1 //===- SymbolTable.cpp ----------------------------------------------------===//
2 //
3 //                             The LLVM Linker
4 //
5 // This file is distributed under the University of Illinois Open Source
6 // License. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9 
10 #include "SymbolTable.h"
11 #include "Config.h"
12 #include "Driver.h"
13 #include "Error.h"
14 #include "LTO.h"
15 #include "Memory.h"
16 #include "Symbols.h"
17 #include "llvm/IR/LLVMContext.h"
18 #include "llvm/Support/Debug.h"
19 #include "llvm/Support/raw_ostream.h"
20 #include <utility>
21 
22 using namespace llvm;
23 
24 namespace lld {
25 namespace coff {
26 
27 enum SymbolPreference {
28   SP_EXISTING = -1,
29   SP_CONFLICT = 0,
30   SP_NEW = 1,
31 };
32 
33 /// Checks if an existing symbol S should be kept or replaced by a new symbol.
34 /// Returns SP_EXISTING when S should be kept, SP_NEW when the new symbol
35 /// should be kept, and SP_CONFLICT if no valid resolution exists.
36 static SymbolPreference compareDefined(Symbol *S, bool WasInserted,
37                                        bool NewIsCOMDAT) {
38   // If the symbol wasn't previously known, the new symbol wins by default.
39   if (WasInserted || !isa<Defined>(S->body()))
40     return SP_NEW;
41 
42   // If the existing symbol is a DefinedRegular, both it and the new symbol
43   // must be comdats. In that case, we have no reason to prefer one symbol
44   // over the other, and we keep the existing one. If one of the symbols
45   // is not a comdat, we report a conflict.
46   if (auto *R = dyn_cast<DefinedRegular>(S->body())) {
47     if (NewIsCOMDAT && R->isCOMDAT())
48       return SP_EXISTING;
49     else
50       return SP_CONFLICT;
51   }
52 
53   // Existing symbol is not a DefinedRegular; new symbol wins.
54   return SP_NEW;
55 }
56 
57 SymbolTable *Symtab;
58 
59 void SymbolTable::addFile(InputFile *File) {
60   log("Reading " + toString(File));
61   File->parse();
62 
63   MachineTypes MT = File->getMachineType();
64   if (Config->Machine == IMAGE_FILE_MACHINE_UNKNOWN) {
65     Config->Machine = MT;
66   } else if (MT != IMAGE_FILE_MACHINE_UNKNOWN && Config->Machine != MT) {
67     fatal(toString(File) + ": machine type " + machineToStr(MT) +
68           " conflicts with " + machineToStr(Config->Machine));
69   }
70 
71   if (auto *F = dyn_cast<ObjFile>(File)) {
72     ObjFile::Instances.push_back(F);
73   } else if (auto *F = dyn_cast<BitcodeFile>(File)) {
74     BitcodeFile::Instances.push_back(F);
75   } else if (auto *F = dyn_cast<ImportFile>(File)) {
76     ImportFile::Instances.push_back(F);
77   }
78 
79   StringRef S = File->getDirectives();
80   if (S.empty())
81     return;
82 
83   log("Directives: " + toString(File) + ": " + S);
84   Driver->parseDirectives(S);
85 }
86 
87 static void errorOrWarn(const Twine &S) {
88   if (Config->Force)
89     warn(S);
90   else
91     error(S);
92 }
93 
94 void SymbolTable::reportRemainingUndefines() {
95   SmallPtrSet<SymbolBody *, 8> Undefs;
96 
97   for (auto &I : Symtab) {
98     Symbol *Sym = I.second;
99     auto *Undef = dyn_cast<Undefined>(Sym->body());
100     if (!Undef)
101       continue;
102     if (!Sym->IsUsedInRegularObj)
103       continue;
104 
105     StringRef Name = Undef->getName();
106 
107     // A weak alias may have been resolved, so check for that.
