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openethereum/crates/ethcore/src/executive.rs

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// Copyright 2015-2020 Parity Technologies (UK) Ltd.
// This file is part of OpenEthereum.
// OpenEthereum 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.
// OpenEthereum 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 OpenEthereum. If not, see <http://www.gnu.org/licenses/>.
//! Transaction Execution environment.
use bytes::{Bytes, BytesRef};
use ethereum_types::{Address, H256, U256, U512};
use evm::{CallType, FinalizationResult, Finalize};
use executed::ExecutionError;
pub use executed::{Executed, ExecutionResult};
use externalities::*;
use factory::VmFactory;
use hash::keccak;
use machine::EthereumMachine as Machine;
use state::{Backend as StateBackend, CleanupMode, State, Substate};
use std::{cmp, convert::TryFrom, sync::Arc};
use trace::{self, Tracer, VMTracer};
use transaction_ext::Transaction;
use types::transaction::{Action, SignedTransaction, TypedTransaction};
use vm::{
self, AccessList, ActionParams, ActionValue, CleanDustMode, CreateContractAddress, EnvInfo,
ResumeCall, ResumeCreate, ReturnData, Schedule, TrapError,
};
#[cfg(any(test, feature = "test-helpers"))]
/// Precompile that can never be prunned from state trie (0x3, only in tests)
const UNPRUNABLE_PRECOMPILE_ADDRESS: Option<Address> = Some(ethereum_types::H160([
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 3,
]));
#[cfg(not(any(test, feature = "test-helpers")))]
/// Precompile that can never be prunned from state trie (none)
const UNPRUNABLE_PRECOMPILE_ADDRESS: Option<Address> = None;
/// Returns new address created from address, nonce, and code hash
pub fn contract_address(
address_scheme: CreateContractAddress,
sender: &Address,
nonce: &U256,
code: &[u8],
) -> (Address, Option<H256>) {
use rlp::RlpStream;
match address_scheme {
CreateContractAddress::FromSenderAndNonce => {
let mut stream = RlpStream::new_list(2);
stream.append(sender);
stream.append(nonce);
(From::from(keccak(stream.as_raw())), None)
}
CreateContractAddress::FromSenderSaltAndCodeHash(salt) => {
let code_hash = keccak(code);
let mut buffer = [0u8; 1 + 20 + 32 + 32];
buffer[0] = 0xff;
&mut buffer[1..(1 + 20)].copy_from_slice(&sender[..]);
&mut buffer[(1 + 20)..(1 + 20 + 32)].copy_from_slice(&salt[..]);
&mut buffer[(1 + 20 + 32)..].copy_from_slice(&code_hash[..]);
(From::from(keccak(&buffer[..])), Some(code_hash))
}
CreateContractAddress::FromSenderAndCodeHash => {
let code_hash = keccak(code);
let mut buffer = [0u8; 20 + 32];
&mut buffer[..20].copy_from_slice(&sender[..]);
&mut buffer[20..].copy_from_slice(&code_hash[..]);
(From::from(keccak(&buffer[..])), Some(code_hash))
}
}
}
/// Convert a finalization result into a VM message call result.
pub fn into_message_call_result(result: vm::Result<FinalizationResult>) -> vm::MessageCallResult {
match result {
Ok(FinalizationResult {
gas_left,
return_data,
apply_state: true,
}) => vm::MessageCallResult::Success(gas_left, return_data),
Ok(FinalizationResult {
gas_left,
return_data,
apply_state: false,
}) => vm::MessageCallResult::Reverted(gas_left, return_data),
_ => vm::MessageCallResult::Failed,
}
}
/// Convert a finalization result into a VM contract create result.
pub fn into_contract_create_result(
result: vm::Result<FinalizationResult>,
address: &Address,
substate: &mut Substate,
) -> vm::ContractCreateResult {
match result {
Ok(FinalizationResult {
gas_left,
apply_state: true,
..
}) => {
substate.contracts_created.push(address.clone());
vm::ContractCreateResult::Created(address.clone(), gas_left)
}
Ok(FinalizationResult {
gas_left,
apply_state: false,
return_data,
}) => vm::ContractCreateResult::Reverted(gas_left, return_data),
_ => vm::ContractCreateResult::Failed,
}
}
/// Transaction execution options.
#[derive(Copy, Clone, PartialEq)]
pub struct TransactOptions<T, V> {
/// Enable call tracing.
pub tracer: T,
/// Enable VM tracing.
pub vm_tracer: V,
/// Check transaction nonce before execution.
pub check_nonce: bool,
/// Records the output from init contract calls.
pub output_from_init_contract: bool,
}
impl<T, V> TransactOptions<T, V> {
/// Create new `TransactOptions` with given tracer and VM tracer.
pub fn new(tracer: T, vm_tracer: V) -> Self {
TransactOptions {
tracer,
vm_tracer,
check_nonce: true,
output_from_init_contract: false,
}
}
/// Disables the nonce check
pub fn dont_check_nonce(mut self) -> Self {
self.check_nonce = false;
self
}
/// Saves the output from contract creation.
pub fn save_output_from_contract(mut self) -> Self {
self.output_from_init_contract = true;
self
}
}
impl TransactOptions<trace::ExecutiveTracer, trace::ExecutiveVMTracer> {
/// Creates new `TransactOptions` with default tracing and VM tracing.
pub fn with_tracing_and_vm_tracing() -> Self {
TransactOptions {
tracer: trace::ExecutiveTracer::default(),
vm_tracer: trace::ExecutiveVMTracer::toplevel(),
check_nonce: true,
output_from_init_contract: false,
}
}
}
impl TransactOptions<trace::ExecutiveTracer, trace::NoopVMTracer> {
/// Creates new `TransactOptions` with default tracing and no VM tracing.
