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[analyzer][UninitializedObjectChecker] Updated comments 

Some of the comments are incorrect, imprecise, or simply nonexistent.
Since I have a better grasp on how the analyzer works, it makes sense
to update most of them in a single swoop.

I tried not to flood the code with comments too much, this amount
feels just right to me.

Differential Revision: https://reviews.llvm.org/D51417

llvm-svn: 342215
This commit is contained in:
Kristof Umann 2018-09-14 09:07:40 +00:00
parent 6831d0caf2
commit ceb5f6540f
3 changed files with 67 additions and 74 deletions
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90
clang/lib/StaticAnalyzer/Checkers/UninitializedObject/UninitializedObject.h
View File

@ -26,31 +26,36 @@
namespace clang {
namespace ento {
/// Represent a single field. This is only an interface to abstract away special
/// cases like pointers/references.
/// A lightweight polymorphic wrapper around FieldRegion *. We'll use this
/// interface to store addinitional information about fields. As described
/// later, a list of these objects (i.e. "fieldchain") will be constructed and
/// used for printing note messages should an uninitialized value be found.
class FieldNode {
protected:
const FieldRegion *FR;
/// FieldNodes are never meant to be created on the heap, see
/// FindUninitializedFields::addFieldToUninits().
/* non-virtual */ ~FieldNode() = default;
public:
FieldNode(const FieldRegion *FR) : FR(FR) {}
// We'll delete all of these special member functions to force the users of
// this interface to only store references to FieldNode objects in containers.
FieldNode() = delete;
FieldNode(const FieldNode &) = delete;
FieldNode(FieldNode &&) = delete;
FieldNode &operator=(const FieldNode &) = delete;
FieldNode &operator=(const FieldNode &&) = delete;
/// Profile - Used to profile the contents of this object for inclusion in a
/// FoldingSet.
void Profile(llvm::FoldingSetNodeID &ID) const { ID.AddPointer(this); }
// Helper method for uniqueing.
/// Helper method for uniqueing.
bool isSameRegion(const FieldRegion *OtherFR) const {
// Special FieldNode descendants may wrap nullpointers -- we wouldn't like
// to unique these objects.
// Special FieldNode descendants may wrap nullpointers (for example if they
// describe a special relationship between two elements of the fieldchain)
// -- we wouldn't like to unique these objects.
if (FR == nullptr)
return false;
@ -63,19 +68,22 @@ public:
return FR->getDecl();
}
// When a fieldchain is printed (a list of FieldNode objects), it will have
// the following format:
// <note message>'<prefix>this-><node><separator><node><separator>...<node>'
// When a fieldchain is printed, it will have the following format (without
// newline, indices are in order of insertion, from 1 to n):
//
// <note_message_n>'<prefix_n><prefix_n-1>...<prefix_1>
// this-><node_1><separator_1><node_2><separator_2>...<node_n>'
/// If this is the last element of the fieldchain, this method will be called.
/// If this is the last element of the fieldchain, this method will print the
/// note message associated with it.
/// The note message should state something like "uninitialized field" or
/// "uninitialized pointee" etc.
virtual void printNoteMsg(llvm::raw_ostream &Out) const = 0;
/// Print any prefixes before the fieldchain.
/// Print any prefixes before the fieldchain. Could contain casts, etc.
virtual void printPrefix(llvm::raw_ostream &Out) const = 0;
/// Print the node. Should contain the name of the field stored in getRegion.
/// Print the node. Should contain the name of the field stored in FR.
virtual void printNode(llvm::raw_ostream &Out) const = 0;
/// Print the separator. For example, fields may be separated with '.' or
@ -89,14 +97,14 @@ public:
/// even if Field is a captured lambda variable.
std::string getVariableName(const FieldDecl *Field);
/// Represents a field chain. A field chain is a vector of fields where the
/// first element of the chain is the object under checking (not stored), and
/// every other element is a field, and the element that precedes it is the
/// object that contains it.
/// Represents a field chain. A field chain is a list of fields where the first
/// element of the chain is the object under checking (not stored), and every
/// other element is a field, and the element that precedes it is the object
