xref: /freebsd/contrib/llvm-project/clang/lib/Analysis/FlowSensitive/DataflowEnvironment.cpp (revision 4d3fc8b0570b29fb0d6ee9525f104d52176ff0d4)
1 //===-- DataflowEnvironment.cpp ---------------------------------*- 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 //  This file defines an Environment class that is used by dataflow analyses
10 //  that run over Control-Flow Graphs (CFGs) to keep track of the state of the
11 //  program at given program points.
12 //
13 //===----------------------------------------------------------------------===//
14 
15 #include "clang/Analysis/FlowSensitive/DataflowEnvironment.h"
16 #include "clang/AST/Decl.h"
17 #include "clang/AST/DeclCXX.h"
18 #include "clang/AST/Type.h"
19 #include "clang/Analysis/FlowSensitive/DataflowLattice.h"
20 #include "clang/Analysis/FlowSensitive/Value.h"
21 #include "llvm/ADT/DenseMap.h"
22 #include "llvm/ADT/DenseSet.h"
23 #include "llvm/Support/Casting.h"
24 #include "llvm/Support/ErrorHandling.h"
25 #include <cassert>
26 #include <memory>
27 #include <utility>
28 
29 namespace clang {
30 namespace dataflow {
31 
32 // FIXME: convert these to parameters of the analysis or environment. Current
33 // settings have been experimentaly validated, but only for a particular
34 // analysis.
35 static constexpr int MaxCompositeValueDepth = 3;
36 static constexpr int MaxCompositeValueSize = 1000;
37 
38 /// Returns a map consisting of key-value entries that are present in both maps.
39 template <typename K, typename V>
40 llvm::DenseMap<K, V> intersectDenseMaps(const llvm::DenseMap<K, V> &Map1,
41                                         const llvm::DenseMap<K, V> &Map2) {
42   llvm::DenseMap<K, V> Result;
43   for (auto &Entry : Map1) {
44     auto It = Map2.find(Entry.first);
45     if (It != Map2.end() && Entry.second == It->second)
46       Result.insert({Entry.first, Entry.second});
47   }
48   return Result;
49 }
50 
51 static bool areEquivalentIndirectionValues(Value *Val1, Value *Val2) {
52   if (auto *IndVal1 = dyn_cast<ReferenceValue>(Val1)) {
53     auto *IndVal2 = cast<ReferenceValue>(Val2);
54     return &IndVal1->getReferentLoc() == &IndVal2->getReferentLoc();
55   }
56   if (auto *IndVal1 = dyn_cast<PointerValue>(Val1)) {
57     auto *IndVal2 = cast<PointerValue>(Val2);
58     return &IndVal1->getPointeeLoc() == &IndVal2->getPointeeLoc();
59   }
60   return false;
61 }
62 
63 /// Returns true if and only if `Val1` is equivalent to `Val2`.
64 static bool equivalentValues(QualType Type, Value *Val1,
65                              const Environment &Env1, Value *Val2,
66                              const Environment &Env2,
67                              Environment::ValueModel &Model) {
68   return Val1 == Val2 || areEquivalentIndirectionValues(Val1, Val2) ||
69          Model.compareEquivalent(Type, *Val1, Env1, *Val2, Env2);
70 }
71 
72 /// Attempts to merge distinct values `Val1` and `Val2` in `Env1` and `Env2`,
73 /// respectively, of the same type `Type`. Merging generally produces a single
74 /// value that (soundly) approximates the two inputs, although the actual
75 /// meaning depends on `Model`.
76 static Value *mergeDistinctValues(QualType Type, Value *Val1,
77                                   const Environment &Env1, Value *Val2,
78                                   const Environment &Env2,
79                                   Environment &MergedEnv,
80                                   Environment::ValueModel &Model) {
81   // Join distinct boolean values preserving information about the constraints
82   // in the respective path conditions.
83   //
84   // FIXME: Does not work for backedges, since the two (or more) paths will not
85   // have mutually exclusive conditions.
