void UnreachableCodeChecker::checkEndAnalysis(ExplodedGraph &G,
BugReporter &B,
ExprEngine &Eng) const {
CFGBlocksSet reachable, visited;
if (Eng.hasWorkRemaining())
return;
CFG *C = 0;
ParentMap *PM = 0;
// Iterate over ExplodedGraph
for (ExplodedGraph::node_iterator I = G.nodes_begin(), E = G.nodes_end();
I != E; ++I) {
const ProgramPoint &P = I->getLocation();
const LocationContext *LC = P.getLocationContext();
// Save the CFG if we don't have it already
if (!C)
C = LC->getAnalysisContext()->getUnoptimizedCFG();
if (!PM)
PM = &LC->getParentMap();
if (const BlockEntrance *BE = dyn_cast<BlockEntrance>(&P)) {
const CFGBlock *CB = BE->getBlock();
reachable.insert(CB->getBlockID());
}
}
// Bail out if we didn't get the CFG or the ParentMap.
if (!C || !PM)
return;
ASTContext &Ctx = B.getContext();
// Find CFGBlocks that were not covered by any node
for (CFG::const_iterator I = C->begin(), E = C->end(); I != E; ++I) {
const CFGBlock *CB = *I;
// Check if the block is unreachable
if (reachable.count(CB->getBlockID()))
continue;
// Check if the block is empty (an artificial block)
if (isEmptyCFGBlock(CB))
continue;
// Find the entry points for this block
if (!visited.count(CB->getBlockID()))
FindUnreachableEntryPoints(CB, reachable, visited);
// This block may have been pruned; check if we still want to report it
if (reachable.count(CB->getBlockID()))
continue;
// Check for false positives
if (CB->size() > 0 && isInvalidPath(CB, *PM))
continue;
// Special case for __builtin_unreachable.
// FIXME: This should be extended to include other unreachable markers,
// such as llvm_unreachable.
if (!CB->empty()) {
CFGElement First = CB->front();
if (const CFGStmt *S = First.getAs<CFGStmt>()) {
if (const CallExpr *CE = dyn_cast<CallExpr>(S->getStmt())) {
if (CE->isBuiltinCall(Ctx) == Builtin::BI__builtin_unreachable)
continue;
}
}
}
// We found a block that wasn't covered - find the statement to report
SourceRange SR;
SourceLocation SL;
if (const Stmt *S = getUnreachableStmt(CB)) {
SR = S->getSourceRange();
SL = S->getLocStart();
if (SR.isInvalid() || SL.isInvalid())
continue;
}
else
continue;
// Check if the SourceLocation is in a system header
const SourceManager &SM = B.getSourceManager();
if (SM.isInSystemHeader(SL) || SM.isInExternCSystemHeader(SL))
continue;
B.EmitBasicReport("Unreachable code", "Dead code", "This statement is never"
" executed", SL, SR);
}
}
void UnreachableCodeChecker::checkEndAnalysis(ExplodedGraph &G,
BugReporter &B,
ExprEngine &Eng) const {
CFGBlocksSet reachable, visited;
if (Eng.hasWorkRemaining())
return;
const Decl *D = nullptr;
CFG *C = nullptr;
ParentMap *PM = nullptr;
const LocationContext *LC = nullptr;
// Iterate over ExplodedGraph
for (ExplodedGraph::node_iterator I = G.nodes_begin(), E = G.nodes_end();
I != E; ++I) {
const ProgramPoint &P = I->getLocation();
LC = P.getLocationContext();
if (!LC->inTopFrame())
continue;
if (!D)
D = LC->getAnalysisDeclContext()->getDecl();
// Save the CFG if we don't have it already
if (!C)
C = LC->getAnalysisDeclContext()->getUnoptimizedCFG();
if (!PM)
PM = &LC->getParentMap();
if (Optional<BlockEntrance> BE = P.getAs<BlockEntrance>()) {
const CFGBlock *CB = BE->getBlock();
reachable.insert(CB->getBlockID());
}
}
// Bail out if we didn't get the CFG or the ParentMap.
if (!D || !C || !PM)
return;
// Don't do anything for template instantiations. Proving that code
// in a template instantiation is unreachable means proving that it is
// unreachable in all instantiations.
if (const FunctionDecl *FD = dyn_cast<FunctionDecl>(D))
if (FD->isTemplateInstantiation())
return;
// Find CFGBlocks that were not covered by any node
for (CFG::const_iterator I = C->begin(), E = C->end(); I != E; ++I) {
const CFGBlock *CB = *I;
// Check if the block is unreachable
if (reachable.count(CB->getBlockID()))
continue;
// Check if the block is empty (an artificial block)
if (isEmptyCFGBlock(CB))
continue;
// Find the entry points for this block
if (!visited.count(CB->getBlockID()))
FindUnreachableEntryPoints(CB, reachable, visited);
// This block may have been pruned; check if we still want to report it
if (reachable.count(CB->getBlockID()))
continue;
// Check for false positives
if (isInvalidPath(CB, *PM))
continue;
// It is good practice to always have a "default" label in a "switch", even
// if we should never get there. It can be used to detect errors, for
// instance. Unreachable code directly under a "default" label is therefore
// likely to be a false positive.
if (const Stmt *label = CB->getLabel())
if (label->getStmtClass() == Stmt::DefaultStmtClass)
continue;
// Special case for __builtin_unreachable.
