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|
//== BasicObjCFoundationChecks.cpp - Simple Apple-Foundation checks -*- C++ -*--
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file defines BasicObjCFoundationChecks, a class that encapsulates
// a set of simple checks to run on Objective-C code using Apple's Foundation
// classes.
//
//===----------------------------------------------------------------------===//
#include "ClangSACheckers.h"
#include "clang/Analysis/DomainSpecific/CocoaConventions.h"
#include "clang/StaticAnalyzer/Core/Checker.h"
#include "clang/StaticAnalyzer/Core/CheckerManager.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/CheckerContext.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/ExplodedGraph.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/ExprEngine.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/ObjCMessage.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/ProgramState.h"
#include "clang/StaticAnalyzer/Core/BugReporter/BugType.h"
#include "clang/StaticAnalyzer/Core/PathSensitive/MemRegion.h"
#include "clang/AST/DeclObjC.h"
#include "clang/AST/Expr.h"
#include "clang/AST/ExprObjC.h"
#include "clang/AST/ASTContext.h"
#include "llvm/ADT/SmallString.h"
using namespace clang;
using namespace ento;
namespace {
class APIMisuse : public BugType {
public:
APIMisuse(const char* name) : BugType(name, "API Misuse (Apple)") {}
};
} // end anonymous namespace
//===----------------------------------------------------------------------===//
// Utility functions.
//===----------------------------------------------------------------------===//
static const char* GetReceiverNameType(const ObjCMessage &msg) {
if (const ObjCInterfaceDecl *ID = msg.getReceiverInterface())
return ID->getIdentifier()->getNameStart();
return 0;
}
static bool isReceiverClassOrSuperclass(const ObjCInterfaceDecl *ID,
StringRef ClassName) {
if (ID->getIdentifier()->getName() == ClassName)
return true;
if (const ObjCInterfaceDecl *Super = ID->getSuperClass())
return isReceiverClassOrSuperclass(Super, ClassName);
return false;
}
static inline bool isNil(SVal X) {
return isa<loc::ConcreteInt>(X);
}
//===----------------------------------------------------------------------===//
// NilArgChecker - Check for prohibited nil arguments to ObjC method calls.
//===----------------------------------------------------------------------===//
namespace {
class NilArgChecker : public Checker<check::PreObjCMessage> {
mutable OwningPtr<APIMisuse> BT;
void WarnNilArg(CheckerContext &C,
const ObjCMessage &msg, unsigned Arg) const;
public:
void checkPreObjCMessage(ObjCMessage msg, CheckerContext &C) const;
};
}
void NilArgChecker::WarnNilArg(CheckerContext &C,
const ObjCMessage &msg,
unsigned int Arg) const
{
if (!BT)
BT.reset(new APIMisuse("nil argument"));
if (ExplodedNode *N = C.generateSink()) {
SmallString<128> sbuf;
llvm::raw_svector_ostream os(sbuf);
os << "Argument to '" << GetReceiverNameType(msg) << "' method '"
<< msg.getSelector().getAsString() << "' cannot be nil";
BugReport *R = new BugReport(*BT, os.str(), N);
R->addRange(msg.getArgSourceRange(Arg));
C.EmitReport(R);
}
}
void NilArgChecker::checkPreObjCMessage(ObjCMessage msg,
CheckerContext &C) const {
const ObjCInterfaceDecl *ID = msg.getReceiverInterface();
if (!ID)
return;
if (isReceiverClassOrSuperclass(ID, "NSString")) {
Selector S = msg.getSelector();
if (S.isUnarySelector())
return;
// FIXME: This is going to be really slow doing these checks with
// lexical comparisons.
std::string NameStr = S.getAsString();
StringRef Name(NameStr);
assert(!Name.empty());
// FIXME: Checking for initWithFormat: will not work in most cases
// yet because [NSString alloc] returns id, not NSString*. We will
// need support for tracking expected-type information in the analyzer
// to find these errors.
if (Name == "caseInsensitiveCompare:" ||
Name == "compare:" ||
Name == "compare:options:" ||
Name == "compare:options:range:" ||
Name == "compare:options:range:locale:" ||
Name == "componentsSeparatedByCharactersInSet:" ||
Name == "initWithFormat:") {
if (isNil(msg.getArgSVal(0, C.getLocationContext(), C.getState())))
WarnNilArg(C, msg, 0);
}
}
}
//===----------------------------------------------------------------------===//
// Error reporting.
