solidity/libsolidity/formal/Predicate.cpp

/*
	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

#include <libsolidity/formal/Predicate.h>

#include <libsolidity/formal/SMTEncoder.h>

#include <libsolidity/ast/AST.h>

#include <boost/algorithm/string/join.hpp>
#include <utility>

using namespace std;
using namespace solidity;
using namespace solidity::smtutil;
using namespace solidity::frontend;
using namespace solidity::frontend::smt;

map<string, Predicate> Predicate::m_predicates;

Predicate const* Predicate::create(
	SortPointer _sort,
	string _name,
	PredicateType _type,
	EncodingContext& _context,
	ASTNode const* _node
)
{
	smt::SymbolicFunctionVariable predicate{_sort, move(_name), _context};
	string functorName = predicate.currentName();
	solAssert(!m_predicates.count(functorName), "");
	return &m_predicates.emplace(
		std::piecewise_construct,
		std::forward_as_tuple(functorName),
		std::forward_as_tuple(move(predicate), _type, _node)
	).first->second;
}

Predicate::Predicate(
	smt::SymbolicFunctionVariable&& _predicate,
	PredicateType _type,
	ASTNode const* _node
):
	m_predicate(move(_predicate)),
	m_type(_type),
	m_node(_node)
{
}

Predicate const* Predicate::predicate(string const& _name)
{
	return &m_predicates.at(_name);
}

void Predicate::reset()
{
	m_predicates.clear();
}

smtutil::Expression Predicate::operator()(vector<smtutil::Expression> const& _args) const
{
	return m_predicate(_args);
}

smtutil::Expression Predicate::functor() const
{
	return m_predicate.currentFunctionValue();
}

smtutil::Expression Predicate::functor(unsigned _idx) const
{
	return m_predicate.functionValueAtIndex(_idx);
}

void Predicate::newFunctor()
{
	m_predicate.increaseIndex();
}

ASTNode const* Predicate::programNode() const
{
	return m_node;
}

ContractDefinition const* Predicate::programContract() const
{
	if (auto const* contract = dynamic_cast<ContractDefinition const*>(m_node))
		if (!contract->constructor())
			return contract;

	return nullptr;
}

FunctionDefinition const* Predicate::programFunction() const
{
	if (auto const* contract = dynamic_cast<ContractDefinition const*>(m_node))
	{
		if (contract->constructor())
			return contract->constructor();
		return nullptr;
	}

	if (auto const* fun = dynamic_cast<FunctionDefinition const*>(m_node))
		return fun;

	return nullptr;
}

optional<vector<VariableDeclaration const*>> Predicate::stateVariables() const
{
	if (auto const* fun = programFunction())
		return SMTEncoder::stateVariablesIncludingInheritedAndPrivate(*fun);
	if (auto const* contract = programContract())
		return SMTEncoder::stateVariablesIncludingInheritedAndPrivate(*contract);

	auto const* node = m_node;
	while (auto const* scopable = dynamic_cast<Scopable const*>(node))
	{
		node = scopable->scope();
		if (auto const* fun = dynamic_cast<FunctionDefinition const*>(node))
			return SMTEncoder::stateVariablesIncludingInheritedAndPrivate(*fun);
	}

	return nullopt;
}

bool Predicate::isSummary() const
{
	return functor().name.rfind("summary", 0) == 0;
}

bool Predicate::isInterface() const
{
	return functor().name.rfind("interface", 0) == 0;
}

string Predicate::formatSummaryCall(vector<smtutil::Expression> const& _args) const
{
	if (programContract())
		return "constructor()";

	solAssert(isSummary(), "");

	auto stateVars = stateVariables();
	solAssert(stateVars.has_value(), "");
	auto const* fun = programFunction();
	solAssert(fun, "");