pub fn with_tracing() -> Self {
TransactOptions {
tracer: trace::ExecutiveTracer::default(),
vm_tracer: trace::NoopVMTracer,
check_nonce: true,
output_from_init_contract: false,
}
}
}
impl TransactOptions<trace::NoopTracer, trace::ExecutiveVMTracer> {
/// Creates new `TransactOptions` with no tracing and default VM tracing.
pub fn with_vm_tracing() -> Self {
TransactOptions {
tracer: trace::NoopTracer,
vm_tracer: trace::ExecutiveVMTracer::toplevel(),
check_nonce: true,
output_from_init_contract: false,
}
}
}
impl TransactOptions<trace::NoopTracer, trace::NoopVMTracer> {
/// Creates new `TransactOptions` without any tracing.
pub fn with_no_tracing() -> Self {
TransactOptions {
tracer: trace::NoopTracer,
vm_tracer: trace::NoopVMTracer,
check_nonce: true,
output_from_init_contract: false,
}
}
}
/// Trap result returned by executive.
pub type ExecutiveTrapResult<'a, T> =
vm::TrapResult<T, CallCreateExecutive<'a>, CallCreateExecutive<'a>>;
/// Trap error for executive.
pub type ExecutiveTrapError<'a> = vm::TrapError<CallCreateExecutive<'a>, CallCreateExecutive<'a>>;
enum CallCreateExecutiveKind {
Transfer(ActionParams),
CallBuiltin(ActionParams),
ExecCall(ActionParams, Substate),
ExecCreate(ActionParams, Substate),
ResumeCall(OriginInfo, Box<dyn ResumeCall>, Substate),
ResumeCreate(OriginInfo, Box<dyn ResumeCreate>, Substate),
}
/// Executive for a raw call/create action.
pub struct CallCreateExecutive<'a> {
info: &'a EnvInfo,
machine: &'a Machine,
schedule: &'a Schedule,
factory: &'a VmFactory,
depth: usize,
stack_depth: usize,
static_flag: bool,
is_create: bool,
gas: U256,
kind: CallCreateExecutiveKind,
}
impl<'a> CallCreateExecutive<'a> {
/// Create new state with access list.
pub fn new_substate(params: &ActionParams, schedule: &'a Schedule) -> Substate {
if schedule.eip2929 {
let mut substate = Substate::from_access_list(&params.access_list);
substate.access_list.insert_address(params.address);
substate
} else {
Substate::default()
}
}
/// Create a new call executive using raw data.
pub fn new_call_raw(
params: ActionParams,
info: &'a EnvInfo,
machine: &'a Machine,
schedule: &'a Schedule,
factory: &'a VmFactory,
depth: usize,
stack_depth: usize,
parent_static_flag: bool,
) -> Self {
trace!(
"Executive::call(params={:?}) self.env_info={:?}, parent_static={}",
params,
info,
parent_static_flag
);
let gas = params.gas;
let static_flag = parent_static_flag || params.call_type == CallType::StaticCall;
// if destination is builtin, try to execute it
let kind = if let Some(builtin) = machine.builtin(&params.code_address, info.number) {
// Engines aren't supposed to return builtins until activation, but
// prefer to fail rather than silently break consensus.
if !builtin.is_active(info.number) {
panic!(
"Consensus failure: engine implementation prematurely enabled built-in at {}",
params.code_address
);
}
CallCreateExecutiveKind::CallBuiltin(params)
} else {
if params.code.is_some() {
let substate = Self::new_substate(&params, schedule);
CallCreateExecutiveKind::ExecCall(params, substate)
} else {
CallCreateExecutiveKind::Transfer(params)
}
};
Self {
info,
machine,
schedule,
factory,
depth,
stack_depth,
static_flag,
kind,
gas,
is_create: false,
}
}
/// Create a new create executive using raw data.
pub fn new_create_raw(
params: ActionParams,
info: &'a EnvInfo,
machine: &'a Machine,
schedule: &'a Schedule,
factory: &'a VmFactory,
depth: usize,
stack_depth: usize,
static_flag: bool,
) -> Self {
trace!(
"Executive::create(params={:?}) self.env_info={:?}, static={}",
params,
info,
static_flag
);
let gas = params.gas;
let substate = Self::new_substate(&params, schedule);
let kind = CallCreateExecutiveKind::ExecCreate(params, substate);
Self {
info,
machine,
schedule,
factory,
depth,
stack_depth,
static_flag,
kind,
gas,
is_create: true,
}
}
/// If this executive contains an unconfirmed substate, returns a mutable reference to it.