/// that contains it.
///
/// Note that this class is immutable (essentially a wrapper around an
/// ImmutableList), and new elements can only be added by creating new
/// FieldChainInfo objects through add().
/// ImmutableList), new FieldChainInfo objects may be created by member
/// functions such as add() and replaceHead().
class FieldChainInfo {
public:
using FieldChainImpl = llvm::ImmutableListImpl<const FieldNode &>;
@ -116,7 +124,11 @@ public:
FieldChainInfo(FieldChain::Factory &F) : ChainFactory(F) {}
FieldChainInfo(const FieldChainInfo &Other) = default;
/// Constructs a new FieldChainInfo object with \p FN appended.
template <class FieldNodeT> FieldChainInfo add(const FieldNodeT &FN);
/// Constructs a new FieldChainInfo object with \p FN as the new head of the
/// list.
template <class FieldNodeT> FieldChainInfo replaceHead(const FieldNodeT &FN);
bool contains(const FieldRegion *FR) const;
@ -124,6 +136,7 @@ public:
const FieldRegion *getUninitRegion() const;
const FieldNode &getHead() { return Chain.getHead(); }
void printNoteMsg(llvm::raw_ostream &Out) const;
};
@ -161,19 +174,21 @@ public:
const UninitFieldMap &getUninitFields() { return UninitFields; }
/// Returns whether the analyzed region contains at least one initialized
/// field.
/// field. Note that this includes subfields as well, not just direct ones,
/// and will return false if an uninitialized pointee is found with
/// CheckPointeeInitialization enabled.
bool isAnyFieldInitialized() { return IsAnyFieldInitialized; }
private:
// For the purposes of this checker, we'll regard the object under checking as
// a directed tree, where
// For the purposes of this checker, we'll regard the analyzed region as a
// directed tree, where
// * the root is the object under checking
// * every node is an object that is
// - a union
// - a non-union record
// - a pointer/reference
// - dereferencable (see isDereferencableType())
// - an array
// - of a primitive type, which we'll define later in a helper function.
// - of a primitive type (see isPrimitiveType())
// * the parent of each node is the object that contains it
// * every leaf is an array, a primitive object, a nullptr or an undefined
// pointer.
@ -215,22 +230,20 @@ private:
// We'll traverse each node of the above graph with the appropiate one of
// these methods:
/// This method checks a region of a union object, and returns true if no
/// field is initialized within the region.
/// Checks the region of a union object, and returns true if no field is
/// initialized within the region.
bool isUnionUninit(const TypedValueRegion *R);
/// This method checks a region of a non-union object, and returns true if
/// an uninitialized field is found within the region.
/// Checks a region of a non-union object, and returns true if an
/// uninitialized field is found within the region.
bool isNonUnionUninit(const TypedValueRegion *R, FieldChainInfo LocalChain);
/// This method checks a region of a pointer or reference object, and returns
/// true if the ptr/ref object itself or any field within the pointee's region
/// is uninitialized.
bool isPointerOrReferenceUninit(const FieldRegion *FR,
FieldChainInfo LocalChain);
/// This method returns true if the value of a primitive object is
/// Checks a region of a pointer or reference object, and returns true if the
/// ptr/ref object itself or any field within the pointee's region is
/// uninitialized.
bool isDereferencableUninit(const FieldRegion *FR, FieldChainInfo LocalChain);
/// Returns true if the value of a primitive object is uninitialized.
bool isPrimitiveUninit(const SVal &V);
// Note that we don't have a method for arrays -- the elements of an array are
@ -249,11 +262,8 @@ private:
bool addFieldToUninits(FieldChainInfo LocalChain);
};
/// Returns true if T is a primitive type. We defined this type so that for
/// objects that we'd only like analyze as much as checking whether their
/// value is undefined or not, such as ints and doubles, can be analyzed with
/// ease. This also helps ensuring that every special field type is handled
/// correctly.
/// Returns true if T is a primitive type. An object of a primitive type only
/// needs to be analyzed as much as checking whether their value is undefined.
inline bool isPrimitiveType(const QualType &T) {
return T->isBuiltinType() || T->isEnumeralType() ||
T->isMemberPointerType() || T->isBlockPointerType() ||

