xref: /freebsd/contrib/llvm-project/lld/MachO/SymbolTable.cpp (revision 5b56413d04e608379c9a306373554a8e4d321bc0)
1 //===- SymbolTable.cpp ----------------------------------------------------===//
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 #include "SymbolTable.h"
10 #include "ConcatOutputSection.h"
11 #include "Config.h"
12 #include "InputFiles.h"
13 #include "InputSection.h"
14 #include "Symbols.h"
15 #include "SyntheticSections.h"
16 #include "lld/Common/ErrorHandler.h"
17 #include "lld/Common/Memory.h"
18 #include "llvm/Demangle/Demangle.h"
19 
20 using namespace llvm;
21 using namespace lld;
22 using namespace lld::macho;
23 
24 Symbol *SymbolTable::find(CachedHashStringRef cachedName) {
25   auto it = symMap.find(cachedName);
26   if (it == symMap.end())
27     return nullptr;
28   return symVector[it->second];
29 }
30 
31 std::pair<Symbol *, bool> SymbolTable::insert(StringRef name,
32                                               const InputFile *file) {
33   auto p = symMap.insert({CachedHashStringRef(name), (int)symVector.size()});
34 
35   Symbol *sym;
36   if (!p.second) {
37     // Name already present in the symbol table.
38     sym = symVector[p.first->second];
39   } else {
40     // Name is a new symbol.
41     sym = reinterpret_cast<Symbol *>(make<SymbolUnion>());
42     symVector.push_back(sym);
43   }
44 
45   sym->isUsedInRegularObj |= !file || isa<ObjFile>(file);
46   return {sym, p.second};
47 }
48 
49 namespace {
50 struct DuplicateSymbolDiag {
51   // Pair containing source location and source file
52   const std::pair<std::string, std::string> src1;
53   const std::pair<std::string, std::string> src2;
54   const Symbol *sym;
55 
56   DuplicateSymbolDiag(const std::pair<std::string, std::string> src1,
57                       const std::pair<std::string, std::string> src2,
58                       const Symbol *sym)
59       : src1(src1), src2(src2), sym(sym) {}
60 };
61 SmallVector<DuplicateSymbolDiag> dupSymDiags;
62 } // namespace
63 
64 // Move symbols at \p fromOff in \p fromIsec into \p toIsec, unless that symbol
65 // is \p skip.
66 static void transplantSymbolsAtOffset(InputSection *fromIsec,
67                                       InputSection *toIsec, Defined *skip,
68                                       uint64_t fromOff, uint64_t toOff) {
69   // Ensure the symbols will still be in address order after our insertions.
70   auto insertIt = llvm::upper_bound(toIsec->symbols, toOff,
71                                     [](uint64_t off, const Symbol *s) {
72                                       return cast<Defined>(s)->value < off;
73                                     });
74   llvm::erase_if(fromIsec->symbols, [&](Symbol *s) {
75     auto *d = cast<Defined>(s);
76     if (d->value != fromOff)
77       return false;
78     if (d != skip) {
79       // This repeated insertion will be quadratic unless insertIt is the end
80       // iterator. However, that is typically the case for files that have
81       // .subsections_via_symbols set.
82       insertIt = toIsec->symbols.insert(insertIt, d);
83       d->isec = toIsec;
84       d->value = toOff;
85       // We don't want to have more than one unwindEntry at a given address, so
86       // drop the redundant ones. We We can safely drop the unwindEntries of
87       // the symbols in fromIsec since we will be adding another unwindEntry as
88       // we finish parsing toIsec's file. (We can assume that toIsec has its
89       // own unwindEntry because of the ODR.)
