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//==- UnreachableCodeChecker.cpp - Generalized dead code checker -*- C++ -*-==// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // This file implements a generalized unreachable code checker using a // path-sensitive analysis. We mark any path visited, and then walk the CFG as a // post-analysis to determine what was never visited. // // A similar flow-sensitive only check exists in Analysis/ReachableCode.cpp //===----------------------------------------------------------------------===// #include "ClangSACheckers.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/SVals.h" #include "clang/StaticAnalyzer/Core/PathSensitive/CheckerHelpers.h" #include "clang/StaticAnalyzer/Core/BugReporter/BugReporter.h" #include "clang/AST/ParentMap.h" #include "clang/Basic/Builtins.h" #include "clang/Basic/SourceManager.h" #include "llvm/ADT/SmallSet.h" // The number of CFGBlock pointers we want to reserve memory for. This is used // once for each function we analyze. #define DEFAULT_CFGBLOCKS 256 using namespace clang; using namespace ento; namespace { class UnreachableCodeChecker : public Checker<check::EndAnalysis> { public: void checkEndAnalysis(ExplodedGraph &G, BugReporter &B, ExprEngine &Eng) const; private: typedef llvm::SmallSet<unsigned, DEFAULT_CFGBLOCKS> CFGBlocksSet; static inline const Stmt *getUnreachableStmt(const CFGBlock *CB); static void FindUnreachableEntryPoints(const CFGBlock *CB, CFGBlocksSet &reachable, CFGBlocksSet &visited); static bool isInvalidPath(const CFGBlock *CB, const ParentMap &PM); static inline bool isEmptyCFGBlock(const CFGBlock *CB); }; } void UnreachableCodeChecker::checkEndAnalysis(ExplodedGraph &G, BugReporter &B, ExprEngine &Eng) const { CFGBlocksSet reachable, visited; if (Eng.hasWorkRemaining()) return; const Decl *D = 0; CFG *C = 0; ParentMap *PM = 0; const LocationContext *LC = 0; // 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 (!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 (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 (!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 (CB->size() > 0 && 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 (const CFGStmt *S = (*ci).getAs<CFGStmt>()) if (const CallExpr *CE = dyn_cast<CallExpr>(S->getStmt())) { if (CE->isBuiltinCall() == Builtin::BI__builtin_unreachable) { 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)) { 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, "Unreachable code", "Dead code", "This statement is never executed", DL, SR); } } // Recursively finds the entry point(s) for this dead CFGBlock. void UnreachableCodeChecker::FindUnreachableEntryPoints(const CFGBlock *CB, CFGBlocksSet &reachable, CFGBlocksSet &visited) { visited.insert(CB->getBlockID()); for (CFGBlock::const_pred_iterator I = CB->pred_begin(), E = CB->pred_end(); I != E; ++I) { if (!reachable.count((*I)->getBlockID())) { // If we find an unreachable predecessor, mark this block as reachable so // we don't report this block reachable.insert(CB->getBlockID()); if (!visited.count((*I)->getBlockID())) // If we haven't previously visited the unreachable predecessor, recurse FindUnreachableEntryPoints(*I, reachable, visited); } } } // Find the Stmt* in a CFGBlock for reporting a warning const Stmt *UnreachableCodeChecker::getUnreachableStmt(const CFGBlock *CB) { for (CFGBlock::const_iterator I = CB->begin(), E = CB->end(); I != E; ++I) { if (const CFGStmt *S = I->getAs<CFGStmt>()) return S->getStmt(); } if (const Stmt *S = CB->getTerminator()) return S; else return 0; } // Determines if the path to this CFGBlock contained an element that infers this // block is a false positive. We assume that FindUnreachableEntryPoints has // already marked only the entry points to any dead code, so we need only to // find the condition that led to this block (the predecessor of this block.) // There will never be more than one predecessor. bool UnreachableCodeChecker::isInvalidPath(const CFGBlock *CB, const ParentMap &PM) { // We only expect a predecessor size of 0 or 1. If it is >1, then an external // condition has broken our assumption (for example, a sink being placed by // another check). In these cases, we choose not to report. if (CB->pred_size() > 1) return true; // If there are no predecessors, then this block is trivially unreachable if (CB->pred_size() == 0) return false; const CFGBlock *pred = *CB->pred_begin(); // Get the predecessor block's terminator conditon const Stmt *cond = pred->getTerminatorCondition(); //assert(cond && "CFGBlock's predecessor has a terminator condition"); // The previous assertion is invalid in some cases (eg do/while). Leaving // reporting of these situations on at the moment to help triage these cases. if (!cond) return false; // Run each of the checks on the conditions if (containsMacro(cond) || containsEnum(cond) || containsStaticLocal(cond) || containsBuiltinOffsetOf(cond) || containsStmt<UnaryExprOrTypeTraitExpr>(cond)) return true; return false; } // Returns true if the given CFGBlock is empty bool UnreachableCodeChecker::isEmptyCFGBlock(const CFGBlock *CB) { return CB->getLabel() == 0 // No labels && CB->size() == 0 // No statements && CB->getTerminator() == 0; // No terminator } void ento::registerUnreachableCodeChecker(CheckerManager &mgr) { mgr.registerChecker<UnreachableCodeChecker>(); }