pub fn unconfirmed_substate(&mut self) -> Option<&mut Substate> {
match self.kind {
CallCreateExecutiveKind::ExecCall(_, ref mut unsub) => Some(unsub),
CallCreateExecutiveKind::ExecCreate(_, ref mut unsub) => Some(unsub),
CallCreateExecutiveKind::ResumeCreate(_, _, ref mut unsub) => Some(unsub),
CallCreateExecutiveKind::ResumeCall(_, _, ref mut unsub) => Some(unsub),
CallCreateExecutiveKind::Transfer(..) | CallCreateExecutiveKind::CallBuiltin(..) => {
None
}
}
}
fn check_static_flag(
params: &ActionParams,
static_flag: bool,
is_create: bool,
) -> vm::Result<()> {
if is_create {
if static_flag {
return Err(vm::Error::MutableCallInStaticContext);
}
} else {
if (static_flag
&& (params.call_type == CallType::StaticCall || params.call_type == CallType::Call))
&& params.value.value() > U256::zero()
{
return Err(vm::Error::MutableCallInStaticContext);
}
}
Ok(())
}
fn check_eip684<B: 'a + StateBackend>(
params: &ActionParams,
state: &State<B>,
) -> vm::Result<()> {
if state.exists_and_has_code_or_nonce(&params.address)? {
return Err(vm::Error::OutOfGas);
}
Ok(())
}
fn transfer_exec_balance<B: 'a + StateBackend>(
params: &ActionParams,
schedule: &Schedule,
state: &mut State<B>,
substate: &mut Substate,
) -> vm::Result<()> {
if let ActionValue::Transfer(val) = params.value {
state.transfer_balance(
&params.sender,
&params.address,
&val,
substate.to_cleanup_mode(&schedule),
)?;
}
Ok(())
}
fn transfer_exec_balance_and_init_contract<B: 'a + StateBackend>(
params: &ActionParams,
schedule: &Schedule,
state: &mut State<B>,
substate: &mut Substate,
) -> vm::Result<()> {
let nonce_offset = if schedule.no_empty { 1 } else { 0 }.into();
let prev_bal = state.balance(&params.address)?;
if let ActionValue::Transfer(val) = params.value {
state.sub_balance(
&params.sender,
&val,
&mut substate.to_cleanup_mode(&schedule),
)?;
state.new_contract(&params.address, val.saturating_add(prev_bal), nonce_offset)?;
} else {
state.new_contract(&params.address, prev_bal, nonce_offset)?;
}
Ok(())
}
fn enact_result<B: 'a + StateBackend>(
result: &vm::Result<FinalizationResult>,
state: &mut State<B>,
substate: &mut Substate,
un_substate: Substate,
) {
match *result {
Err(vm::Error::OutOfGas)
| Err(vm::Error::BadJumpDestination { .. })
| Err(vm::Error::BadInstruction { .. })
| Err(vm::Error::StackUnderflow { .. })
| Err(vm::Error::BuiltIn { .. })
| Err(vm::Error::Wasm { .. })
| Err(vm::Error::OutOfStack { .. })
| Err(vm::Error::MutableCallInStaticContext)
| Err(vm::Error::OutOfBounds)
| Err(vm::Error::Reverted)
| Err(vm::Error::SubStackUnderflow { .. })
| Err(vm::Error::OutOfSubStack { .. })
| Err(vm::Error::InvalidSubEntry)
| Err(vm::Error::InvalidCode)
| Ok(FinalizationResult {
apply_state: false, ..
}) => {
if let Some(addr) = UNPRUNABLE_PRECOMPILE_ADDRESS {
if un_substate.touched.contains(&addr) {
substate.touched.insert(addr);
}
}
state.revert_to_checkpoint();
un_substate.access_list.rollback();
}
Ok(_) | Err(vm::Error::Internal(_)) => {
state.discard_checkpoint();
substate.accrue(un_substate);
}
}
}
/// Creates `Externalities` from `Executive`.
fn as_externalities<'any, B: 'any + StateBackend, T, V>(
state: &'any mut State<B>,
info: &'any EnvInfo,
machine: &'any Machine,
schedule: &'any Schedule,
depth: usize,
stack_depth: usize,
static_flag: bool,
origin_info: &'any OriginInfo,
substate: &'any mut Substate,
output: OutputPolicy,
tracer: &'any mut T,
vm_tracer: &'any mut V,
) -> Externalities<'any, T, V, B>
where
T: Tracer,
V: VMTracer,
{
Externalities::new(
state,
info,
machine,
schedule,
depth,
stack_depth,
origin_info,
substate,
output,
tracer,
vm_tracer,
static_flag,
)
}
/// Execute the executive. If a sub-call/create action is required, a resume trap error is returned. The caller is
/// then expected to call `resume_call` or `resume_create` to continue the execution.
///
/// Current-level tracing is expected to be handled by caller.
pub fn exec<B: 'a + StateBackend, T: Tracer, V: VMTracer>(
mut self,
state: &mut State<B>,
substate: &mut Substate,
tracer: &mut T,
vm_tracer: &mut V,
) -> ExecutiveTrapResult<'a, FinalizationResult> {
match self.kind {
CallCreateExecutiveKind::Transfer(ref params) => {
assert!(!self.is_create);
let mut inner = || {
Self::check_static_flag(params, self.static_flag, self.is_create)?;
Self::transfer_exec_balance(params, self.schedule, state, substate)?;
Ok(FinalizationResult {
gas_left: params.gas,
return_data: ReturnData::empty(),
apply_state: true,
})
};
Ok(inner())
}
CallCreateExecutiveKind::CallBuiltin(ref params) => {
assert!(!self.is_create);
let mut inner = || {
let builtin = self.machine.builtin(&params.code_address, self.info.number).expect("Builtin is_some is checked when creating this kind in new_call_raw; qed");
Self::check_static_flag(&params, self.static_flag, self.is_create)?;
state.checkpoint();
Self::transfer_exec_balance(&params, self.schedule, state, substate)?;
let default = [];
let data = if let Some(ref d) = params.data {
d as &[u8]
} else {
&default as &[u8]
};
// NOTE(niklasad1): block number is used by `builtin alt_bn128 ops` to enable eip1108
let cost = builtin.cost(data, self.info.number);
if cost <= params.gas {
let mut builtin_out_buffer = Vec::new();
let result = {
let mut builtin_output = BytesRef::Flexible(&mut builtin_out_buffer);
builtin.execute(data, &mut builtin_output)
};
if let Err(e) = result {
state.revert_to_checkpoint();
Err(vm::Error::BuiltIn(e))
} else {
state.discard_checkpoint();
let out_len = builtin_out_buffer.len();
Ok(FinalizationResult {
gas_left: params.gas - cost,
return_data: ReturnData::new(builtin_out_buffer, 0, out_len),
apply_state: true,
})
}
} else {
// We need balance > 0 in precompiles to be EIP161 compliant, see PR#11597.