	/// The signature of a function summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockChainState, preStateVars, preInputVars, postBlockchainState, postStateVars, postInputVars, outputVars).
	/// Here we are interested in preInputVars.
	auto first = _args.begin() + 5 + static_cast<int>(stateVars->size());
	auto last = first + static_cast<int>(fun->parameters().size());
	solAssert(first >= _args.begin() && first <= _args.end(), "");
	solAssert(last >= _args.begin() && last <= _args.end(), "");
	auto inTypes = FunctionType(*fun).parameterTypes();
	vector<optional<string>> functionArgsCex = formatExpressions(vector<smtutil::Expression>(first, last), inTypes);
	vector<string> functionArgs;

	auto const& params = fun->parameters();
	solAssert(params.size() == functionArgsCex.size(), "");
	for (unsigned i = 0; i < params.size(); ++i)
		if (params.at(i) && functionArgsCex.at(i))
			functionArgs.emplace_back(*functionArgsCex.at(i));
		else
			functionArgs.emplace_back(params[i]->name());

	string fName = fun->isConstructor() ? "constructor" :
		fun->isFallback() ? "fallback" :
		fun->isReceive() ? "receive" :
		fun->name();
	return fName + "(" + boost::algorithm::join(functionArgs, ", ") + ")";

}

vector<optional<string>> Predicate::summaryStateValues(vector<smtutil::Expression> const& _args) const
{
	/// The signature of a function summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockchainState, preStateVars, preInputVars, postBlockchainState, postStateVars, postInputVars, outputVars).
	/// The signature of an implicit constructor summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockchainState, postBlockchainState, postStateVars).
	/// Here we are interested in postStateVars.
	auto stateVars = stateVariables();
	solAssert(stateVars.has_value(), "");

	vector<smtutil::Expression>::const_iterator stateFirst;
	vector<smtutil::Expression>::const_iterator stateLast;
	if (auto const* function = programFunction())
	{
		stateFirst = _args.begin() + 5 + static_cast<int>(stateVars->size()) + static_cast<int>(function->parameters().size()) + 1;
		stateLast = stateFirst + static_cast<int>(stateVars->size());
	}
	else if (programContract())
	{
		stateFirst = _args.begin() + 6;
		stateLast = stateFirst + static_cast<int>(stateVars->size());
	}
	else
		solAssert(false, "");

	solAssert(stateFirst >= _args.begin() && stateFirst <= _args.end(), "");
	solAssert(stateLast >= _args.begin() && stateLast <= _args.end(), "");

	vector<smtutil::Expression> stateArgs(stateFirst, stateLast);
	solAssert(stateArgs.size() == stateVars->size(), "");
	auto stateTypes = applyMap(*stateVars, [&](auto const& _var) { return _var->type(); });
	return formatExpressions(stateArgs, stateTypes);
}

vector<optional<string>> Predicate::summaryPostInputValues(vector<smtutil::Expression> const& _args) const
{
	/// The signature of a function summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockchainState, preStateVars, preInputVars, postBlockchainState, postStateVars, postInputVars, outputVars).
	/// Here we are interested in postInputVars.
	auto const* function = programFunction();
	solAssert(function, "");

	auto stateVars = stateVariables();
	solAssert(stateVars.has_value(), "");

	auto const& inParams = function->parameters();

	auto first = _args.begin() + 5 + static_cast<int>(stateVars->size()) * 2 + static_cast<int>(inParams.size()) + 1;
	auto last = first + static_cast<int>(inParams.size());

	solAssert(first >= _args.begin() && first <= _args.end(), "");
	solAssert(last >= _args.begin() && last <= _args.end(), "");

	vector<smtutil::Expression> inValues(first, last);
	solAssert(inValues.size() == inParams.size(), "");
	auto inTypes = FunctionType(*function).parameterTypes();
	return formatExpressions(inValues, inTypes);
}

vector<optional<string>> Predicate::summaryPostOutputValues(vector<smtutil::Expression> const& _args) const
{
	/// The signature of a function summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockchainState, preStateVars, preInputVars, postBlockchainState, postStateVars, postInputVars, outputVars).
	/// Here we are interested in outputVars.
	auto const* function = programFunction();
	solAssert(function, "");

	auto stateVars = stateVariables();
	solAssert(stateVars.has_value(), "");

	auto const& inParams = function->parameters();

	auto first = _args.begin() + 5 + static_cast<int>(stateVars->size()) * 2 + static_cast<int>(inParams.size()) * 2 + 1;

	solAssert(first >= _args.begin() && first <= _args.end(), "");