//===----------------------------------------------------------------------===//
namespace {
class CFNumberCreateChecker : public Checker< check::PreStmt<CallExpr> > {
mutable OwningPtr<APIMisuse> BT;
mutable IdentifierInfo* II;
public:
CFNumberCreateChecker() : II(0) {}
void checkPreStmt(const CallExpr *CE, CheckerContext &C) const;
private:
void EmitError(const TypedRegion* R, const Expr *Ex,
uint64_t SourceSize, uint64_t TargetSize, uint64_t NumberKind);
};
} // end anonymous namespace
enum CFNumberType {
kCFNumberSInt8Type = 1,
kCFNumberSInt16Type = 2,
kCFNumberSInt32Type = 3,
kCFNumberSInt64Type = 4,
kCFNumberFloat32Type = 5,
kCFNumberFloat64Type = 6,
kCFNumberCharType = 7,
kCFNumberShortType = 8,
kCFNumberIntType = 9,
kCFNumberLongType = 10,
kCFNumberLongLongType = 11,
kCFNumberFloatType = 12,
kCFNumberDoubleType = 13,
kCFNumberCFIndexType = 14,
kCFNumberNSIntegerType = 15,
kCFNumberCGFloatType = 16
};
namespace {
template<typename T>
class Optional {
bool IsKnown;
T Val;
public:
Optional() : IsKnown(false), Val(0) {}
Optional(const T& val) : IsKnown(true), Val(val) {}
bool isKnown() const { return IsKnown; }
const T& getValue() const {
assert (isKnown());
return Val;
}
operator const T&() const {
return getValue();
}
};
}
static Optional<uint64_t> GetCFNumberSize(ASTContext &Ctx, uint64_t i) {
static const unsigned char FixedSize[] = { 8, 16, 32, 64, 32, 64 };
if (i < kCFNumberCharType)
return FixedSize[i-1];
QualType T;
switch (i) {
case kCFNumberCharType: T = Ctx.CharTy; break;
case kCFNumberShortType: T = Ctx.ShortTy; break;
case kCFNumberIntType: T = Ctx.IntTy; break;
case kCFNumberLongType: T = Ctx.LongTy; break;
case kCFNumberLongLongType: T = Ctx.LongLongTy; break;
case kCFNumberFloatType: T = Ctx.FloatTy; break;
case kCFNumberDoubleType: T = Ctx.DoubleTy; break;
case kCFNumberCFIndexType:
case kCFNumberNSIntegerType:
case kCFNumberCGFloatType:
// FIXME: We need a way to map from names to Type*.
default:
return Optional<uint64_t>();
}
return Ctx.getTypeSize(T);
}
#if 0
static const char* GetCFNumberTypeStr(uint64_t i) {
static const char* Names[] = {
"kCFNumberSInt8Type",
"kCFNumberSInt16Type",
"kCFNumberSInt32Type",
"kCFNumberSInt64Type",
"kCFNumberFloat32Type",
"kCFNumberFloat64Type",
"kCFNumberCharType",
"kCFNumberShortType",
"kCFNumberIntType",
"kCFNumberLongType",
"kCFNumberLongLongType",
"kCFNumberFloatType",
"kCFNumberDoubleType",
"kCFNumberCFIndexType",
"kCFNumberNSIntegerType",
"kCFNumberCGFloatType"
};
return i <= kCFNumberCGFloatType ? Names[i-1] : "Invalid CFNumberType";
}
#endif
void CFNumberCreateChecker::checkPreStmt(const CallExpr *CE,
CheckerContext &C) const {
ProgramStateRef state = C.getState();
const FunctionDecl *FD = C.getCalleeDecl(CE);
if (!FD)
return;
ASTContext &Ctx = C.getASTContext();
if (!II)
II = &Ctx.Idents.get("CFNumberCreate");
if (FD->getIdentifier() != II || CE->getNumArgs() != 3)
return;
// Get the value of the "theType" argument.
const LocationContext *LCtx = C.getLocationContext();
SVal TheTypeVal = state->getSVal(CE->getArg(1), LCtx);
// FIXME: We really should allow ranges of valid theType values, and
// bifurcate the state appropriately.
nonloc::ConcreteInt* V = dyn_cast<nonloc::ConcreteInt>(&TheTypeVal);
if (!V)
return;
uint64_t NumberKind = V->getValue().getLimitedValue();
Optional<uint64_t> TargetSize = GetCFNumberSize(Ctx, NumberKind);
// FIXME: In some cases we can emit an error.
if (!TargetSize.isKnown())
return;
// Look at the value of the integer being passed by reference. Essentially
// we want to catch cases where the value passed in is not equal to the
// size of the type being created.
