solidity/test/libsolidity/GasMeter.cpp

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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
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,
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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/>.
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*/
// SPDX-License-Identifier: GPL-3.0
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/**
* @author Christian <c@ethdev.com>
* @date 2015
* Unit tests for the gas estimator.
*/
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#include <test/libsolidity/SolidityExecutionFramework.h>
#include <libevmasm/GasMeter.h>
#include <libevmasm/KnownState.h>
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#include <libevmasm/PathGasMeter.h>
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#include <libsolidity/ast/AST.h>
#include <libsolidity/interface/GasEstimator.h>
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using namespace solidity::langutil;
using namespace solidity::evmasm;
using namespace solidity::frontend;
using namespace solidity::frontend::test;
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namespace solidity::frontend::test
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{
class GasMeterTestFramework: public SolidityExecutionFramework
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{
public:
void compile(std::string const& _sourceCode)
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{
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m_compiler.reset();
m_compiler.setSources({{"", "pragma solidity >=0.0;\n"
"// SPDX-License-Identifier: GPL-3.0\n" + _sourceCode}});
m_compiler.setOptimiserSettings(solidity::test::CommonOptions::get().optimize);
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m_compiler.setEVMVersion(m_evmVersion);
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BOOST_REQUIRE_MESSAGE(m_compiler.compile(), "Compiling contract failed");
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}
void testCreationTimeGas(std::string const& _sourceCode, u256 const& _tolerance = u256(0))
{
compileAndRun(_sourceCode);
auto state = std::make_shared<KnownState>();
PathGasMeter meter(*m_compiler.assemblyItems(m_compiler.lastContractName()), solidity::test::CommonOptions::get().evmVersion());
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GasMeter::GasConsumption gas = meter.estimateMax(0, state);
u256 bytecodeSize(m_compiler.runtimeObject(m_compiler.lastContractName()).bytecode.size());
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// costs for deployment
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gas += bytecodeSize * GasCosts::createDataGas;
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// costs for transaction
gas += gasForTransaction(m_compiler.object(m_compiler.lastContractName()).bytecode, true);
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// Skip the tests when we use ABIEncoderV2.
// TODO: We should enable this again once the yul optimizer is activated.
if (solidity::test::CommonOptions::get().useABIEncoderV1)
{
BOOST_REQUIRE(!gas.isInfinite);
BOOST_CHECK_LE(m_gasUsed, gas.value);
BOOST_CHECK_LE(gas.value - _tolerance, m_gasUsed);
}
}
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/// Compares the gas computed by PathGasMeter for the given signature (but unknown arguments)
/// against the actual gas usage computed by the VM on the given set of argument variants.
void testRunTimeGas(std::string const& _sig, std::vector<bytes> _argumentVariants, u256 const& _tolerance = u256(0))
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{
u256 gasUsed = 0;
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GasMeter::GasConsumption gas;
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util::FixedHash<4> hash = util::selectorFromSignatureH32(_sig);
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for (bytes const& arguments: _argumentVariants)
{
sendMessage(hash.asBytes() + arguments, false, 0);
BOOST_CHECK(m_transactionSuccessful);
gasUsed = std::max(gasUsed, m_gasUsed);
gas = std::max(gas, gasForTransaction(hash.asBytes() + arguments, false));
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}
gas += GasEstimator(solidity::test::CommonOptions::get().evmVersion()).functionalEstimation(
*m_compiler.runtimeAssemblyItems(m_compiler.lastContractName()),
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_sig
);
// Skip the tests when we use ABIEncoderV2.