	vector<smtutil::Expression> outValues(first, _args.end());
	solAssert(outValues.size() == function->returnParameters().size(), "");
	auto outTypes = FunctionType(*function).returnParameterTypes();
	return formatExpressions(outValues, outTypes);
}

vector<optional<string>> Predicate::formatExpressions(vector<smtutil::Expression> const& _exprs, vector<TypePointer> const& _types) const
{
	solAssert(_exprs.size() == _types.size(), "");
	vector<optional<string>> strExprs;
	for (unsigned i = 0; i < _exprs.size(); ++i)
		strExprs.push_back(expressionToString(_exprs.at(i), _types.at(i)));
	return strExprs;
}

optional<string> Predicate::expressionToString(smtutil::Expression const& _expr, TypePointer _type) const
{
	if (smt::isNumber(*_type))
	{
		solAssert(_expr.sort->kind == Kind::Int, "");
		solAssert(_expr.arguments.empty(), "");
		// TODO assert that _expr.name is a number.
		return _expr.name;
	}
	if (smt::isBool(*_type))
	{
		solAssert(_expr.sort->kind == Kind::Bool, "");
		solAssert(_expr.arguments.empty(), "");
		solAssert(_expr.name == "true" || _expr.name == "false", "");
		return _expr.name;
	}
	if (smt::isFunction(*_type))
	{
		solAssert(_expr.arguments.empty(), "");
		return _expr.name;
	}
	if (smt::isArray(*_type))
	{
		auto const& arrayType = dynamic_cast<ArrayType const&>(*_type);
		solAssert(_expr.name == "tuple_constructor", "");
		auto const& tupleSort = dynamic_cast<TupleSort const&>(*_expr.sort);
		solAssert(tupleSort.components.size() == 2, "");

		auto length = stoul(_expr.arguments.at(1).name);
		// Limit this counterexample size to 1k.
		// Some OSs give you "unlimited" memory through swap and other virtual memory,
		// so purely relying on bad_alloc being thrown is not a good idea.
		// In that case, the array allocation might cause OOM and the program is killed.
		if (length >= 1024)
			return {};
		try
		{
			vector<string> array(length);
			if (!fillArray(_expr.arguments.at(0), array, arrayType))
				return {};
			return "[" + boost::algorithm::join(array, ", ") + "]";
		}
		catch (bad_alloc const&)
		{
			// Solver gave a concrete array but length is too large.
		}
	}

	return {};
}

bool Predicate::fillArray(smtutil::Expression const& _expr, vector<string>& _array, ArrayType const& _type) const
{
	// Base case
	if (_expr.name == "const_array")
	{
		auto length = _array.size();
		optional<string> elemStr = expressionToString(_expr.arguments.at(1), _type.baseType());
		if (!elemStr)
			return false;
		_array.clear();
		_array.resize(length, *elemStr);
		return true;
	}

	// Recursive case.
	if (_expr.name == "store")
	{
		if (!fillArray(_expr.arguments.at(0), _array, _type))
			return false;
		optional<string> indexStr = expressionToString(_expr.arguments.at(1), TypeProvider::uint256());
		if (!indexStr)
			return false;
		// Sometimes the solver assigns huge lengths that are not related,
		// we should catch and ignore those.
		unsigned long index;
		try
		{
			index = stoul(*indexStr);
		}
		catch (out_of_range const&)
		{
			return true;
		}
		optional<string> elemStr = expressionToString(_expr.arguments.at(2), _type.baseType());
		if (!elemStr)
			return false;
		if (index < _array.size())
			_array.at(index) = *elemStr;
		return true;
	}

	solAssert(false, "");
}
Refactor predicates 2020-08-13 12:00:33 +00:00			`/*`
			`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`

			`#include <libsolidity/formal/Predicate.h>`

Move formatFunctionCallCounterexample from CHC to Predicate 2020-08-19 11:53:16 +00:00			`#include <libsolidity/formal/SMTEncoder.h>`

Refactor predicates 2020-08-13 12:00:33 +00:00			`#include <libsolidity/ast/AST.h>`

			`#include <boost/algorithm/string/join.hpp>`
			`#include <utility>`

			`using namespace std;`
			`using namespace solidity;`
			`using namespace solidity::smtutil;`
			`using namespace solidity::frontend;`
			`using namespace solidity::frontend::smt;`