90       d->unwindEntry = nullptr;
91     }
92     return true;
93   });
94 }
95 
96 Defined *SymbolTable::addDefined(StringRef name, InputFile *file,
97                                  InputSection *isec, uint64_t value,
98                                  uint64_t size, bool isWeakDef,
99                                  bool isPrivateExtern,
100                                  bool isReferencedDynamically, bool noDeadStrip,
101                                  bool isWeakDefCanBeHidden) {
102   bool overridesWeakDef = false;
103   auto [s, wasInserted] = insert(name, file);
104 
105   assert(!file || !isa<BitcodeFile>(file) || !isec);
106 
107   if (!wasInserted) {
108     if (auto *defined = dyn_cast<Defined>(s)) {
109       if (isWeakDef) {
110         // See further comment in createDefined() in InputFiles.cpp
111         if (defined->isWeakDef()) {
112           defined->privateExtern &= isPrivateExtern;
113           defined->weakDefCanBeHidden &= isWeakDefCanBeHidden;
114           defined->referencedDynamically |= isReferencedDynamically;
115           defined->noDeadStrip |= noDeadStrip;
116         }
117         if (auto concatIsec = dyn_cast_or_null<ConcatInputSection>(isec)) {
118           concatIsec->wasCoalesced = true;
119           // Any local symbols that alias the coalesced symbol should be moved
120           // into the prevailing section. Note that we have sorted the symbols
121           // in ObjFile::parseSymbols() such that extern weak symbols appear
122           // last, so we don't need to worry about subsequent symbols being
123           // added to an already-coalesced section.
124           if (defined->isec)
125             transplantSymbolsAtOffset(concatIsec, defined->isec,
126                                       /*skip=*/nullptr, value, defined->value);
127         }
128         return defined;
129       }
130 
131       if (defined->isWeakDef()) {
132         if (auto concatIsec =
133                 dyn_cast_or_null<ConcatInputSection>(defined->isec)) {
134           concatIsec->wasCoalesced = true;
135           if (isec)
136             transplantSymbolsAtOffset(concatIsec, isec, defined, defined->value,
137                                       value);
138         }
139       } else {
140         std::string srcLoc1 = defined->getSourceLocation();
141         std::string srcLoc2 = isec ? isec->getSourceLocation(value) : "";
142         std::string srcFile1 = toString(defined->getFile());
143         std::string srcFile2 = toString(file);
144 
145         dupSymDiags.push_back({make_pair(srcLoc1, srcFile1),
146                                make_pair(srcLoc2, srcFile2), defined});
147       }
148 
149     } else if (auto *dysym = dyn_cast<DylibSymbol>(s)) {
150       overridesWeakDef = !isWeakDef && dysym->isWeakDef();
151       dysym->unreference();
152     } else if (auto *undef = dyn_cast<Undefined>(s)) {
153       if (undef->wasBitcodeSymbol) {
154         auto objFile = dyn_cast<ObjFile>(file);
155         if (!objFile) {
156           // The file must be a native object file, as opposed to potentially
157           // being another bitcode file. A situation arises when some symbols
158           // are defined thru `module asm` and thus they are not present in the
159           // bitcode's symbol table. Consider bitcode modules `A`, `B`, and `C`.
160           // LTO compiles only `A` and `C`, since there's no explicit symbol
161           // reference to `B` other than a symbol from `A` via `module asm`.
162           // After LTO is finished, the missing symbol now appears in the
163           // resulting object file for `A`, which  prematurely resolves another
164           // prevailing symbol with `B` that hasn't been compiled, instead of
165           // the resulting object for `C`. Consequently, an incorrect
166           // relocation is generated for the prevailing symbol.
167           assert(isa<BitcodeFile>(file) && "Bitcode file is expected.");
168           std::string message =
169               "The pending prevailing symbol(" + name.str() +
170               ") in the bitcode file(" + toString(undef->getFile()) +
171               ") is overridden by a non-native object (from bitcode): " +
172               toString(file);
173           error(message);
174         } else if (!objFile->builtFromBitcode) {
175           // Ideally, this should be an object file compiled from a bitcode
176           // file. However, this might not hold true if a LC linker option is
177           // used. In case LTO internalizes a prevailing hidden weak symbol,
178           // there's a situation where an unresolved prevailing symbol might be
179           // linked with the corresponding one from a native library, which is
180           // loaded later after LTO. Although this could potentially result in
181           // an ODR violation, we choose to permit this scenario as a warning.
