Merge pull request #7121 from ethereum/smt_chc_functions

[SMTChecker] CHC blocks for functions and asserts
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Leonardo 2019-08-15 13:22:03 +02:00 committed by GitHub
commit 2fb442366f
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8 changed files with 401 additions and 12 deletions

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@ -24,9 +24,11 @@ Compiler Features:
* Standard JSON Interface: Provide secondary error locations (e.g. the source position of other conflicting declarations).
* SMTChecker: Do not erase knowledge about storage pointers if another storage pointer is assigned.
* SMTChecker: Support string literal type.
* SMTChecker: New Horn-based algorithm that proves assertions via multi-transaction contract invariants.
* Standard JSON Interface: Provide AST even on errors if ``--error-recovery`` commandline switch or StandardCompiler `settings.parserErrorRecovery` is true.
* Yul Optimizer: Do not inline function if it would result in expressions being duplicated that are not cheap.
Bugfixes:
* ABI decoder: Ensure that decoded arrays always point to distinct memory locations.
* Code Generator: Treat dynamically encoded but statically sized arrays and structs in calldata properly.

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@ -135,6 +135,44 @@ bool CHC::visit(FunctionDefinition const& _function)
solAssert(!m_currentFunction, "Inlining internal function calls not yet implemented");
m_currentFunction = &_function;
initFunction(_function);
// Store the constraints related to variable initialization.
smt::Expression const& initAssertions = m_context.assertions();
createFunctionBlock(*m_currentFunction);
// Rule Interface -> FunctionEntry, uses no constraints.
smt::Expression interfaceFunction = smt::Expression::implies(
interface(),
predicateCurrent(m_currentFunction)
);
m_interface->addRule(
interfaceFunction,
m_interfacePredicate->currentName() + "_to_" + m_predicates.at(m_currentFunction)->currentName()
);
pushBlock(predicateCurrent(m_currentFunction));
createFunctionBlock(m_currentFunction->body());
// Rule FunctionEntry -> FunctionBody, also no constraints.
smt::Expression functionBody = smt::Expression::implies(
predicateEntry(m_currentFunction),
predicateBodyCurrent(&m_currentFunction->body())
);
m_interface->addRule(
functionBody,
m_predicates.at(m_currentFunction)->currentName() + "_to_" + m_predicates.at(&m_currentFunction->body())->currentName()
);
pushBlock(predicateBodyCurrent(&m_currentFunction->body()));
// We need to re-add the constraints that were created for initialization of variables.
m_context.addAssertion(initAssertions);
solAssert(m_functionBlocks == 0, "");
m_functionBlocks = 2;
SMTEncoder::visit(*m_currentFunction);
return false;
@ -146,7 +184,36 @@ void CHC::endVisit(FunctionDefinition const& _function)
return;
solAssert(m_currentFunction == &_function, "Inlining internal function calls not yet implemented");
// Create Function Exit block.
createFunctionBlock(*m_currentFunction);
// Rule FunctionBody -> FunctionExit.
smt::Expression bodyFunction = smt::Expression::implies(
predicateEntry(&_function.body()) && m_context.assertions(),
predicateCurrent(&_function)
);
m_interface->addRule(
bodyFunction,
m_predicates.at(&_function.body())->currentName() + "_to_" + m_predicates.at(&_function.body())->currentName()
);
// Rule FunctionExit -> Interface, uses no constraints.
smt::Expression functionInterface = smt::Expression::implies(
predicateCurrent(&_function),
interface()
);
m_interface->addRule(
functionInterface,
m_predicates.at(&_function)->currentName() + "_to_" + m_interfacePredicate->currentName()
);
m_currentFunction = nullptr;
solAssert(m_path.size() == m_functionBlocks, "");
for (unsigned i = 0; i < m_path.size(); ++i)
m_context.popSolver();
m_functionBlocks = 0;
m_path.clear();
SMTEncoder::endVisit(_function);
}
@ -155,8 +222,30 @@ bool CHC::visit(IfStatement const& _if)
{
solAssert(m_currentFunction, "");
bool unknownFunctionCallWasSeen = m_unknownFunctionCallSeen;
m_unknownFunctionCallSeen = false;
SMTEncoder::visit(_if);
if (m_unknownFunctionCallSeen)
eraseKnowledge();
m_unknownFunctionCallSeen = unknownFunctionCallWasSeen;
return false;
}
bool CHC::visit(WhileStatement const& _while)
{
eraseKnowledge();
m_context.resetVariables(touchedVariables(_while));
return false;
}
bool CHC::visit(ForStatement const& _for)
{
eraseKnowledge();
m_context.resetVariables(touchedVariables(_for));
return false;
}
@ -164,20 +253,74 @@ void CHC::endVisit(FunctionCall const& _funCall)
{
solAssert(_funCall.annotation().kind != FunctionCallKind::Unset, "");
if (_funCall.annotation().kind == FunctionCallKind::FunctionCall)
if (_funCall.annotation().kind != FunctionCallKind::FunctionCall)
{
FunctionType const& funType = dynamic_cast<FunctionType const&>(*_funCall.expression().annotation().type);
if (funType.kind() == FunctionType::Kind::Assert)
visitAssert(_funCall);
SMTEncoder::endVisit(_funCall);
return;
}
SMTEncoder::endVisit(_funCall);
FunctionType const& funType = dynamic_cast<FunctionType const&>(*_funCall.expression().annotation().type);
switch (funType.kind())
{
case FunctionType::Kind::Assert:
visitAssert(_funCall);
SMTEncoder::endVisit(_funCall);
break;
case FunctionType::Kind::Internal:
case FunctionType::Kind::External:
case FunctionType::Kind::DelegateCall:
case FunctionType::Kind::BareCall:
case FunctionType::Kind::BareCallCode:
case FunctionType::Kind::BareDelegateCall:
case FunctionType::Kind::BareStaticCall:
case FunctionType::Kind::Creation:
case FunctionType::Kind::KECCAK256:
case FunctionType::Kind::ECRecover:
case FunctionType::Kind::SHA256:
case FunctionType::Kind::RIPEMD160:
case FunctionType::Kind::BlockHash:
case FunctionType::Kind::AddMod:
case FunctionType::Kind::MulMod:
SMTEncoder::endVisit(_funCall);
unknownFunctionCall(_funCall);
break;
default:
SMTEncoder::endVisit(_funCall);
break;
}