			`map<string, Predicate> Predicate::m_predicates;`

			`Predicate const* Predicate::create(`
			`SortPointer _sort,`
			`string _name,`
Move predicate functions from CHC to PredicateInstance 2020-09-16 09:47:54 +00:00			`PredicateType _type,`
Refactor predicates 2020-08-13 12:00:33 +00:00			`EncodingContext& _context,`
			`ASTNode const* _node`
			`)`
			`{`
			`smt::SymbolicFunctionVariable predicate{_sort, move(_name), _context};`
			`string functorName = predicate.currentName();`
			`solAssert(!m_predicates.count(functorName), "");`
			`return &m_predicates.emplace(`
			`std::piecewise_construct,`
			`std::forward_as_tuple(functorName),`
Move predicate functions from CHC to PredicateInstance 2020-09-16 09:47:54 +00:00			`std::forward_as_tuple(move(predicate), _type, _node)`
Refactor predicates 2020-08-13 12:00:33 +00:00			`).first->second;`
			`}`

			`Predicate::Predicate(`
			`smt::SymbolicFunctionVariable&& _predicate,`
Move predicate functions from CHC to PredicateInstance 2020-09-16 09:47:54 +00:00			`PredicateType _type,`
Refactor predicates 2020-08-13 12:00:33 +00:00			`ASTNode const* _node`
			`):`
			`m_predicate(move(_predicate)),`
Move predicate functions from CHC to PredicateInstance 2020-09-16 09:47:54 +00:00			`m_type(_type),`
Refactor predicates 2020-08-13 12:00:33 +00:00			`m_node(_node)`
			`{`
			`}`

			`Predicate const* Predicate::predicate(string const& _name)`
			`{`
			`return &m_predicates.at(_name);`
			`}`

			`void Predicate::reset()`
			`{`
			`m_predicates.clear();`
			`}`

			`smtutil::Expression Predicate::operator()(vector<smtutil::Expression> const& _args) const`
			`{`
			`return m_predicate(_args);`
			`}`

			`smtutil::Expression Predicate::functor() const`
			`{`
			`return m_predicate.currentFunctionValue();`
			`}`

			`smtutil::Expression Predicate::functor(unsigned _idx) const`
			`{`
			`return m_predicate.functionValueAtIndex(_idx);`
			`}`

			`void Predicate::newFunctor()`
			`{`
			`m_predicate.increaseIndex();`
			`}`

Move formatFunctionCallCounterexample from CHC to Predicate 2020-08-19 11:53:16 +00:00			`ASTNode const* Predicate::programNode() const`
			`{`
Refactor predicates 2020-08-13 12:00:33 +00:00			`return m_node;`
			`}`
Move formatFunctionCallCounterexample from CHC to Predicate 2020-08-19 11:53:16 +00:00
			`ContractDefinition const* Predicate::programContract() const`
			`{`
			`if (auto const* contract = dynamic_cast<ContractDefinition const*>(m_node))`
			`if (!contract->constructor())`
			`return contract;`

			`return nullptr;`
			`}`

			`FunctionDefinition const* Predicate::programFunction() const`
			`{`
			`if (auto const* contract = dynamic_cast<ContractDefinition const*>(m_node))`
			`{`
			`if (contract->constructor())`
			`return contract->constructor();`
			`return nullptr;`
			`}`

			`if (auto const* fun = dynamic_cast<FunctionDefinition const*>(m_node))`
			`return fun;`

			`return nullptr;`
			`}`

			`optional<vector<VariableDeclaration const*>> Predicate::stateVariables() const`
			`{`
			`if (auto const* fun = programFunction())`
			`return SMTEncoder::stateVariablesIncludingInheritedAndPrivate(*fun);`
			`if (auto const* contract = programContract())`
			`return SMTEncoder::stateVariablesIncludingInheritedAndPrivate(*contract);`

			`auto const* node = m_node;`
			`while (auto const* scopable = dynamic_cast<Scopable const*>(node))`
			`{`
			`node = scopable->scope();`
			`if (auto const* fun = dynamic_cast<FunctionDefinition const*>(node))`
			`return SMTEncoder::stateVariablesIncludingInheritedAndPrivate(*fun);`
			`}`