86   if (auto *Expr1 = dyn_cast<BoolValue>(Val1)) {
87     auto *Expr2 = cast<BoolValue>(Val2);
88     auto &MergedVal = MergedEnv.makeAtomicBoolValue();
89     MergedEnv.addToFlowCondition(MergedEnv.makeOr(
90         MergedEnv.makeAnd(Env1.getFlowConditionToken(),
91                           MergedEnv.makeIff(MergedVal, *Expr1)),
92         MergedEnv.makeAnd(Env2.getFlowConditionToken(),
93                           MergedEnv.makeIff(MergedVal, *Expr2))));
94     return &MergedVal;
95   }
96 
97   // FIXME: add unit tests that cover this statement.
98   if (areEquivalentIndirectionValues(Val1, Val2)) {
99     return Val1;
100   }
101 
102   // FIXME: Consider destroying `MergedValue` immediately if `ValueModel::merge`
103   // returns false to avoid storing unneeded values in `DACtx`.
104   if (Value *MergedVal = MergedEnv.createValue(Type))
105     if (Model.merge(Type, *Val1, Env1, *Val2, Env2, *MergedVal, MergedEnv))
106       return MergedVal;
107 
108   return nullptr;
109 }
110 
111 /// Initializes a global storage value.
112 static void initGlobalVar(const VarDecl &D, Environment &Env) {
113   if (!D.hasGlobalStorage() ||
114       Env.getStorageLocation(D, SkipPast::None) != nullptr)
115     return;
116 
117   auto &Loc = Env.createStorageLocation(D);
118   Env.setStorageLocation(D, Loc);
119   if (auto *Val = Env.createValue(D.getType()))
120     Env.setValue(Loc, *Val);
121 }
122 
123 /// Initializes a global storage value.
124 static void initGlobalVar(const Decl &D, Environment &Env) {
125   if (auto *V = dyn_cast<VarDecl>(&D))
126     initGlobalVar(*V, Env);
127 }
128 
129 /// Initializes global storage values that are declared or referenced from
130 /// sub-statements of `S`.
131 // FIXME: Add support for resetting globals after function calls to enable
132 // the implementation of sound analyses.
133 static void initGlobalVars(const Stmt &S, Environment &Env) {
134   for (auto *Child : S.children()) {
135     if (Child != nullptr)
136       initGlobalVars(*Child, Env);
137   }
138 
139   if (auto *DS = dyn_cast<DeclStmt>(&S)) {
140     if (DS->isSingleDecl()) {
141       initGlobalVar(*DS->getSingleDecl(), Env);
142     } else {
143       for (auto *D : DS->getDeclGroup())
144         initGlobalVar(*D, Env);
145     }
146   } else if (auto *E = dyn_cast<DeclRefExpr>(&S)) {
147     initGlobalVar(*E->getDecl(), Env);
148   } else if (auto *E = dyn_cast<MemberExpr>(&S)) {
149     initGlobalVar(*E->getMemberDecl(), Env);
150   }
151 }
152 
153 Environment::Environment(DataflowAnalysisContext &DACtx)
154     : DACtx(&DACtx), FlowConditionToken(&DACtx.makeFlowConditionToken()) {}
155 
156 Environment::Environment(const Environment &Other)
157     : DACtx(Other.DACtx), DeclToLoc(Other.DeclToLoc),
158       ExprToLoc(Other.ExprToLoc), LocToVal(Other.LocToVal),
159       MemberLocToStruct(Other.MemberLocToStruct),
160       FlowConditionToken(&DACtx->forkFlowCondition(*Other.FlowConditionToken)) {
161 }
162 
163 Environment &Environment::operator=(const Environment &Other) {
164   Environment Copy(Other);
165   *this = std::move(Copy);
166   return *this;
167 }
168 
169 Environment::Environment(DataflowAnalysisContext &DACtx,
170                          const DeclContext &DeclCtx)
171     : Environment(DACtx) {
172   if (const auto *FuncDecl = dyn_cast<FunctionDecl>(&DeclCtx)) {
173     assert(FuncDecl->getBody() != nullptr);
174     initGlobalVars(*FuncDecl->getBody(), *this);
175     for (const auto *ParamDecl : FuncDecl->parameters()) {
176       assert(ParamDecl != nullptr);
177       auto &ParamLoc = createStorageLocation(*ParamDecl);
178       setStorageLocation(*ParamDecl, ParamLoc);
179       if (Value *ParamVal = createValue(ParamDecl->getType()))
180         setValue(ParamLoc, *ParamVal);
181     }
182   }
183 
184   if (const auto *MethodDecl = dyn_cast<CXXMethodDecl>(&DeclCtx)) {
185     auto *Parent = MethodDecl->getParent();
186     assert(Parent != nullptr);
187     if (Parent->isLambda())
188       MethodDecl = dyn_cast<CXXMethodDecl>(Parent->getDeclContext());
189 
190     if (MethodDecl && !MethodDecl->isStatic()) {
191       QualType ThisPointeeType = MethodDecl->getThisObjectType();
192       // FIXME: Add support for union types.