182           std::string message = "The pending prevailing symbol(" + name.str() +
183                                 ") in the bitcode file(" +
184                                 toString(undef->getFile()) +
185                                 ") is overridden by a post-processed native "
186                                 "object (from native archive): " +
187                                 toString(file);
188           warn(message);
189         } else {
190           // Preserve the original bitcode file name (instead of using the
191           // object file name).
192           file = undef->getFile();
193         }
194       }
195     }
196     // Defined symbols take priority over other types of symbols, so in case
197     // of a name conflict, we fall through to the replaceSymbol() call below.
198   }
199 
200   // With -flat_namespace, all extern symbols in dylibs are interposable.
201   // FIXME: Add support for `-interposable` (PR53680).
202   bool interposable = config->namespaceKind == NamespaceKind::flat &&
203                       config->outputType != MachO::MH_EXECUTE &&
204                       !isPrivateExtern;
205   Defined *defined = replaceSymbol<Defined>(
206       s, name, file, isec, value, size, isWeakDef, /*isExternal=*/true,
207       isPrivateExtern, /*includeInSymtab=*/true, isReferencedDynamically,
208       noDeadStrip, overridesWeakDef, isWeakDefCanBeHidden, interposable);
209   return defined;
210 }
211 
212 Defined *SymbolTable::aliasDefined(Defined *src, StringRef target,
213                                    InputFile *newFile, bool makePrivateExtern) {
214   bool isPrivateExtern = makePrivateExtern || src->privateExtern;
215   return addDefined(target, newFile, src->isec, src->value, src->size,
216                     src->isWeakDef(), isPrivateExtern,
217                     src->referencedDynamically, src->noDeadStrip,
218                     src->weakDefCanBeHidden);
219 }
220 
221 Symbol *SymbolTable::addUndefined(StringRef name, InputFile *file,
222                                   bool isWeakRef) {
223   auto [s, wasInserted] = insert(name, file);
224 
225   RefState refState = isWeakRef ? RefState::Weak : RefState::Strong;
226 
227   if (wasInserted)
228     replaceSymbol<Undefined>(s, name, file, refState,
229                              /*wasBitcodeSymbol=*/false);
230   else if (auto *lazy = dyn_cast<LazyArchive>(s))
231     lazy->fetchArchiveMember();
232   else if (isa<LazyObject>(s))
233     extract(*s->getFile(), s->getName());
234   else if (auto *dynsym = dyn_cast<DylibSymbol>(s))
235     dynsym->reference(refState);
236   else if (auto *undefined = dyn_cast<Undefined>(s))
237     undefined->refState = std::max(undefined->refState, refState);
238   return s;
239 }
240 
241 Symbol *SymbolTable::addCommon(StringRef name, InputFile *file, uint64_t size,
242                                uint32_t align, bool isPrivateExtern) {
243   auto [s, wasInserted] = insert(name, file);
244 
245   if (!wasInserted) {
246     if (auto *common = dyn_cast<CommonSymbol>(s)) {
247       if (size < common->size)
248         return s;
249     } else if (isa<Defined>(s)) {
250       return s;
251     }
252     // Common symbols take priority over all non-Defined symbols, so in case of
253     // a name conflict, we fall through to the replaceSymbol() call below.