			`return nullopt;`
			`}`

			`bool Predicate::isSummary() const`
			`{`
			`return functor().name.rfind("summary", 0) == 0;`
			`}`

			`bool Predicate::isInterface() const`
			`{`
			`return functor().name.rfind("interface", 0) == 0;`
			`}`

Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`string Predicate::formatSummaryCall(vector<smtutil::Expression> const& _args) const`
Move formatFunctionCallCounterexample from CHC to Predicate 2020-08-19 11:53:16 +00:00			`{`
			`if (programContract())`
			`return "constructor()";`

			`solAssert(isSummary(), "");`

			`auto stateVars = stateVariables();`
			`solAssert(stateVars.has_value(), "");`
			`auto const* fun = programFunction();`
			`solAssert(fun, "");`

[SMTChecker] Support crypto functions in CHC 2020-10-13 16:00:26 +00:00			`/// The signature of a function summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockChainState, preStateVars, preInputVars, postBlockchainState, postStateVars, postInputVars, outputVars).`
Move formatFunctionCallCounterexample from CHC to Predicate 2020-08-19 11:53:16 +00:00			`/// Here we are interested in preInputVars.`
Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`auto first = _args.begin() + 5 + static_cast<int>(stateVars->size());`
			`auto last = first + static_cast<int>(fun->parameters().size());`
Move formatFunctionCallCounterexample from CHC to Predicate 2020-08-19 11:53:16 +00:00			`solAssert(first >= _args.begin() && first <= _args.end(), "");`
			`solAssert(last >= _args.begin() && last <= _args.end(), "");`
Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`auto inTypes = FunctionType(*fun).parameterTypes();`
			`vector<optional<string>> functionArgsCex = formatExpressions(vector<smtutil::Expression>(first, last), inTypes);`
Move formatFunctionCallCounterexample from CHC to Predicate 2020-08-19 11:53:16 +00:00			`vector<string> functionArgs;`

			`auto const& params = fun->parameters();`
			`solAssert(params.size() == functionArgsCex.size(), "");`
			`for (unsigned i = 0; i < params.size(); ++i)`
Format array cex 2020-10-19 15:13:21 +00:00			`if (params.at(i) && functionArgsCex.at(i))`
Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`functionArgs.emplace_back(*functionArgsCex.at(i));`
Move formatFunctionCallCounterexample from CHC to Predicate 2020-08-19 11:53:16 +00:00			`else`
			`functionArgs.emplace_back(params[i]->name());`

			`string fName = fun->isConstructor() ? "constructor" :`
			`fun->isFallback() ? "fallback" :`
			`fun->isReceive() ? "receive" :`
			`fun->name();`
			`return fName + "(" + boost::algorithm::join(functionArgs, ", ") + ")";`

			`}`
Move state model filtering from CHC to Predicate 2020-08-19 16:38:56 +00:00
Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`vector<optional<string>> Predicate::summaryStateValues(vector<smtutil::Expression> const& _args) const`
Move state model filtering from CHC to Predicate 2020-08-19 16:38:56 +00:00			`{`
[SMTChecker] Support crypto functions in CHC 2020-10-13 16:00:26 +00:00			`/// The signature of a function summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockchainState, preStateVars, preInputVars, postBlockchainState, postStateVars, postInputVars, outputVars).`
			`/// The signature of an implicit constructor summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockchainState, postBlockchainState, postStateVars).`
Move state model filtering from CHC to Predicate 2020-08-19 16:38:56 +00:00			`/// Here we are interested in postStateVars.`
			`auto stateVars = stateVariables();`
			`solAssert(stateVars.has_value(), "");`

Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`vector<smtutil::Expression>::const_iterator stateFirst;`
			`vector<smtutil::Expression>::const_iterator stateLast;`
Move state model filtering from CHC to Predicate 2020-08-19 16:38:56 +00:00			`if (auto const* function = programFunction())`
			`{`
[SMTChecker] Support crypto functions in CHC 2020-10-13 16:00:26 +00:00			`stateFirst = _args.begin() + 5 + static_cast<int>(stateVars->size()) + static_cast<int>(function->parameters().size()) + 1;`
Move state model filtering from CHC to Predicate 2020-08-19 16:38:56 +00:00			`stateLast = stateFirst + static_cast<int>(stateVars->size());`
			`}`
			`else if (programContract())`
			`{`
[SMTChecker] Support crypto functions in CHC 2020-10-13 16:00:26 +00:00			`stateFirst = _args.begin() + 6;`
Move state model filtering from CHC to Predicate 2020-08-19 16:38:56 +00:00			`stateLast = stateFirst + static_cast<int>(stateVars->size());`
			`}`
			`else`
			`solAssert(false, "");`

			`solAssert(stateFirst >= _args.begin() && stateFirst <= _args.end(), "");`
			`solAssert(stateLast >= _args.begin() && stateLast <= _args.end(), "");`

Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`vector<smtutil::Expression> stateArgs(stateFirst, stateLast);`
Move state model filtering from CHC to Predicate 2020-08-19 16:38:56 +00:00			`solAssert(stateArgs.size() == stateVars->size(), "");`
Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`auto stateTypes = applyMap(*stateVars, [&](auto const& _var) { return _var->type(); });`
			`return formatExpressions(stateArgs, stateTypes);`
Move state model filtering from CHC to Predicate 2020-08-19 16:38:56 +00:00			`}`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00
Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`vector<optional<string>> Predicate::summaryPostInputValues(vector<smtutil::Expression> const& _args) const`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00			`{`
[SMTChecker] Support crypto functions in CHC 2020-10-13 16:00:26 +00:00			`/// The signature of a function summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockchainState, preStateVars, preInputVars, postBlockchainState, postStateVars, postInputVars, outputVars).`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00			`/// Here we are interested in postInputVars.`
			`auto const* function = programFunction();`
			`solAssert(function, "");`

			`auto stateVars = stateVariables();`
			`solAssert(stateVars.has_value(), "");`

			`auto const& inParams = function->parameters();`

Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`auto first = _args.begin() + 5 + static_cast<int>(stateVars->size()) * 2 + static_cast<int>(inParams.size()) + 1;`
			`auto last = first + static_cast<int>(inParams.size());`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00
			`solAssert(first >= _args.begin() && first <= _args.end(), "");`
			`solAssert(last >= _args.begin() && last <= _args.end(), "");`

Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`vector<smtutil::Expression> inValues(first, last);`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00			`solAssert(inValues.size() == inParams.size(), "");`
Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`auto inTypes = FunctionType(*function).parameterTypes();`
			`return formatExpressions(inValues, inTypes);`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00			`}`

Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`vector<optional<string>> Predicate::summaryPostOutputValues(vector<smtutil::Expression> const& _args) const`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00			`{`
[SMTChecker] Support crypto functions in CHC 2020-10-13 16:00:26 +00:00			`/// The signature of a function summary predicate is: summary(error, this, cryptoFunctions, txData, preBlockchainState, preStateVars, preInputVars, postBlockchainState, postStateVars, postInputVars, outputVars).`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00			`/// Here we are interested in outputVars.`
			`auto const* function = programFunction();`
			`solAssert(function, "");`

			`auto stateVars = stateVariables();`
			`solAssert(stateVars.has_value(), "");`

			`auto const& inParams = function->parameters();`

Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`auto first = _args.begin() + 5 + static_cast<int>(stateVars->size()) * 2 + static_cast<int>(inParams.size()) * 2 + 1;`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00
			`solAssert(first >= _args.begin() && first <= _args.end(), "");`

Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`vector<smtutil::Expression> outValues(first, _args.end());`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00			`solAssert(outValues.size() == function->returnParameters().size(), "");`
Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00			`auto outTypes = FunctionType(*function).returnParameterTypes();`
			`return formatExpressions(outValues, outTypes);`
			`}`

			`vector<optional<string>> Predicate::formatExpressions(vector<smtutil::Expression> const& _exprs, vector<TypePointer> const& _types) const`
			`{`
			`solAssert(_exprs.size() == _types.size(), "");`
			`vector<optional<string>> strExprs;`
			`for (unsigned i = 0; i < _exprs.size(); ++i)`
			`strExprs.push_back(expressionToString(_exprs.at(i), _types.at(i)));`
			`return strExprs;`
			`}`

