xref: /freebsd/contrib/llvm-project/llvm/lib/Transforms/Utils/FunctionImportUtils.cpp (revision 02e9120893770924227138ba49df1edb3896112a)
1 //===- lib/Transforms/Utils/FunctionImportUtils.cpp - Importing utilities -===//
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 // This file implements the FunctionImportGlobalProcessing class, used
10 // to perform the necessary global value handling for function importing.
11 //
12 //===----------------------------------------------------------------------===//
13 
14 #include "llvm/Transforms/Utils/FunctionImportUtils.h"
15 #include "llvm/Support/CommandLine.h"
16 using namespace llvm;
17 
18 /// Uses the "source_filename" instead of a Module hash ID for the suffix of
19 /// promoted locals during LTO. NOTE: This requires that the source filename
20 /// has a unique name / path to avoid name collisions.
21 static cl::opt<bool> UseSourceFilenameForPromotedLocals(
22     "use-source-filename-for-promoted-locals", cl::Hidden,
23     cl::desc("Uses the source file name instead of the Module hash. "
24              "This requires that the source filename has a unique name / "
25              "path to avoid name collisions."));
26 
27 /// Checks if we should import SGV as a definition, otherwise import as a
28 /// declaration.
29 bool FunctionImportGlobalProcessing::doImportAsDefinition(
30     const GlobalValue *SGV) {
31   if (!isPerformingImport())
32     return false;
33 
34   // Only import the globals requested for importing.
35   if (!GlobalsToImport->count(const_cast<GlobalValue *>(SGV)))
36     return false;
37 
38   assert(!isa<GlobalAlias>(SGV) &&
39          "Unexpected global alias in the import list.");
40 
41   // Otherwise yes.
42   return true;
43 }
44 
45 bool FunctionImportGlobalProcessing::shouldPromoteLocalToGlobal(
46     const GlobalValue *SGV, ValueInfo VI) {
47   assert(SGV->hasLocalLinkage());
48 
49   // Ifuncs and ifunc alias does not have summary.
50   if (isa<GlobalIFunc>(SGV) ||
51       (isa<GlobalAlias>(SGV) &&
52        isa<GlobalIFunc>(cast<GlobalAlias>(SGV)->getAliaseeObject())))
53     return false;
54 
55   // Both the imported references and the original local variable must
56   // be promoted.
57   if (!isPerformingImport() && !isModuleExporting())
58     return false;
59 
60   if (isPerformingImport()) {
61     assert((!GlobalsToImport->count(const_cast<GlobalValue *>(SGV)) ||
62             !isNonRenamableLocal(*SGV)) &&
63            "Attempting to promote non-renamable local");
64     // We don't know for sure yet if we are importing this value (as either
65     // a reference or a def), since we are simply walking all values in the
66     // module. But by necessity if we end up importing it and it is local,
67     // it must be promoted, so unconditionally promote all values in the
68     // importing module.
69     return true;
70   }
71 
72   // When exporting, consult the index. We can have more than one local
73   // with the same GUID, in the case of same-named locals in different but
74   // same-named source files that were compiled in their respective directories
75   // (so the source file name and resulting GUID is the same). Find the one
76   // in this module.
77   auto Summary = ImportIndex.findSummaryInModule(
78       VI, SGV->getParent()->getModuleIdentifier());
79   assert(Summary && "Missing summary for global value when exporting");
80   auto Linkage = Summary->linkage();
81   if (!GlobalValue::isLocalLinkage(Linkage)) {
82     assert(!isNonRenamableLocal(*SGV) &&
83            "Attempting to promote non-renamable local");
84     return true;
85   }
86 
87   return false;
88 }
89 
90 #ifndef NDEBUG
91 bool FunctionImportGlobalProcessing::isNonRenamableLocal(
92     const GlobalValue &GV) const {
93   if (!GV.hasLocalLinkage())
94     return false;
95   // This needs to stay in sync with the logic in buildModuleSummaryIndex.