SVal TheValueExpr = state->getSVal(CE->getArg(2), LCtx);
// FIXME: Eventually we should handle arbitrary locations. We can do this
// by having an enhanced memory model that does low-level typing.
loc::MemRegionVal* LV = dyn_cast<loc::MemRegionVal>(&TheValueExpr);
if (!LV)
return;
const TypedValueRegion* R = dyn_cast<TypedValueRegion>(LV->stripCasts());
if (!R)
return;
QualType T = Ctx.getCanonicalType(R->getValueType());
// FIXME: If the pointee isn't an integer type, should we flag a warning?
// People can do weird stuff with pointers.
if (!T->isIntegerType())
return;
uint64_t SourceSize = Ctx.getTypeSize(T);
// CHECK: is SourceSize == TargetSize
if (SourceSize == TargetSize)
return;
// Generate an error. Only generate a sink if 'SourceSize < TargetSize';
// otherwise generate a regular node.
//
// FIXME: We can actually create an abstract "CFNumber" object that has
// the bits initialized to the provided values.
//
if (ExplodedNode *N = SourceSize < TargetSize ? C.generateSink()
: C.addTransition()) {
SmallString<128> sbuf;
llvm::raw_svector_ostream os(sbuf);
os << (SourceSize == 8 ? "An " : "A ")
<< SourceSize << " bit integer is used to initialize a CFNumber "
"object that represents "
<< (TargetSize == 8 ? "an " : "a ")
<< TargetSize << " bit integer. ";
if (SourceSize < TargetSize)
os << (TargetSize - SourceSize)
<< " bits of the CFNumber value will be garbage." ;
else
os << (SourceSize - TargetSize)
<< " bits of the input integer will be lost.";
if (!BT)
BT.reset(new APIMisuse("Bad use of CFNumberCreate"));
BugReport *report = new BugReport(*BT, os.str(), N);
report->addRange(CE->getArg(2)->getSourceRange());
C.EmitReport(report);
}
}
//===----------------------------------------------------------------------===//
// CFRetain/CFRelease checking for null arguments.
//===----------------------------------------------------------------------===//
namespace {
class CFRetainReleaseChecker : public Checker< check::PreStmt<CallExpr> > {
mutable OwningPtr<APIMisuse> BT;
mutable IdentifierInfo *Retain, *Release;
public:
CFRetainReleaseChecker(): Retain(0), Release(0) {}
void checkPreStmt(const CallExpr *CE, CheckerContext &C) const;
};
} // end anonymous namespace
void CFRetainReleaseChecker::checkPreStmt(const CallExpr *CE,
CheckerContext &C) const {
// If the CallExpr doesn't have exactly 1 argument just give up checking.
if (CE->getNumArgs() != 1)
return;
ProgramStateRef state = C.getState();
const FunctionDecl *FD = C.getCalleeDecl(CE);
if (!FD)
return;
if (!BT) {
ASTContext &Ctx = C.getASTContext();
Retain = &Ctx.Idents.get("CFRetain");
Release = &Ctx.Idents.get("CFRelease");
BT.reset(new APIMisuse("null passed to CFRetain/CFRelease"));
}
// Check if we called CFRetain/CFRelease.
const IdentifierInfo *FuncII = FD->getIdentifier();
if (!(FuncII == Retain || FuncII == Release))
return;
// FIXME: The rest of this just checks that the argument is non-null.
// It should probably be refactored and combined with AttrNonNullChecker.
// Get the argument's value.
const Expr *Arg = CE->getArg(0);
SVal ArgVal = state->getSVal(Arg, C.getLocationContext());
DefinedSVal *DefArgVal = dyn_cast<DefinedSVal>(&ArgVal);
if (!DefArgVal)
return;
// Get a NULL value.
SValBuilder &svalBuilder = C.getSValBuilder();
DefinedSVal zero = cast<DefinedSVal>(svalBuilder.makeZeroVal(Arg->getType()));
// Make an expression asserting that they're equal.
DefinedOrUnknownSVal ArgIsNull = svalBuilder.evalEQ(state, zero, *DefArgVal);
// Are they equal?
