mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
319 lines
10 KiB
C++
319 lines
10 KiB
C++
/*
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This file is part of solidity.
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solidity is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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solidity is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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// SPDX-License-Identifier: GPL-3.0
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#include <libsolidity/formal/SymbolicState.h>
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#include <libsolidity/formal/SymbolicTypes.h>
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#include <libsolidity/formal/EncodingContext.h>
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#include <libsolidity/formal/SMTEncoder.h>
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using namespace std;
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using namespace solidity;
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using namespace solidity::smtutil;
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using namespace solidity::frontend::smt;
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BlockchainVariable::BlockchainVariable(
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string _name,
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map<string, smtutil::SortPointer> _members,
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EncodingContext& _context
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):
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m_name(move(_name)),
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m_members(move(_members)),
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m_context(_context)
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{
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vector<string> members;
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vector<SortPointer> sorts;
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for (auto const& [component, sort]: m_members)
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{
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members.emplace_back(component);
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sorts.emplace_back(sort);
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m_componentIndices[component] = static_cast<unsigned>(members.size() - 1);
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}
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m_tuple = make_unique<SymbolicTupleVariable>(
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make_shared<smtutil::TupleSort>(m_name + "_type", members, sorts),
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m_name,
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m_context
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);
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}
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smtutil::Expression BlockchainVariable::member(string const& _member) const
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{
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return m_tuple->component(m_componentIndices.at(_member));
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}
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smtutil::Expression BlockchainVariable::assignMember(string const& _member, smtutil::Expression const& _value)
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{
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vector<smtutil::Expression> args;
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for (auto const& m: m_members)
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if (m.first == _member)
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args.emplace_back(_value);
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else
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args.emplace_back(member(m.first));
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m_tuple->increaseIndex();
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auto tuple = m_tuple->currentValue();
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auto sortExpr = smtutil::Expression(make_shared<smtutil::SortSort>(tuple.sort), tuple.name);
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m_context.addAssertion(tuple == smtutil::Expression::tuple_constructor(sortExpr, args));
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return m_tuple->currentValue();
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}
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void SymbolicState::reset()
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{
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m_error.resetIndex();
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m_thisAddress.resetIndex();
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m_state.reset();
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m_tx.reset();
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m_crypto.reset();
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/// We don't reset m_abi's pointer nor clear m_abiMembers on purpose,
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/// since it only helps to keep the already generated types.
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solAssert(m_abi, "");
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m_abi->reset();
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}
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smtutil::Expression SymbolicState::balances() const
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{
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return m_state.member("balances");
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}
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smtutil::Expression SymbolicState::balance() const
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{
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return balance(thisAddress());
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}
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smtutil::Expression SymbolicState::balance(smtutil::Expression _address) const
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{
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return smtutil::Expression::select(balances(), move(_address));
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}
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smtutil::Expression SymbolicState::blockhash(smtutil::Expression _blockNumber) const
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{
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return smtutil::Expression::select(m_tx.member("blockhash"), move(_blockNumber));
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}
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void SymbolicState::transfer(smtutil::Expression _from, smtutil::Expression _to, smtutil::Expression _value)
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{
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unsigned indexBefore = m_state.index();
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addBalance(_from, 0 - _value);
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addBalance(_to, move(_value));
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unsigned indexAfter = m_state.index();
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solAssert(indexAfter > indexBefore, "");
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m_state.newVar();
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/// Do not apply the transfer operation if _from == _to.