108     if (Defined *D = Undef->getWeakAlias()) {
109       // We resolve weak aliases by replacing the alias's SymbolBody with the
110       // target's SymbolBody. This causes all SymbolBody pointers referring to
111       // the old symbol to instead refer to the new symbol. However, we can't
112       // just blindly copy sizeof(Symbol::Body) bytes from D to Sym->Body
113       // because D may be an internal symbol, and internal symbols are stored as
114       // "unparented" SymbolBodies. For that reason we need to check which type
115       // of symbol we are dealing with and copy the correct number of bytes.
116       if (isa<DefinedRegular>(D))
117         memcpy(Sym->Body.buffer, D, sizeof(DefinedRegular));
118       else if (isa<DefinedAbsolute>(D))
119         memcpy(Sym->Body.buffer, D, sizeof(DefinedAbsolute));
120       else
121         // No other internal symbols are possible.
122         Sym->Body = D->symbol()->Body;
123       continue;
124     }
125 
126     // If we can resolve a symbol by removing __imp_ prefix, do that.
127     // This odd rule is for compatibility with MSVC linker.
128     if (Name.startswith("__imp_")) {
129       Symbol *Imp = find(Name.substr(strlen("__imp_")));
130       if (Imp && isa<Defined>(Imp->body())) {
131         auto *D = cast<Defined>(Imp->body());
132         replaceBody<DefinedLocalImport>(Sym, Name, D);
133         LocalImportChunks.push_back(
134             cast<DefinedLocalImport>(Sym->body())->getChunk());
135         continue;
136       }
137     }
138 
139     // Remaining undefined symbols are not fatal if /force is specified.
140     // They are replaced with dummy defined symbols.
141     if (Config->Force)
142       replaceBody<DefinedAbsolute>(Sym, Name, 0);
143     Undefs.insert(Sym->body());
144   }
145 
146   if (Undefs.empty())
147     return;
148 
149   for (SymbolBody *B : Config->GCRoot)
150     if (Undefs.count(B))
151       errorOrWarn("<root>: undefined symbol: " + B->getName());
152 
153   for (ObjFile *File : ObjFile::Instances)
154     for (SymbolBody *Sym : File->getSymbols())
155       if (Undefs.count(Sym))
156         errorOrWarn(toString(File) + ": undefined symbol: " + Sym->getName());
157 }
158 
159 std::pair<Symbol *, bool> SymbolTable::insert(StringRef Name) {
160   Symbol *&Sym = Symtab[CachedHashStringRef(Name)];
161   if (Sym)
162     return {Sym, false};
163   Sym = make<Symbol>();
164   Sym->IsUsedInRegularObj = false;
165   Sym->PendingArchiveLoad = false;
166   return {Sym, true};
167 }
168 
169 Symbol *SymbolTable::addUndefined(StringRef Name, InputFile *F,
170                                   bool IsWeakAlias) {
171   Symbol *S;
172   bool WasInserted;
173   std::tie(S, WasInserted) = insert(Name);
174   if (!F || !isa<BitcodeFile>(F))
175     S->IsUsedInRegularObj = true;
176   if (WasInserted || (isa<Lazy>(S->body()) && IsWeakAlias)) {
177     replaceBody<Undefined>(S, Name);
178     return S;
179   }
180   if (auto *L = dyn_cast<Lazy>(S->body())) {