			`optional<string> Predicate::expressionToString(smtutil::Expression const& _expr, TypePointer _type) const`
			`{`
			`if (smt::isNumber(*_type))`
			`{`
			`solAssert(_expr.sort->kind == Kind::Int, "");`
			`solAssert(_expr.arguments.empty(), "");`
			`// TODO assert that _expr.name is a number.`
			`return _expr.name;`
			`}`
			`if (smt::isBool(*_type))`
			`{`
			`solAssert(_expr.sort->kind == Kind::Bool, "");`
			`solAssert(_expr.arguments.empty(), "");`
			`solAssert(_expr.name == "true" \|\| _expr.name == "false", "");`
			`return _expr.name;`
			`}`
			`if (smt::isFunction(*_type))`
			`{`
			`solAssert(_expr.arguments.empty(), "");`
			`return _expr.name;`
			`}`
Format array cex 2020-10-19 15:13:21 +00:00			`if (smt::isArray(*_type))`
			`{`
			`auto const& arrayType = dynamic_cast<ArrayType const&>(*_type);`
			`solAssert(_expr.name == "tuple_constructor", "");`
			`auto const& tupleSort = dynamic_cast<TupleSort const&>(*_expr.sort);`
			`solAssert(tupleSort.components.size() == 2, "");`
Remove nondet tests 2020-10-27 17:48:12 +00:00
			`auto length = stoul(_expr.arguments.at(1).name);`
			`// Limit this counterexample size to 1k.`
			`// Some OSs give you "unlimited" memory through swap and other virtual memory,`
			`// so purely relying on bad_alloc being thrown is not a good idea.`
			`// In that case, the array allocation might cause OOM and the program is killed.`
			`if (length >= 1024)`
			`return {};`
Format array cex 2020-10-19 15:13:21 +00:00			`try`
			`{`
Remove nondet tests 2020-10-27 17:48:12 +00:00			`vector<string> array(length);`
Format array cex 2020-10-19 15:13:21 +00:00			`if (!fillArray(_expr.arguments.at(0), array, arrayType))`
			`return {};`
			`return "[" + boost::algorithm::join(array, ", ") + "]";`
			`}`
			`catch (bad_alloc const&)`
			`{`
			`// Solver gave a concrete array but length is too large.`
			`}`
			`}`
Use Expression instead of plain strings for counterexamples 2020-10-19 11:21:05 +00:00
			`return {};`
Move post input and post output filtering from CHC to Predicate 2020-08-20 08:43:50 +00:00			`}`
Format array cex 2020-10-19 15:13:21 +00:00
			`bool Predicate::fillArray(smtutil::Expression const& _expr, vector<string>& _array, ArrayType const& _type) const`
			`{`
			`// Base case`
			`if (_expr.name == "const_array")`
			`{`
			`auto length = _array.size();`
			`optional<string> elemStr = expressionToString(_expr.arguments.at(1), _type.baseType());`
			`if (!elemStr)`
			`return false;`
			`_array.clear();`
			`_array.resize(length, *elemStr);`
			`return true;`
			`}`

			`// Recursive case.`
			`if (_expr.name == "store")`
			`{`
			`if (!fillArray(_expr.arguments.at(0), _array, _type))`
			`return false;`
			`optional<string> indexStr = expressionToString(_expr.arguments.at(1), TypeProvider::uint256());`
			`if (!indexStr)`
			`return false;`
			`// Sometimes the solver assigns huge lengths that are not related,`
			`// we should catch and ignore those.`
[SMTChecker] Avoid implicit conversion 2020-07-13 20:40:33 +00:00			`unsigned long index;`
Format array cex 2020-10-19 15:13:21 +00:00			`try`
			`{`
			`index = stoul(*indexStr);`
			`}`
			`catch (out_of_range const&)`
			`{`
			`return true;`
			`}`
			`optional<string> elemStr = expressionToString(_expr.arguments.at(2), _type.baseType());`
			`if (!elemStr)`
			`return false;`
			`if (index < _array.size())`
			`_array.at(index) = *elemStr;`
			`return true;`
			`}`

			`solAssert(false, "");`
			`}`