// Since RIPEMD160 was removed in mainnet block #2686351, this is activated only in
// tests to check this specific irregular state transition.
if let Some(unprunable_addr) = UNPRUNABLE_PRECOMPILE_ADDRESS {
if unprunable_addr != params.code_address
&& state.balance(&params.code_address)?.is_zero()
{
substate.touched.remove(&params.code_address);
}
}
// just drain the whole gas
state.revert_to_checkpoint();
Err(vm::Error::OutOfGas)
}
};
Ok(inner())
}
CallCreateExecutiveKind::ExecCall(params, mut unconfirmed_substate) => {
assert!(!self.is_create);
{
let static_flag = self.static_flag;
let is_create = self.is_create;
let schedule = self.schedule;
let mut pre_inner = || {
Self::check_static_flag(&params, static_flag, is_create)?;
state.checkpoint();
Self::transfer_exec_balance(&params, schedule, state, substate)?;
Ok(())
};
match pre_inner() {
Ok(()) => (),
Err(err) => return Ok(Err(err)),
}
}
let origin_info = OriginInfo::from(&params);
let exec = self.factory.create(params, self.schedule, self.depth);
let out = {
let mut ext = Self::as_externalities(
state,
self.info,
self.machine,
self.schedule,
self.depth,
self.stack_depth,
self.static_flag,
&origin_info,
&mut unconfirmed_substate,
OutputPolicy::Return,
tracer,
vm_tracer,
);
exec.exec(&mut ext).map(|val| val.finalize(ext))
};
let res = match out {
Ok(val) => val,
Err(TrapError::Call(subparams, resume)) => {
self.kind = CallCreateExecutiveKind::ResumeCall(
origin_info,
resume,
unconfirmed_substate,
);
return Err(TrapError::Call(subparams, self));
}
Err(TrapError::Create(subparams, address, resume)) => {
self.kind = CallCreateExecutiveKind::ResumeCreate(
origin_info,
resume,
unconfirmed_substate,
);
return Err(TrapError::Create(subparams, address, self));
}
};
Self::enact_result(&res, state, substate, unconfirmed_substate);
Ok(res)
}
CallCreateExecutiveKind::ExecCreate(params, mut unconfirmed_substate) => {
assert!(self.is_create);
{
let static_flag = self.static_flag;
let is_create = self.is_create;
let schedule = self.schedule;
let mut pre_inner = || {
Self::check_eip684(&params, state)?;
Self::check_static_flag(&params, static_flag, is_create)?;
state.checkpoint();
Self::transfer_exec_balance_and_init_contract(
&params, schedule, state, substate,
)?;
Ok(())
};
match pre_inner() {
Ok(()) => (),
Err(err) => return Ok(Err(err)),
}
}
let origin_info = OriginInfo::from(&params);
let exec = self.factory.create(params, self.schedule, self.depth);
let out = {
let mut ext = Self::as_externalities(
state,
self.info,
self.machine,
self.schedule,
self.depth,
self.stack_depth,
self.static_flag,
&origin_info,
&mut unconfirmed_substate,
OutputPolicy::InitContract,
tracer,
vm_tracer,
);
exec.exec(&mut ext).map(|val| val.finalize(ext))
};
let res = match out {
Ok(val) => val,
Err(TrapError::Call(subparams, resume)) => {
self.kind = CallCreateExecutiveKind::ResumeCall(
origin_info,
resume,
unconfirmed_substate,
);
return Err(TrapError::Call(subparams, self));
}
Err(TrapError::Create(subparams, address, resume)) => {
self.kind = CallCreateExecutiveKind::ResumeCreate(
origin_info,
resume,
unconfirmed_substate,
);
return Err(TrapError::Create(subparams, address, self));
}
};
Self::enact_result(&res, state, substate, unconfirmed_substate);
Ok(res)
}
CallCreateExecutiveKind::ResumeCall(..) | CallCreateExecutiveKind::ResumeCreate(..) => {
panic!("This executive has already been executed once.")
}
}
}
/// Resume execution from a call trap previsouly trapped by `exec`.
///
/// Current-level tracing is expected to be handled by caller.
pub fn resume_call<B: 'a + StateBackend, T: Tracer, V: VMTracer>(
mut self,
result: vm::MessageCallResult,
state: &mut State<B>,
substate: &mut Substate,
tracer: &mut T,
vm_tracer: &mut V,
) -> ExecutiveTrapResult<'a, FinalizationResult> {
match self.kind {
CallCreateExecutiveKind::ResumeCall(origin_info, resume, mut unconfirmed_substate) => {
let out = {
let exec = resume.resume_call(result);
let mut ext = Self::as_externalities(
state,
self.info,
self.machine,
self.schedule,
self.depth,
self.stack_depth,
self.static_flag,
&origin_info,
&mut unconfirmed_substate,
if self.is_create {
OutputPolicy::InitContract
} else {
OutputPolicy::Return
},
tracer,
vm_tracer,
);
exec.exec(&mut ext).map(|val| val.finalize(ext))
};
let res = match out {
Ok(val) => val,
Err(TrapError::Call(subparams, resume)) => {
self.kind = CallCreateExecutiveKind::ResumeCall(
origin_info,
resume,
unconfirmed_substate,
);
return Err(TrapError::Call(subparams, self));
}
Err(TrapError::Create(subparams, address, resume)) => {
self.kind = CallCreateExecutiveKind::ResumeCreate(
origin_info,
resume,
unconfirmed_substate,
);
return Err(TrapError::Create(subparams, address, self));
}
};
Self::enact_result(&res, state, substate, unconfirmed_substate);
Ok(res)
}
CallCreateExecutiveKind::ResumeCreate(..) => {
panic!("Resumable as create, but called resume_call")
}
CallCreateExecutiveKind::Transfer(..)
| CallCreateExecutiveKind::CallBuiltin(..)
| CallCreateExecutiveKind::ExecCall(..)
| CallCreateExecutiveKind::ExecCreate(..) => panic!("Not resumable"),
}
}
/// Resume execution from a create trap previsouly trapped by `exec`.