createReturnedExpressions(_funCall);
}
void CHC::visitAssert(FunctionCall const&)
void CHC::visitAssert(FunctionCall const& _funCall)
{
auto const& args = _funCall.arguments();
solAssert(args.size() == 1, "");
solAssert(args.front()->annotation().type->category() == Type::Category::Bool, "");
solAssert(!m_path.empty(), "");
smt::Expression assertNeg = !(m_context.expression(*args.front())->currentValue());
smt::Expression assertionError = smt::Expression::implies(
m_path.back() && m_context.assertions() && currentPathConditions() && assertNeg,
error()
);
string predicateName = "assert_" + to_string(_funCall.id());
m_interface->addRule(assertionError, predicateName + "_to_error");
m_verificationTargets.push_back(&_funCall);
}
void CHC::unknownFunctionCall(FunctionCall const&)
{
/// Function calls are not handled at the moment,
/// so always erase knowledge.
/// TODO remove when function calls get predicates/blocks.
eraseKnowledge();
/// Used to erase outer scope knowledge in loops and ifs.
/// TODO remove when function calls get predicates/blocks.
m_unknownFunctionCallSeen = true;
}
void CHC::reset()
@ -186,6 +329,13 @@ void CHC::reset()
m_stateVariables.clear();
m_verificationTargets.clear();
m_safeAssertions.clear();
m_unknownFunctionCallSeen = false;
}
void CHC::eraseKnowledge()
{
resetStateVariables();
m_context.resetVariables([&](VariableDeclaration const& _variable) { return _variable.hasReferenceOrMappingType(); });
}
bool CHC::shouldVisit(ContractDefinition const& _contract) const
@ -208,13 +358,25 @@ bool CHC::shouldVisit(FunctionDefinition const& _function) const
return false;
}
void CHC::pushBlock(smt::Expression const& _block)
{
m_context.pushSolver();
m_path.push_back(_block);
}
void CHC::popBlock()
{
m_context.popSolver();
m_path.pop_back();
}
smt::SortPointer CHC::constructorSort()
{
solAssert(m_currentContract, "");
auto boolSort = make_shared<smt::Sort>(smt::Kind::Bool);
if (!m_currentContract->constructor())
return make_shared<smt::FunctionSort>(vector<smt::SortPointer>{}, boolSort);
return functionSort(*m_currentContract->constructor());
return sort(*m_currentContract->constructor());
}
smt::SortPointer CHC::interfaceSort()
@ -226,14 +388,41 @@ smt::SortPointer CHC::interfaceSort()
);
}
smt::SortPointer CHC::functionSort(FunctionDefinition const& _function)
smt::SortPointer CHC::sort(FunctionDefinition const& _function)
{
if (m_nodeSorts.count(&_function))
return m_nodeSorts.at(&_function);
auto boolSort = make_shared<smt::Sort>(smt::Kind::Bool);
auto const& funType = dynamic_cast<FunctionType const&>(*_function.type());
return make_shared<smt::FunctionSort>(
smt::smtSort(funType.parameterTypes()),
vector<smt::SortPointer> varSorts;
for (auto const& var: _function.parameters() + _function.returnParameters())
varSorts.push_back(smt::smtSort(*var->type()));
auto sort = make_shared<smt::FunctionSort>(
m_stateSorts + varSorts,
boolSort
);
return m_nodeSorts[&_function] = move(sort);
}
smt::SortPointer CHC::sort(Block const& _block)
{
if (m_nodeSorts.count(&_block))
return m_nodeSorts.at(&_block);
solAssert(_block.scope() == m_currentFunction, "");
auto fSort = dynamic_pointer_cast<smt::FunctionSort>(sort(*m_currentFunction));
solAssert(fSort, "");
auto boolSort = make_shared<smt::Sort>(smt::Kind::Bool);
vector<smt::SortPointer> varSorts;
for (auto const& var: m_currentFunction->localVariables())
varSorts.push_back(smt::smtSort(*var->type()));
auto functionBodySort = make_shared<smt::FunctionSort>(
fSort->domain + varSorts,
boolSort
);
return m_nodeSorts[&_block] = move(functionBodySort);
}
unique_ptr<smt::SymbolicFunctionVariable> CHC::createBlock(smt::SortPointer _sort, string const& _name)
@ -273,6 +462,81 @@ smt::Expression CHC::error()
return (*m_errorPredicate)({});
}
void CHC::createFunctionBlock(FunctionDefinition const& _function)
{
if (m_predicates.count(&_function))
{
m_predicates.at(&_function)->increaseIndex();
m_interface->registerRelation(m_predicates.at(&_function)->currentValue());
}
else
m_predicates[&_function] = createBlock(
sort(_function),
predicateName(_function)
);
}
void CHC::createFunctionBlock(Block const& _block)
{
solAssert(_block.scope() == m_currentFunction, "");
if (m_predicates.count(&_block))
{
m_predicates.at(&_block)->increaseIndex();
m_interface->registerRelation(m_predicates.at(&_block)->currentValue());
}
else
m_predicates[&_block] = createBlock(
sort(_block),
predicateName(*m_currentFunction) + "_body"
);
}
vector<smt::Expression> CHC::currentFunctionVariables()
{
solAssert(m_currentFunction, "");
vector<smt::Expression> paramExprs;
for (auto const& var: m_stateVariables)
paramExprs.push_back(m_context.variable(*var)->currentValue());
for (auto const& var: m_currentFunction->parameters() + m_currentFunction->returnParameters())
paramExprs.push_back(m_context.variable(*var)->currentValue());
return paramExprs;
}
vector<smt::Expression> CHC::currentBlockVariables()
{
solAssert(m_currentFunction, "");
vector<smt::Expression> paramExprs;
for (auto const& var: m_currentFunction->localVariables())
paramExprs.push_back(m_context.variable(*var)->currentValue());
return currentFunctionVariables() + paramExprs;
}
string CHC::predicateName(FunctionDefinition const& _function)
{
string functionName = _function.isConstructor() ?
"constructor" :
_function.isFallback() ?
"fallback" :
"function_" + _function.name();
return functionName + "_" + to_string(_function.id());
}
smt::Expression CHC::predicateCurrent(ASTNode const* _node)
{
return (*m_predicates.at(_node))(currentFunctionVariables());
}
smt::Expression CHC::predicateBodyCurrent(ASTNode const* _node)
{
return (*m_predicates.at(_node))(currentBlockVariables());
}
smt::Expression CHC::predicateEntry(ASTNode const* _node)
{
solAssert(!m_path.empty(), "");
return (*m_predicates.at(_node))(m_path.back().arguments);
}
bool CHC::query(smt::Expression const& _query, langutil::SourceLocation const& _location)
{
smt::CheckResult result;