// TODO: We should enable this again once the yul optimizer is activated.
if (solidity::test::CommonOptions::get().useABIEncoderV1)
{
BOOST_REQUIRE(!gas.isInfinite);
BOOST_CHECK_LE(m_gasUsed, gas.value);
BOOST_CHECK_LE(gas.value - _tolerance, m_gasUsed);
}
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}
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static GasMeter::GasConsumption gasForTransaction(bytes const& _data, bool _isCreation)
{
auto evmVersion = solidity::test::CommonOptions::get().evmVersion();
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GasMeter::GasConsumption gas = _isCreation ? GasCosts::txCreateGas : GasCosts::txGas;
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for (auto i: _data)
gas += i != 0 ? GasCosts::txDataNonZeroGas(evmVersion) : GasCosts::txDataZeroGas;
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return gas;
}
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};
BOOST_FIXTURE_TEST_SUITE(GasMeterTests, GasMeterTestFramework)
BOOST_AUTO_TEST_CASE(simple_contract)
{
// Tests a simple "deploy contract" code without constructor. The actual contract is not relevant.
char const* sourceCode = R"(
contract test {
bytes32 public shaValue;
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function f(uint a) public {
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shaValue = keccak256(abi.encodePacked(a));
}
}
)";
testCreationTimeGas(sourceCode);
}
BOOST_AUTO_TEST_CASE(store_keccak256)
{
char const* sourceCode = R"(
contract test {
bytes32 public shaValue;
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constructor() {
shaValue = keccak256(abi.encodePacked(this));
}
}
)";
testCreationTimeGas(sourceCode);
}
BOOST_AUTO_TEST_CASE(updating_store)
{
char const* sourceCode = R"(
contract test {
uint data;
uint data2;
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constructor() {
data = 1;
data = 2;
data2 = 0;
}
}
)";
testCreationTimeGas(sourceCode, m_evmVersion < langutil::EVMVersion::constantinople() ? u256(0) : u256(9600));
}
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BOOST_AUTO_TEST_CASE(branches)
{
char const* sourceCode = R"(
contract test {
uint data;
uint data2;
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function f(uint x) public {
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if (x > 7)
data2 = 1;
else
data = 1;
}
}
)";
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testCreationTimeGas(sourceCode, 1);
testRunTimeGas("f(uint256)", std::vector<bytes>{encodeArgs(2), encodeArgs(8)}, 1);
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}
BOOST_AUTO_TEST_CASE(function_calls)
{
char const* sourceCode = R"(
contract test {
uint data;
uint data2;
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function f(uint x) public {
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if (x > 7)
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{ unchecked { data2 = g(x**8) + 1; } }
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else
data = 1;
}
function g(uint x) internal returns (uint) {
return data2;
}
}
)";
testCreationTimeGas(sourceCode);
// In f, data2 is accessed twice, so there is a reduction of 2200 to 100 in actual costs.
// However, GasMeter always assumes cold costs.
testRunTimeGas(
"f(uint256)",
std::vector<bytes>{encodeArgs(2), encodeArgs(8)},
m_evmVersion < EVMVersion::berlin() ?
u256(0) :
u256(2100)
);
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}
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BOOST_AUTO_TEST_CASE(multiple_external_functions)
{
char const* sourceCode = R"(
contract test {
uint data;
uint data2;
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function f(uint x) public {
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if (x > 7)
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{ unchecked { data2 = g(x**8) + 1; } }
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else
data = 1;
}
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function g(uint x) public returns (uint) {
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return data2;
}
}
)";
testCreationTimeGas(sourceCode);
// In f, data2 is accessed twice, so there is a reduction of 2200 to 100 in actual costs.
// However, GasMeter always assumes cold costs.
testRunTimeGas(
"f(uint256)",
std::vector<bytes>{encodeArgs(2), encodeArgs(8)},
m_evmVersion < EVMVersion::berlin() ?