///
/// Current-level tracing is expected to be handled by caller.
pub fn resume_create<B: 'a + StateBackend, T: Tracer, V: VMTracer>(
mut self,
result: vm::ContractCreateResult,
state: &mut State<B>,
substate: &mut Substate,
tracer: &mut T,
vm_tracer: &mut V,
) -> ExecutiveTrapResult<'a, FinalizationResult> {
match self.kind {
CallCreateExecutiveKind::ResumeCreate(
origin_info,
resume,
mut unconfirmed_substate,
) => {
let out = {
let exec = resume.resume_create(result);
let mut ext = Self::as_externalities(
state,
self.info,
self.machine,
self.schedule,
self.depth,
self.stack_depth,
self.static_flag,
&origin_info,
&mut unconfirmed_substate,
if self.is_create {
OutputPolicy::InitContract
} else {
OutputPolicy::Return
},
tracer,
vm_tracer,
);
exec.exec(&mut ext).map(|val| val.finalize(ext))
};
let res = match out {
Ok(val) => val,
Err(TrapError::Call(subparams, resume)) => {
self.kind = CallCreateExecutiveKind::ResumeCall(
origin_info,
resume,
unconfirmed_substate,
);
return Err(TrapError::Call(subparams, self));
}
Err(TrapError::Create(subparams, address, resume)) => {
self.kind = CallCreateExecutiveKind::ResumeCreate(
origin_info,
resume,
unconfirmed_substate,
);
return Err(TrapError::Create(subparams, address, self));
}
};
Self::enact_result(&res, state, substate, unconfirmed_substate);
Ok(res)
}
CallCreateExecutiveKind::ResumeCall(..) => {
panic!("Resumable as call, but called resume_create")
}
CallCreateExecutiveKind::Transfer(..)
| CallCreateExecutiveKind::CallBuiltin(..)
| CallCreateExecutiveKind::ExecCall(..)
| CallCreateExecutiveKind::ExecCreate(..) => panic!("Not resumable"),
}
}
/// Execute and consume the current executive. This function handles resume traps and sub-level tracing. The caller is expected to handle current-level tracing.
pub fn consume<B: 'a + StateBackend, T: Tracer, V: VMTracer>(
self,
state: &mut State<B>,
top_substate: &mut Substate,
tracer: &mut T,
vm_tracer: &mut V,
) -> vm::Result<FinalizationResult> {
let mut last_res = Some((
false,
self.gas,
self.exec(state, top_substate, tracer, vm_tracer),
));
let mut callstack: Vec<(Option<Address>, CallCreateExecutive<'a>)> = Vec::new();
loop {
match last_res {
None => {
match callstack.pop() {
Some((_, exec)) => {
let second_last = callstack.last_mut();
let parent_substate = match second_last {
Some((_, ref mut second_last)) => second_last.unconfirmed_substate().expect("Current stack value is created from second last item; second last item must be call or create; qed"),
None => top_substate,
};
last_res = Some((exec.is_create, exec.gas, exec.exec(state, parent_substate, tracer, vm_tracer)));
},
None => panic!("When callstack only had one item and it was executed, this function would return; callstack never reaches zero item; qed"),
}
},
Some((is_create, gas, Ok(val))) => {
let current = callstack.pop();
match current {
Some((address, mut exec)) => {
if is_create {
let address = address.expect("If the last executed status was from a create executive, then the destination address was pushed to the callstack; address is_some if it is_create; qed");
match val {
Ok(ref val) if val.apply_state => {
tracer.done_trace_create(
gas - val.gas_left,
&val.return_data,
address
);
},
Ok(_) => {
tracer.done_trace_failed(&vm::Error::Reverted);
},
Err(ref err) => {
tracer.done_trace_failed(err);
},
}
vm_tracer.done_subtrace();
let second_last = callstack.last_mut();
let parent_substate = match second_last {
Some((_, ref mut second_last)) => second_last.unconfirmed_substate().expect("Current stack value is created from second last item; second last item must be call or create; qed"),
None => top_substate,
};
let contract_create_result = into_contract_create_result(val, &address, exec.unconfirmed_substate().expect("Executive is resumed from a create; it has an unconfirmed substate; qed"));
last_res = Some((exec.is_create, exec.gas, exec.resume_create(
contract_create_result,
state,
parent_substate,
tracer,
vm_tracer
)));
} else {
match val {
Ok(ref val) if val.apply_state => {
tracer.done_trace_call(
gas - val.gas_left,
&val.return_data,
);
},
Ok(_) => {
tracer.done_trace_failed(&vm::Error::Reverted);
},
Err(ref err) => {
tracer.done_trace_failed(err);
},
}
vm_tracer.done_subtrace();
let second_last = callstack.last_mut();
let parent_substate = match second_last {
Some((_, ref mut second_last)) => second_last.unconfirmed_substate().expect("Current stack value is created from second last item; second last item must be call or create; qed"),
None => top_substate,
};
last_res = Some((exec.is_create, exec.gas, exec.resume_call(
into_message_call_result(val),
state,
parent_substate,
tracer,
vm_tracer
)));
}
},
None => return val,
}
},
Some((_, _, Err(TrapError::Call(subparams, resume)))) => {
tracer.prepare_trace_call(&subparams, resume.depth + 1, resume.machine.builtin(&subparams.address, resume.info.number).is_some());
vm_tracer.prepare_subtrace(subparams.code.as_ref().map_or_else(|| &[] as &[u8], |d| &*d as &[u8]));
let sub_exec = CallCreateExecutive::new_call_raw(
subparams,
resume.info,
resume.machine,
resume.schedule,
resume.factory,
resume.depth + 1,
resume.stack_depth,
resume.static_flag,
);
callstack.push((None, resume));
callstack.push((None, sub_exec));
last_res = None;
},
Some((_, _, Err(TrapError::Create(subparams, address, resume)))) => {
tracer.prepare_trace_create(&subparams);
vm_tracer.prepare_subtrace(subparams.code.as_ref().map_or_else(|| &[] as &[u8], |d| &*d as &[u8]));
let sub_exec = CallCreateExecutive::new_create_raw(
subparams,
resume.info,
resume.machine,
resume.schedule,
resume.factory,
resume.depth + 1,
resume.stack_depth,
resume.static_flag
);
callstack.push((Some(address), resume));
callstack.push((None, sub_exec));
last_res = None;
},
}
}
}
}
/// Transaction executor.
