/// \brief Keep track of the metadata nodes that have been checked already.
SmallPtrSet<const Metadata *, 32> MDNodes;
- /// \brief Track string-based type references.
- SmallDenseMap<const MDString *, const MDNode *, 32> TypeRefs;
+ /// \brief Track unresolved string-based type references.
+ SmallDenseMap<const MDString *, const MDNode *, 32> UnresolvedTypeRefs;
+
+ /// \brief Track queue of bit piece expressions to verify.
+ SmallVector<const DbgInfoIntrinsic *, 32> QueuedBitPieceExpressions;
/// \brief The personality function referenced by the LandingPadInsts.
/// All LandingPadInsts within the same function must use the same
// Module-level debug info verification...
void verifyTypeRefs();
+ template <class MapTy>
+ void verifyBitPieceExpression(const DbgInfoIntrinsic &I,
+ const MapTy &TypeRefs);
void visitUnresolvedTypeRef(const MDString *S, const MDNode *N);
};
} // End anonymous namespace
// Keep track of names of types referenced via UUID so we can check that they
// actually exist.
- TypeRefs.insert(std::make_pair(S, &N));
+ UnresolvedTypeRefs.insert(std::make_pair(S, &N));
return true;
}
"invalid llvm.dbg." + Kind + " intrinsic expression", &DII,
DII.getRawExpression());
+ // Queue up bit piece expressions to be verified once we can resolve
+ // typerefs.
+ if (DII.getExpression()->isValid() && DII.getExpression()->isBitPiece())
+ QueuedBitPieceExpressions.push_back(&DII);
+
// Ignore broken !dbg attachments; they're checked elsewhere.
if (MDNode *N = DII.getDebugLoc().getAsMDNode())
if (!isa<MDLocation>(N))
BB ? BB->getParent() : nullptr, Var, VarIA, Loc, LocIA);
}
+template <class MapTy>
+static uint64_t getVariableSize(const MDLocalVariable &V, const MapTy &Map) {
+ // Be careful of broken types (checked elsewhere).
+ const Metadata *RawType = V.getRawType();
+ while (RawType) {
+ // Try to get the size directly.
+ if (auto *T = dyn_cast<MDType>(RawType))
+ if (uint64_t Size = T->getSizeInBits())
+ return Size;
+
+ if (auto *DT = dyn_cast<MDDerivedType>(RawType)) {
+ // Look at the base type.
+ RawType = DT->getRawBaseType();
+ continue;
+ }
+
+ if (auto *S = dyn_cast<MDString>(RawType)) {
+ // Don't error on missing types (checked elsewhere).
+ RawType = Map.lookup(S);
+ continue;
+ }
+
+ // Missing type or size.
+ break;
+ }
+
+ // Fail gracefully.
+ return 0;
+}
+
+template <class MapTy>
+void Verifier::verifyBitPieceExpression(const DbgInfoIntrinsic &I,
+ const MapTy &TypeRefs) {
+ MDLocalVariable *V;
+ MDExpression *E;
+ if (auto *DVI = dyn_cast<DbgValueInst>(&I)) {
+ V = DVI->getVariable();
+ E = DVI->getExpression();
+ } else {
+ auto *DDI = cast<DbgDeclareInst>(&I);
+ V = DDI->getVariable();
+ E = DDI->getExpression();
+ }
+
+ assert(V && E->isValid() && E->isBitPiece() &&
+ "Expected valid bitpieces here");
+
+ // If there's no size, the type is broken, but that should be checked
+ // elsewhere.
+ uint64_t VarSize = getVariableSize(*V, TypeRefs);
+ if (!VarSize)
+ return;
+
+ unsigned PieceSize = E->getBitPieceSize();
+ unsigned PieceOffset = E->getBitPieceOffset();
+ Assert(PieceSize + PieceOffset <= VarSize,
+ "piece is larger than or outside of variable", &I, V, E);
+ Assert(PieceSize != VarSize, "piece covers entire variable", &I, V, E);
+}
+
void Verifier::visitUnresolvedTypeRef(const MDString *S, const MDNode *N) {
// This is in its own function so we get an error for each bad type ref (not
// just the first).
if (!CUs)
return;
- // Visit all the compile units again to check the type references.
+ // Visit all the compile units again to map the type references.
+ SmallDenseMap<const MDString *, const MDType *, 32> TypeRefs;
for (auto *CU : CUs->operands())
if (auto Ts = cast<MDCompileUnit>(CU)->getRetainedTypes())
for (MDType *Op : Ts)
if (auto *T = dyn_cast<MDCompositeType>(Op))
- TypeRefs.erase(T->getRawIdentifier());
- if (TypeRefs.empty())
+ if (auto *S = T->getRawIdentifier()) {
+ UnresolvedTypeRefs.erase(S);
+ TypeRefs.insert(std::make_pair(S, T));
+ }
+
+ // Verify debug intrinsic bit piece expressions.
+ for (auto *DII : QueuedBitPieceExpressions)
+ verifyBitPieceExpression(*DII, TypeRefs);
+
+ // Return early if all typerefs were resolved.
+ if (UnresolvedTypeRefs.empty())
return;
// Sort the unresolved references by name so the output is deterministic.
typedef std::pair<const MDString *, const MDNode *> TypeRef;
- SmallVector<TypeRef, 32> Unresolved(TypeRefs.begin(), TypeRefs.end());
+ SmallVector<TypeRef, 32> Unresolved(UnresolvedTypeRefs.begin(),
+ UnresolvedTypeRefs.end());
std::sort(Unresolved.begin(), Unresolved.end(),
[](const TypeRef &LHS, const TypeRef &RHS) {
return LHS.first->getString() < RHS.first->getString();