181     if (!S->PendingArchiveLoad) {
182       S->PendingArchiveLoad = true;
183       L->File->addMember(&L->Sym);
184     }
185   }
186   return S;
187 }
188 
189 void SymbolTable::addLazy(ArchiveFile *F, const Archive::Symbol Sym) {
190   StringRef Name = Sym.getName();
191   Symbol *S;
192   bool WasInserted;
193   std::tie(S, WasInserted) = insert(Name);
194   if (WasInserted) {
195     replaceBody<Lazy>(S, F, Sym);
196     return;
197   }
198   auto *U = dyn_cast<Undefined>(S->body());
199   if (!U || U->WeakAlias || S->PendingArchiveLoad)
200     return;
201   S->PendingArchiveLoad = true;
202   F->addMember(&Sym);
203 }
204 
205 void SymbolTable::reportDuplicate(Symbol *Existing, InputFile *NewFile) {
206   error("duplicate symbol: " + toString(*Existing->body()) + " in " +
207         toString(Existing->body()->getFile()) + " and in " +
208         (NewFile ? toString(NewFile) : "(internal)"));
209 }
210 
211 Symbol *SymbolTable::addAbsolute(StringRef N, COFFSymbolRef Sym) {
212   Symbol *S;
213   bool WasInserted;
214   std::tie(S, WasInserted) = insert(N);
215   S->IsUsedInRegularObj = true;
216   if (WasInserted || isa<Undefined>(S->body()) || isa<Lazy>(S->body()))
217     replaceBody<DefinedAbsolute>(S, N, Sym);
218   else if (!isa<DefinedCOFF>(S->body()))
219     reportDuplicate(S, nullptr);
220   return S;
221 }
222 
223 Symbol *SymbolTable::addAbsolute(StringRef N, uint64_t VA) {
224   Symbol *S;
225   bool WasInserted;
226   std::tie(S, WasInserted) = insert(N);
227   S->IsUsedInRegularObj = true;
228   if (WasInserted || isa<Undefined>(S->body()) || isa<Lazy>(S->body()))
229     replaceBody<DefinedAbsolute>(S, N, VA);
230   else if (!isa<DefinedCOFF>(S->body()))
231     reportDuplicate(S, nullptr);
232   return S;
233 }
234 
235 Symbol *SymbolTable::addSynthetic(StringRef N, Chunk *C) {
236   Symbol *S;
237   bool WasInserted;
238   std::tie(S, WasInserted) = insert(N);
239   S->IsUsedInRegularObj = true;
240   if (WasInserted || isa<Undefined>(S->body()) || isa<Lazy>(S->body()))
241     replaceBody<DefinedSynthetic>(S, N, C);
242   else if (!isa<DefinedCOFF>(S->body()))
243     reportDuplicate(S, nullptr);
244   return S;
245 }
246 
247 Symbol *SymbolTable::addRegular(InputFile *F, StringRef N, bool IsCOMDAT,
248                                 const coff_symbol_generic *Sym,
249                                 SectionChunk *C) {
250   Symbol *S;
251   bool WasInserted;
252   std::tie(S, WasInserted) = insert(N);
253   if (!isa<BitcodeFile>(F))
254     S->IsUsedInRegularObj = true;
255   SymbolPreference SP = compareDefined(S, WasInserted, IsCOMDAT);
256   if (SP == SP_CONFLICT) {
257     reportDuplicate(S, F);
258   } else if (SP == SP_NEW) {
259     replaceBody<DefinedRegular>(S, F, N, IsCOMDAT, /*IsExternal*/ true, Sym, C);
260   } else if (SP == SP_EXISTING && IsCOMDAT && C) {
261     C->markDiscarded();
262     // Discard associative chunks that we've parsed so far. No need to recurse
263     // because an associative section cannot have children.