pub struct Executive<'a, B: 'a> {
state: &'a mut State<B>,
info: &'a EnvInfo,
machine: &'a Machine,
schedule: &'a Schedule,
depth: usize,
static_flag: bool,
}
impl<'a, B: 'a + StateBackend> Executive<'a, B> {
/// Basic constructor.
pub fn new(
state: &'a mut State<B>,
info: &'a EnvInfo,
machine: &'a Machine,
schedule: &'a Schedule,
) -> Self {
Executive {
state: state,
info: info,
machine: machine,
schedule: schedule,
depth: 0,
static_flag: false,
}
}
/// Populates executive from parent properties. Increments executive depth.
pub fn from_parent(
state: &'a mut State<B>,
info: &'a EnvInfo,
machine: &'a Machine,
schedule: &'a Schedule,
parent_depth: usize,
static_flag: bool,
) -> Self {
Executive {
state: state,
info: info,
machine: machine,
schedule: schedule,
depth: parent_depth + 1,
static_flag: static_flag,
}
}
/// This function should be used to execute transaction.
pub fn transact<T, V>(
&'a mut self,
t: &SignedTransaction,
options: TransactOptions<T, V>,
) -> Result<Executed<T::Output, V::Output>, ExecutionError>
where
T: Tracer,
V: VMTracer,
{
self.transact_with_tracer(
t,
options.check_nonce,
options.output_from_init_contract,
options.tracer,
options.vm_tracer,
)
}
/// Execute a transaction in a "virtual" context.
/// This will ensure the caller has enough balance to execute the desired transaction.
/// Used for extra-block executions for things like consensus contracts and RPCs
pub fn transact_virtual<T, V>(
&'a mut self,
t: &SignedTransaction,
options: TransactOptions<T, V>,
) -> Result<Executed<T::Output, V::Output>, ExecutionError>
where
T: Tracer,
V: VMTracer,
{
let sender = t.sender();
let balance = self.state.balance(&sender)?;
let needed_balance = t
.tx()
.value
.saturating_add(t.tx().gas.saturating_mul(t.tx().gas_price));
if balance < needed_balance {
// give the sender a sufficient balance
self.state
.add_balance(&sender, &(needed_balance - balance), CleanupMode::NoEmpty)?;
}
self.transact(t, options)
}
/// Execute transaction/call with tracing enabled
fn transact_with_tracer<T, V>(
&'a mut self,
t: &SignedTransaction,
check_nonce: bool,
output_from_create: bool,
mut tracer: T,
mut vm_tracer: V,
) -> Result<Executed<T::Output, V::Output>, ExecutionError>
where
T: Tracer,
V: VMTracer,
{
let schedule = self.schedule;
// check if particualar transaction type is enabled at this block number in schedule
match t.as_unsigned() {
TypedTransaction::AccessList(_) => {
if !schedule.eip2930 {
return Err(ExecutionError::TransactionMalformed(
"OptionalAccessList EIP-2930 or EIP-2929 not enabled".into(),
));
}
}
TypedTransaction::EIP1559Transaction(_) => {
if !schedule.eip1559 {
return Err(ExecutionError::TransactionMalformed(
"1559 type of transactions not enabled".into(),
));
}
}
TypedTransaction::Legacy(_) => (), //legacy transactions are allways valid
};
let sender = t.sender();
let nonce = self.state.nonce(&sender)?;
let mut base_gas_required = U256::from(t.tx().gas_required(&schedule));
let mut access_list = AccessList::new(schedule.eip2929);
if schedule.eip2929 {
access_list.insert_address(sender);
for (address, builtin) in self.machine.builtins() {
if builtin.is_active(self.info.number) {
access_list.insert_address(*address);
}
}
if let Some(al) = t.access_list() {
for item in al.iter() {
access_list.insert_address(item.0);
base_gas_required += vm::schedule::EIP2930_ACCESS_LIST_ADDRESS_COST.into();
for key in item.1.iter() {
access_list.insert_storage_key(item.0, *key);
base_gas_required +=
vm::schedule::EIP2930_ACCESS_LIST_STORAGE_KEY_COST.into();
}
}
}
}
if t.tx().gas < base_gas_required {
return Err(ExecutionError::NotEnoughBaseGas {
required: base_gas_required,
got: t.tx().gas,
});
}
if !t.is_unsigned()
&& check_nonce
&& schedule.kill_dust != CleanDustMode::Off
&& !self.state.exists(&sender)?
