solidity/vm.cpp

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/*
This file is part of cpp-ethereum.
cpp-ethereum 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.
cpp-ethereum 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 cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file vm.cpp
* @author Gav Wood <i@gavwood.com>
* @date 2014
* vm test functions.
*/
#include "vm.h"
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using namespace std;
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using namespace json_spirit;
using namespace dev;
using namespace dev::eth;
using namespace dev::test;
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FakeExtVM::FakeExtVM(eth::BlockInfo const& _previousBlock, eth::BlockInfo const& _currentBlock, unsigned _depth): /// TODO: XXX: remove the default argument & fix.
ExtVMFace(Address(), Address(), Address(), 0, 1, bytesConstRef(), bytesConstRef(), _previousBlock, _currentBlock, _depth) {}
h160 FakeExtVM::create(u256 _endowment, u256* _gas, bytesConstRef _init, OnOpFunc const&)
{
Address na = right160(sha3(rlpList(myAddress, get<1>(addresses[myAddress]))));
Transaction t(_endowment, gasPrice, *_gas, _init.toBytes());
callcreates.push_back(t);
return na;
}
bool FakeExtVM::call(Address _receiveAddress, u256 _value, bytesConstRef _data, u256* _gas, bytesRef _out, OnOpFunc const&, Address _myAddressOverride, Address _codeAddressOverride)
{
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Transaction t(_value, gasPrice, *_gas, _receiveAddress, _data.toVector());
callcreates.push_back(t);
(void)_out;
(void)_myAddressOverride;
(void)_codeAddressOverride;
return true;
}
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void FakeExtVM::setTransaction(Address _caller, u256 _value, u256 _gasPrice, bytes const& _data)
{
caller = origin = _caller;
value = _value;
data = &(thisTxData = _data);
gasPrice = _gasPrice;
}
void FakeExtVM::setContract(Address _myAddress, u256 _myBalance, u256 _myNonce, map<u256, u256> const& _storage, bytes const& _code)
{
myAddress = _myAddress;
set(myAddress, _myBalance, _myNonce, _storage, _code);
}
void FakeExtVM::set(Address _a, u256 _myBalance, u256 _myNonce, map<u256, u256> const& _storage, bytes const& _code)
{
get<0>(addresses[_a]) = _myBalance;
get<1>(addresses[_a]) = _myNonce;
get<2>(addresses[_a]) = _storage;
get<3>(addresses[_a]) = _code;
}
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void FakeExtVM::reset(u256 _myBalance, u256 _myNonce, map<u256, u256> const& _storage)
{
callcreates.clear();
addresses.clear();
set(myAddress, _myBalance, _myNonce, _storage, get<3>(addresses[myAddress]));
}
void FakeExtVM::push(mObject& o, string const& _n, u256 _v)
{
o[_n] = toString(_v);
}
void FakeExtVM::push(mArray& a, u256 _v)
{
a.push_back(toString(_v));
}
mObject FakeExtVM::exportEnv()
{
mObject ret;
ret["previousHash"] = toString(previousBlock.hash);
push(ret, "currentDifficulty", currentBlock.difficulty);
push(ret, "currentTimestamp", currentBlock.timestamp);
ret["currentCoinbase"] = toString(currentBlock.coinbaseAddress);
push(ret, "currentNumber", currentBlock.number);
push(ret, "currentGasLimit", currentBlock.gasLimit);
return ret;
}
void FakeExtVM::importEnv(mObject& _o)
{
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// cant use BOOST_REQUIRE, because this function is used outside boost test (createRandomTest)
assert(_o.count("previousHash") > 0);
assert(_o.count("currentGasLimit") > 0);
assert(_o.count("currentDifficulty") > 0);
assert(_o.count("currentTimestamp") > 0);
assert(_o.count("currentCoinbase") > 0);
assert(_o.count("currentNumber") > 0);
previousBlock.hash = h256(_o["previousHash"].get_str());
currentBlock.number = toInt(_o["currentNumber"]);
currentBlock.gasLimit = toInt(_o["currentGasLimit"]);
currentBlock.difficulty = toInt(_o["currentDifficulty"]);
currentBlock.timestamp = toInt(_o["currentTimestamp"]);