// FIXME: This should be extended to include other unreachable markers,
// such as llvm_unreachable.
if (!CB->empty()) {
bool foundUnreachable = false;
for (CFGBlock::const_iterator ci = CB->begin(), ce = CB->end();
ci != ce; ++ci) {
if (Optional<CFGStmt> S = (*ci).getAs<CFGStmt>())
if (const CallExpr *CE = dyn_cast<CallExpr>(S->getStmt())) {
if (CE->getBuiltinCallee() == Builtin::BI__builtin_unreachable ||
CE->isBuiltinAssumeFalse(Eng.getContext())) {
foundUnreachable = true;
break;
}
}
}
if (foundUnreachable)
continue;
}
// We found a block that wasn't covered - find the statement to report
SourceRange SR;
PathDiagnosticLocation DL;
SourceLocation SL;
if (const Stmt *S = getUnreachableStmt(CB)) {
// In macros, 'do {...} while (0)' is often used. Don't warn about the
// condition 0 when it is unreachable.
if (S->getBeginLoc().isMacroID())
if (const auto *I = dyn_cast<IntegerLiteral>(S))
if (I->getValue() == 0ULL)
if (const Stmt *Parent = PM->getParent(S))
if (isa<DoStmt>(Parent))
continue;
SR = S->getSourceRange();
DL = PathDiagnosticLocation::createBegin(S, B.getSourceManager(), LC);
SL = DL.asLocation();
if (SR.isInvalid() || !SL.isValid())
continue;
}
else
continue;
// Check if the SourceLocation is in a system header
const SourceManager &SM = B.getSourceManager();
if (SM.isInSystemHeader(SL) || SM.isInExternCSystemHeader(SL))
continue;
B.EmitBasicReport(D, this, "Unreachable code", "Dead code",
"This statement is never executed", DL, SR);
}
}
void IdempotentOperationChecker::checkEndAnalysis(ExplodedGraph &G,
BugReporter &BR,
ExprEngine &Eng) const {
BugType *BT = new BugType("Idempotent operation", "Dead code");
// Iterate over the hash to see if we have any paths with definite
// idempotent operations.
for (AssumptionMap::const_iterator i = hash.begin(); i != hash.end(); ++i) {
// Unpack the hash contents
const BinaryOperatorData &Data = i->second;
const Assumption &A = Data.assumption;
const ExplodedNodeSet &ES = Data.explodedNodes;
// If there are no nodes accosted with the expression, nothing to report.
// FIXME: This is possible because the checker does part of processing in
// checkPreStmt and part in checkPostStmt.
if (ES.begin() == ES.end())
continue;
const BinaryOperator *B = i->first;
if (A == Impossible)
continue;
// If the analyzer did not finish, check to see if we can still emit this
// warning
if (Eng.hasWorkRemaining()) {
// If we can trace back
AnalysisDeclContext *AC = (*ES.begin())->getLocationContext()
->getAnalysisDeclContext();
if (!pathWasCompletelyAnalyzed(AC,
AC->getCFGStmtMap()->getBlock(B),
Eng.getCoreEngine()))
continue;
}
// Select the error message and SourceRanges to report.
llvm::SmallString<128> buf;
llvm::raw_svector_ostream os(buf);
bool LHSRelevant = false, RHSRelevant = false;
switch (A) {
case Equal:
LHSRelevant = true;
RHSRelevant = true;
if (B->getOpcode() == BO_Assign)
os << "Assigned value is always the same as the existing value";
else
os << "Both operands to '" << B->getOpcodeStr()
<< "' always have the same value";
break;
case LHSis1:
LHSRelevant = true;
os << "The left operand to '" << B->getOpcodeStr() << "' is always 1";
break;
case RHSis1:
RHSRelevant = true;
os << "The right operand to '" << B->getOpcodeStr() << "' is always 1";
break;
case LHSis0:
LHSRelevant = true;
os << "The left operand to '" << B->getOpcodeStr() << "' is always 0";
break;
case RHSis0:
RHSRelevant = true;
os << "The right operand to '" << B->getOpcodeStr() << "' is always 0";
break;
case Possible:
llvm_unreachable("Operation was never marked with an assumption");
case Impossible:
llvm_unreachable(0);
}
// Add a report for each ExplodedNode
for (ExplodedNodeSet::iterator I = ES.begin(), E = ES.end(); I != E; ++I) {
BugReport *report = new BugReport(*BT, os.str(), *I);
// Add source ranges and visitor hooks
if (LHSRelevant) {
const Expr *LHS = i->first->getLHS();
report->addRange(LHS->getSourceRange());
FindLastStoreBRVisitor::registerStatementVarDecls(*report, LHS);
}
if (RHSRelevant) {
const Expr *RHS = i->first->getRHS();
report->addRange(i->first->getRHS()->getSourceRange());
FindLastStoreBRVisitor::registerStatementVarDecls(*report, RHS);
}
BR.EmitReport(report);
}
}
hash.clear();
}
