solidity/libsmtutil/Z3Interface.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/Z3Interface.h>
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#include <libsolutil/CommonData.h>
#include <libsolutil/CommonIO.h>
#include <libsolutil/Exceptions.h>
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#ifdef HAVE_Z3_DLOPEN
#include <libsmtutil/Z3Loader.h>
#endif
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using namespace solidity::smtutil;
using namespace solidity::util;
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bool Z3Interface::available()
{
#ifdef HAVE_Z3_DLOPEN
return Z3Loader::get().available();
#else
return true;
#endif
}
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Z3Interface::Z3Interface(std::optional<unsigned> _queryTimeout):
SolverInterface(_queryTimeout),
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m_solver(m_context)
{
// These need to be set globally.
z3::set_param("rewriter.pull_cheap_ite", true);
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if (m_queryTimeout)
m_context.set("timeout", int(*m_queryTimeout));
else
z3::set_param("rlimit", resourceLimit);
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}
void Z3Interface::reset()
{
m_constants.clear();
m_functions.clear();
m_solver.reset();
}
void Z3Interface::push()
{
m_solver.push();
}
void Z3Interface::pop()
{
m_solver.pop();
}
void Z3Interface::declareVariable(std::string const& _name, SortPointer const& _sort)
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{
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smtAssert(_sort, "");
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if (_sort->kind == Kind::Function)
declareFunction(_name, *_sort);
else if (m_constants.count(_name))
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m_constants.at(_name) = m_context.constant(_name.c_str(), z3Sort(*_sort));
else
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m_constants.emplace(_name, m_context.constant(_name.c_str(), z3Sort(*_sort)));
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}
void Z3Interface::declareFunction(std::string const& _name, Sort const& _sort)
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{
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smtAssert(_sort.kind == Kind::Function, "");
FunctionSort fSort = dynamic_cast<FunctionSort const&>(_sort);
if (m_functions.count(_name))
m_functions.at(_name) = m_context.function(_name.c_str(), z3Sort(fSort.domain), z3Sort(*fSort.codomain));
else
m_functions.emplace(_name, m_context.function(_name.c_str(), z3Sort(fSort.domain), z3Sort(*fSort.codomain)));
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}
void Z3Interface::addAssertion(Expression const& _expr)
{
m_solver.add(toZ3Expr(_expr));
}
std::pair<CheckResult, std::vector<std::string>> Z3Interface::check(std::vector<Expression> const& _expressionsToEvaluate)
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{
CheckResult result;
std::vector<std::string> values;
try
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{
switch (m_solver.check())
{
case z3::check_result::sat:
result = CheckResult::SATISFIABLE;
break;
case z3::check_result::unsat:
result = CheckResult::UNSATISFIABLE;
break;
case z3::check_result::unknown:
result = CheckResult::UNKNOWN;
break;
}
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if (result == CheckResult::SATISFIABLE && !_expressionsToEvaluate.empty())
{
z3::model m = m_solver.get_model();
for (Expression const& e: _expressionsToEvaluate)
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values.push_back(util::toString(m.eval(toZ3Expr(e))));
}
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}
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catch (z3::exception const& _err)
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{
std::set<std::string> msgs{
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/// Resource limit (rlimit) exhausted.
"max. resource limit exceeded",
/// User given timeout exhausted.
