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1 //===-- Address.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_CORE_ADDRESS_H
10 #define LLDB_CORE_ADDRESS_H
11 
12 #include "lldb/lldb-defines.h"
13 #include "lldb/lldb-forward.h"
14 #include "lldb/lldb-private-enumerations.h"
15 #include "lldb/lldb-types.h"
16 
17 #include <stddef.h>
18 #include <stdint.h>
19 
20 namespace lldb_private {
21 class Block;
22 class CompileUnit;
23 class ExecutionContextScope;
24 class Function;
25 class SectionList;
26 class Stream;
27 class Symbol;
28 class SymbolContext;
29 class Target;
30 struct LineEntry;
31 
32 /// \class Address Address.h "lldb/Core/Address.h"
33 /// A section + offset based address class.
34 ///
35 /// The Address class allows addresses to be relative to a section that can
36 /// move during runtime due to images (executables, shared libraries, bundles,
37 /// frameworks) being loaded at different addresses than the addresses found
38 /// in the object file that represents them on disk. There are currently two
39 /// types of addresses for a section:
40 ///     \li file addresses
41 ///     \li load addresses
42 ///
43 /// File addresses represent the virtual addresses that are in the "on disk"
44 /// object files. These virtual addresses are converted to be relative to
45 /// unique sections scoped to the object file so that when/if the addresses
46 /// slide when the images are loaded/unloaded in memory, we can easily track
47 /// these changes without having to update every object (compile unit ranges,
48 /// line tables, function address ranges, lexical block and inlined subroutine
49 /// address ranges, global and static variables) each time an image is loaded
50 /// or unloaded.
51 ///
52 /// Load addresses represent the virtual addresses where each section ends up
53 /// getting loaded at runtime. Before executing a program, it is common for
54 /// all of the load addresses to be unresolved. When a DynamicLoader plug-in
55 /// receives notification that shared libraries have been loaded/unloaded, the
56 /// load addresses of the main executable and any images (shared libraries)
57 /// will be  resolved/unresolved. When this happens, breakpoints that are in
58 /// one of these sections can be set/cleared.
59 class Address {
60 public:
61   /// Dump styles allow the Address::Dump(Stream *,DumpStyle) const function
62   /// to display Address contents in a variety of ways.
63   enum DumpStyle {
64     /// Invalid dump style.
65     DumpStyleInvalid,
66     /// Display as the section name + offset.
67     /// \code
68     /// // address for printf in libSystem.B.dylib as a section name + offset
69     /// libSystem.B.dylib.__TEXT.__text + 0x0005cfdf
70     /// \endcode
71     DumpStyleSectionNameOffset,
72     /// Display as the section pointer + offset (debug output).
73     /// \code
74     /// // address for printf in libSystem.B.dylib as a section pointer +
75     /// offset (lldb::Section *)0x35cc50 + 0x000000000005cfdf
76     /// \endcode
77     DumpStyleSectionPointerOffset,
78     /// Display as the file address (if any).
79     /// \code
80     /// // address for printf in libSystem.B.dylib as a file address
81     /// 0x000000000005dcff
82     /// \endcode
83     ///
84     DumpStyleFileAddress,
85     /// Display as the file address with the module name prepended (if any).
86     /// \code
87     /// // address for printf in libSystem.B.dylib as a file address
88     /// libSystem.B.dylib[0x000000000005dcff]
89     /// \endcode
90     DumpStyleModuleWithFileAddress,
91     /// Display as the load address (if resolved).
92     /// \code
93     /// // address for printf in libSystem.B.dylib as a load address
94     /// 0x00007fff8306bcff
95     /// \endcode
96     DumpStyleLoadAddress,
97     /// Display the details about what an address resolves to. This can be
98     /// anything from a symbol context summary (module, function/symbol, and
99     /// file and line), to information about what the pointer points to if the
100     /// address is in a section (section of pointers, c strings, etc).
101     DumpStyleResolvedDescription,
102     DumpStyleResolvedDescriptionNoModule,
103     DumpStyleResolvedDescriptionNoFunctionArguments,
104     /// Elide the function name; display an offset into the current function.