ProgramStateRef stateTrue, stateFalse;
llvm::tie(stateTrue, stateFalse) = state->assume(ArgIsNull);
if (stateTrue && !stateFalse) {
ExplodedNode *N = C.generateSink(stateTrue);
if (!N)
return;
const char *description = (FuncII == Retain)
? "Null pointer argument in call to CFRetain"
: "Null pointer argument in call to CFRelease";
BugReport *report = new BugReport(*BT, description, N);
report->addRange(Arg->getSourceRange());
report->addVisitor(bugreporter::getTrackNullOrUndefValueVisitor(N, Arg,
report));
C.EmitReport(report);
return;
}
// From here on, we know the argument is non-null.
C.addTransition(stateFalse);
}
//===----------------------------------------------------------------------===//
// Check for sending 'retain', 'release', or 'autorelease' directly to a Class.
//===----------------------------------------------------------------------===//
namespace {
class ClassReleaseChecker : public Checker<check::PreObjCMessage> {
mutable Selector releaseS;
mutable Selector retainS;
mutable Selector autoreleaseS;
mutable Selector drainS;
mutable OwningPtr<BugType> BT;
public:
void checkPreObjCMessage(ObjCMessage msg, CheckerContext &C) const;
};
}
void ClassReleaseChecker::checkPreObjCMessage(ObjCMessage msg,
CheckerContext &C) const {
if (!BT) {
BT.reset(new APIMisuse("message incorrectly sent to class instead of class "
"instance"));
ASTContext &Ctx = C.getASTContext();
releaseS = GetNullarySelector("release", Ctx);
retainS = GetNullarySelector("retain", Ctx);
autoreleaseS = GetNullarySelector("autorelease", Ctx);
drainS = GetNullarySelector("drain", Ctx);
}
if (msg.isInstanceMessage())
return;
const ObjCInterfaceDecl *Class = msg.getReceiverInterface();
assert(Class);
Selector S = msg.getSelector();
if (!(S == releaseS || S == retainS || S == autoreleaseS || S == drainS))
return;
if (ExplodedNode *N = C.addTransition()) {
SmallString<200> buf;
llvm::raw_svector_ostream os(buf);
os << "The '" << S.getAsString() << "' message should be sent to instances "
"of class '" << Class->getName()
<< "' and not the class directly";
BugReport *report = new BugReport(*BT, os.str(), N);
report->addRange(msg.getSourceRange());
C.EmitReport(report);
}
}
//===----------------------------------------------------------------------===//
// Check for passing non-Objective-C types to variadic methods that expect
// only Objective-C types.
//===----------------------------------------------------------------------===//
namespace {
class VariadicMethodTypeChecker : public Checker<check::PreObjCMessage> {
mutable Selector arrayWithObjectsS;
mutable Selector dictionaryWithObjectsAndKeysS;
mutable Selector setWithObjectsS;
mutable Selector orderedSetWithObjectsS;
mutable Selector initWithObjectsS;
mutable Selector initWithObjectsAndKeysS;
mutable OwningPtr<BugType> BT;
bool isVariadicMessage(const ObjCMessage &msg) const;
public:
void checkPreObjCMessage(ObjCMessage msg, CheckerContext &C) const;
};
}
/// isVariadicMessage - Returns whether the given message is a variadic message,
/// where all arguments must be Objective-C types.
bool
VariadicMethodTypeChecker::isVariadicMessage(const ObjCMessage &msg) const {
const ObjCMethodDecl *MD = msg.getMethodDecl();
if (!MD || !MD->isVariadic() || isa<ObjCProtocolDecl>(MD->getDeclContext()))
return false;
Selector S = msg.getSelector();
if (msg.isInstanceMessage()) {
// FIXME: Ideally we'd look at the receiver interface here, but that's not
// useful for init, because alloc returns 'id'. In theory, this could lead
// to false positives, for example if there existed a class that had an
// initWithObjects: implementation that does accept non-Objective-C pointer
// types, but the chance of that happening is pretty small compared to the
// gains that this analysis gives.