"canceled"
};
if (msgs.count(_err.msg()))
result = CheckResult::UNKNOWN;
else
result = CheckResult::ERROR;
values.clear();
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}
return std::make_pair(result, values);
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}
z3::expr Z3Interface::toZ3Expr(Expression const& _expr)
{
if (_expr.arguments.empty() && m_constants.count(_expr.name))
return m_constants.at(_expr.name);
z3::expr_vector arguments(m_context);
for (auto const& arg: _expr.arguments)
arguments.push_back(toZ3Expr(arg));
try
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{
std::string const& n = _expr.name;
if (m_functions.count(n))
return m_functions.at(n)(arguments);
else if (m_constants.count(n))
{
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smtAssert(arguments.empty(), "");
return m_constants.at(n);
}
else if (arguments.empty())
{
if (n == "true")
return m_context.bool_val(true);
else if (n == "false")
return m_context.bool_val(false);
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else if (_expr.sort->kind == Kind::Sort)
{
auto sortSort = std::dynamic_pointer_cast<SortSort>(_expr.sort);
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smtAssert(sortSort, "");
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return m_context.constant(n.c_str(), z3Sort(*sortSort->inner));
}
else
try
{
return m_context.int_val(n.c_str());
}
catch (z3::exception const& _e)
{
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smtAssert(false, _e.msg());
}
}
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smtAssert(_expr.hasCorrectArity(), "");
if (n == "ite")
return z3::ite(arguments[0], arguments[1], arguments[2]);
else if (n == "not")
return !arguments[0];
else if (n == "and")
return arguments[0] && arguments[1];
else if (n == "or")
return arguments[0] || arguments[1];
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else if (n == "=>")
return z3::implies(arguments[0], arguments[1]);
else if (n == "=")
return arguments[0] == arguments[1];
else if (n == "<")
return arguments[0] < arguments[1];
else if (n == "<=")
return arguments[0] <= arguments[1];
else if (n == ">")
return arguments[0] > arguments[1];
else if (n == ">=")
return arguments[0] >= arguments[1];
else if (n == "+")
return arguments[0] + arguments[1];
else if (n == "-")
return arguments[0] - arguments[1];
else if (n == "*")
return arguments[0] * arguments[1];
else if (n == "div")
return arguments[0] / arguments[1];
else if (n == "mod")
return z3::mod(arguments[0], arguments[1]);
else if (n == "bvnot")
return ~arguments[0];
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else if (n == "bvand")
return arguments[0] & arguments[1];
else if (n == "bvor")
return arguments[0] | arguments[1];
else if (n == "bvxor")
return arguments[0] ^ arguments[1];
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else if (n == "bvshl")
return z3::shl(arguments[0], arguments[1]);
else if (n == "bvlshr")
return z3::lshr(arguments[0], arguments[1]);
else if (n == "bvashr")
return z3::ashr(arguments[0], arguments[1]);
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else if (n == "int2bv")
{
size_t size = std::stoul(_expr.arguments[1].name);
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return z3::int2bv(static_cast<unsigned>(size), arguments[0]);
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}
else if (n == "bv2int")
{
auto intSort = std::dynamic_pointer_cast<IntSort>(_expr.sort);
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smtAssert(intSort, "");
return z3::bv2int(arguments[0], intSort->isSigned);
}
else if (n == "select")
return z3::select(arguments[0], arguments[1]);
else if (n == "store")
return z3::store(arguments[0], arguments[1], arguments[2]);
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else if (n == "const_array")
{
std::shared_ptr<SortSort> sortSort = std::dynamic_pointer_cast<SortSort>(_expr.arguments[0].sort);
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smtAssert(sortSort, "");
auto arraySort = std::dynamic_pointer_cast<ArraySort>(sortSort->inner);
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smtAssert(arraySort && arraySort->domain, "");
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return z3::const_array(z3Sort(*arraySort->domain), arguments[1]);