105     /// Used primarily in disassembly symbolication
106     DumpStyleNoFunctionName,
107     /// Detailed symbol context information for an address for all symbol
108     /// context members.
109     DumpStyleDetailedSymbolContext,
110     /// Dereference a pointer at the current address and then lookup the
111     /// dereferenced address using DumpStyleResolvedDescription
112     DumpStyleResolvedPointerDescription
113   };
114 
115   /// Default constructor.
116   ///
117   /// Initialize with a invalid section (NULL) and an invalid offset
118   /// (LLDB_INVALID_ADDRESS).
Address()119   Address() : m_section_wp(), m_offset(LLDB_INVALID_ADDRESS) {}
120 
121   /// Copy constructor
122   ///
123   /// Makes a copy of the another Address object \a rhs.
124   ///
125   /// \param[in] rhs
126   ///     A const Address object reference to copy.
Address(const Address & rhs)127   Address(const Address &rhs)
128       : m_section_wp(rhs.m_section_wp), m_offset(rhs.m_offset) {}
129 
130   /// Construct with a section pointer and offset.
131   ///
132   /// Initialize the address with the supplied \a section and \a offset.
133   ///
134   /// \param[in] section_sp
135   ///     A section pointer to a valid lldb::Section, or NULL if the
136   ///     address doesn't have a section or will get resolved later.
137   ///
138   /// \param[in] offset
139   ///     The offset in bytes into \a section.
Address(const lldb::SectionSP & section_sp,lldb::addr_t offset)140   Address(const lldb::SectionSP &section_sp, lldb::addr_t offset)
141       : m_section_wp(), // Don't init with section_sp in case section_sp is
142                         // invalid (the weak_ptr will throw)
143         m_offset(offset) {
144     if (section_sp)
145       m_section_wp = section_sp;
146   }
147 
148   /// Construct with a virtual address and section list.
149   ///
150   /// Initialize and resolve the address with the supplied virtual address \a
151   /// file_addr.
152   ///
153   /// \param[in] file_addr
154   ///     A virtual file address.
155   ///
156   /// \param[in] section_list
157   ///     A list of sections, one of which may contain the \a file_addr.
158   Address(lldb::addr_t file_addr, const SectionList *section_list);
159 
160   Address(lldb::addr_t abs_addr);
161 
162 /// Assignment operator.
163 ///
164 /// Copies the address value from another Address object \a rhs into \a this
165 /// object.
166 ///
167 /// \param[in] rhs
168 ///     A const Address object reference to copy.
169 ///
170 /// \return
171 ///     A const Address object reference to \a this.
172   const Address &operator=(const Address &rhs);
173 
174   /// Clear the object's state.
175   ///
176   /// Sets the section to an invalid value (NULL) and an invalid offset
177   /// (LLDB_INVALID_ADDRESS).
Clear()178   void Clear() {
179     m_section_wp.reset();
180     m_offset = LLDB_INVALID_ADDRESS;
181   }
182 
183   /// Compare two Address objects.
184   ///
185   /// \param[in] lhs
186   ///     The Left Hand Side const Address object reference.
187   ///
188   /// \param[in] rhs
189   ///     The Right Hand Side const Address object reference.
190   ///
191   /// \return
192   ///     -1 if lhs < rhs
193   ///     0 if lhs == rhs
194   ///     1 if lhs > rhs
195   static int CompareFileAddress(const Address &lhs, const Address &rhs);
196 
197   static int CompareLoadAddress(const Address &lhs, const Address &rhs,
198                                 Target *target);
199 
200   static int CompareModulePointerAndOffset(const Address &lhs,
201                                            const Address &rhs);
202 
203   // For use with std::map, std::multi_map
204   class ModulePointerAndOffsetLessThanFunctionObject {
205   public:
206     ModulePointerAndOffsetLessThanFunctionObject() = default;
207 
operator()208     bool operator()(const Address &a, const Address &b) const {
209       return Address::CompareModulePointerAndOffset(a, b) < 0;
210     }
211   };
212 
213   /// Dump a description of this object to a Stream.
