/*
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 .
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
using namespace std;
using namespace solidity;
using namespace solidity::util;
using namespace solidity::yul;
using namespace solidity::smtutil;
void ReasoningBasedSimplifier::run(OptimiserStepContext& _context, Block& _ast)
{
set ssaVars = SSAValueTracker::ssaVariables(_ast);
ReasoningBasedSimplifier{_context.dialect, ssaVars}(_ast);
}
std::optional ReasoningBasedSimplifier::invalidInCurrentEnvironment()
{
// SMTLib2 interface is always available, but we would like to have synchronous answers.
if (smtutil::SMTPortfolio{}.solvers() <= 1)
return string{"No SMT solvers available."};
else
return nullopt;
}
void ReasoningBasedSimplifier::operator()(VariableDeclaration& _varDecl)
{
SMTSolver::encodeVariableDeclaration(_varDecl);
}
void ReasoningBasedSimplifier::operator()(If& _if)
{
if (!SideEffectsCollector{m_dialect, *_if.condition}.movable())
return;
smtutil::Expression condition = encodeExpression(*_if.condition);
m_solver->push();
m_solver->addAssertion(condition == constantValue(0));
CheckResult result = m_solver->check({}).first;
m_solver->pop();
if (result == CheckResult::UNSATISFIABLE)
{
Literal trueCondition = m_dialect.trueLiteral();
trueCondition.debugData = debugDataOf(*_if.condition);
_if.condition = make_unique(std::move(trueCondition));
}
else
{
m_solver->push();
m_solver->addAssertion(condition != constantValue(0));
CheckResult result2 = m_solver->check({}).first;
m_solver->pop();
if (result2 == CheckResult::UNSATISFIABLE)
{
Literal falseCondition = m_dialect.zeroLiteralForType(m_dialect.boolType);
falseCondition.debugData = debugDataOf(*_if.condition);
_if.condition = make_unique(std::move(falseCondition));
_if.body = yul::Block{};
// Nothing left to be done.
return;
}
}
m_solver->push();
m_solver->addAssertion(condition != constantValue(0));
ASTModifier::operator()(_if.body);
m_solver->pop();
}
ReasoningBasedSimplifier::ReasoningBasedSimplifier(
Dialect const& _dialect,
set const& _ssaVariables
):
SMTSolver(_ssaVariables, _dialect),
m_dialect(_dialect)
{
}
smtutil::Expression ReasoningBasedSimplifier::encodeEVMBuiltin(
evmasm::Instruction _instruction,
vector const& _arguments
)
{
vector arguments = applyMap(
_arguments,
[this](yul::Expression const& _expr) { return encodeExpression(_expr); }
);
switch (_instruction)
{
case evmasm::Instruction::ADD:
return wrap(arguments.at(0) + arguments.at(1));
case evmasm::Instruction::MUL:
return wrap(arguments.at(0) * arguments.at(1));
case evmasm::Instruction::SUB:
return wrap(arguments.at(0) - arguments.at(1));
case evmasm::Instruction::DIV:
return smtutil::Expression::ite(
arguments.at(1) == constantValue(0),
constantValue(0),
arguments.at(0) / arguments.at(1)
);
case evmasm::Instruction::SDIV:
return smtutil::Expression::ite(
arguments.at(1) == constantValue(0),
constantValue(0),
// No `wrap()` needed here, because -2**255 / -1 results
// in 2**255 which is "converted" to its two's complement
// representation 2**255 in `signedToTwosComplement`
signedToTwosComplement(smtutil::signedDivisionEVM(
twosComplementToSigned(arguments.at(0)),
twosComplementToSigned(arguments.at(1))
))
);
case evmasm::Instruction::MOD:
return smtutil::Expression::ite(
arguments.at(1) == constantValue(0),
constantValue(0),
arguments.at(0) % arguments.at(1)
);
case evmasm::Instruction::SMOD:
return smtutil::Expression::ite(
arguments.at(1) == constantValue(0),
constantValue(0),
signedToTwosComplement(signedModuloEVM(
twosComplementToSigned(arguments.at(0)),
twosComplementToSigned(arguments.at(1))
))
);
case evmasm::Instruction::LT:
return booleanValue(arguments.at(0) < arguments.at(1));
case evmasm::Instruction::SLT:
return booleanValue(twosComplementToSigned(arguments.at(0)) < twosComplementToSigned(arguments.at(1)));
case evmasm::Instruction::GT:
return booleanValue(arguments.at(0) > arguments.at(1));
case evmasm::Instruction::SGT:
return booleanValue(twosComplementToSigned(arguments.at(0)) > twosComplementToSigned(arguments.at(1)));
case evmasm::Instruction::EQ:
return booleanValue(arguments.at(0) == arguments.at(1));
case evmasm::Instruction::ISZERO:
return booleanValue(arguments.at(0) == constantValue(0));
case evmasm::Instruction::AND:
return smtutil::Expression::ite(
(arguments.at(0) == 0 || arguments.at(0) == 1) &&
(arguments.at(1) == 0 || arguments.at(1) == 1),
booleanValue(arguments.at(0) == 1 && arguments.at(1) == 1),
bv2int(int2bv(arguments.at(0)) & int2bv(arguments.at(1)))
);
case evmasm::Instruction::OR:
return smtutil::Expression::ite(
(arguments.at(0) == 0 || arguments.at(0) == 1) &&
(arguments.at(1) == 0 || arguments.at(1) == 1),
booleanValue(arguments.at(0) == 1 || arguments.at(1) == 1),
bv2int(int2bv(arguments.at(0)) | int2bv(arguments.at(1)))
);
case evmasm::Instruction::XOR:
return bv2int(int2bv(arguments.at(0)) ^ int2bv(arguments.at(1)));
case evmasm::Instruction::NOT:
return smtutil::Expression(u256(-1)) - arguments.at(0);
case evmasm::Instruction::SHL:
return smtutil::Expression::ite(
arguments.at(0) > 255,
constantValue(0),
bv2int(int2bv(arguments.at(1)) << int2bv(arguments.at(0)))
);
case evmasm::Instruction::SHR:
return smtutil::Expression::ite(
arguments.at(0) > 255,
constantValue(0),
bv2int(int2bv(arguments.at(1)) >> int2bv(arguments.at(0)))
);
case evmasm::Instruction::SAR:
return smtutil::Expression::ite(
arguments.at(0) > 255,
constantValue(0),
bv2int(smtutil::Expression::ashr(int2bv(arguments.at(1)), int2bv(arguments.at(0))))
);
case evmasm::Instruction::ADDMOD:
return smtutil::Expression::ite(
arguments.at(2) == constantValue(0),
constantValue(0),
(arguments.at(0) + arguments.at(1)) % arguments.at(2)
);
case evmasm::Instruction::MULMOD:
return smtutil::Expression::ite(
arguments.at(2) == constantValue(0),
constantValue(0),
(arguments.at(0) * arguments.at(1)) % arguments.at(2)
);
// TODO SIGNEXTEND
default:
break;
}
return newRestrictedVariable();
}