193       if (!ThisPointeeType->isUnionType()) {
194         auto &ThisPointeeLoc = createStorageLocation(ThisPointeeType);
195         DACtx.setThisPointeeStorageLocation(ThisPointeeLoc);
196         if (Value *ThisPointeeVal = createValue(ThisPointeeType))
197           setValue(ThisPointeeLoc, *ThisPointeeVal);
198       }
199     }
200   }
201 }
202 
203 Environment Environment::pushCall(const CallExpr *Call) const {
204   Environment Env(*this);
205 
206   // FIXME: Currently this only works if the callee is never a method and the
207   // same callee is never analyzed from multiple separate callsites. To
208   // generalize this, we'll need to store a "context" field (probably a stack of
209   // `const CallExpr *`s) in the `Environment`, and then change the
210   // `DataflowAnalysisContext` class to hold a map from contexts to "frames",
211   // where each frame stores its own version of what are currently the
212   // `DeclToLoc`, `ExprToLoc`, and `ThisPointeeLoc` fields.
213 
214   const auto *FuncDecl = Call->getDirectCallee();
215   assert(FuncDecl != nullptr);
216   assert(FuncDecl->getBody() != nullptr);
217   // FIXME: In order to allow the callee to reference globals, we probably need
218   // to call `initGlobalVars` here in some way.
219 
220   auto ParamIt = FuncDecl->param_begin();
221   auto ArgIt = Call->arg_begin();
222   auto ArgEnd = Call->arg_end();
223 
224   // FIXME: Parameters don't always map to arguments 1:1; examples include
225   // overloaded operators implemented as member functions, and parameter packs.
226   for (; ArgIt != ArgEnd; ++ParamIt, ++ArgIt) {
227     assert(ParamIt != FuncDecl->param_end());
228 
229     const VarDecl *Param = *ParamIt;
230     const Expr *Arg = *ArgIt;
231     auto *ArgLoc = Env.getStorageLocation(*Arg, SkipPast::Reference);
232     assert(ArgLoc != nullptr);
233     Env.setStorageLocation(*Param, *ArgLoc);
234   }
235 
236   return Env;
237 }
238 
239 bool Environment::equivalentTo(const Environment &Other,
240                                Environment::ValueModel &Model) const {
241   assert(DACtx == Other.DACtx);
242 
243   if (DeclToLoc != Other.DeclToLoc)
244     return false;
245 
246   if (ExprToLoc != Other.ExprToLoc)
247     return false;
248 
249   // Compare the contents for the intersection of their domains.