214   ///
215   /// Dump a description of the contents of this object to the supplied stream
216   /// \a s. There are many ways to display a section offset based address, and
217   /// \a style lets the user choose.
218   ///
219   /// \param[in] s
220   ///     The stream to which to dump the object description.
221   ///
222   /// \param[in] style
223   ///     The display style for the address.
224   ///
225   /// \param[in] fallback_style
226   ///     The display style for the address.
227   ///
228   /// \return
229   ///     Returns \b true if the address was able to be displayed.
230   ///     File and load addresses may be unresolved and it may not be
231   ///     possible to display a valid value, \b false will be returned
232   ///     in such cases.
233   ///
234   /// \see Address::DumpStyle
235   bool Dump(Stream *s, ExecutionContextScope *exe_scope, DumpStyle style,
236             DumpStyle fallback_style = DumpStyleInvalid,
237             uint32_t addr_byte_size = UINT32_MAX) const;
238 
239   AddressClass GetAddressClass() const;
240 
241   /// Get the file address.
242   ///
243   /// If an address comes from a file on disk that has section relative
244   /// addresses, then it has a virtual address that is relative to unique
245   /// section in the object file.
246   ///
247   /// \return
248   ///     The valid file virtual address, or LLDB_INVALID_ADDRESS if
249   ///     the address doesn't have a file virtual address (image is
250   ///     from memory only with no representation on disk).
251   lldb::addr_t GetFileAddress() const;
252 
253   /// Get the load address.
254   ///
255   /// If an address comes from a file on disk that has section relative
256   /// addresses, then it has a virtual address that is relative to unique
257   /// section in the object file. Sections get resolved at runtime by
258   /// DynamicLoader plug-ins as images (executables and shared libraries) get
259   /// loaded/unloaded. If a section is loaded, then the load address can be
260   /// resolved.
261   ///
262   /// \return
263   ///     The valid load virtual address, or LLDB_INVALID_ADDRESS if
264   ///     the address is currently not loaded.
265   lldb::addr_t GetLoadAddress(Target *target) const;
266 
267   /// Get the load address as a callable code load address.
268   ///
269   /// This function will first resolve its address to a load address. Then, if
270   /// the address turns out to be in code address, return the load address
271   /// that would be required to call or return to. The address might have
272   /// extra bits set (bit zero will be set to Thumb functions for an ARM
273   /// target) that are required when changing the program counter to setting a
274   /// return address.
275   ///
276   /// \return
277   ///     The valid load virtual address, or LLDB_INVALID_ADDRESS if
278   ///     the address is currently not loaded.
279   lldb::addr_t GetCallableLoadAddress(Target *target,
280                                       bool is_indirect = false) const;
281 
282   /// Get the load address as an opcode load address.
283   ///
284   /// This function will first resolve its address to a load address. Then, if
285   /// the address turns out to be in code address, return the load address for
286   /// an opcode. This address object might have extra bits set (bit zero will
287   /// be set to Thumb functions for an
288   /// ARM target) that are required for changing the program counter
289   /// and this function will remove any bits that are intended for these
290   /// special purposes. The result of this function can be used to safely
291   /// write a software breakpoint trap to memory.
292   ///
293   /// \return
294   ///     The valid load virtual address with extra callable bits
295   ///     removed, or LLDB_INVALID_ADDRESS if the address is currently
296   ///     not loaded.
297   lldb::addr_t GetOpcodeLoadAddress(
298       Target *target,
299       AddressClass addr_class = AddressClass::eInvalid) const;
300 
301   /// Get the section relative offset value.
302   ///
303   /// \return
304   ///     The current offset, or LLDB_INVALID_ADDRESS if this address
305   ///     doesn't contain a valid offset.
GetOffset()306   lldb::addr_t GetOffset() const { return m_offset; }
307 
308   /// Check if an address is section offset.
309   ///
310   /// When converting a virtual file or load address into a section offset
311   /// based address, we often need to know if, given a section list, if the
312   /// address was able to be converted to section offset. This function
313   /// returns true if the current value contained in this object is section
314   /// offset based.