{
return Err(ExecutionError::SenderMustExist);
}
let init_gas = t.tx().gas - base_gas_required;
// validate transaction nonce
if check_nonce && t.tx().nonce != nonce {
return Err(ExecutionError::InvalidNonce {
expected: nonce,
got: t.tx().nonce,
});
}
// validate if transaction fits into given block
if self.info.gas_used + t.tx().gas > self.info.gas_limit {
return Err(ExecutionError::BlockGasLimitReached {
gas_limit: self.info.gas_limit,
gas_used: self.info.gas_used,
gas: t.tx().gas,
});
}
// ensure that the user was willing to at least pay the base fee
if t.tx().gas_price < self.info.base_fee.unwrap_or_default() && !t.is_service() {
return Err(ExecutionError::GasPriceLowerThanBaseFee {
gas_price: t.tx().gas_price,
base_fee: self.info.base_fee.unwrap_or_default(),
});
}
// verify that transaction max_fee_per_gas is higher or equal to max_priority_fee_per_gas
if t.tx().gas_price < t.max_priority_fee_per_gas() {
return Err(ExecutionError::TransactionMalformed(
"maxPriorityFeePerGas higher than maxFeePerGas".into(),
));
}
// TODO: we might need bigints here, or at least check overflows.
let balance = self.state.balance(&sender)?;
let gas_cost_effective = t
.tx()
.gas
.full_mul(t.effective_gas_price(self.info.base_fee));
let gas_cost_max = t.tx().gas.full_mul(t.tx().gas_price);
let needed_balance = U512::from(t.tx().value) + gas_cost_max;
// avoid unaffordable transactions
let balance512 = U512::from(balance);
if balance512 < needed_balance {
return Err(ExecutionError::NotEnoughCash {
required: needed_balance,
got: balance512,
});
}
let mut substate = Substate::from_access_list(&access_list);
// NOTE: there can be no invalid transactions from this point.
if !schedule.keep_unsigned_nonce || !t.is_unsigned() {
self.state.inc_nonce(&sender)?;
}
self.state.sub_balance(
&sender,
&U256::try_from(gas_cost_effective).expect("Total cost (value + gas_cost_effective) is lower than max allowed balance (U256); gas_cost has to fit U256; qed"),
&mut substate.to_cleanup_mode(&schedule),
)?;
let (result, output) = match t.tx().action {
Action::Create => {
let (new_address, code_hash) = contract_address(
self.machine.create_address_scheme(self.info.number),
&sender,
&nonce,
&t.tx().data,
);
access_list.insert_address(new_address);
let params = ActionParams {
code_address: new_address.clone(),
code_hash: code_hash,
address: new_address,
sender: sender.clone(),
origin: sender.clone(),
gas: init_gas,
gas_price: t.effective_gas_price(self.info.base_fee),
value: ActionValue::Transfer(t.tx().value),
code: Some(Arc::new(t.tx().data.clone())),
data: None,
call_type: CallType::None,
params_type: vm::ParamsType::Embedded,
access_list: access_list,
};
let res = self.create(params, &mut substate, &mut tracer, &mut vm_tracer);
let out = match &res {
Ok(res) if output_from_create => res.return_data.to_vec(),
_ => Vec::new(),
};
(res, out)
}
Action::Call(ref address) => {
access_list.insert_address(address.clone());
let params = ActionParams {
code_address: address.clone(),
address: address.clone(),
sender: sender.clone(),
origin: sender.clone(),
gas: init_gas,
gas_price: t.effective_gas_price(self.info.base_fee),
value: ActionValue::Transfer(t.tx().value),
code: self.state.code(address)?,
code_hash: self.state.code_hash(address)?,
data: Some(t.tx().data.clone()),
call_type: CallType::Call,
params_type: vm::ParamsType::Separate,
access_list: access_list,
};
let res = self.call(params, &mut substate, &mut tracer, &mut vm_tracer);
let out = match &res {
Ok(res) => res.return_data.to_vec(),
_ => Vec::new(),
};
(res, out)
}
};
// finalize here!
Ok(self.finalize(
t,
substate,
result,
output,
tracer.drain(),
vm_tracer.drain(),
)?)
}
/// Calls contract function with given contract params and stack depth.
/// NOTE. It does not finalize the transaction (doesn't do refunds, nor suicides).
/// Modifies the substate and the output.
/// Returns either gas_left or `vm::Error`.
pub fn call_with_stack_depth<T, V>(
&mut self,
params: ActionParams,
substate: &mut Substate,
stack_depth: usize,
tracer: &mut T,
vm_tracer: &mut V,
) -> vm::Result<FinalizationResult>
where
T: Tracer,
V: VMTracer,
{
tracer.prepare_trace_call(
&params,
self.depth,
self.machine
.builtin(&params.address, self.info.number)
.is_some(),
);
vm_tracer.prepare_subtrace(
params
.code
.as_ref()
.map_or_else(|| &[] as &[u8], |d| &*d as &[u8]),
);
let gas = params.gas;
let vm_factory = self.state.vm_factory();
let result = CallCreateExecutive::new_call_raw(
params,
self.info,
self.machine,
self.schedule,
&vm_factory,
self.depth,
stack_depth,
self.static_flag,
)
.consume(self.state, substate, tracer, vm_tracer);
match result {
Ok(ref val) if val.apply_state => {
tracer.done_trace_call(gas - val.gas_left, &val.return_data);
}
Ok(_) => {
tracer.done_trace_failed(&vm::Error::Reverted);
}
Err(ref err) => {
tracer.done_trace_failed(err);
}
}
vm_tracer.done_subtrace();
result
}
/// Calls contract function with given contract params.
pub fn call<T, V>(
&mut self,
params: ActionParams,
substate: &mut Substate,
tracer: &mut T,
vm_tracer: &mut V,
) -> vm::Result<FinalizationResult>
where
T: Tracer,
V: VMTracer,
{
self.call_with_stack_depth(params, substate, 0, tracer, vm_tracer)
}
/// Creates contract with given contract params and stack depth.
/// NOTE. It does not finalize the transaction (doesn't do refunds, nor suicides).