}
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else if (n == "tuple_get")
{
size_t index = stoul(_expr.arguments[1].name);
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return z3::func_decl(m_context, Z3_get_tuple_sort_field_decl(m_context, z3Sort(*_expr.arguments[0].sort), static_cast<unsigned>(index)))(arguments[0]);
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}
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else if (n == "tuple_constructor")
{
auto constructor = z3::func_decl(m_context, Z3_get_tuple_sort_mk_decl(m_context, z3Sort(*_expr.sort)));
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smtAssert(constructor.arity() == arguments.size(), "");
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z3::expr_vector args(m_context);
for (auto const& arg: arguments)
args.push_back(arg);
return constructor(args);
}
smtAssert(false);
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}
catch (z3::exception const& _e)
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{
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smtAssert(false, _e.msg());
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}
smtAssert(false);
// FIXME: Workaround for spurious GCC 12.1 warning (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=105794)
util::unreachable();
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}
Expression Z3Interface::fromZ3Expr(z3::expr const& _expr)
{
auto sort = fromZ3Sort(_expr.get_sort());
if (_expr.is_const() || _expr.is_var())
return Expression(_expr.to_string(), {}, sort);
if (_expr.is_quantifier())
{
std::string quantifierName;
if (_expr.is_exists())
quantifierName = "exists";
else if (_expr.is_forall())
quantifierName = "forall";
else if (_expr.is_lambda())
quantifierName = "lambda";
else
smtAssert(false, "");
return Expression(quantifierName, {fromZ3Expr(_expr.body())}, sort);
}
smtAssert(_expr.is_app(), "");
std::vector<Expression> arguments;
for (unsigned i = 0; i < _expr.num_args(); ++i)
arguments.push_back(fromZ3Expr(_expr.arg(i)));
auto kind = _expr.decl().decl_kind();
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if (_expr.is_ite())
return Expression::ite(arguments[0], arguments[1], arguments[2]);
else if (_expr.is_not())
return !arguments[0];
else if (_expr.is_and())
return Expression::mkAnd(arguments);
else if (_expr.is_or())
return Expression::mkOr(arguments);
else if (_expr.is_implies())
return Expression::implies(arguments[0], arguments[1]);
else if (_expr.is_eq())
{
smtAssert(arguments.size() == 2, "");
return arguments[0] == arguments[1];
}
else if (kind == Z3_OP_ULT || kind == Z3_OP_SLT)
return arguments[0] < arguments[1];
else if (kind == Z3_OP_LE || kind == Z3_OP_ULEQ || kind == Z3_OP_SLEQ)
return arguments[0] <= arguments[1];
else if (kind == Z3_OP_GT || kind == Z3_OP_SGT)
return arguments[0] > arguments[1];
else if (kind == Z3_OP_GE || kind == Z3_OP_UGEQ || kind == Z3_OP_SGEQ)
return arguments[0] >= arguments[1];
else if (kind == Z3_OP_ADD)
return Expression::mkPlus(arguments);
else if (kind == Z3_OP_SUB)
{
smtAssert(arguments.size() == 2, "");
return arguments[0] - arguments[1];
}
else if (kind == Z3_OP_MUL)
return Expression::mkMul(arguments);
else if (kind == Z3_OP_DIV)
{
smtAssert(arguments.size() == 2, "");
return arguments[0] / arguments[1];
}
else if (kind == Z3_OP_MOD)
return arguments[0] % arguments[1];
else if (kind == Z3_OP_XOR)
return arguments[0] ^ arguments[1];
else if (kind == Z3_OP_BOR)
return arguments[0] | arguments[1];
else if (kind == Z3_OP_BAND)
return arguments[0] & arguments[1];
else if (kind == Z3_OP_BXOR)
return arguments[0] ^ arguments[1];
else if (kind == Z3_OP_BNOT)
return !arguments[0];
else if (kind == Z3_OP_BSHL)
return arguments[0] << arguments[1];
else if (kind == Z3_OP_BLSHR)
return arguments[0] >> arguments[1];
else if (kind == Z3_OP_BASHR)
return Expression::ashr(arguments[0], arguments[1]);
else if (kind == Z3_OP_INT2BV)
return Expression::int2bv(arguments[0], _expr.get_sort().bv_size());
else if (kind == Z3_OP_BV2INT)
return Expression::bv2int(arguments[0]);
else if (kind == Z3_OP_EXTRACT)
return Expression("extract", arguments, sort);
else if (kind == Z3_OP_SELECT)
return Expression::select(arguments[0], arguments[1]);