250   for (auto &Entry : LocToVal) {
251     const StorageLocation *Loc = Entry.first;
252     assert(Loc != nullptr);
253 
254     Value *Val = Entry.second;
255     assert(Val != nullptr);
256 
257     auto It = Other.LocToVal.find(Loc);
258     if (It == Other.LocToVal.end())
259       continue;
260     assert(It->second != nullptr);
261 
262     if (!equivalentValues(Loc->getType(), Val, *this, It->second, Other, Model))
263       return false;
264   }
265 
266   return true;
267 }
268 
269 LatticeJoinEffect Environment::join(const Environment &Other,
270                                     Environment::ValueModel &Model) {
271   assert(DACtx == Other.DACtx);
272 
273   auto Effect = LatticeJoinEffect::Unchanged;
274 
275   Environment JoinedEnv(*DACtx);
276 
277   JoinedEnv.DeclToLoc = intersectDenseMaps(DeclToLoc, Other.DeclToLoc);
278   if (DeclToLoc.size() != JoinedEnv.DeclToLoc.size())
279     Effect = LatticeJoinEffect::Changed;
280 
281   JoinedEnv.ExprToLoc = intersectDenseMaps(ExprToLoc, Other.ExprToLoc);
282   if (ExprToLoc.size() != JoinedEnv.ExprToLoc.size())
283     Effect = LatticeJoinEffect::Changed;
284 
285   JoinedEnv.MemberLocToStruct =
286       intersectDenseMaps(MemberLocToStruct, Other.MemberLocToStruct);
287   if (MemberLocToStruct.size() != JoinedEnv.MemberLocToStruct.size())
288     Effect = LatticeJoinEffect::Changed;
289 
290   // FIXME: set `Effect` as needed.
291   JoinedEnv.FlowConditionToken = &DACtx->joinFlowConditions(
292       *FlowConditionToken, *Other.FlowConditionToken);
293 
294   for (auto &Entry : LocToVal) {
295     const StorageLocation *Loc = Entry.first;
296     assert(Loc != nullptr);
297 
298     Value *Val = Entry.second;
299     assert(Val != nullptr);
300 
301     auto It = Other.LocToVal.find(Loc);
302     if (It == Other.LocToVal.end())
303       continue;
304     assert(It->second != nullptr);
305 
306     if (Val == It->second) {
307       JoinedEnv.LocToVal.insert({Loc, Val});
308       continue;
309     }
310 
311     if (Value *MergedVal = mergeDistinctValues(
312             Loc->getType(), Val, *this, It->second, Other, JoinedEnv, Model))
313       JoinedEnv.LocToVal.insert({Loc, MergedVal});
314   }
315   if (LocToVal.size() != JoinedEnv.LocToVal.size())
316     Effect = LatticeJoinEffect::Changed;
317 
318   *this = std::move(JoinedEnv);
319 
320   return Effect;
321 }
322 
323 StorageLocation &Environment::createStorageLocation(QualType Type) {
324   return DACtx->getStableStorageLocation(Type);
325 }
326 
327 StorageLocation &Environment::createStorageLocation(const VarDecl &D) {
328   // Evaluated declarations are always assigned the same storage locations to
329   // ensure that the environment stabilizes across loop iterations. Storage
330   // locations for evaluated declarations are stored in the analysis context.
331   return DACtx->getStableStorageLocation(D);
332 }
333 
334 StorageLocation &Environment::createStorageLocation(const Expr &E) {
335   // Evaluated expressions are always assigned the same storage locations to
336   // ensure that the environment stabilizes across loop iterations. Storage
337   // locations for evaluated expressions are stored in the analysis context.
338   return DACtx->getStableStorageLocation(E);
339 }
340 
341 void Environment::setStorageLocation(const ValueDecl &D, StorageLocation &Loc) {
342   assert(DeclToLoc.find(&D) == DeclToLoc.end());
343   DeclToLoc[&D] = &Loc;
344 }
345 
346 StorageLocation *Environment::getStorageLocation(const ValueDecl &D,
347                                                  SkipPast SP) const {
348   auto It = DeclToLoc.find(&D);
349   return It == DeclToLoc.end() ? nullptr : &skip(*It->second, SP);
350 }
351 
352 void Environment::setStorageLocation(const Expr &E, StorageLocation &Loc) {
353   const Expr &CanonE = ignoreCFGOmittedNodes(E);
354   assert(ExprToLoc.find(&CanonE) == ExprToLoc.end());
355   ExprToLoc[&CanonE] = &Loc;
356 }
357 
358 StorageLocation *Environment::getStorageLocation(const Expr &E,
359                                                  SkipPast SP) const {
360   // FIXME: Add a test with parens.
