//===-- ValidatingSolver.cpp ----------------------------------------------===// // // The KLEE Symbolic Virtual Machine // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "klee/Expr/Constraints.h" #include "klee/Solver/Solver.h" #include "klee/Solver/SolverImpl.h" #include namespace klee { class ValidatingSolver : public SolverImpl { private: Solver *solver, *oracle; public: ValidatingSolver(Solver *_solver, Solver *_oracle) : solver(_solver), oracle(_oracle) {} ~ValidatingSolver() { delete solver; } bool computeValidity(const Query &, Solver::Validity &result); bool computeTruth(const Query &, bool &isValid); bool computeValue(const Query &, ref &result); bool computeInitialValues(const Query &, const std::vector &objects, std::vector > &values, bool &hasSolution); SolverRunStatus getOperationStatusCode(); char *getConstraintLog(const Query &); void setCoreSolverTimeout(time::Span timeout); }; bool ValidatingSolver::computeTruth(const Query &query, bool &isValid) { bool answer; if (!solver->impl->computeTruth(query, isValid)) return false; if (!oracle->impl->computeTruth(query, answer)) return false; if (isValid != answer) assert(0 && "invalid solver result (computeTruth)"); return true; } bool ValidatingSolver::computeValidity(const Query &query, Solver::Validity &result) { Solver::Validity answer; if (!solver->impl->computeValidity(query, result)) return false; if (!oracle->impl->computeValidity(query, answer)) return false; if (result != answer) assert(0 && "invalid solver result (computeValidity)"); return true; } bool ValidatingSolver::computeValue(const Query &query, ref &result) { bool answer; if (!solver->impl->computeValue(query, result)) return false; // We don't want to compare, but just make sure this is a legal // solution. if (!oracle->impl->computeTruth( query.withExpr(NeExpr::create(query.expr, result)), answer)) return false; if (answer) assert(0 && "invalid solver result (computeValue)"); return true; } bool ValidatingSolver::computeInitialValues( const Query &query, const std::vector &objects, std::vector > &values, bool &hasSolution) { bool answer; if (!solver->impl->computeInitialValues(query, objects, values, hasSolution)) return false; if (hasSolution) { // Assert the bindings as constraints, and verify that the // conjunction of the actual constraints is satisfiable. std::vector > bindings; for (unsigned i = 0; i != values.size(); ++i) { const Array *array = objects[i]; assert(array); for (unsigned j = 0; j < array->size; j++) { unsigned char value = values[i][j]; bindings.push_back(EqExpr::create( ReadExpr::create(UpdateList(array, 0), ConstantExpr::alloc(j, array->getDomain())), ConstantExpr::alloc(value, array->getRange()))); } } ConstraintManager tmp(bindings); ref constraints = Expr::createIsZero(query.expr); for (ConstraintManager::const_iterator it = query.constraints.begin(), ie = query.constraints.end(); it != ie; ++it) constraints = AndExpr::create(constraints, *it); if (!oracle->impl->computeTruth(Query(tmp, constraints), answer)) return false; if (!answer) assert(0 && "invalid solver result (computeInitialValues)"); } else { if (!oracle->impl->computeTruth(query, answer)) return false; if (!answer) assert(0 && "invalid solver result (computeInitialValues)"); } return true; } SolverImpl::SolverRunStatus ValidatingSolver::getOperationStatusCode() { return solver->impl->getOperationStatusCode(); } char *ValidatingSolver::getConstraintLog(const Query &query) { return solver->impl->getConstraintLog(query); } void ValidatingSolver::setCoreSolverTimeout(time::Span timeout) { solver->impl->setCoreSolverTimeout(timeout); } Solver *createValidatingSolver(Solver *s, Solver *oracle) { return new Solver(new ValidatingSolver(s, oracle)); } }