315   ///
316   /// \return
317   ///     Returns \b true if the address has a valid section and
318   ///     offset, \b false otherwise.
IsSectionOffset()319   bool IsSectionOffset() const {
320     return IsValid() && (GetSection().get() != nullptr);
321   }
322 
323   /// Check if the object state is valid.
324   ///
325   /// A valid Address object contains either a section pointer and
326   /// offset (for section offset based addresses), or just a valid offset
327   /// (for absolute addresses that have no section).
328   ///
329   /// \return
330   ///     Returns \b true if the offset is valid, \b false
331   ///     otherwise.
IsValid()332   bool IsValid() const { return m_offset != LLDB_INVALID_ADDRESS; }
333 
334   /// Get the memory cost of this object.
335   ///
336   /// \return
337   ///     The number of bytes that this object occupies in memory.
338   size_t MemorySize() const;
339 
340   /// Resolve a file virtual address using a section list.
341   ///
342   /// Given a list of sections, attempt to resolve \a addr as an offset into
343   /// one of the file sections.
344   ///
345   /// \return
346   ///     Returns \b true if \a addr was able to be resolved, \b false
347   ///     otherwise.
348   bool ResolveAddressUsingFileSections(lldb::addr_t addr,
349                                        const SectionList *sections);
350 
351   /// Resolve this address to its containing function and optionally get
352   /// that function's address range.
353   ///
354   /// \param[out] sym_ctx
355   ///     The symbol context describing the function in which this address lies
356   ///
357   /// \parm[out] addr_range_ptr
358   ///     Pointer to the AddressRange to fill in with the function's address
359   ///     range.  Caller may pass null if they don't need the address range.
360   ///
361   /// \return
362   ///     Returns \b false if the function/symbol could not be resolved
363   ///     or if the address range was requested and could not be resolved;
364   ///     returns \b true otherwise.
365   bool ResolveFunctionScope(lldb_private::SymbolContext &sym_ctx,
366                             lldb_private::AddressRange *addr_range_ptr = nullptr);
367 
368   /// Set the address to represent \a load_addr.
369   ///
370   /// The address will attempt to find a loaded section within \a target that
371   /// contains \a load_addr. If successful, this address object will have a
372   /// valid section and offset. Else this address object will have no section
373   /// (NULL) and the offset will be \a load_addr.
374   ///
375   /// \param[in] load_addr
376   ///     A load address from a current process.
377   ///
378   /// \param[in] target
379   ///     The target to use when trying resolve the address into
380   ///     a section + offset. The Target's SectionLoadList object
381   ///     is used to resolve the address.
382   ///
383   /// \param[in] allow_section_end
384   ///     If true, treat an address pointing to the end of the module as
385   ///     belonging to that module.
386   ///
387   /// \return
388   ///     Returns \b true if the load address was resolved to be
389   ///     section/offset, \b false otherwise. It is often ok for an
390   ///     address to not resolve to a section in a module, this often
391   ///     happens for JIT'ed code, or any load addresses on the stack
392   ///     or heap.
393   bool SetLoadAddress(lldb::addr_t load_addr, Target *target,
394                       bool allow_section_end = false);
395 
396   bool SetOpcodeLoadAddress(
397       lldb::addr_t load_addr, Target *target,
398       AddressClass addr_class = AddressClass::eInvalid,
399       bool allow_section_end = false);
400 
401   bool SetCallableLoadAddress(lldb::addr_t load_addr, Target *target);
402 
403   /// Get accessor for the module for this address.
404   ///
405   /// \return
406   ///     Returns the Module pointer that this address is an offset
407   ///     in, or NULL if this address doesn't belong in a module, or
408   ///     isn't resolved yet.
409   lldb::ModuleSP GetModule() const;
410 
411   /// Get const accessor for the section.
412   ///
413   /// \return
414   ///     Returns the const lldb::Section pointer that this address is an
415   ///     offset in, or NULL if this address is absolute.
GetSection()416   lldb::SectionSP GetSection() const { return m_section_wp.lock(); }
417 
418   /// Set accessor for the offset.