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@ -58,23 +58,30 @@ private:
bool visit(FunctionDefinition const& _node) override;
void endVisit(FunctionDefinition const& _node) override;
bool visit(IfStatement const& _node) override;
bool visit(WhileStatement const&) override;
bool visit(ForStatement const&) override;
void endVisit(FunctionCall const& _node) override;
void visitAssert(FunctionCall const& _funCall);
void unknownFunctionCall(FunctionCall const& _funCall);
//@}
/// Helpers.
//@{
void reset();
void eraseKnowledge();
bool shouldVisit(ContractDefinition const& _contract) const;
bool shouldVisit(FunctionDefinition const& _function) const;
void pushBlock(smt::Expression const& _block);
void popBlock();
//@}
/// Sort helpers.
//@{
smt::SortPointer constructorSort();
smt::SortPointer interfaceSort();
smt::SortPointer functionSort(FunctionDefinition const& _function);
smt::SortPointer sort(FunctionDefinition const& _function);
smt::SortPointer sort(Block const& _block);
//@}
/// Predicate helpers.
@ -88,6 +95,33 @@ private:
smt::Expression interface();
/// Error predicate over current variables.
smt::Expression error();
/// Creates a block for the given _function or increases its SSA index
/// if the block already exists which in practice creates a new function.
/// The predicate parameters are _function input and output parameters.
void createFunctionBlock(FunctionDefinition const& _function);
/// Creates a block for the given _function or increases its SSA index
/// if the block already exists which in practice creates a new function.
/// The predicate parameters are m_currentFunction input, output
/// and local variables.
void createFunctionBlock(Block const& _block);
/// @returns the current symbolic values of the current function's
/// input and output parameters.
std::vector<smt::Expression> currentFunctionVariables();
/// @returns the samve as currentFunctionVariables plus
/// local variables.
std::vector<smt::Expression> currentBlockVariables();
/// @returns the predicate name for a given function.
std::string predicateName(FunctionDefinition const& _function);
/// @returns a predicate application over the current function's parameters.
smt::Expression predicateCurrent(ASTNode const* _node);
/// @returns a predicate application over the current function's parameters plus local variables.
smt::Expression predicateBodyCurrent(ASTNode const* _node);
/// Predicate for block _node over the variables at the latest
/// block entry.
smt::Expression predicateEntry(ASTNode const* _node);
//@}
/// Solver related.
@ -109,6 +143,9 @@ private:
/// Artificial Error predicate.
/// Single error block for all assertions.
std::unique_ptr<smt::SymbolicVariable> m_errorPredicate;
/// Maps AST nodes to their predicates.
std::unordered_map<ASTNode const*, std::shared_ptr<smt::SymbolicVariable>> m_predicates;
//@}
/// Variables.
@ -119,6 +156,9 @@ private:
/// State variables.
/// Used to create all predicates.
std::vector<VariableDeclaration const*> m_stateVariables;
/// Input sorts for AST nodes.
std::map<ASTNode const*, smt::SortPointer> m_nodeSorts;
//@}
/// Verification targets.
@ -132,6 +172,13 @@ private:
/// Control-flow.
//@{
FunctionDefinition const* m_currentFunction = nullptr;
/// Number of basic blocks created for the body of the current function.
unsigned m_functionBlocks = 0;
/// The current control flow path.
std::vector<smt::Expression> m_path;
/// Whether a function call was seen in the current scope.
bool m_unknownFunctionCallSeen = false;
//@}
/// CHC solver.