96   if (GV.hasSection())
97     return true;
98   if (Used.count(const_cast<GlobalValue *>(&GV)))
99     return true;
100   return false;
101 }
102 #endif
103 
104 std::string
105 FunctionImportGlobalProcessing::getPromotedName(const GlobalValue *SGV) {
106   assert(SGV->hasLocalLinkage());
107 
108   // For locals that must be promoted to global scope, ensure that
109   // the promoted name uniquely identifies the copy in the original module,
110   // using the ID assigned during combined index creation.
111   if (UseSourceFilenameForPromotedLocals &&
112       !SGV->getParent()->getSourceFileName().empty()) {
113     SmallString<256> Suffix(SGV->getParent()->getSourceFileName());
114     std::replace_if(std::begin(Suffix), std::end(Suffix),
115                     [&](char ch) { return !isAlnum(ch); }, '_');
116     return ModuleSummaryIndex::getGlobalNameForLocal(
117         SGV->getName(), Suffix);
118   }
119 
120   return ModuleSummaryIndex::getGlobalNameForLocal(
121       SGV->getName(),
122       ImportIndex.getModuleHash(SGV->getParent()->getModuleIdentifier()));
123 }
124 
125 GlobalValue::LinkageTypes
126 FunctionImportGlobalProcessing::getLinkage(const GlobalValue *SGV,
127                                            bool DoPromote) {
128   // Any local variable that is referenced by an exported function needs
129   // to be promoted to global scope. Since we don't currently know which
130   // functions reference which local variables/functions, we must treat
131   // all as potentially exported if this module is exporting anything.
132   if (isModuleExporting()) {
133     if (SGV->hasLocalLinkage() && DoPromote)
134       return GlobalValue::ExternalLinkage;
135     return SGV->getLinkage();
136   }
137 
138   // Otherwise, if we aren't importing, no linkage change is needed.
139   if (!isPerformingImport())
140     return SGV->getLinkage();
141 
142   switch (SGV->getLinkage()) {
143   case GlobalValue::LinkOnceODRLinkage:
144   case GlobalValue::ExternalLinkage:
145     // External and linkonce definitions are converted to available_externally
146     // definitions upon import, so that they are available for inlining
147     // and/or optimization, but are turned into declarations later
148     // during the EliminateAvailableExternally pass.
149     if (doImportAsDefinition(SGV) && !isa<GlobalAlias>(SGV))
150       return GlobalValue::AvailableExternallyLinkage;
151     // An imported external declaration stays external.
152     return SGV->getLinkage();
153 
154   case GlobalValue::AvailableExternallyLinkage:
155     // An imported available_externally definition converts
156     // to external if imported as a declaration.
157     if (!doImportAsDefinition(SGV))
158       return GlobalValue::ExternalLinkage;
159     // An imported available_externally declaration stays that way.
160     return SGV->getLinkage();
161 
162   case GlobalValue::LinkOnceAnyLinkage:
163   case GlobalValue::WeakAnyLinkage:
164     // Can't import linkonce_any/weak_any definitions correctly, or we might
165     // change the program semantics, since the linker will pick the first
166     // linkonce_any/weak_any definition and importing would change the order
167     // they are seen by the linker. The module linking caller needs to enforce
168     // this.
169     assert(!doImportAsDefinition(SGV));
170     // If imported as a declaration, it becomes external_weak.
171     return SGV->getLinkage();
172 
173   case GlobalValue::WeakODRLinkage:
174     // For weak_odr linkage, there is a guarantee that all copies will be
175     // equivalent, so the issue described above for weak_any does not exist,
176     // and the definition can be imported. It can be treated similarly
177     // to an imported externally visible global value.
178     if (doImportAsDefinition(SGV) && !isa<GlobalAlias>(SGV))
179       return GlobalValue::AvailableExternallyLinkage;
180     else
181       return GlobalValue::ExternalLinkage;
182 
183   case GlobalValue::AppendingLinkage:
184     // It would be incorrect to import an appending linkage variable,
185     // since it would cause global constructors/destructors to be
186     // executed multiple times. This should have already been handled
187     // by linkIfNeeded, and we will assert in shouldLinkFromSource
188     // if we try to import, so we simply return AppendingLinkage.