currentBlock.coinbaseAddress = Address(_o["currentCoinbase"].get_str());
}
mObject FakeExtVM::exportState()
{
mObject ret;
for (auto const& a: addresses)
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{
mObject o;
push(o, "balance", get<0>(a.second));
push(o, "nonce", get<1>(a.second));
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{
mObject store;
for (auto const& s: get<2>(a.second))
store["0x"+toHex(toCompactBigEndian(s.first))] = "0x"+toHex(toCompactBigEndian(s.second));
o["storage"] = store;
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}
o["code"] = "0x" + toHex(get<3>(a.second));
ret[toString(a.first)] = o;
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}
return ret;
}
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void FakeExtVM::importState(mObject& _object)
{
for (auto const& i: _object)
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{
mObject o = i.second.get_obj();
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// cant use BOOST_REQUIRE, because this function is used outside boost test (createRandomTest)
assert(o.count("balance") > 0);
assert(o.count("nonce") > 0);
assert(o.count("storage") > 0);
assert(o.count("code") > 0);
auto& a = addresses[Address(i.first)];
get<0>(a) = toInt(o["balance"]);
get<1>(a) = toInt(o["nonce"]);
for (auto const& j: o["storage"].get_obj())
get<2>(a)[toInt(j.first)] = toInt(j.second);
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get<3>(a) = importCode(o);
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}
}
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mObject FakeExtVM::exportExec()
{
mObject ret;
ret["address"] = toString(myAddress);
ret["caller"] = toString(caller);
ret["origin"] = toString(origin);
push(ret, "value", value);
push(ret, "gasPrice", gasPrice);
push(ret, "gas", gas);
ret["data"] = "0x" + toHex(data);
ret["code"] = "0x" + toHex(code);
return ret;
}
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void FakeExtVM::importExec(mObject& _o)
{
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// cant use BOOST_REQUIRE, because this function is used outside boost test (createRandomTest)
assert(_o.count("address")> 0);
assert(_o.count("caller") > 0);
assert(_o.count("origin") > 0);
assert(_o.count("value") > 0);
assert(_o.count("data") > 0);
assert(_o.count("gasPrice") > 0);
assert(_o.count("gas") > 0);
myAddress = Address(_o["address"].get_str());
caller = Address(_o["caller"].get_str());
origin = Address(_o["origin"].get_str());
value = toInt(_o["value"]);
gasPrice = toInt(_o["gasPrice"]);
gas = toInt(_o["gas"]);
thisTxCode.clear();
code = &thisTxCode;
thisTxCode = importCode(_o);
if (_o["code"].type() != str_type && _o["code"].type() != array_type)
code.reset();
thisTxData.clear();
thisTxData = importData(_o);
data = &thisTxData;
}
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mArray FakeExtVM::exportCallCreates()
{
mArray ret;
for (Transaction const& tx: callcreates)
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{
mObject o;
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o["destination"] = tx.isCreation() ? "" : toString(tx.receiveAddress());
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push(o, "gasLimit", tx.gas());
push(o, "value", tx.value());
o["data"] = "0x" + toHex(tx.data());
ret.push_back(o);
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}
return ret;
}
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void FakeExtVM::importCallCreates(mArray& _callcreates)
{
for (mValue& v: _callcreates)
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{
auto tx = v.get_obj();
BOOST_REQUIRE(tx.count("data") > 0);
BOOST_REQUIRE(tx.count("value") > 0);
BOOST_REQUIRE(tx.count("destination") > 0);
BOOST_REQUIRE(tx.count("gasLimit") > 0);
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Transaction t = tx["destination"].get_str().empty() ?