254   }
255 
256   replaceSymbol<CommonSymbol>(s, name, file, size, align, isPrivateExtern);
257   return s;
258 }
259 
260 Symbol *SymbolTable::addDylib(StringRef name, DylibFile *file, bool isWeakDef,
261                               bool isTlv) {
262   auto [s, wasInserted] = insert(name, file);
263 
264   RefState refState = RefState::Unreferenced;
265   if (!wasInserted) {
266     if (auto *defined = dyn_cast<Defined>(s)) {
267       if (isWeakDef && !defined->isWeakDef())
268         defined->overridesWeakDef = true;
269     } else if (auto *undefined = dyn_cast<Undefined>(s)) {
270       refState = undefined->refState;
271     } else if (auto *dysym = dyn_cast<DylibSymbol>(s)) {
272       refState = dysym->getRefState();
273     }
274   }
275 
276   bool isDynamicLookup = file == nullptr;
277   if (wasInserted || isa<Undefined>(s) ||
278       (isa<DylibSymbol>(s) &&
279        ((!isWeakDef && s->isWeakDef()) ||
280         (!isDynamicLookup && cast<DylibSymbol>(s)->isDynamicLookup())))) {
281     if (auto *dynsym = dyn_cast<DylibSymbol>(s))
282       dynsym->unreference();
283     replaceSymbol<DylibSymbol>(s, file, name, isWeakDef, refState, isTlv);
284   }
285 
286   return s;
287 }
288 
289 Symbol *SymbolTable::addDynamicLookup(StringRef name) {
290   return addDylib(name, /*file=*/nullptr, /*isWeakDef=*/false, /*isTlv=*/false);
291 }
292 
293 Symbol *SymbolTable::addLazyArchive(StringRef name, ArchiveFile *file,
294                                     const object::Archive::Symbol &sym) {
295   auto [s, wasInserted] = insert(name, file);
296 
297   if (wasInserted) {
298     replaceSymbol<LazyArchive>(s, file, sym);
299   } else if (isa<Undefined>(s)) {
300     file->fetch(sym);
301   } else if (auto *dysym = dyn_cast<DylibSymbol>(s)) {
302     if (dysym->isWeakDef()) {
303       if (dysym->getRefState() != RefState::Unreferenced)
304         file->fetch(sym);
305       else
306         replaceSymbol<LazyArchive>(s, file, sym);
307     }
308   }
309   return s;
310 }
311 
312 Symbol *SymbolTable::addLazyObject(StringRef name, InputFile &file) {
313   auto [s, wasInserted] = insert(name, &file);
314 
315   if (wasInserted) {
316     replaceSymbol<LazyObject>(s, file, name);
317   } else if (isa<Undefined>(s)) {
318     extract(file, name);
319   } else if (auto *dysym = dyn_cast<DylibSymbol>(s)) {
320     if (dysym->isWeakDef()) {
321       if (dysym->getRefState() != RefState::Unreferenced)
322         extract(file, name);
323       else
324         replaceSymbol<LazyObject>(s, file, name);
325     }
326   }
327   return s;
328 }
329 
330 Defined *SymbolTable::addSynthetic(StringRef name, InputSection *isec,
331                                    uint64_t value, bool isPrivateExtern,
332                                    bool includeInSymtab,
333                                    bool referencedDynamically) {
334   assert(!isec || !isec->getFile()); // See makeSyntheticInputSection().
335   Defined *s = addDefined(name, /*file=*/nullptr, isec, value, /*size=*/0,
336                           /*isWeakDef=*/false, isPrivateExtern,
337                           referencedDynamically, /*noDeadStrip=*/false,
338                           /*isWeakDefCanBeHidden=*/false);
339   s->includeInSymtab = includeInSymtab;
340   return s;
341 }
342 
343 enum class Boundary {
344   Start,
345   End,
346 };
347 
348 static Defined *createBoundarySymbol(const Undefined &sym) {
349   return symtab->addSynthetic(
350       sym.getName(), /*isec=*/nullptr, /*value=*/-1, /*isPrivateExtern=*/true,
351       /*includeInSymtab=*/false, /*referencedDynamically=*/false);
352 }
353 
354 static void handleSectionBoundarySymbol(const Undefined &sym, StringRef segSect,
355                                         Boundary which) {
356   auto [segName, sectName] = segSect.split('$');
357 
358   // Attach the symbol to any InputSection that will end up in the right
359   // OutputSection -- it doesn't matter which one we pick.
360   // Don't bother looking through inputSections for a matching
361   // ConcatInputSection -- we need to create ConcatInputSection for
362   // non-existing sections anyways, and that codepath works even if we should
363   // already have a ConcatInputSection with the right name.