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auto newState = smtutil::Expression::ite(
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move(_from) == move(_to),
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m_state.value(indexBefore),
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m_state.value(indexAfter)
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);
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m_context.addAssertion(m_state.value() == newState);
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}
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smtutil::Expression SymbolicState::txMember(string const& _member) const
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{
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return m_tx.member(_member);
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}
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smtutil::Expression SymbolicState::txTypeConstraints() const
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{
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return smt::symbolicUnknownConstraints(m_tx.member("block.chainid"), TypeProvider::uint256()) &&
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smt::symbolicUnknownConstraints(m_tx.member("block.coinbase"), TypeProvider::address()) &&
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smt::symbolicUnknownConstraints(m_tx.member("block.difficulty"), TypeProvider::uint256()) &&
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smt::symbolicUnknownConstraints(m_tx.member("block.gaslimit"), TypeProvider::uint256()) &&
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smt::symbolicUnknownConstraints(m_tx.member("block.number"), TypeProvider::uint256()) &&
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smt::symbolicUnknownConstraints(m_tx.member("block.timestamp"), TypeProvider::uint256()) &&
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smt::symbolicUnknownConstraints(m_tx.member("msg.sender"), TypeProvider::address()) &&
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smt::symbolicUnknownConstraints(m_tx.member("msg.value"), TypeProvider::uint256()) &&
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smt::symbolicUnknownConstraints(m_tx.member("tx.origin"), TypeProvider::address()) &&
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smt::symbolicUnknownConstraints(m_tx.member("tx.gasprice"), TypeProvider::uint256());
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}
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smtutil::Expression SymbolicState::txNonPayableConstraint() const
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{
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return m_tx.member("msg.value") == 0;
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}
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smtutil::Expression SymbolicState::txFunctionConstraints(FunctionDefinition const& _function) const
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{
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smtutil::Expression conj = _function.isPayable() ? smtutil::Expression(true) : txNonPayableConstraint();
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if (_function.isPartOfExternalInterface())
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{
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auto sig = TypeProvider::function(_function)->externalIdentifier();
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conj = conj && m_tx.member("msg.sig") == sig;
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auto b0 = sig >> (3 * 8);
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auto b1 = (sig & 0x00ff0000) >> (2 * 8);
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auto b2 = (sig & 0x0000ff00) >> (1 * 8);
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auto b3 = (sig & 0x000000ff);
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auto data = smtutil::Expression::tuple_get(m_tx.member("msg.data"), 0);
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conj = conj && smtutil::Expression::select(data, 0) == b0;
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conj = conj && smtutil::Expression::select(data, 1) == b1;
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conj = conj && smtutil::Expression::select(data, 2) == b2;
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conj = conj && smtutil::Expression::select(data, 3) == b3;
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auto length = smtutil::Expression::tuple_get(m_tx.member("msg.data"), 1);
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// TODO add ABI size of function input parameters here \/
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conj = conj && length >= 4;
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}
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return conj;
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}
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void SymbolicState::prepareForSourceUnit(SourceUnit const& _source)
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{
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set<FunctionCall const*> abiCalls = SMTEncoder::collectABICalls(&_source);
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for (auto const& source: _source.referencedSourceUnits(true))
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abiCalls += SMTEncoder::collectABICalls(source);
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buildABIFunctions(abiCalls);
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}
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/// Private helpers.
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void SymbolicState::addBalance(smtutil::Expression _address, smtutil::Expression _value)
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{
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auto newBalances = smtutil::Expression::store(
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balances(),
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_address,
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balance(_address) + move(_value)
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);
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m_state.assignMember("balances", newBalances);
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}
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void SymbolicState::buildABIFunctions(set<FunctionCall const*> const& _abiFunctions)
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{
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map<string, SortPointer> functions;
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for (auto const* funCall: _abiFunctions)
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{
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auto t = dynamic_cast<FunctionType const*>(funCall->expression().annotation().type);
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auto const& args = funCall->sortedArguments();
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auto const& paramTypes = t->parameterTypes();
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auto const& returnTypes = t->returnParameterTypes();
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auto argTypes = [](auto const& _args) {
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return applyMap(_args, [](auto arg) { return arg->annotation().type; });
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};
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/// Since each abi.* function may have a different number of input/output parameters,
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/// we generically compute those types.