189     return GlobalValue::AppendingLinkage;
190 
191   case GlobalValue::InternalLinkage:
192   case GlobalValue::PrivateLinkage:
193     // If we are promoting the local to global scope, it is handled
194     // similarly to a normal externally visible global.
195     if (DoPromote) {
196       if (doImportAsDefinition(SGV) && !isa<GlobalAlias>(SGV))
197         return GlobalValue::AvailableExternallyLinkage;
198       else
199         return GlobalValue::ExternalLinkage;
200     }
201     // A non-promoted imported local definition stays local.
202     // The ThinLTO pass will eventually force-import their definitions.
203     return SGV->getLinkage();
204 
205   case GlobalValue::ExternalWeakLinkage:
206     // External weak doesn't apply to definitions, must be a declaration.
207     assert(!doImportAsDefinition(SGV));
208     // Linkage stays external_weak.
209     return SGV->getLinkage();
210 
211   case GlobalValue::CommonLinkage:
212     // Linkage stays common on definitions.
213     // The ThinLTO pass will eventually force-import their definitions.
214     return SGV->getLinkage();
215   }
216 
217   llvm_unreachable("unknown linkage type");
218 }
219 
220 void FunctionImportGlobalProcessing::processGlobalForThinLTO(GlobalValue &GV) {
221 
222   ValueInfo VI;
223   if (GV.hasName()) {
224     VI = ImportIndex.getValueInfo(GV.getGUID());
225     // Set synthetic function entry counts.
226     if (VI && ImportIndex.hasSyntheticEntryCounts()) {
227       if (Function *F = dyn_cast<Function>(&GV)) {
228         if (!F->isDeclaration()) {
229           for (const auto &S : VI.getSummaryList()) {
230             auto *FS = cast<FunctionSummary>(S->getBaseObject());
231             if (FS->modulePath() == M.getModuleIdentifier()) {
232               F->setEntryCount(Function::ProfileCount(FS->entryCount(),
233                                                       Function::PCT_Synthetic));
234               break;
235             }
236           }
237         }
238       }
239     }
240   }
241 
242   // We should always have a ValueInfo (i.e. GV in index) for definitions when
243   // we are exporting, and also when importing that value.
244   assert(VI || GV.isDeclaration() ||
245          (isPerformingImport() && !doImportAsDefinition(&GV)));
246 
247   // Mark read/write-only variables which can be imported with specific
248   // attribute. We can't internalize them now because IRMover will fail
249   // to link variable definitions to their external declarations during
250   // ThinLTO import. We'll internalize read-only variables later, after
251   // import is finished. See internalizeGVsAfterImport.
252   //
253   // If global value dead stripping is not enabled in summary then
254   // propagateConstants hasn't been run. We can't internalize GV
255   // in such case.
256   if (!GV.isDeclaration() && VI && ImportIndex.withAttributePropagation()) {
257     if (GlobalVariable *V = dyn_cast<GlobalVariable>(&GV)) {
258       // We can have more than one local with the same GUID, in the case of
259       // same-named locals in different but same-named source files that were
260       // compiled in their respective directories (so the source file name
261       // and resulting GUID is the same). Find the one in this module.
262       // Handle the case where there is no summary found in this module. That
263       // can happen in the distributed ThinLTO backend, because the index only
264       // contains summaries from the source modules if they are being imported.
265       // We might have a non-null VI and get here even in that case if the name
266       // matches one in this module (e.g. weak or appending linkage).
267       auto *GVS = dyn_cast_or_null<GlobalVarSummary>(
268           ImportIndex.findSummaryInModule(VI, M.getModuleIdentifier()));
269       if (GVS &&
270           (ImportIndex.isReadOnly(GVS) || ImportIndex.isWriteOnly(GVS))) {
271         V->addAttribute("thinlto-internalize");
272         // Objects referenced by writeonly GV initializer should not be
273         // promoted, because there is no any kind of read access to them
274         // on behalf of this writeonly GV. To avoid promotion we convert
275         // GV initializer to 'zeroinitializer'. This effectively drops
276         // references in IR module (not in combined index), so we can
277         // ignore them when computing import. We do not export references
278         // of writeonly object. See computeImportForReferencedGlobals
279         if (ImportIndex.isWriteOnly(GVS))
280           V->setInitializer(Constant::getNullValue(V->getValueType()));
281       }
282     }
283   }
284 
285   if (GV.hasLocalLinkage() && shouldPromoteLocalToGlobal(&GV, VI)) {
286     // Save the original name string before we rename GV below.