361   auto It = ExprToLoc.find(&ignoreCFGOmittedNodes(E));
362   return It == ExprToLoc.end() ? nullptr : &skip(*It->second, SP);
363 }
364 
365 StorageLocation *Environment::getThisPointeeStorageLocation() const {
366   return DACtx->getThisPointeeStorageLocation();
367 }
368 
369 PointerValue &Environment::getOrCreateNullPointerValue(QualType PointeeType) {
370   return DACtx->getOrCreateNullPointerValue(PointeeType);
371 }
372 
373 void Environment::setValue(const StorageLocation &Loc, Value &Val) {
374   LocToVal[&Loc] = &Val;
375 
376   if (auto *StructVal = dyn_cast<StructValue>(&Val)) {
377     auto &AggregateLoc = *cast<AggregateStorageLocation>(&Loc);
378 
379     const QualType Type = AggregateLoc.getType();
380     assert(Type->isStructureOrClassType());
381 
382     for (const FieldDecl *Field : getObjectFields(Type)) {
383       assert(Field != nullptr);
384       StorageLocation &FieldLoc = AggregateLoc.getChild(*Field);
385       MemberLocToStruct[&FieldLoc] = std::make_pair(StructVal, Field);
386       if (auto *FieldVal = StructVal->getChild(*Field))
387         setValue(FieldLoc, *FieldVal);
388     }
389   }
390 
391   auto It = MemberLocToStruct.find(&Loc);
392   if (It != MemberLocToStruct.end()) {
393     // `Loc` is the location of a struct member so we need to also update the
394     // value of the member in the corresponding `StructValue`.
395 
396     assert(It->second.first != nullptr);
397     StructValue &StructVal = *It->second.first;
398 
399     assert(It->second.second != nullptr);
400     const ValueDecl &Member = *It->second.second;
401 
402     StructVal.setChild(Member, Val);
403   }
404 }
405 
406 Value *Environment::getValue(const StorageLocation &Loc) const {
407   auto It = LocToVal.find(&Loc);
408   return It == LocToVal.end() ? nullptr : It->second;
409 }
410 
411 Value *Environment::getValue(const ValueDecl &D, SkipPast SP) const {
412   auto *Loc = getStorageLocation(D, SP);
413   if (Loc == nullptr)
414     return nullptr;
415   return getValue(*Loc);
416 }
417 
418 Value *Environment::getValue(const Expr &E, SkipPast SP) const {
419   auto *Loc = getStorageLocation(E, SP);
420   if (Loc == nullptr)
421     return nullptr;
422   return getValue(*Loc);
423 }
424 
425 Value *Environment::createValue(QualType Type) {
426   llvm::DenseSet<QualType> Visited;
427   int CreatedValuesCount = 0;
428   Value *Val = createValueUnlessSelfReferential(Type, Visited, /*Depth=*/0,
429                                                 CreatedValuesCount);
430   if (CreatedValuesCount > MaxCompositeValueSize) {
431     llvm::errs() << "Attempting to initialize a huge value of type: " << Type
432                  << '\n';
433   }
434   return Val;
435 }
436 
437 Value *Environment::createValueUnlessSelfReferential(
438     QualType Type, llvm::DenseSet<QualType> &Visited, int Depth,
439     int &CreatedValuesCount) {
440   assert(!Type.isNull());
441 
442   // Allow unlimited fields at depth 1; only cap at deeper nesting levels.