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vector<frontend::Type const*> inTypes;
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vector<frontend::Type const*> outTypes;
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if (t->kind() == FunctionType::Kind::ABIDecode)
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{
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/// abi.decode : (bytes, tuple_of_types(return_types)) -> (return_types)
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solAssert(args.size() == 2, "Unexpected number of arguments for abi.decode");
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inTypes.emplace_back(TypeProvider::bytesMemory());
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auto argType = args.at(1)->annotation().type;
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if (auto const* tupleType = dynamic_cast<TupleType const*>(argType))
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for (auto componentType: tupleType->components())
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{
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auto typeType = dynamic_cast<TypeType const*>(componentType);
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solAssert(typeType, "");
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outTypes.emplace_back(typeType->actualType());
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}
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else if (auto const* typeType = dynamic_cast<TypeType const*>(argType))
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outTypes.emplace_back(typeType->actualType());
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else
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solAssert(false, "Unexpected argument of abi.decode");
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}
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else
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{
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outTypes = returnTypes;
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if (
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t->kind() == FunctionType::Kind::ABIEncodeWithSelector ||
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t->kind() == FunctionType::Kind::ABIEncodeWithSignature
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)
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{
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/// abi.encodeWithSelector : (bytes4, one_or_more_types) -> bytes
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/// abi.encodeWithSignature : (string, one_or_more_types) -> bytes
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inTypes.emplace_back(paramTypes.front());
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inTypes += argTypes(vector<ASTPointer<Expression const>>(args.begin() + 1, args.end()));
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}
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else
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{
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/// abi.encode/abi.encodePacked : one_or_more_types -> bytes
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solAssert(
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t->kind() == FunctionType::Kind::ABIEncode ||
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t->kind() == FunctionType::Kind::ABIEncodePacked,
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""
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);
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inTypes = argTypes(args);
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}
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}
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/// Rational numbers and string literals add the concrete values to the type name,
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/// so we replace them by uint256 and bytes since those are the same as their SMT types.
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/// TODO we could also replace all types by their ABI type.
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auto replaceTypes = [](auto& _types) {
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for (auto& t: _types)
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if (t->category() == frontend::Type::Category::RationalNumber)
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t = TypeProvider::uint256();
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else if (t->category() == frontend::Type::Category::StringLiteral)
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t = TypeProvider::bytesMemory();
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};
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replaceTypes(inTypes);
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replaceTypes(outTypes);
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auto name = t->richIdentifier();
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for (auto paramType: inTypes + outTypes)
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name += "_" + paramType->richIdentifier();
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m_abiMembers[funCall] = {name, inTypes, outTypes};
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if (functions.count(name))
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continue;
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/// If there is only one input or output parameter, we use that type directly.
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/// Otherwise we create a tuple wrapping the necessary input or output types.
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auto typesToSort = [](auto const& _types, string const& _name) -> shared_ptr<Sort> {
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if (_types.size() == 1)
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return smtSortAbstractFunction(*_types.front());
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vector<string> inNames;
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vector<SortPointer> sorts;
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for (unsigned i = 0; i < _types.size(); ++i)
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{
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inNames.emplace_back(_name + "_input_" + to_string(i));
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sorts.emplace_back(smtSortAbstractFunction(*_types.at(i)));
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}
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return make_shared<smtutil::TupleSort>(
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_name + "_input",
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inNames,
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sorts
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);
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};
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auto functionSort = make_shared<smtutil::ArraySort>(
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typesToSort(inTypes, name),
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typesToSort(outTypes, name)
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);
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functions[name] = functionSort;
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}
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m_abi = make_unique<BlockchainVariable>("abi", move(functions), m_context);
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}
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smtutil::Expression SymbolicState::abiFunction(frontend::FunctionCall const* _funCall)
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{
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solAssert(m_abi, "");
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return m_abi->member(get<0>(m_abiMembers.at(_funCall)));
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}
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SymbolicState::SymbolicABIFunction const& SymbolicState::abiFunctionTypes(FunctionCall const* _funCall) const
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{
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return m_abiMembers.at(_funCall);
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}
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