else if (kind == Z3_OP_STORE)
return Expression::store(arguments[0], arguments[1], arguments[2]);
else if (kind == Z3_OP_CONST_ARRAY)
{
auto sortSort = std::make_shared<SortSort>(fromZ3Sort(_expr.get_sort()));
return Expression::const_array(Expression(sortSort), arguments[0]);
}
else if (kind == Z3_OP_DT_CONSTRUCTOR)
{
auto sortSort = std::make_shared<SortSort>(fromZ3Sort(_expr.get_sort()));
return Expression::tuple_constructor(Expression(sortSort), arguments);
}
else if (kind == Z3_OP_DT_ACCESSOR)
return Expression("dt_accessor_" + _expr.decl().name().str(), arguments, sort);
else if (kind == Z3_OP_DT_IS)
return Expression("dt_is", {arguments.at(0)}, sort);
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else if (
kind == Z3_OP_UNINTERPRETED ||
kind == Z3_OP_RECURSIVE
)
return Expression(_expr.decl().name().str(), arguments, fromZ3Sort(_expr.get_sort()));
smtAssert(false);
// FIXME: Workaround for spurious GCC 12.1 warning (https://gcc.gnu.org/bugzilla/show_bug.cgi?id=105794)
util::unreachable();
}
z3::sort Z3Interface::z3Sort(Sort const& _sort)
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{
switch (_sort.kind)
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{
case Kind::Bool:
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return m_context.bool_sort();
case Kind::Int:
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return m_context.int_sort();
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case Kind::BitVector:
return m_context.bv_sort(dynamic_cast<BitVectorSort const&>(_sort).size);
case Kind::Array:
{
auto const& arraySort = dynamic_cast<ArraySort const&>(_sort);
return m_context.array_sort(z3Sort(*arraySort.domain), z3Sort(*arraySort.range));
}
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case Kind::Tuple:
{
auto const& tupleSort = dynamic_cast<TupleSort const&>(_sort);
std::vector<char const*> cMembers;
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for (auto const& member: tupleSort.members)
cMembers.emplace_back(member.c_str());
/// Using this instead of the function below because with that one
/// we can't use `&sorts[0]` here.
std::vector<z3::sort> sorts;
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for (auto const& sort: tupleSort.components)
sorts.push_back(z3Sort(*sort));
z3::func_decl_vector projs(m_context);
z3::func_decl tupleConstructor = m_context.tuple_sort(
tupleSort.name.c_str(),
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static_cast<unsigned>(tupleSort.members.size()),
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cMembers.data(),
sorts.data(),
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projs
);
return tupleConstructor.range();
}
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default:
break;
}
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smtAssert(false, "");
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// Cannot be reached.
return m_context.int_sort();
}
z3::sort_vector Z3Interface::z3Sort(std::vector<SortPointer> const& _sorts)
{
z3::sort_vector z3Sorts(m_context);
for (auto const& _sort: _sorts)
z3Sorts.push_back(z3Sort(*_sort));
return z3Sorts;
}
SortPointer Z3Interface::fromZ3Sort(z3::sort const& _sort)
{
if (_sort.is_bool())
return SortProvider::boolSort;
if (_sort.is_int())
return SortProvider::sintSort;
if (_sort.is_bv())
return std::make_shared<BitVectorSort>(_sort.bv_size());
if (_sort.is_array())
return std::make_shared<ArraySort>(fromZ3Sort(_sort.array_domain()), fromZ3Sort(_sort.array_range()));
if (_sort.is_datatype())
{
auto name = _sort.name().str();
auto constructor = z3::func_decl(m_context, Z3_get_tuple_sort_mk_decl(m_context, _sort));
std::vector<std::string> memberNames;
std::vector<SortPointer> memberSorts;
for (unsigned i = 0; i < constructor.arity(); ++i)
{
auto accessor = z3::func_decl(m_context, Z3_get_tuple_sort_field_decl(m_context, _sort, i));
memberNames.push_back(accessor.name().str());
memberSorts.push_back(fromZ3Sort(accessor.range()));
}
return std::make_shared<TupleSort>(name, memberNames, memberSorts);
}
smtAssert(false, "");
}
std::vector<SortPointer> Z3Interface::fromZ3Sort(z3::sort_vector const& _sorts)
{
return applyMap(_sorts, [this](auto const& sort) { return fromZ3Sort(sort); });
}