/* 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 . */ #pragma once #include #include #include #include #include #include #include #include #include namespace dev { namespace solidity { namespace smt { enum class CheckResult { SATISFIABLE, UNSATISFIABLE, UNKNOWN, CONFLICTING, ERROR }; enum class Kind { Int, Bool, Function, Array }; struct Sort { Sort(Kind _kind): kind(_kind) {} virtual ~Sort() = default; Kind const kind; bool operator==(Sort const& _other) const { return kind == _other.kind; } }; using SortPointer = std::shared_ptr; struct FunctionSort: public Sort { FunctionSort(std::vector _domain, SortPointer _codomain): Sort(Kind::Function), domain(std::move(_domain)), codomain(std::move(_codomain)) {} std::vector domain; SortPointer codomain; bool operator==(FunctionSort const& _other) const { if (!std::equal( domain.begin(), domain.end(), _other.domain.begin(), [&](SortPointer _a, SortPointer _b) { return *_a == *_b; } ) ) return false; return Sort::operator==(_other) && *codomain == *_other.codomain; } }; struct ArraySort: public Sort { /// _domain is the sort of the indices /// _range is the sort of the values ArraySort(SortPointer _domain, SortPointer _range): Sort(Kind::Array), domain(std::move(_domain)), range(std::move(_range)) {} SortPointer domain; SortPointer range; bool operator==(ArraySort const& _other) const { return Sort::operator==(_other) && *domain == *_other.domain && *range == *_other.range; } }; /// C++ representation of an SMTLIB2 expression. class Expression { friend class SolverInterface; public: explicit Expression(bool _v): Expression(_v ? "true" : "false", Kind::Bool) {} Expression(size_t _number): Expression(std::to_string(_number), Kind::Int) {} Expression(u256 const& _number): Expression(_number.str(), Kind::Int) {} Expression(bigint const& _number): Expression(_number.str(), Kind::Int) {} Expression(Expression const&) = default; Expression(Expression&&) = default; Expression& operator=(Expression const&) = default; Expression& operator=(Expression&&) = default; bool hasCorrectArity() const { static std::map const operatorsArity{ {"ite", 3}, {"not", 1}, {"and", 2}, {"or", 2}, {"=", 2}, {"<", 2}, {"<=", 2}, {">", 2}, {">=", 2}, {"+", 2}, {"-", 2}, {"*", 2}, {"/", 2}, {"select", 2}, {"store", 3} }; return operatorsArity.count(name) && operatorsArity.at(name) == arguments.size(); } static Expression ite(Expression _condition, Expression _trueValue, Expression _falseValue) { solAssert(*_trueValue.sort == *_falseValue.sort, ""); return Expression("ite", std::vector{ std::move(_condition), std::move(_trueValue), std::move(_falseValue) }, _trueValue.sort); } static Expression implies(Expression _a, Expression _b) { return !std::move(_a) || std::move(_b); } /// select is the SMT representation of an array index access. static Expression select(Expression _array, Expression _index) { solAssert(_array.sort->kind == Kind::Array, ""); auto const& arraySort = dynamic_cast(_array.sort.get()); solAssert(arraySort, ""); solAssert(*arraySort->domain == *_index.sort, ""); return Expression( "select", std::vector{std::move(_array), std::move(_index)}, arraySort->range ); } /// store is the SMT representation of an assignment to array index. /// The function is pure and returns the modified array. static Expression store(Expression _array, Expression _index, Expression _element) { solAssert(_array.sort->kind == Kind::Array, ""); auto const& arraySort = dynamic_cast(_array.sort.get()); solAssert(arraySort, ""); solAssert(*arraySort->domain == *_index.sort, ""); solAssert(*arraySort->range == *_element.sort, ""); return Expression( "store", std::vector{std::move(_array), std::move(_index), std::move(_element)}, _array.sort ); } friend Expression operator!(Expression _a) { return Expression("not", std::move(_a), Kind::Bool); } friend Expression operator&&(Expression _a, Expression _b) { return Expression("and", std::move(_a), std::move(_b), Kind::Bool); } friend Expression operator||(Expression _a, Expression _b) { return Expression("or", std::move(_a), std::move(_b), Kind::Bool); } friend Expression operator==(Expression _a, Expression _b) { return Expression("=", std::move(_a), std::move(_b), Kind::Bool); } friend Expression operator!=(Expression _a, Expression _b) { return !(std::move(_a) == std::move(_b)); } friend Expression operator<(Expression _a, Expression _b) { return Expression("<", std::move(_a), std::move(_b), Kind::Bool); } friend Expression operator<=(Expression _a, Expression _b) { return Expression("<=", std::move(_a), std::move(_b), Kind::Bool); } friend Expression operator>(Expression _a, Expression _b) { return Expression(">", std::move(_a), std::move(_b), Kind::Bool); } friend Expression operator>=(Expression _a, Expression _b) { return Expression(">=", std::move(_a), std::move(_b), Kind::Bool); } friend Expression operator+(Expression _a, Expression _b) { return Expression("+", std::move(_a), std::move(_b), Kind::Int); } friend Expression operator-(Expression _a, Expression _b) { return Expression("-", std::move(_a), std::move(_b), Kind::Int); } friend Expression operator*(Expression _a, Expression _b) { return Expression("*", std::move(_a), std::move(_b), Kind::Int); } friend Expression operator/(Expression _a, Expression _b) { return Expression("/", std::move(_a), std::move(_b), Kind::Int); } Expression operator()(std::vector _arguments) const { solAssert( sort->kind == Kind::Function, "Attempted function application to non-function." ); auto fSort = dynamic_cast(sort.get()); solAssert(fSort, ""); return Expression(name, std::move(_arguments), fSort->codomain); } std::string name; std::vector arguments; SortPointer sort; private: /// Manual constructors, should only be used by SolverInterface and this class itself. Expression(std::string _name, std::vector _arguments, SortPointer _sort): name(std::move(_name)), arguments(std::move(_arguments)), sort(std::move(_sort)) {} Expression(std::string _name, std::vector _arguments, Kind _kind): Expression(std::move(_name), std::move(_arguments), std::make_shared(_kind)) {} explicit Expression(std::string _name, Kind _kind): Expression(std::move(_name), std::vector{}, _kind) {} Expression(std::string _name, Expression _arg, Kind _kind): Expression(std::move(_name), std::vector{std::move(_arg)}, _kind) {} Expression(std::string _name, Expression _arg1, Expression _arg2, Kind _kind): Expression(std::move(_name), std::vector{std::move(_arg1), std::move(_arg2)}, _kind) {} }; DEV_SIMPLE_EXCEPTION(SolverError); class SolverInterface { public: virtual ~SolverInterface() = default; virtual void reset() = 0; virtual void push() = 0; virtual void pop() = 0; virtual void declareVariable(std::string const& _name, Sort const& _sort) = 0; Expression newVariable(std::string _name, SortPointer _sort) { // Subclasses should do something here declareVariable(_name, *_sort); return Expression(std::move(_name), {}, std::move(_sort)); } virtual void addAssertion(Expression const& _expr) = 0; /// Checks for satisfiability, evaluates the expressions if a model /// is available. Throws SMTSolverError on error. virtual std::pair> check(std::vector const& _expressionsToEvaluate) = 0; protected: // SMT query timeout in milliseconds. static int const queryTimeout = 10000; }; } } }