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Transaction(toInt(tx["value"]), 0, toInt(tx["gasLimit"]), data.toBytes()) :
Transaction(toInt(tx["value"]), 0, toInt(tx["gasLimit"]), Address(tx["destination"].get_str()), data.toBytes());
callcreates.push_back(t);
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}
}
eth::OnOpFunc FakeExtVM::simpleTrace()
{
return [](uint64_t steps, eth::Instruction inst, bigint newMemSize, bigint gasCost, void* voidVM, void const* voidExt)
{
FakeExtVM const& ext = *(FakeExtVM const*)voidExt;
eth::VM& vm = *(eth::VM*)voidVM;
std::ostringstream o;
o << std::endl << " STACK" << std::endl;
for (auto i: vm.stack())
o << (h256)i << std::endl;
o << " MEMORY" << std::endl << memDump(vm.memory());
o << " STORAGE" << std::endl;
for (auto const& i: std::get<2>(ext.addresses.find(ext.myAddress)->second))
o << std::showbase << std::hex << i.first << ": " << i.second << std::endl;
dev::LogOutputStream<eth::VMTraceChannel, false>(true) << o.str();
dev::LogOutputStream<eth::VMTraceChannel, false>(false) << " | " << std::dec << ext.depth << " | " << ext.myAddress << " | #" << steps << " | " << std::hex << std::setw(4) << std::setfill('0') << vm.curPC() << " : " << instructionInfo(inst).name << " | " << std::dec << vm.gas() << " | -" << std::dec << gasCost << " | " << newMemSize << "x32" << " ]";
if (eth::VMTraceChannel::verbosity <= g_logVerbosity)
{
std::ofstream f;
f.open("./vmtrace.log", std::ofstream::app);
f << o.str();
f << " | " << std::dec << ext.depth << " | " << ext.myAddress << " | #" << steps << " | " << std::hex << std::setw(4) << std::setfill('0') << vm.curPC() << " : " << instructionInfo(inst).name << " | " << std::dec << vm.gas() << " | -" << std::dec << gasCost << " | " << newMemSize << "x32";
}
};
}
namespace dev { namespace test {
void doVMTests(json_spirit::mValue& v, bool _fillin)
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{
for (auto& i: v.get_obj())
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{
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cnote << i.first;
mObject& o = i.second.get_obj();
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BOOST_REQUIRE(o.count("env") > 0);
BOOST_REQUIRE(o.count("pre") > 0);
BOOST_REQUIRE(o.count("exec") > 0);
dev::test::FakeExtVM fev;
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fev.importEnv(o["env"].get_obj());
fev.importState(o["pre"].get_obj());
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if (_fillin)
o["pre"] = mValue(fev.exportState());
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fev.importExec(o["exec"].get_obj());
if (!fev.code)
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{
fev.thisTxCode = get<3>(fev.addresses.at(fev.myAddress));
fev.code = &fev.thisTxCode;
}
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bytes output;
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VM vm(fev.gas);
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try
{
output = vm.go(fev, fev.simpleTrace()).toVector();
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}
catch (Exception const& _e)
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{
cnote << "VM did throw an exception: " << diagnostic_information(_e);
//BOOST_ERROR("Failed VM Test with Exception: " << e.what());
}
catch (std::exception const& _e)
{
cnote << "VM did throw an exception: " << _e.what();
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//BOOST_ERROR("Failed VM Test with Exception: " << e.what());
}
// delete null entries in storage for the sake of comparison
for (auto &a: fev.addresses)
{
vector<u256> keystoDelete;
for (auto &s: get<2>(a.second))
{
if (s.second == 0)
keystoDelete.push_back(s.first);
}
for (auto const key: keystoDelete )
{
get<2>(a.second).erase(key);
}
}
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if (_fillin)
{
o["env"] = mValue(fev.exportEnv());
o["exec"] = mValue(fev.exportExec());
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o["post"] = mValue(fev.exportState());
o["callcreates"] = fev.exportCallCreates();
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o["out"] = "0x" + toHex(output);
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fev.push(o, "gas", vm.gas());
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}
else
{
