solidity/libsmtutil/SMTPortfolio.cpp

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/*
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 <http://www.gnu.org/licenses/>.
*/
// SPDX-License-Identifier: GPL-3.0
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#include <libsmtutil/SMTPortfolio.h>
#ifdef HAVE_Z3
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#include <libsmtutil/Z3Interface.h>
#endif
#ifdef HAVE_CVC4
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#include <libsmtutil/CVC4Interface.h>
#endif
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#include <libsmtutil/SMTLib2Interface.h>
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using namespace solidity;
using namespace solidity::util;
using namespace solidity::frontend;
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using namespace solidity::smtutil;
SMTPortfolio::SMTPortfolio(
std::map<h256, std::string> _smtlib2Responses,
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frontend::ReadCallback::Callback _smtCallback,
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[[maybe_unused]] SMTSolverChoice _enabledSolvers,
std::optional<unsigned> _queryTimeout,
bool _printQuery
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):
SolverInterface(_queryTimeout)
{
solAssert(!_printQuery || _enabledSolvers == smtutil::SMTSolverChoice::SMTLIB2(), "Only SMTLib2 solver can be enabled to print queries");
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if (_enabledSolvers.smtlib2)
m_solvers.emplace_back(std::make_unique<SMTLib2Interface>(std::move(_smtlib2Responses), std::move(_smtCallback), m_queryTimeout));
#ifdef HAVE_Z3
if (_enabledSolvers.z3 && Z3Interface::available())
m_solvers.emplace_back(std::make_unique<Z3Interface>(m_queryTimeout));
#endif
#ifdef HAVE_CVC4
if (_enabledSolvers.cvc4)
m_solvers.emplace_back(std::make_unique<CVC4Interface>(m_queryTimeout));
#endif
}
void SMTPortfolio::reset()
{
for (auto const& s: m_solvers)
s->reset();
}
void SMTPortfolio::push()
{
for (auto const& s: m_solvers)
s->push();
}
void SMTPortfolio::pop()
{
for (auto const& s: m_solvers)
s->pop();
}
void SMTPortfolio::declareVariable(std::string const& _name, SortPointer const& _sort)
{
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smtAssert(_sort, "");
for (auto const& s: m_solvers)
s->declareVariable(_name, _sort);
}
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void SMTPortfolio::addAssertion(Expression const& _expr)
{
for (auto const& s: m_solvers)
s->addAssertion(_expr);
}
/*
* Broadcasts the SMT query to all solvers and returns a single result.
* This comment explains how this result is decided.
*
* When a solver is queried, there are four possible answers:
* SATISFIABLE (SAT), UNSATISFIABLE (UNSAT), UNKNOWN, CONFLICTING, ERROR
* We say that a solver _answered_ the query if it returns either:
* SAT or UNSAT
* A solver did not answer the query if it returns either:
* UNKNOWN (it tried but couldn't solve it) or ERROR (crash, internal error, API error, etc).
*
* Ideally all solvers answer the query and agree on what the answer is
* (all say SAT or all say UNSAT).
*
* The actual logic as as follows:
* 1) If at least one solver answers the query, all the non-answer results are ignored.
* Here SAT/UNSAT is preferred over UNKNOWN since it's an actual answer, and over ERROR
* because one buggy solver/integration shouldn't break the portfolio.
*
* 2) If at least one solver answers SAT and at least one answers UNSAT, at least one of them is buggy
* and the result is CONFLICTING.
* In the future if we have more than 2 solvers enabled we could go with the majority.
*
* 3) If NO solver answers the query:
* If at least one solver returned UNKNOWN (where the rest returned ERROR), the result is UNKNOWN.
* This is preferred over ERROR since the SMTChecker might decide to abstract the query
* when it is told that this is a hard query to solve.
*
* If all solvers return ERROR, the result is ERROR.
*/
std::pair<CheckResult, std::vector<std::string>> SMTPortfolio::check(std::vector<Expression> const& _expressionsToEvaluate)
{
CheckResult lastResult = CheckResult::ERROR;
std::vector<std::string> finalValues;
for (auto const& s: m_solvers)
{
CheckResult result;
std::vector<std::string> values;
tie(result, values) = s->check(_expressionsToEvaluate);
if (solverAnswered(result))
{
if (!solverAnswered(lastResult))
{
lastResult = result;
finalValues = std::move(values);
}
else if (lastResult != result)
{
lastResult = CheckResult::CONFLICTING;
break;
}
}
else if (result == CheckResult::UNKNOWN && lastResult == CheckResult::ERROR)
lastResult = result;
}
return std::make_pair(lastResult, finalValues);
}
std::vector<std::string> SMTPortfolio::unhandledQueries()
{
// This code assumes that the constructor guarantees that
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// SmtLib2Interface is in position 0, if enabled.
if (!m_solvers.empty())
if (auto smtlib2 = dynamic_cast<SMTLib2Interface*>(m_solvers.front().get()))
return smtlib2->unhandledQueries();
return {};
}
bool SMTPortfolio::solverAnswered(CheckResult result)
{
return result == CheckResult::SATISFIABLE || result == CheckResult::UNSATISFIABLE;
}
std::string SMTPortfolio::dumpQuery(std::vector<Expression> const& _expressionsToEvaluate)
{
// This code assumes that the constructor guarantees that
// SmtLib2Interface is in position 0, if enabled.
auto smtlib2 = dynamic_cast<SMTLib2Interface*>(m_solvers.front().get());
solAssert(smtlib2, "Must use SMTLib2 solver to dump queries");
return smtlib2->dumpQuery(_expressionsToEvaluate);
}