
417   /// Dump a description of the contents of each symbol context in the list to
418   /// the supplied stream \a s.
419   ///
420   /// \param[in] idx
421   ///     The zero based index into the symbol context list.
422   ///
423   /// \param[out] sc
424   ///     A reference to the symbol context to fill in.
425   ///
426   /// \return
427   ///     Returns \b true if \a idx was a valid index into this
428   ///     symbol context list and \a sc was filled in, \b false
429   ///     otherwise.
430   bool GetContextAtIndex(size_t idx, SymbolContext &sc) const;
431 
432   /// Direct reference accessor for a symbol context at index \a idx.
433   ///
434   /// The index \a idx must be a valid index, no error checking will be done
435   /// to ensure that it is valid.
436   ///
437   /// \param[in] idx
438   ///     The zero based index into the symbol context list.
439   ///
440   /// \return
441   ///     A const reference to the symbol context to fill in.
442   SymbolContext &operator[](size_t idx) { return m_symbol_contexts[idx]; }
443 
444   const SymbolContext &operator[](size_t idx) const {
445     return m_symbol_contexts[idx];
446   }
447 
448   bool RemoveContextAtIndex(size_t idx);
449 
450   /// Get accessor for a symbol context list size.
451   ///
452   /// \return
453   ///     Returns the number of symbol context objects in the list.
454   uint32_t GetSize() const;
455 
456   bool IsEmpty() const;
457 
458   uint32_t NumLineEntriesWithLine(uint32_t line) const;
459 
460   void GetDescription(Stream *s, lldb::DescriptionLevel level,
461                       Target *target) const;
462 
463 protected:
464   typedef std::vector<SymbolContext>
465       collection; ///< The collection type for the list.
466 
467   // Member variables.
468   collection m_symbol_contexts; ///< The list of symbol contexts.
469 
470 public:
471   typedef AdaptedIterable<collection, SymbolContext, vector_adapter>
472       SymbolContextIterable;
SymbolContexts()473   SymbolContextIterable SymbolContexts() {
474     return SymbolContextIterable(m_symbol_contexts);
475   }
476 };
477 
478 bool operator==(const SymbolContext &lhs, const SymbolContext &rhs);
479 bool operator!=(const SymbolContext &lhs, const SymbolContext &rhs);
480 
481 bool operator==(const SymbolContextList &lhs, const SymbolContextList &rhs);
482 bool operator!=(const SymbolContextList &lhs, const SymbolContextList &rhs);
483 
484 } // namespace lldb_private
485 
486 #endif // LLDB_SYMBOL_SYMBOLCONTEXT_H
487