364 
365   OutputSection *osec = nullptr;
366   // This looks for __TEXT,__cstring etc.
367   for (SyntheticSection *ssec : syntheticSections)
368     if (ssec->segname == segName && ssec->name == sectName) {
369       osec = ssec->isec->parent;
370       break;
371     }
372 
373   if (!osec) {
374     ConcatInputSection *isec = makeSyntheticInputSection(segName, sectName);
375 
376     // This runs after markLive() and is only called for Undefineds that are
377     // live. Marking the isec live ensures an OutputSection is created that the
378     // start/end symbol can refer to.
379     assert(sym.isLive());
380     isec->live = true;
381 
382     // This runs after gatherInputSections(), so need to explicitly set parent
383     // and add to inputSections.
384     osec = isec->parent = ConcatOutputSection::getOrCreateForInput(isec);
385     inputSections.push_back(isec);
386   }
387 
388   if (which == Boundary::Start)
389     osec->sectionStartSymbols.push_back(createBoundarySymbol(sym));
390   else
391     osec->sectionEndSymbols.push_back(createBoundarySymbol(sym));
392 }
393 
394 static void handleSegmentBoundarySymbol(const Undefined &sym, StringRef segName,
395                                         Boundary which) {
396   OutputSegment *seg = getOrCreateOutputSegment(segName);
397   if (which == Boundary::Start)
398     seg->segmentStartSymbols.push_back(createBoundarySymbol(sym));
399   else
400     seg->segmentEndSymbols.push_back(createBoundarySymbol(sym));
401 }
402 
403 // Try to find a definition for an undefined symbol.
404 // Returns true if a definition was found and no diagnostics are needed.
405 static bool recoverFromUndefinedSymbol(const Undefined &sym) {
406   // Handle start/end symbols.
407   StringRef name = sym.getName();
408   if (name.consume_front("section$start$")) {
409     handleSectionBoundarySymbol(sym, name, Boundary::Start);
410     return true;
411   }
412   if (name.consume_front("section$end$")) {
413     handleSectionBoundarySymbol(sym, name, Boundary::End);
414     return true;
415   }
416   if (name.consume_front("segment$start$")) {
417     handleSegmentBoundarySymbol(sym, name, Boundary::Start);
418     return true;
419   }
420   if (name.consume_front("segment$end$")) {
421     handleSegmentBoundarySymbol(sym, name, Boundary::End);
422     return true;
423   }
424 
425   // Leave dtrace symbols, since we will handle them when we do the relocation
426   if (name.starts_with("___dtrace_"))
427     return true;
428 
429   // Handle -U.
430   if (config->explicitDynamicLookups.count(sym.getName())) {
431     symtab->addDynamicLookup(sym.getName());
432     return true;
433   }
434 
435   // Handle -undefined.
436   if (config->undefinedSymbolTreatment ==
437           UndefinedSymbolTreatment::dynamic_lookup ||
438       config->undefinedSymbolTreatment == UndefinedSymbolTreatment::suppress) {
439     symtab->addDynamicLookup(sym.getName());
440     return true;
441   }
442 
443   // We do not return true here, as we still need to print diagnostics.
444   if (config->undefinedSymbolTreatment == UndefinedSymbolTreatment::warning)
445     symtab->addDynamicLookup(sym.getName());
446 
447   return false;
448 }
449 
450 namespace {
451 struct UndefinedDiag {
452   struct SectionAndOffset {
453     const InputSection *isec;
454     uint64_t offset;
455   };
456 
457   std::vector<SectionAndOffset> codeReferences;
458   std::vector<std::string> otherReferences;
459 };
460 
461 MapVector<const Undefined *, UndefinedDiag> undefs;
462 } // namespace
463 
464 void macho::reportPendingDuplicateSymbols() {
465   for (const auto &duplicate : dupSymDiags) {
466     if (!config->deadStripDuplicates || duplicate.sym->isLive()) {
467       std::string message =
468           "duplicate symbol: " + toString(*duplicate.sym) + "\n>>> defined in ";
469       if (!duplicate.src1.first.empty())
470         message += duplicate.src1.first + "\n>>>            ";
471       message += duplicate.src1.second + "\n>>> defined in ";
472       if (!duplicate.src2.first.empty())
473         message += duplicate.src2.first + "\n>>>            ";
474       error(message + duplicate.src2.second);
475     }
476   }
477 }
478 
479 // Check whether the definition name def is a mangled function name that matches
480 // the reference name ref.
