//===-- Searcher.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_SEARCHER_H #define KLEE_SEARCHER_H #include "ExecutionState.h" #include "PTree.h" #include "klee/ADT/RNG.h" #include "klee/System/Time.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/raw_ostream.h" #include #include #include #include namespace llvm { class BasicBlock; class Function; class Instruction; class raw_ostream; } namespace klee { template class DiscretePDF; class ExecutionState; class Executor; /// A Searcher implements an exploration strategy for the Executor by selecting /// states for further exploration using different strategies or heuristics. class Searcher { public: virtual ~Searcher() = default; /// Selects a state for further exploration. /// \return The selected state. virtual ExecutionState &selectState() = 0; /// Notifies searcher about new or deleted states. /// \param current The currently selected state for exploration. /// \param addedStates The newly branched states with `current` as common ancestor. /// \param removedStates The states that will be terminated. virtual void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) = 0; /// \return True if no state left for exploration, False otherwise virtual bool empty() = 0; /// Prints name of searcher as a `klee_message()`. // TODO: could probably made prettier or more flexible virtual void printName(llvm::raw_ostream &os) = 0; enum CoreSearchType : std::uint8_t { DFS, BFS, RandomState, RandomPath, NURS_CovNew, NURS_MD2U, NURS_Depth, NURS_RP, NURS_ICnt, NURS_CPICnt, NURS_QC }; }; /// DFSSearcher implements depth-first exploration. All states are kept in /// insertion order. The last state is selected for further exploration. class DFSSearcher final : public Searcher { std::vector states; public: ExecutionState &selectState() override; void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) override; bool empty() override; void printName(llvm::raw_ostream &os) override; }; /// BFSSearcher implements breadth-first exploration. When KLEE branches multiple /// times for a single instruction, all new states have the same depth. Keep in /// mind that the process tree (PTree) is a binary tree and hence the depth of /// a state in that tree and its branch depth during BFS are different. class BFSSearcher final : public Searcher { std::deque states; public: ExecutionState &selectState() override; void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) override; bool empty() override; void printName(llvm::raw_ostream &os) override; }; /// RandomSearcher picks a state randomly. class RandomSearcher final : public Searcher { std::vector states; RNG &theRNG; public: explicit RandomSearcher(RNG &rng); ExecutionState &selectState() override; void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) override; bool empty() override; void printName(llvm::raw_ostream &os) override; }; /// The base class for all weighted searchers. Uses DiscretePDF as underlying /// data structure. class WeightedRandomSearcher final : public Searcher { public: enum WeightType : std::uint8_t { Depth, RP, QueryCost, InstCount, CPInstCount, MinDistToUncovered, CoveringNew }; private: std::unique_ptr> states; RNG &theRNG; WeightType type; bool updateWeights; double getWeight(ExecutionState*); public: /// \param type The WeightType that determines the underlying heuristic. /// \param RNG A random number generator. WeightedRandomSearcher(WeightType type, RNG &rng); ~WeightedRandomSearcher() override = default; ExecutionState &selectState() override; void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) override; bool empty() override; void printName(llvm::raw_ostream &os) override; }; /// RandomPathSearcher performs a random walk of the PTree to select a state. /// PTree is a global data structure, however, a searcher can sometimes only /// select from a subset of all states (depending on the update calls). /// /// To support this, RandomPathSearcher has a subgraph view of PTree, in that it /// only walks the PTreeNodes that it "owns". Ownership is stored in the /// getInt method of the PTreeNodePtr class (which hides it in the pointer itself). /// /// The current implementation of PTreeNodePtr supports only 3 instances of the /// RandomPathSearcher. This is because the current PTreeNodePtr implementation /// conforms to C++ and only steals the last 3 alignment bits. This restriction /// could be relaxed slightly by an architecture-specific implementation of /// PTreeNodePtr that also steals the top bits of the pointer. /// /// The ownership bits are maintained in the update method. class RandomPathSearcher final : public Searcher { InMemoryPTree *processTree; RNG &theRNG; // Unique bitmask of this searcher const uint8_t idBitMask; public: /// \param processTree The process tree. /// \param RNG A random number generator. RandomPathSearcher(InMemoryPTree *processTree, RNG &rng); ~RandomPathSearcher() override = default; ExecutionState &selectState() override; void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) override; bool empty() override; void printName(llvm::raw_ostream &os) override; }; extern llvm::cl::opt UseIncompleteMerge; class MergeHandler; class MergingSearcher final : public Searcher { friend class MergeHandler; private: std::unique_ptr baseSearcher; /// States that have been paused by the 'pauseState' function std::vector pausedStates; public: /// \param baseSearcher The underlying searcher (takes ownership). explicit MergingSearcher(Searcher *baseSearcher); ~MergingSearcher() override = default; /// ExecutionStates currently paused from scheduling because they are /// waiting to be merged in a klee_close_merge instruction std::set inCloseMerge; /// Keeps track of all currently ongoing merges. /// An ongoing merge is a set of states (stored in a MergeHandler object) /// which branched from a single state which ran into a klee_open_merge(), /// and not all states in the set have reached the corresponding /// klee_close_merge() yet. std::vector mergeGroups; /// Remove state from the searcher chain, while keeping it in the executor. /// This is used here to 'freeze' a state while it is waiting for other /// states in its merge group to reach the same instruction. void pauseState(ExecutionState &state); /// Continue a paused state void continueState(ExecutionState &state); ExecutionState &selectState() override; void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) override; bool empty() override; void printName(llvm::raw_ostream &os) override; }; /// BatchingSearcher selects a state from an underlying searcher and returns /// that state for further exploration for a given time or a given number /// of instructions. class BatchingSearcher final : public Searcher { std::unique_ptr baseSearcher; bool timeBudgetEnabled; time::Span timeBudget; bool instructionBudgetEnabled; unsigned instructionBudget; ExecutionState *lastState {nullptr}; time::Point lastStartTime; unsigned lastStartInstructions; bool withinTimeBudget() const; bool withinInstructionBudget() const; public: /// \param baseSearcher The underlying searcher (takes ownership). /// \param timeBudget Time span a state gets selected before choosing a different one. /// \param instructionBudget Number of instructions to re-select a state for. BatchingSearcher(Searcher *baseSearcher, time::Span timeBudget, unsigned instructionBudget); ~BatchingSearcher() override = default; ExecutionState &selectState() override; void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) override; bool empty() override; void printName(llvm::raw_ostream &os) override; }; /// IterativeDeepeningTimeSearcher implements time-based deepening. States /// are selected from an underlying searcher. When a state reaches its time /// limit it is paused (removed from underlying searcher). When the underlying /// searcher runs out of states, the time budget is increased and all paused /// states are revived (added to underlying searcher). class IterativeDeepeningTimeSearcher final : public Searcher { std::unique_ptr baseSearcher; time::Point startTime; time::Span time {time::seconds(1)}; std::set pausedStates; public: /// \param baseSearcher The underlying searcher (takes ownership). explicit IterativeDeepeningTimeSearcher(Searcher *baseSearcher); ~IterativeDeepeningTimeSearcher() override = default; ExecutionState &selectState() override; void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) override; bool empty() override; void printName(llvm::raw_ostream &os) override; }; /// InterleavedSearcher selects states from a set of searchers in round-robin /// manner. It is used for KLEE's default strategy where it switches between /// RandomPathSearcher and WeightedRandomSearcher with CoveringNew metric. class InterleavedSearcher final : public Searcher { std::vector> searchers; unsigned index {1}; public: /// \param searchers The underlying searchers (takes ownership). explicit InterleavedSearcher(const std::vector &searchers); ~InterleavedSearcher() override = default; ExecutionState &selectState() override; void update(ExecutionState *current, const std::vector &addedStates, const std::vector &removedStates) override; bool empty() override; void printName(llvm::raw_ostream &os) override; }; } // klee namespace #endif /* KLEE_SEARCHER_H */