37
clang/lib/StaticAnalyzer/Checkers/UninitializedObject/UninitializedObjectChecker.cpp
View File

@ -94,7 +94,9 @@ public:
};
/// Represents that the FieldNode that comes after this is declared in a base
/// of the previous FieldNode.
/// of the previous FieldNode. As such, this descendant doesn't wrap a
/// FieldRegion, and is purely a tool to describe a relation between two other
/// FieldRegion wrapping descendants.
class BaseClass final : public FieldNode {
const QualType BaseClassT;
@ -296,7 +298,7 @@ bool FindUninitializedFields::isNonUnionUninit(const TypedValueRegion *R,
}
if (isDereferencableType(T)) {
if (isPointerOrReferenceUninit(FR, LocalChain))
if (isDereferencableUninit(FR, LocalChain))
ContainsUninitField = true;
continue;
}
@ -314,7 +316,8 @@ bool FindUninitializedFields::isNonUnionUninit(const TypedValueRegion *R,
llvm_unreachable("All cases are handled!");
}
// Checking bases.
// Checking bases. The checker will regard inherited data members as direct
// fields.
const auto *CXXRD = dyn_cast<CXXRecordDecl>(RD);
if (!CXXRD)
return ContainsUninitField;
@ -361,6 +364,9 @@ bool FindUninitializedFields::isPrimitiveUninit(const SVal &V) {
const FieldRegion *FieldChainInfo::getUninitRegion() const {
assert(!Chain.isEmpty() && "Empty fieldchain!");
// ImmutableList::getHead() isn't a const method, hence the not too nice
// implementation.
return (*Chain.begin()).getRegion();
}
@ -375,31 +381,11 @@ bool FieldChainInfo::contains(const FieldRegion *FR) const {
/// Prints every element except the last to `Out`. Since ImmutableLists store
/// elements in reverse order, and have no reverse iterators, we use a
/// recursive function to print the fieldchain correctly. The last element in
/// the chain is to be printed by `print`.
/// the chain is to be printed by `FieldChainInfo::print`.
static void printTail(llvm::raw_ostream &Out,
const FieldChainInfo::FieldChainImpl *L);
// TODO: This function constructs an incorrect string if a void pointer is a
// part of the chain:
//
// struct B { int x; }
//
// struct A {
// void *vptr;
// A(void* vptr) : vptr(vptr) {}
// };
//
// void f() {
// B b;
// A a(&b);
// }
//
// The note message will be "uninitialized field 'this->vptr->x'", even though
// void pointers can't be dereferenced. This should be changed to "uninitialized
// field 'static_cast<B*>(this->vptr)->x'".
//
// TODO: This function constructs an incorrect fieldchain string in the
// following case:
// FIXME: This function constructs an incorrect string in the following case:
//
// struct Base { int x; };
// struct D1 : Base {}; struct D2 : Base {};
@ -515,6 +501,7 @@ std::string clang::ento::getVariableName(const FieldDecl *Field) {
void ento::registerUninitializedObjectChecker(CheckerManager &Mgr) {
auto Chk = Mgr.registerChecker<UninitializedObjectChecker>();
Chk->IsPedantic = Mgr.getAnalyzerOptions().getBooleanOption(
"Pedantic", /*DefaultVal*/ false, Chk);
Chk->ShouldConvertNotesToWarnings = Mgr.getAnalyzerOptions().getBooleanOption(

14
clang/lib/StaticAnalyzer/Checkers/UninitializedObject/UninitializedPointee.cpp
View File

@ -1,4 +1,4 @@
//===----- UninitializedPointer.cpp ------------------------------*- C++ -*-==//
//===----- UninitializedPointee.cpp ------------------------------*- C++ -*-==//
//
// The LLVM Compiler Infrastructure
//
@ -90,9 +90,8 @@ public:
// Utility function declarations.
/// Returns whether T can be (transitively) dereferenced to a void pointer type
/// (void*, void**, ...). The type of the region behind a void pointer isn't
/// known, and thus FD can not be analyzed.
/// Returns whether \p T can be (transitively) dereferenced to a void pointer
/// type (void*, void**, ...).
static bool isVoidPointer(QualType T);
using DereferenceInfo = std::pair<const TypedValueRegion *, bool>;
@ -107,9 +106,7 @@ static llvm::Optional<DereferenceInfo> dereference(ProgramStateRef State,
// Methods for FindUninitializedFields.
//===----------------------------------------------------------------------===//
// Note that pointers/references don't contain fields themselves, so in this
// function we won't add anything to LocalChain.
bool FindUninitializedFields::isPointerOrReferenceUninit(
bool FindUninitializedFields::isDereferencableUninit(
const FieldRegion *FR, FieldChainInfo LocalChain) {
assert(isDereferencableType(FR->getDecl()->getType()) &&
@ -222,12 +219,11 @@ static llvm::Optional<DereferenceInfo> dereference(ProgramStateRef State,
while (const MemRegion *Tmp = State->getSVal(R, DynT).getAsRegion()) {
R = Tmp->getAs<TypedValueRegion>();
if (!R)
return None;
// We found a cyclic pointer, like int *ptr = (int *)&ptr.
// TODO: Report these fields too.
// TODO: Should we report these fields too?
if (!VisitedRegions.insert(R).second)
return None;