u256(0) :
u256(2100)
);
testRunTimeGas("g(uint256)", std::vector<bytes>{encodeArgs(2)});
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}
BOOST_AUTO_TEST_CASE(exponent_size)
{
char const* sourceCode = R"(
contract A {
function f(uint x) public returns (uint) {
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unchecked { return x ** 0; }
}
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function g(uint x) public returns (uint) {
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unchecked { return x ** 0x100; }
}
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function h(uint x) public returns (uint) {
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unchecked { return x ** 0x10000; }
}
}
)";
testCreationTimeGas(sourceCode);
testRunTimeGas("f(uint256)", std::vector<bytes>{encodeArgs(2)});
testRunTimeGas("g(uint256)", std::vector<bytes>{encodeArgs(2)});
testRunTimeGas("h(uint256)", std::vector<bytes>{encodeArgs(2)});
}
BOOST_AUTO_TEST_CASE(balance_gas)
{
char const* sourceCode = R"(
contract A {
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function lookup_balance(address a) public returns (uint) {
return a.balance;
}
}
)";
testCreationTimeGas(sourceCode);
testRunTimeGas("lookup_balance(address)", std::vector<bytes>{encodeArgs(2), encodeArgs(100)});
}
BOOST_AUTO_TEST_CASE(extcodesize_gas)
{
char const* sourceCode = R"(
contract A {
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function f() public returns (uint _s) {
assembly {
_s := extcodesize(0x30)
}
}
}
)";
testCreationTimeGas(sourceCode);
testRunTimeGas("f()", std::vector<bytes>{encodeArgs()});
}
BOOST_AUTO_TEST_CASE(regular_functions_exclude_fallback)
{
// A bug in the estimator caused the costs for a specific function
// to always include the costs for the fallback.
char const* sourceCode = R"(
contract A {
uint public x;
fallback() external { x = 2; }
}
)";
testCreationTimeGas(sourceCode);
testRunTimeGas("x()", std::vector<bytes>{encodeArgs()});
}
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BOOST_AUTO_TEST_CASE(complex_control_flow)
{
// This crashed the gas estimator previously (or took a very long time).
// Now we do not follow branches if they start out with lower gas costs than the ones
// we previously considered. This of course reduces accuracy.
char const* sourceCode = R"(
contract log {
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function ln(int128 x) public pure returns (int128 result) {
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unchecked {
int128 t = x / 256;
int128 y = 5545177;
x = t;
t = x * 16; if (t <= 1000000) { x = t; y = y - 2772588; }
t = x * 4; if (t <= 1000000) { x = t; y = y - 1386294; }
t = x * 2; if (t <= 1000000) { x = t; y = y - 693147; }
t = x + x / 2; if (t <= 1000000) { x = t; y = y - 405465; }
t = x + x / 4; if (t <= 1000000) { x = t; y = y - 223144; }
t = x + x / 8; if (t <= 1000000) { x = t; y = y - 117783; }
t = x + x / 16; if (t <= 1000000) { x = t; y = y - 60624; }
t = x + x / 32; if (t <= 1000000) { x = t; y = y - 30771; }
t = x + x / 64; if (t <= 1000000) { x = t; y = y - 15504; }
t = x + x / 128; if (t <= 1000000) { x = t; y = y - 7782; }
t = x + x / 256; if (t <= 1000000) { x = t; y = y - 3898; }
t = x + x / 512; if (t <= 1000000) { x = t; y = y - 1951; }
t = x + x / 1024; if (t <= 1000000) { x = t; y = y - 976; }
t = x + x / 2048; if (t <= 1000000) { x = t; y = y - 488; }
t = x + x / 4096; if (t <= 1000000) { x = t; y = y - 244; }
t = x + x / 8192; if (t <= 1000000) { x = t; y = y - 122; }
t = x + x / 16384; if (t <= 1000000) { x = t; y = y - 61; }
t = x + x / 32768; if (t <= 1000000) { x = t; y = y - 31; }
t = x + x / 65536; if (t <= 1000000) { y = y - 15; }
return y;
}
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}
}
)";
testCreationTimeGas(sourceCode);
// max gas is used for small x
testRunTimeGas("ln(int128)", std::vector<bytes>{encodeArgs(0), encodeArgs(10), encodeArgs(105), encodeArgs(30000)});
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}
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BOOST_AUTO_TEST_SUITE_END()
}