481 static bool canSuggestExternCForCXX(StringRef ref, StringRef def) {
482   llvm::ItaniumPartialDemangler d;
483   std::string name = def.str();
484   if (d.partialDemangle(name.c_str()))
485     return false;
486   char *buf = d.getFunctionName(nullptr, nullptr);
487   if (!buf)
488     return false;
489   bool ret = ref == buf;
490   free(buf);
491   return ret;
492 }
493 
494 // Suggest an alternative spelling of an "undefined symbol" diagnostic. Returns
495 // the suggested symbol, which is either in the symbol table, or in the same
496 // file of sym.
497 static const Symbol *getAlternativeSpelling(const Undefined &sym,
498                                             std::string &preHint,
499                                             std::string &postHint) {
500   DenseMap<StringRef, const Symbol *> map;
501   if (sym.getFile() && sym.getFile()->kind() == InputFile::ObjKind) {
502     // Build a map of local defined symbols.
503     for (const Symbol *s : sym.getFile()->symbols)
504       if (auto *defined = dyn_cast_or_null<Defined>(s))
505         if (!defined->isExternal())
506           map.try_emplace(s->getName(), s);
507   }
508 
509   auto suggest = [&](StringRef newName) -> const Symbol * {
510     // If defined locally.
511     if (const Symbol *s = map.lookup(newName))
512       return s;
513 
514     // If in the symbol table and not undefined.
515     if (const Symbol *s = symtab->find(newName))
516       if (dyn_cast<Undefined>(s) == nullptr)
517         return s;
518 
519     return nullptr;
520   };
521 
522   // This loop enumerates all strings of Levenshtein distance 1 as typo
523   // correction candidates and suggests the one that exists as a non-undefined
524   // symbol.
525   StringRef name = sym.getName();
526   for (size_t i = 0, e = name.size(); i != e + 1; ++i) {
527     // Insert a character before name[i].
528     std::string newName = (name.substr(0, i) + "0" + name.substr(i)).str();
529     for (char c = '0'; c <= 'z'; ++c) {
530       newName[i] = c;
531       if (const Symbol *s = suggest(newName))
532         return s;
533     }
534     if (i == e)
535       break;
536 
537     // Substitute name[i].
538     newName = std::string(name);
539     for (char c = '0'; c <= 'z'; ++c) {
540       newName[i] = c;
541       if (const Symbol *s = suggest(newName))
542         return s;
543     }
544 
545     // Transpose name[i] and name[i+1]. This is of edit distance 2 but it is
546     // common.
547     if (i + 1 < e) {
548       newName[i] = name[i + 1];
549       newName[i + 1] = name[i];
550       if (const Symbol *s = suggest(newName))
551         return s;
552     }
553 
554     // Delete name[i].
555     newName = (name.substr(0, i) + name.substr(i + 1)).str();
556     if (const Symbol *s = suggest(newName))
557       return s;
558   }
559 
560   // Case mismatch, e.g. Foo vs FOO.
561   for (auto &it : map)
562     if (name.equals_insensitive(it.first))
563       return it.second;
564   for (Symbol *sym : symtab->getSymbols())
565     if (dyn_cast<Undefined>(sym) == nullptr &&
566         name.equals_insensitive(sym->getName()))
567       return sym;
568 
569   // The reference may be a mangled name while the definition is not. Suggest a
570   // missing extern "C".