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@ -0,0 +1,32 @@
pragma experimental SMTChecker;
contract C {
uint x;
function f() public {
if (x == 0)
x = 1;
}
function g() public {
if (x == 1)
x = 2;
}
function h() public {
if (x == 2)
x = 0;
}
// This function shows that (x < 9) is not inductive and
// a stronger invariant is needed to be found.
// (x < 3) is the one found in the end.
function j() public {
if (x == 7)
x = 100;
}
function i() public view {
assert(x < 9);
}
}

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@ -0,0 +1,32 @@
pragma experimental SMTChecker;
contract C {
uint x;
function f() public {
if (x == 0)
x = 1;
}
function g() public {
if (x == 1)
x = 2;
}
function h() public {
if (x == 2)
x = 0;
}
function j() public {
if (x < 2)
x = 100;
}
// Fails due to j.
function i() public view {
assert(x < 2);
}
}
// ----
// Warning: (311-324): Assertion violation happens here

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@ -15,6 +15,10 @@ contract C
assert(x > 0);
x = x + 1;
}
function g(uint _x) public {
x = _x;
}
}
// ----
// Warning: (136-149): Assertion violation happens here

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@ -20,6 +20,10 @@ contract C
function f() m n public {
x = x + 1;
}
function g(uint _x) public {
x = _x;
}
}
// ----
// Warning: (170-183): Assertion violation happens here

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@ -17,6 +17,10 @@ contract C
function f() m public {
x = x + 1;
}
function g(uint _x) public {
x = _x;
}
}
// ----
// Warning: (156-170): Assertion violation happens here