264     for (SectionChunk *Child : C->children())
265       Child->markDiscarded();
266   }
267   return S;
268 }
269 
270 Symbol *SymbolTable::addCommon(InputFile *F, StringRef N, uint64_t Size,
271                                const coff_symbol_generic *Sym, CommonChunk *C) {
272   Symbol *S;
273   bool WasInserted;
274   std::tie(S, WasInserted) = insert(N);
275   if (!isa<BitcodeFile>(F))
276     S->IsUsedInRegularObj = true;
277   if (WasInserted || !isa<DefinedCOFF>(S->body()))
278     replaceBody<DefinedCommon>(S, F, N, Size, Sym, C);
279   else if (auto *DC = dyn_cast<DefinedCommon>(S->body()))
280     if (Size > DC->getSize())
281       replaceBody<DefinedCommon>(S, F, N, Size, Sym, C);
282   return S;
283 }
284 
285 DefinedImportData *SymbolTable::addImportData(StringRef N, ImportFile *F) {
286   Symbol *S;
287   bool WasInserted;
288   std::tie(S, WasInserted) = insert(N);
289   S->IsUsedInRegularObj = true;
290   if (WasInserted || isa<Undefined>(S->body()) || isa<Lazy>(S->body())) {
291     replaceBody<DefinedImportData>(S, N, F);
292     return cast<DefinedImportData>(S->body());
293   }
294 
295   reportDuplicate(S, F);
296   return nullptr;
297 }
298 
299 DefinedImportThunk *SymbolTable::addImportThunk(StringRef Name,
300                                                DefinedImportData *ID,
301                                                uint16_t Machine) {
302   Symbol *S;
303   bool WasInserted;
304   std::tie(S, WasInserted) = insert(Name);
305   S->IsUsedInRegularObj = true;
306   if (WasInserted || isa<Undefined>(S->body()) || isa<Lazy>(S->body())) {
307     replaceBody<DefinedImportThunk>(S, Name, ID, Machine);
308     return cast<DefinedImportThunk>(S->body());
309   }
310 
311   reportDuplicate(S, ID->File);
312   return nullptr;
313 }
314 
315 std::vector<Chunk *> SymbolTable::getChunks() {
316   std::vector<Chunk *> Res;
317   for (ObjFile *File : ObjFile::Instances) {
318     std::vector<Chunk *> &V = File->getChunks();
319     Res.insert(Res.end(), V.begin(), V.end());
320   }
321   return Res;
322 }
323 
324 Symbol *SymbolTable::find(StringRef Name) {
325   auto It = Symtab.find(CachedHashStringRef(Name));
326   if (It == Symtab.end())
327     return nullptr;
328   return It->second;
329 }
330 
331 Symbol *SymbolTable::findUnderscore(StringRef Name) {
332   if (Config->Machine == I386)
333     return find(("_" + Name).str());
334   return find(Name);
335 }
336 
337 StringRef SymbolTable::findByPrefix(StringRef Prefix) {
338   for (auto Pair : Symtab) {
339     StringRef Name = Pair.first.val();
340     if (Name.startswith(Prefix))
341       return Name;
342   }
343   return "";
344 }
345 
346 StringRef SymbolTable::findMangle(StringRef Name) {
347   if (Symbol *Sym = find(Name))
348     if (!isa<Undefined>(Sym->body()))
349       return Name;
350   if (Config->Machine != I386)
351     return findByPrefix(("?" + Name + "@@Y").str());
352   if (!Name.startswith("_"))
353     return "";
354   // Search for x86 C function.
355   StringRef S = findByPrefix((Name + "@").str());
356   if (!S.empty())
357     return S;
358   // Search for x86 C++ non-member function.
359   return findByPrefix(("?" + Name.substr(1) + "@@Y").str());
360 }
361 
362 void SymbolTable::mangleMaybe(SymbolBody *B) {
363   auto *U = dyn_cast<Undefined>(B);
364   if (!U || U->WeakAlias)
365     return;
366   StringRef Alias = findMangle(U->getName());
367   if (!Alias.empty())
368     U->WeakAlias = addUndefined(Alias);
369 }
370 
371 SymbolBody *SymbolTable::addUndefined(StringRef Name) {
372   return addUndefined(Name, nullptr, false)->body();
373 }
374 
375 std::vector<StringRef> SymbolTable::compileBitcodeFiles() {
376   LTO.reset(new BitcodeCompiler);
377   for (BitcodeFile *F : BitcodeFile::Instances)
378     LTO->add(*F);
379   return LTO->compile();
380 }
381 
382 void SymbolTable::addCombinedLTOObjects() {
383   if (BitcodeFile::Instances.empty())
384     return;
385   for (StringRef Object : compileBitcodeFiles()) {
386     auto *Obj = make<ObjFile>(MemoryBufferRef(Object, "lto.tmp"));
387     Obj->parse();
388     ObjFile::Instances.push_back(Obj);
389   }
390 }
391 
392 } // namespace coff
393 } // namespace lld
394