//===-- ExecutionState.h ----------------------------------------*- C++ -*-===// // // The KLEE Symbolic Virtual Machine // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef KLEE_EXECUTIONSTATE_H #define KLEE_EXECUTIONSTATE_H #include "AddressSpace.h" #include "MergeHandler.h" #include "klee/ADT/TreeStream.h" #include "klee/Expr/Constraints.h" #include "klee/Expr/Expr.h" #include "klee/Module/KInstIterator.h" #include "klee/Solver/Solver.h" #include "klee/System/Time.h" #include #include #include #include namespace klee { class Array; class CallPathNode; struct Cell; struct KFunction; struct KInstruction; class MemoryObject; class PTreeNode; struct InstructionInfo; llvm::raw_ostream &operator<<(llvm::raw_ostream &os, const MemoryMap &mm); struct StackFrame { KInstIterator caller; KFunction *kf; CallPathNode *callPathNode; std::vector allocas; Cell *locals; /// Minimum distance to an uncovered instruction once the function /// returns. This is not a good place for this but is used to /// quickly compute the context sensitive minimum distance to an /// uncovered instruction. This value is updated by the StatsTracker /// periodically. unsigned minDistToUncoveredOnReturn; // For vararg functions: arguments not passed via parameter are // stored (packed tightly) in a local (alloca) memory object. This // is set up to match the way the front-end generates vaarg code (it // does not pass vaarg through as expected). VACopy is lowered inside // of intrinsic lowering. MemoryObject *varargs; StackFrame(KInstIterator caller, KFunction *kf); StackFrame(const StackFrame &s); ~StackFrame(); }; /// Contains information related to unwinding (Itanium ABI/2-Phase unwinding) class UnwindingInformation { public: enum class Kind { SearchPhase, // first phase CleanupPhase // second phase }; private: const Kind kind; public: // _Unwind_Exception* of the thrown exception, used in both phases ref exceptionObject; Kind getKind() const { return kind; } explicit UnwindingInformation(ref exceptionObject, Kind k) : kind(k), exceptionObject(exceptionObject) {} virtual ~UnwindingInformation() = default; virtual std::unique_ptr clone() const = 0; }; struct SearchPhaseUnwindingInformation : public UnwindingInformation { // Keeps track of the stack index we have so far unwound to. std::size_t unwindingProgress; // MemoryObject that contains a serialized version of the last executed // landingpad, so we can clean it up after the personality fn returns. MemoryObject *serializedLandingpad = nullptr; SearchPhaseUnwindingInformation(ref exceptionObject, std::size_t const unwindingProgress) : UnwindingInformation(exceptionObject, UnwindingInformation::Kind::SearchPhase), unwindingProgress(unwindingProgress) {} std::unique_ptr clone() const { return std::make_unique(*this); } static bool classof(const UnwindingInformation *u) { return u->getKind() == UnwindingInformation::Kind::SearchPhase; } }; struct CleanupPhaseUnwindingInformation : public UnwindingInformation { // Phase 1 will try to find a catching landingpad. // Phase 2 will unwind up to this landingpad or return from // _Unwind_RaiseException if none was found. // The selector value of the catching landingpad that was found // during the search phase. ref selectorValue; // Used to know when we have to stop unwinding and to // ensure that unwinding stops at the frame for which // we first found a handler in the search phase. const std::size_t catchingStackIndex; CleanupPhaseUnwindingInformation(ref exceptionObject, ref selectorValue, const std::size_t catchingStackIndex) : UnwindingInformation(exceptionObject, UnwindingInformation::Kind::CleanupPhase), selectorValue(selectorValue), catchingStackIndex(catchingStackIndex) {} std::unique_ptr clone() const { return std::make_unique(*this); } static bool classof(const UnwindingInformation *u) { return u->getKind() == UnwindingInformation::Kind::CleanupPhase; } }; /// @brief ExecutionState representing a path under exploration class ExecutionState { #ifdef KLEE_UNITTEST public: #else private: #endif // copy ctor ExecutionState(const ExecutionState &state); public: using stack_ty = std::vector; // Execution - Control Flow specific /// @brief Pointer to instruction to be executed after the current /// instruction KInstIterator pc; /// @brief Pointer to instruction which is currently executed KInstIterator prevPC; /// @brief Stack representing the current instruction stream stack_ty stack; /// @brief Remember from which Basic Block control flow arrived /// (i.e. to select the right phi values) std::uint32_t incomingBBIndex; // Overall state of the state - Data specific /// @brief Exploration depth, i.e., number of times KLEE branched for this state std::uint32_t depth; /// @brief Address space used by this state (e.g. Global and Heap) AddressSpace addressSpace; /// @brief Constraints collected so far ConstraintSet constraints; /// Statistics and information /// @brief Metadata utilized and collected by solvers for this state mutable SolverQueryMetaData queryMetaData; /// @brief History of complete path: represents branches taken to /// reach/create this state (both concrete and symbolic) TreeOStream pathOS; /// @brief History of symbolic path: represents symbolic branches /// taken to reach/create this state TreeOStream symPathOS; /// @brief Set containing which lines in which files are covered by this state std::map> coveredLines; /// @brief Pointer to the process tree of the current state /// Copies of ExecutionState should not copy ptreeNode PTreeNode *ptreeNode = nullptr; /// @brief Ordered list of symbolics: used to generate test cases. // // FIXME: Move to a shared list structure (not critical). std::vector, const Array *>> symbolics; /// @brief Set of used array names for this state. Used to avoid collisions. std::set arrayNames; /// @brief The objects handling the klee_open_merge calls this state ran through std::vector> openMergeStack; /// @brief The numbers of times this state has run through Executor::stepInstruction std::uint64_t steppedInstructions; /// @brief Counts how many instructions were executed since the last new /// instruction was covered. std::uint32_t instsSinceCovNew; /// @brief Keep track of unwinding state while unwinding, otherwise empty std::unique_ptr unwindingInformation; /// @brief the global state counter static std::uint32_t nextID; /// @brief the state id std::uint32_t id {0}; /// @brief Whether a new instruction was covered in this state bool coveredNew; /// @brief Disables forking for this state. Set by user code bool forkDisabled; public: #ifdef KLEE_UNITTEST // provide this function only in the context of unittests ExecutionState(){} #endif // only to create the initial state explicit ExecutionState(KFunction *kf); // no copy assignment, use copy constructor ExecutionState &operator=(const ExecutionState &) = delete; // no move ctor ExecutionState(ExecutionState &&) noexcept = delete; // no move assignment ExecutionState& operator=(ExecutionState &&) noexcept = delete; // dtor ~ExecutionState(); ExecutionState *branch(); void pushFrame(KInstIterator caller, KFunction *kf); void popFrame(); void addSymbolic(const MemoryObject *mo, const Array *array); void addConstraint(ref e); bool merge(const ExecutionState &b); void dumpStack(llvm::raw_ostream &out) const; std::uint32_t getID() const { return id; }; void setID() { id = nextID++; }; }; struct ExecutionStateIDCompare { bool operator()(const ExecutionState *a, const ExecutionState *b) const { return a->getID() < b->getID(); } }; } #endif /* KLEE_EXECUTIONSTATE_H */