287     auto Name = GV.getName().str();
288     GV.setName(getPromotedName(&GV));
289     GV.setLinkage(getLinkage(&GV, /* DoPromote */ true));
290     assert(!GV.hasLocalLinkage());
291     GV.setVisibility(GlobalValue::HiddenVisibility);
292 
293     // If we are renaming a COMDAT leader, ensure that we record the COMDAT
294     // for later renaming as well. This is required for COFF.
295     if (const auto *C = GV.getComdat())
296       if (C->getName() == Name)
297         RenamedComdats.try_emplace(C, M.getOrInsertComdat(GV.getName()));
298   } else
299     GV.setLinkage(getLinkage(&GV, /* DoPromote */ false));
300 
301   // When ClearDSOLocalOnDeclarations is true, clear dso_local if GV is
302   // converted to a declaration, to disable direct access. Don't do this if GV
303   // is implicitly dso_local due to a non-default visibility.
304   if (ClearDSOLocalOnDeclarations &&
305       (GV.isDeclarationForLinker() ||
306        (isPerformingImport() && !doImportAsDefinition(&GV))) &&
307       !GV.isImplicitDSOLocal()) {
308     GV.setDSOLocal(false);
309   } else if (VI && VI.isDSOLocal(ImportIndex.withDSOLocalPropagation())) {
310     // If all summaries are dso_local, symbol gets resolved to a known local
311     // definition.
312     GV.setDSOLocal(true);
313     if (GV.hasDLLImportStorageClass())
314       GV.setDLLStorageClass(GlobalValue::DefaultStorageClass);
315   }
316 
317   // Remove functions imported as available externally defs from comdats,
318   // as this is a declaration for the linker, and will be dropped eventually.
319   // It is illegal for comdats to contain declarations.
320   auto *GO = dyn_cast<GlobalObject>(&GV);
321   if (GO && GO->isDeclarationForLinker() && GO->hasComdat()) {
322     // The IRMover should not have placed any imported declarations in
323     // a comdat, so the only declaration that should be in a comdat
324     // at this point would be a definition imported as available_externally.
325     assert(GO->hasAvailableExternallyLinkage() &&
326            "Expected comdat on definition (possibly available external)");
327     GO->setComdat(nullptr);
328   }
329 }
330 
331 void FunctionImportGlobalProcessing::processGlobalsForThinLTO() {
332   for (GlobalVariable &GV : M.globals())
333     processGlobalForThinLTO(GV);
334   for (Function &SF : M)
335     processGlobalForThinLTO(SF);
336   for (GlobalAlias &GA : M.aliases())
337     processGlobalForThinLTO(GA);
338 
339   // Replace any COMDATS that required renaming (because the COMDAT leader was
340   // promoted and renamed).
341   if (!RenamedComdats.empty())
342     for (auto &GO : M.global_objects())
343       if (auto *C = GO.getComdat()) {
344         auto Replacement = RenamedComdats.find(C);
345         if (Replacement != RenamedComdats.end())
346           GO.setComdat(Replacement->second);
347       }
348 }
349 
350 bool FunctionImportGlobalProcessing::run() {
351   processGlobalsForThinLTO();
352   return false;
353 }
354 
355 bool llvm::renameModuleForThinLTO(Module &M, const ModuleSummaryIndex &Index,
356                                   bool ClearDSOLocalOnDeclarations,
357                                   SetVector<GlobalValue *> *GlobalsToImport) {
358   FunctionImportGlobalProcessing ThinLTOProcessing(M, Index, GlobalsToImport,
359                                                    ClearDSOLocalOnDeclarations);
360   return ThinLTOProcessing.run();
361 }
362