419   ///
420   /// \param[in] offset
421   ///     A new offset value for this object.
422   ///
423   /// \return
424   ///     Returns \b true if the offset changed, \b false otherwise.
SetOffset(lldb::addr_t offset)425   bool SetOffset(lldb::addr_t offset) {
426     bool changed = m_offset != offset;
427     m_offset = offset;
428     return changed;
429   }
430 
SetRawAddress(lldb::addr_t addr)431   void SetRawAddress(lldb::addr_t addr) {
432     m_section_wp.reset();
433     m_offset = addr;
434   }
435 
Slide(int64_t offset)436   bool Slide(int64_t offset) {
437     if (m_offset != LLDB_INVALID_ADDRESS) {
438       m_offset += offset;
439       return true;
440     }
441     return false;
442   }
443 
444   /// Set accessor for the section.
445   ///
446   /// \param[in] section_sp
447   ///     A new lldb::Section pointer to use as the section base. Can
448   ///     be NULL for absolute addresses that are not relative to
449   ///     any section.
SetSection(const lldb::SectionSP & section_sp)450   void SetSection(const lldb::SectionSP &section_sp) {
451     m_section_wp = section_sp;
452   }
453 
ClearSection()454   void ClearSection() { m_section_wp.reset(); }
455 
456   /// Reconstruct a symbol context from an address.
457   ///
458   /// This class doesn't inherit from SymbolContextScope because many address
459   /// objects have short lifespans. Address objects that are section offset
460   /// can reconstruct their symbol context by looking up the address in the
461   /// module found in the section.
462   ///
463   /// \see SymbolContextScope::CalculateSymbolContext(SymbolContext*)
464   uint32_t CalculateSymbolContext(SymbolContext *sc,
465                                   lldb::SymbolContextItem resolve_scope =
466                                       lldb::eSymbolContextEverything) const;
467 
468   lldb::ModuleSP CalculateSymbolContextModule() const;
469 
470   CompileUnit *CalculateSymbolContextCompileUnit() const;
471 
472   Function *CalculateSymbolContextFunction() const;
473 
474   Block *CalculateSymbolContextBlock() const;
475 
476   Symbol *CalculateSymbolContextSymbol() const;
477 
478   bool CalculateSymbolContextLineEntry(LineEntry &line_entry) const;
479 
480   // Returns true if the section should be valid, but isn't because the shared
481   // pointer to the section can't be reconstructed from a weak pointer that
482   // contains a valid weak reference to a section. Returns false if the section
483   // weak pointer has no reference to a section, or if the section is still
484   // valid
485   bool SectionWasDeleted() const;
486 
487 protected:
488   // Member variables.
489   lldb::SectionWP m_section_wp; ///< The section for the address, can be NULL.
490   lldb::addr_t m_offset; ///< Offset into section if \a m_section_wp is valid...
491 
492   // Returns true if the m_section_wp once had a reference to a valid section
493   // shared pointer, but no longer does. This can happen if we have an address
494   // from a module that gets unloaded and deleted. This function should only be
495   // called if GetSection() returns an empty shared pointer and you want to
496   // know if this address used to have a valid section.
497   bool SectionWasDeletedPrivate() const;
498 };
499 
500 // NOTE: Be careful using this operator. It can correctly compare two
501 // addresses from the same Module correctly. It can't compare two addresses
502 // from different modules in any meaningful way, but it will compare the module
503 // pointers.
504 //
505 // To sum things up:
506 // - works great for addresses within the same module - it works for addresses
507 // across multiple modules, but don't expect the
508 //   address results to make much sense
509 //
510 // This basically lets Address objects be used in ordered collection classes.
511 bool operator<(const Address &lhs, const Address &rhs);
512 bool operator>(const Address &lhs, const Address &rhs);
513 bool operator==(const Address &lhs, const Address &rhs);
514 bool operator!=(const Address &lhs, const Address &rhs);
515 
516 } // namespace lldb_private
517 
518 #endif // LLDB_CORE_ADDRESS_H
519