443   if ((Depth > 1 && CreatedValuesCount > MaxCompositeValueSize) ||
444       Depth > MaxCompositeValueDepth)
445     return nullptr;
446 
447   if (Type->isBooleanType()) {
448     CreatedValuesCount++;
449     return &makeAtomicBoolValue();
450   }
451 
452   if (Type->isIntegerType()) {
453     CreatedValuesCount++;
454     return &takeOwnership(std::make_unique<IntegerValue>());
455   }
456 
457   if (Type->isReferenceType()) {
458     CreatedValuesCount++;
459     QualType PointeeType = Type->castAs<ReferenceType>()->getPointeeType();
460     auto &PointeeLoc = createStorageLocation(PointeeType);
461 
462     if (Visited.insert(PointeeType.getCanonicalType()).second) {
463       Value *PointeeVal = createValueUnlessSelfReferential(
464           PointeeType, Visited, Depth, CreatedValuesCount);
465       Visited.erase(PointeeType.getCanonicalType());
466 
467       if (PointeeVal != nullptr)
468         setValue(PointeeLoc, *PointeeVal);
469     }
470 
471     return &takeOwnership(std::make_unique<ReferenceValue>(PointeeLoc));
472   }
473 
474   if (Type->isPointerType()) {
475     CreatedValuesCount++;
476     QualType PointeeType = Type->castAs<PointerType>()->getPointeeType();
477     auto &PointeeLoc = createStorageLocation(PointeeType);
478 
479     if (Visited.insert(PointeeType.getCanonicalType()).second) {
480       Value *PointeeVal = createValueUnlessSelfReferential(
481           PointeeType, Visited, Depth, CreatedValuesCount);
482       Visited.erase(PointeeType.getCanonicalType());
483 
484       if (PointeeVal != nullptr)
485         setValue(PointeeLoc, *PointeeVal);
486     }
487 
488     return &takeOwnership(std::make_unique<PointerValue>(PointeeLoc));
489   }
490 
491   if (Type->isStructureOrClassType()) {
492     CreatedValuesCount++;
493     // FIXME: Initialize only fields that are accessed in the context that is
494     // being analyzed.
495     llvm::DenseMap<const ValueDecl *, Value *> FieldValues;
496     for (const FieldDecl *Field : getObjectFields(Type)) {
497       assert(Field != nullptr);
498 
499       QualType FieldType = Field->getType();
500       if (Visited.contains(FieldType.getCanonicalType()))
501         continue;
502 
503       Visited.insert(FieldType.getCanonicalType());
504       if (auto *FieldValue = createValueUnlessSelfReferential(
505               FieldType, Visited, Depth + 1, CreatedValuesCount))
506         FieldValues.insert({Field, FieldValue});
507       Visited.erase(FieldType.getCanonicalType());
508     }
509 
510     return &takeOwnership(
511         std::make_unique<StructValue>(std::move(FieldValues)));
512   }
513 
514   return nullptr;
515 }
516 
517 StorageLocation &Environment::skip(StorageLocation &Loc, SkipPast SP) const {
518   switch (SP) {
519   case SkipPast::None:
520     return Loc;
521   case SkipPast::Reference:
522     // References cannot be chained so we only need to skip past one level of
523     // indirection.
524     if (auto *Val = dyn_cast_or_null<ReferenceValue>(getValue(Loc)))
525       return Val->getReferentLoc();
526     return Loc;
527   case SkipPast::ReferenceThenPointer:
528     StorageLocation &LocPastRef = skip(Loc, SkipPast::Reference);
529     if (auto *Val = dyn_cast_or_null<PointerValue>(getValue(LocPastRef)))
530       return Val->getPointeeLoc();
531     return LocPastRef;
532   }
533   llvm_unreachable("bad SkipPast kind");
534 }
535 
536 const StorageLocation &Environment::skip(const StorageLocation &Loc,
537                                          SkipPast SP) const {
538   return skip(*const_cast<StorageLocation *>(&Loc), SP);
539 }
540 
541 void Environment::addToFlowCondition(BoolValue &Val) {
542   DACtx->addFlowConditionConstraint(*FlowConditionToken, Val);
543 }
544 
545 bool Environment::flowConditionImplies(BoolValue &Val) const {
546   return DACtx->flowConditionImplies(*FlowConditionToken, Val);
547 }
548 
549 void Environment::dump() const {
550   DACtx->dumpFlowCondition(*FlowConditionToken);
551 }
552 
553 } // namespace dataflow
554 } // namespace clang
555