571   if (name.starts_with("__Z")) {
572     std::string buf = name.str();
573     llvm::ItaniumPartialDemangler d;
574     if (!d.partialDemangle(buf.c_str()))
575       if (char *buf = d.getFunctionName(nullptr, nullptr)) {
576         const Symbol *s = suggest((Twine("_") + buf).str());
577         free(buf);
578         if (s) {
579           preHint = ": extern \"C\" ";
580           return s;
581         }
582       }
583   } else {
584     StringRef nameWithoutUnderscore = name;
585     nameWithoutUnderscore.consume_front("_");
586     const Symbol *s = nullptr;
587     for (auto &it : map)
588       if (canSuggestExternCForCXX(nameWithoutUnderscore, it.first)) {
589         s = it.second;
590         break;
591       }
592     if (!s)
593       for (Symbol *sym : symtab->getSymbols())
594         if (canSuggestExternCForCXX(nameWithoutUnderscore, sym->getName())) {
595           s = sym;
596           break;
597         }
598     if (s) {
599       preHint = " to declare ";
600       postHint = " as extern \"C\"?";
601       return s;
602     }
603   }
604 
605   return nullptr;
606 }
607 
608 static void reportUndefinedSymbol(const Undefined &sym,
609                                   const UndefinedDiag &locations,
610                                   bool correctSpelling) {
611   std::string message = "undefined symbol";
612   if (config->archMultiple)
613     message += (" for arch " + getArchitectureName(config->arch())).str();
614   message += ": " + toString(sym);
615 
616   const size_t maxUndefinedReferences = 3;
617   size_t i = 0;
618   for (const std::string &loc : locations.otherReferences) {
619     if (i >= maxUndefinedReferences)
620       break;
621     message += "\n>>> referenced by " + loc;
622     ++i;
623   }
624 
625   for (const UndefinedDiag::SectionAndOffset &loc : locations.codeReferences) {
626     if (i >= maxUndefinedReferences)
627       break;
628     message += "\n>>> referenced by ";
629     std::string src = loc.isec->getSourceLocation(loc.offset);
630     if (!src.empty())
631       message += src + "\n>>>               ";
632     message += loc.isec->getLocation(loc.offset);
633     ++i;
634   }
635 
636   size_t totalReferences =
637       locations.otherReferences.size() + locations.codeReferences.size();
638   if (totalReferences > i)
639     message +=
640         ("\n>>> referenced " + Twine(totalReferences - i) + " more times")
641             .str();
642 
643   if (correctSpelling) {
644     std::string preHint = ": ", postHint;
645     if (const Symbol *corrected =
646             getAlternativeSpelling(sym, preHint, postHint)) {
647       message +=
648           "\n>>> did you mean" + preHint + toString(*corrected) + postHint;
649       if (corrected->getFile())
650         message += "\n>>> defined in: " + toString(corrected->getFile());
651     }
652   }
653 
654   if (config->undefinedSymbolTreatment == UndefinedSymbolTreatment::error)
655     error(message);
656   else if (config->undefinedSymbolTreatment ==
657            UndefinedSymbolTreatment::warning)
658     warn(message);
659   else
660     assert(false && "diagnostics make sense for -undefined error|warning only");
661 }
662 
663 void macho::reportPendingUndefinedSymbols() {
664   // Enable spell corrector for the first 2 diagnostics.
665   for (const auto &[i, undef] : llvm::enumerate(undefs))
666     reportUndefinedSymbol(*undef.first, undef.second, i < 2);
667 
668   // This function is called multiple times during execution. Clear the printed
669   // diagnostics to avoid printing the same things again the next time.
670   undefs.clear();
671 }
672 
673 void macho::treatUndefinedSymbol(const Undefined &sym, StringRef source) {
674   if (recoverFromUndefinedSymbol(sym))
675     return;
676 
677   undefs[&sym].otherReferences.push_back(source.str());
678 }
679 
680 void macho::treatUndefinedSymbol(const Undefined &sym, const InputSection *isec,
681                                  uint64_t offset) {
682   if (recoverFromUndefinedSymbol(sym))
683     return;
684 
685   undefs[&sym].codeReferences.push_back({isec, offset});
686 }
687 
688 std::unique_ptr<SymbolTable> macho::symtab;
689