/* This file is part of solidity. solidity is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. solidity is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with solidity. If not, see . */ /** * Model checker based on Constrained Horn Clauses. * * A Solidity contract's CFG is encoded into a system of Horn clauses where * each block has a predicate and edges are rules. * * The entry block is the constructor which has no in-edges. * The constructor has one out-edge to an artificial block named _Interface_ * which has in/out-edges from/to all public functions. * * Loop invariants for Interface -> Interface' are state invariants. */ #pragma once #include #include #include #include #include namespace solidity::frontend { class CHC: public SMTEncoder { public: CHC( smt::EncodingContext& _context, langutil::ErrorReporter& _errorReporter, std::map const& _smtlib2Responses, ReadCallback::Callback const& _smtCallback, smtutil::SMTSolverChoice _enabledSolvers ); void analyze(SourceUnit const& _sources); std::map> const& safeTargets() const { return m_safeTargets; } std::map> const& unsafeTargets() const { return m_unsafeTargets; } /// This is used if the Horn solver is not directly linked into this binary. /// @returns a list of inputs to the Horn solver that were not part of the argument to /// the constructor. std::vector unhandledQueries() const; private: /// Visitor functions. //@{ bool visit(ContractDefinition const& _node) override; void endVisit(ContractDefinition const& _node) override; bool visit(FunctionDefinition const& _node) override; void endVisit(FunctionDefinition const& _node) override; bool visit(IfStatement const& _node) override; bool visit(WhileStatement const&) override; bool visit(ForStatement const&) override; void endVisit(FunctionCall const& _node) override; void endVisit(Break const& _node) override; void endVisit(Continue const& _node) override; void visitAssert(FunctionCall const& _funCall); void internalFunctionCall(FunctionCall const& _funCall); void externalFunctionCall(FunctionCall const& _funCall); void unknownFunctionCall(FunctionCall const& _funCall); void makeArrayPopVerificationTarget(FunctionCall const& _arrayPop) override; //@} struct IdCompare { bool operator()(ASTNode const* lhs, ASTNode const* rhs) const { return lhs->id() < rhs->id(); } }; /// Helpers. //@{ void resetSourceAnalysis(); void resetContractAnalysis(); void eraseKnowledge(); void clearIndices(ContractDefinition const* _contract, FunctionDefinition const* _function = nullptr) override; void setCurrentBlock(smt::SymbolicFunctionVariable const& _block, std::vector const* _arguments = nullptr); std::set transactionAssertions(ASTNode const* _txRoot); static std::vector stateVariablesIncludingInheritedAndPrivate(ContractDefinition const& _contract); //@} /// Sort helpers. //@{ static std::vector stateSorts(ContractDefinition const& _contract); smtutil::SortPointer constructorSort(); smtutil::SortPointer interfaceSort(); smtutil::SortPointer nondetInterfaceSort(); static smtutil::SortPointer interfaceSort(ContractDefinition const& _const); static smtutil::SortPointer nondetInterfaceSort(ContractDefinition const& _const); smtutil::SortPointer arity0FunctionSort(); smtutil::SortPointer sort(FunctionDefinition const& _function); smtutil::SortPointer sort(ASTNode const* _block); /// @returns the sort of a predicate that represents the summary of _function in the scope of _contract. /// The _contract is also needed because the same function might be in many contracts due to inheritance, /// where the sort changes because the set of state variables might change. static smtutil::SortPointer summarySort(FunctionDefinition const& _function, ContractDefinition const& _contract); //@} /// Predicate helpers. //@{ /// @returns a new block of given _sort and _name. std::unique_ptr createSymbolicBlock(smtutil::SortPointer _sort, std::string const& _name); /// Creates summary predicates for all functions of all contracts /// in a given _source. void defineInterfacesAndSummaries(SourceUnit const& _source); /// Genesis predicate. smtutil::Expression genesis() { return (*m_genesisPredicate)({}); } /// Interface predicate over current variables. smtutil::Expression interface(); smtutil::Expression interface(ContractDefinition const& _contract); /// Error predicate over current variables. smtutil::Expression error(); smtutil::Expression error(unsigned _idx); /// Creates a block for the given _node. std::unique_ptr createBlock(ASTNode const* _node, std::string const& _prefix = ""); /// Creates a call block for the given function _function from contract _contract. /// The contract is needed here because of inheritance. std::unique_ptr createSummaryBlock(FunctionDefinition const& _function, ContractDefinition const& _contract); /// Creates a new error block to be used by an assertion. /// Also registers the predicate. void createErrorBlock(); void connectBlocks(smtutil::Expression const& _from, smtutil::Expression const& _to, smtutil::Expression const& _constraints = smtutil::Expression(true)); /// @returns the symbolic values of the state variables at the beginning /// of the current transaction. std::vector initialStateVariables(); std::vector initialStateVariables(ContractDefinition const& _contract); std::vector stateVariablesAtIndex(unsigned _index); std::vector stateVariablesAtIndex(unsigned _index, ContractDefinition const& _contract); /// @returns the current symbolic values of the current state variables. std::vector currentStateVariables(); std::vector currentStateVariables(ContractDefinition const& _contract); /// @returns the current symbolic values of the current function's /// input and output parameters. std::vector currentFunctionVariables(); /// @returns the same as currentFunctionVariables plus /// local variables. std::vector currentBlockVariables(); /// @returns the predicate name for a given node. std::string predicateName(ASTNode const* _node, ContractDefinition const* _contract = nullptr); /// @returns a predicate application over the current scoped variables. smtutil::Expression predicate(smt::SymbolicFunctionVariable const& _block); /// @returns a predicate application over @param _arguments. smtutil::Expression predicate(smt::SymbolicFunctionVariable const& _block, std::vector const& _arguments); /// @returns the summary predicate for the called function. smtutil::Expression predicate(FunctionCall const& _funCall); /// @returns a predicate that defines a constructor summary. smtutil::Expression summary(ContractDefinition const& _contract); /// @returns a predicate that defines a function summary. smtutil::Expression summary(FunctionDefinition const& _function); smtutil::Expression summary(FunctionDefinition const& _function, ContractDefinition const& _contract); //@} /// Solver related. //@{ /// Adds Horn rule to the solver. void addRule(smtutil::Expression const& _rule, std::string const& _ruleName); /// @returns if query is unsatisfiable (safe). /// @returns otherwise. std::pair> query(smtutil::Expression const& _query, langutil::SourceLocation const& _location); void addVerificationTarget(ASTNode const* _scope, VerificationTarget::Type _type, smtutil::Expression _from, smtutil::Expression _constraints, smtutil::Expression _errorId); void addAssertVerificationTarget(ASTNode const* _scope, smtutil::Expression _from, smtutil::Expression _constraints, smtutil::Expression _errorId); void addArrayPopVerificationTarget(ASTNode const* _scope, smtutil::Expression _errorId); void checkVerificationTargets(); // Forward declaration. Definition is below. struct CHCVerificationTarget; void checkAssertTarget(ASTNode const* _scope, CHCVerificationTarget const& _target); void checkAndReportTarget( ASTNode const* _scope, CHCVerificationTarget const& _target, unsigned _errorId, std::string _satMsg, std::string _unknownMsg ); //@} /// Misc. //@{ /// Returns a prefix to be used in a new unique block name /// and increases the block counter. std::string uniquePrefix(); /// @returns a new unique error id associated with _expr and stores /// it into m_errorIds. unsigned newErrorId(Expression const& _expr); //@} /// Predicates. //@{ /// Genesis predicate. std::unique_ptr m_genesisPredicate; /// Implicit constructor predicate. /// Explicit constructors are handled as functions. std::unique_ptr m_implicitConstructorPredicate; /// Constructor summary predicate, exists after the constructor /// (implicit or explicit) and before the interface. std::unique_ptr m_constructorSummaryPredicate; /// Artificial Interface predicate. /// Single entry block for all functions. std::map> m_interfaces; /// Nondeterministic interfaces. /// These are used when the analyzed contract makes external calls to unknown code, /// which means that the analyzed contract can potentially be called /// nondeterministically. std::map> m_nondetInterfaces; /// Artificial Error predicate. /// Single error block for all assertions. std::unique_ptr m_errorPredicate; /// Function predicates. std::map>> m_summaries; smt::SymbolicIntVariable m_error{ TypeProvider::uint256(), TypeProvider::uint256(), "error", m_context }; //@} /// Variables. //@{ /// State variables sorts. /// Used by all predicates. std::vector m_stateSorts; /// State variables. /// Used to create all predicates. std::vector m_stateVariables; //@} /// Verification targets. //@{ struct CHCVerificationTarget: VerificationTarget { smtutil::Expression errorId; }; std::map m_verificationTargets; /// Targets proven safe. std::map> m_safeTargets; /// Targets proven unsafe. std::map> m_unsafeTargets; //@} /// Control-flow. //@{ FunctionDefinition const* m_currentFunction = nullptr; std::map, IdCompare> m_callGraph; std::map, IdCompare> m_functionAssertions; /// Maps ASTNode ids to error ids. /// A multimap is used instead of map anticipating the UnderOverflow /// target which has 2 error ids. std::multimap m_errorIds; /// The current block. smtutil::Expression m_currentBlock = smtutil::Expression(true); /// Counter to generate unique block names. unsigned m_blockCounter = 0; /// Whether a function call was seen in the current scope. bool m_unknownFunctionCallSeen = false; /// Block where a loop break should go to. smt::SymbolicFunctionVariable const* m_breakDest = nullptr; /// Block where a loop continue should go to. smt::SymbolicFunctionVariable const* m_continueDest = nullptr; //@} /// CHC solver. std::unique_ptr m_interface; /// ErrorReporter that comes from CompilerStack. langutil::ErrorReporter& m_outerErrorReporter; /// SMT solvers that are chosen at runtime. smtutil::SMTSolverChoice m_enabledSolvers; }; }