const ObjCInterfaceDecl *Class = MD->getClassInterface();
// -[NSArray initWithObjects:]
if (isReceiverClassOrSuperclass(Class, "NSArray") &&
S == initWithObjectsS)
return true;
// -[NSDictionary initWithObjectsAndKeys:]
if (isReceiverClassOrSuperclass(Class, "NSDictionary") &&
S == initWithObjectsAndKeysS)
return true;
// -[NSSet initWithObjects:]
if (isReceiverClassOrSuperclass(Class, "NSSet") &&
S == initWithObjectsS)
return true;
// -[NSOrderedSet initWithObjects:]
if (isReceiverClassOrSuperclass(Class, "NSOrderedSet") &&
S == initWithObjectsS)
return true;
} else {
const ObjCInterfaceDecl *Class = msg.getReceiverInterface();
// -[NSArray arrayWithObjects:]
if (isReceiverClassOrSuperclass(Class, "NSArray") &&
S == arrayWithObjectsS)
return true;
// -[NSDictionary dictionaryWithObjectsAndKeys:]
if (isReceiverClassOrSuperclass(Class, "NSDictionary") &&
S == dictionaryWithObjectsAndKeysS)
return true;
// -[NSSet setWithObjects:]
if (isReceiverClassOrSuperclass(Class, "NSSet") &&
S == setWithObjectsS)
return true;
// -[NSOrderedSet orderedSetWithObjects:]
if (isReceiverClassOrSuperclass(Class, "NSOrderedSet") &&
S == orderedSetWithObjectsS)
return true;
}
return false;
}
void VariadicMethodTypeChecker::checkPreObjCMessage(ObjCMessage msg,
CheckerContext &C) const {
if (!BT) {
BT.reset(new APIMisuse("Arguments passed to variadic method aren't all "
"Objective-C pointer types"));
ASTContext &Ctx = C.getASTContext();
arrayWithObjectsS = GetUnarySelector("arrayWithObjects", Ctx);
dictionaryWithObjectsAndKeysS =
GetUnarySelector("dictionaryWithObjectsAndKeys", Ctx);
setWithObjectsS = GetUnarySelector("setWithObjects", Ctx);
orderedSetWithObjectsS = GetUnarySelector("orderedSetWithObjects", Ctx);
initWithObjectsS = GetUnarySelector("initWithObjects", Ctx);
initWithObjectsAndKeysS = GetUnarySelector("initWithObjectsAndKeys", Ctx);
}
if (!isVariadicMessage(msg))
return;
// We are not interested in the selector arguments since they have
// well-defined types, so the compiler will issue a warning for them.
unsigned variadicArgsBegin = msg.getSelector().getNumArgs();
// We're not interested in the last argument since it has to be nil or the
// compiler would have issued a warning for it elsewhere.
unsigned variadicArgsEnd = msg.getNumArgs() - 1;
if (variadicArgsEnd <= variadicArgsBegin)
return;
// Verify that all arguments have Objective-C types.
llvm::Optional<ExplodedNode*> errorNode;
ProgramStateRef state = C.getState();
for (unsigned I = variadicArgsBegin; I != variadicArgsEnd; ++I) {
QualType ArgTy = msg.getArgType(I);
if (ArgTy->isObjCObjectPointerType())
continue;
// Block pointers are treaded as Objective-C pointers.
if (ArgTy->isBlockPointerType())
continue;
// Ignore pointer constants.
if (isa<loc::ConcreteInt>(msg.getArgSVal(I, C.getLocationContext(),
state)))
continue;
// Ignore pointer types annotated with 'NSObject' attribute.
if (C.getASTContext().isObjCNSObjectType(ArgTy))
continue;
// Ignore CF references, which can be toll-free bridged.
if (coreFoundation::isCFObjectRef(ArgTy))
continue;
// Generate only one error node to use for all bug reports.
if (!errorNode.hasValue()) {
errorNode = C.addTransition();
}
if (!errorNode.getValue())
continue;
SmallString<128> sbuf;
llvm::raw_svector_ostream os(sbuf);
if (const char *TypeName = GetReceiverNameType(msg))
os << "Argument to '" << TypeName << "' method '";
else
os << "Argument to method '";
os << msg.getSelector().getAsString()
<< "' should be an Objective-C pointer type, not '"
<< ArgTy.getAsString() << "'";
BugReport *R = new BugReport(*BT, os.str(),
errorNode.getValue());
R->addRange(msg.getArgSourceRange(I));
C.EmitReport(R);
}
}
//===----------------------------------------------------------------------===//
// Check registration.
//===----------------------------------------------------------------------===//
void ento::registerNilArgChecker(CheckerManager &mgr) {
mgr.registerChecker<NilArgChecker>();
}
void ento::registerCFNumberCreateChecker(CheckerManager &mgr) {
mgr.registerChecker<CFNumberCreateChecker>();
}
void ento::registerCFRetainReleaseChecker(CheckerManager &mgr) {
mgr.registerChecker<CFRetainReleaseChecker>();
}
void ento::registerClassReleaseChecker(CheckerManager &mgr) {
mgr.registerChecker<ClassReleaseChecker>();
}
void ento::registerVariadicMethodTypeChecker(CheckerManager &mgr) {
mgr.registerChecker<VariadicMethodTypeChecker>();
}
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