BOOST_REQUIRE(o.count("post") > 0);
BOOST_REQUIRE(o.count("callcreates") > 0);
BOOST_REQUIRE(o.count("out") > 0);
BOOST_REQUIRE(o.count("gas") > 0);
dev::test::FakeExtVM test;
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test.importState(o["post"].get_obj());
test.importCallCreates(o["callcreates"].get_array());
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checkOutput(output, o);
BOOST_CHECK_EQUAL(toInt(o["gas"]), vm.gas());
auto& expectedAddrs = test.addresses;
auto& resultAddrs = fev.addresses;
for (auto&& expectedPair : expectedAddrs)
{
auto& expectedAddr = expectedPair.first;
auto resultAddrIt = resultAddrs.find(expectedAddr);
if (resultAddrIt == resultAddrs.end())
BOOST_ERROR("Missing expected address " << expectedAddr);
else
{
auto& expectedState = expectedPair.second;
auto& resultState = resultAddrIt->second;
BOOST_CHECK_MESSAGE(std::get<0>(expectedState) == std::get<0>(resultState), expectedAddr << ": incorrect balance " << std::get<0>(resultState) << ", expected " << std::get<0>(expectedState));
BOOST_CHECK_MESSAGE(std::get<1>(expectedState) == std::get<1>(resultState), expectedAddr << ": incorrect txCount " << std::get<1>(resultState) << ", expected " << std::get<1>(expectedState));
BOOST_CHECK_MESSAGE(std::get<3>(expectedState) == std::get<3>(resultState), expectedAddr << ": incorrect code");
checkStorage(std::get<2>(expectedState), std::get<2>(resultState), expectedAddr);
}
}
checkAddresses<std::map<Address, std::tuple<u256, u256, std::map<u256, u256>, bytes> > >(test.addresses, fev.addresses);
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BOOST_CHECK(test.callcreates == fev.callcreates);
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}
}
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}
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} } // Namespace Close
BOOST_AUTO_TEST_SUITE(VMTests)
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BOOST_AUTO_TEST_CASE(vm_tests)
{
dev::test::executeTests("vmtests", "/VMTests", dev::test::doVMTests);
}
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BOOST_AUTO_TEST_CASE(vmArithmeticTest)
{
dev::test::executeTests("vmArithmeticTest", "/VMTests", dev::test::doVMTests);
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}
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BOOST_AUTO_TEST_CASE(vmBitwiseLogicOperationTest)
{
dev::test::executeTests("vmBitwiseLogicOperationTest", "/VMTests", dev::test::doVMTests);
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}
BOOST_AUTO_TEST_CASE(vmSha3Test)
{
dev::test::executeTests("vmSha3Test", "/VMTests", dev::test::doVMTests);
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}
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BOOST_AUTO_TEST_CASE(vmEnvironmentalInfoTest)
{
dev::test::executeTests("vmEnvironmentalInfoTest", "/VMTests", dev::test::doVMTests);
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}
BOOST_AUTO_TEST_CASE(vmBlockInfoTest)
{
dev::test::executeTests("vmBlockInfoTest", "/VMTests", dev::test::doVMTests);
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}
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BOOST_AUTO_TEST_CASE(vmIOandFlowOperationsTest)
{
dev::test::executeTests("vmIOandFlowOperationsTest", "/VMTests", dev::test::doVMTests);
}
BOOST_AUTO_TEST_CASE(vmPushDupSwapTest)
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{
dev::test::executeTests("vmPushDupSwapTest", "/VMTests", dev::test::doVMTests);
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}
BOOST_AUTO_TEST_CASE(userDefinedFile)
{
if (boost::unit_test::framework::master_test_suite().argc == 2)
{
string filename = boost::unit_test::framework::master_test_suite().argv[1];
int currentVerbosity = g_logVerbosity;
g_logVerbosity = 12;
try
{
cnote << "Testing VM..." << "user defined test";
json_spirit::mValue v;
string s = asString(contents(filename));
BOOST_REQUIRE_MESSAGE(s.length() > 0, "Contents of " + filename + " is empty. ");
json_spirit::read_string(s, v);
dev::test::doVMTests(v, false);
}
catch (Exception const& _e)
{
BOOST_ERROR("Failed VM Test with Exception: " << diagnostic_information(_e));
}
catch (std::exception const& _e)
{
BOOST_ERROR("Failed VM Test with Exception: " << _e.what());
}
g_logVerbosity = currentVerbosity;
}
}
BOOST_AUTO_TEST_SUITE_END()