/// Modifies the substate.
pub fn create_with_stack_depth<T, V>(
&mut self,
params: ActionParams,
substate: &mut Substate,
stack_depth: usize,
tracer: &mut T,
vm_tracer: &mut V,
) -> vm::Result<FinalizationResult>
where
T: Tracer,
V: VMTracer,
{
tracer.prepare_trace_create(&params);
vm_tracer.prepare_subtrace(
params
.code
.as_ref()
.map_or_else(|| &[] as &[u8], |d| &*d as &[u8]),
);
let address = params.address;
let gas = params.gas;
let vm_factory = self.state.vm_factory();
let result = CallCreateExecutive::new_create_raw(
params,
self.info,
self.machine,
self.schedule,
&vm_factory,
self.depth,
stack_depth,
self.static_flag,
)
.consume(self.state, substate, tracer, vm_tracer);
match result {
Ok(ref val) if val.apply_state => {
tracer.done_trace_create(gas - val.gas_left, &val.return_data, address);
}
Ok(_) => {
tracer.done_trace_failed(&vm::Error::Reverted);
}
Err(ref err) => {
tracer.done_trace_failed(err);
}
}
vm_tracer.done_subtrace();
result
}
/// Creates contract with given contract params.
pub fn create<T, V>(
&mut self,
params: ActionParams,
substate: &mut Substate,
tracer: &mut T,
vm_tracer: &mut V,
) -> vm::Result<FinalizationResult>
where
T: Tracer,
V: VMTracer,
{
self.create_with_stack_depth(params, substate, 0, tracer, vm_tracer)
}
/// Finalizes the transaction (does refunds and suicides).
fn finalize<T, V>(
&mut self,
t: &SignedTransaction,
mut substate: Substate,
result: vm::Result<FinalizationResult>,
output: Bytes,
trace: Vec<T>,
vm_trace: Option<V>,
) -> Result<Executed<T, V>, ExecutionError> {
let schedule = self.schedule;
// refunds from SSTORE nonzero -> zero
assert!(
substate.sstore_clears_refund >= 0,
"On transaction level, sstore clears refund cannot go below zero."
);
let sstore_refunds = U256::from(substate.sstore_clears_refund as u64);
// refunds from contract suicides
let suicide_refunds =
U256::from(schedule.suicide_refund_gas) * U256::from(substate.suicides.len());
let refunds_bound = sstore_refunds + suicide_refunds;
// real amount to refund
let gas_left_prerefund = match result {
Ok(FinalizationResult { gas_left, .. }) => gas_left,
_ => 0.into(),
};
let refunded = if refunds_bound.is_zero() {
refunds_bound
} else {
let gas_used = t.tx().gas - gas_left_prerefund;
let max_refund = gas_used / schedule.max_refund_quotient;
cmp::min(max_refund, refunds_bound)
};
let gas_left = gas_left_prerefund + refunded;
let gas_used = t.tx().gas.saturating_sub(gas_left);
let (refund_value, overflow_1) =
gas_left.overflowing_mul(t.effective_gas_price(self.info.base_fee));
let (fees_value, overflow_2) =
gas_used.overflowing_mul(t.effective_gas_price(self.info.base_fee));
if overflow_1 || overflow_2 {
return Err(ExecutionError::TransactionMalformed(
"U256 Overflow".to_string(),
));
}
// Up until now, fees_value is calculated for each type of transaction based on their gas prices
// Now, if eip1559 is activated, burn the base fee
// miner only receives the inclusion fee; note that the base fee is not given to anyone (it is burned)
let fees_value = fees_value.saturating_sub(if schedule.eip1559 {
let (base_fee, overflow_3) =
gas_used.overflowing_mul(self.info.base_fee.unwrap_or_default());
if overflow_3 {
return Err(ExecutionError::TransactionMalformed(
"U256 Overflow".to_string(),
));
}
base_fee
} else {
U256::from(0)
});
trace!("exec::finalize: t.gas={}, sstore_refunds={}, suicide_refunds={}, refunds_bound={}, gas_left_prerefund={}, refunded={}, gas_left={}, gas_used={}, refund_value={}, fees_value={}\n",
t.tx().gas, sstore_refunds, suicide_refunds, refunds_bound, gas_left_prerefund, refunded, gas_left, gas_used, refund_value, fees_value);
let sender = t.sender();
trace!(
"exec::finalize: Refunding refund_value={}, sender={}\n",
refund_value,
sender
);
// Below: NoEmpty is safe since the sender must already be non-null to have sent this transaction
self.state
.add_balance(&sender, &refund_value, CleanupMode::NoEmpty)?;
trace!(
"exec::finalize: Compensating author: fees_value={}, author={}\n",
fees_value,
&self.info.author
);
self.state.add_balance(
&self.info.author,
&fees_value,
substate.to_cleanup_mode(&schedule),
)?;
// perform suicides
for address in &substate.suicides {
self.state.kill_account(address);
}
// perform garbage-collection
let min_balance = if schedule.kill_dust != CleanDustMode::Off {
Some(
U256::from(schedule.tx_gas)
.overflowing_mul(t.effective_gas_price(self.info.base_fee))
.0,
)
} else {
None
};
self.state.kill_garbage(
&substate.touched,
schedule.kill_empty,
&min_balance,
schedule.kill_dust == CleanDustMode::WithCodeAndStorage,
)?;
match result {
Err(vm::Error::Internal(msg)) => Err(ExecutionError::Internal(msg)),
Err(exception) => Ok(Executed {
exception: Some(exception),
gas: t.tx().gas,
gas_used: t.tx().gas,
refunded: U256::zero(),
cumulative_gas_used: self.info.gas_used + t.tx().gas,
logs: vec![],
contracts_created: vec![],
output: output,
trace: trace,
vm_trace: vm_trace,
state_diff: None,
}),
Ok(r) => Ok(Executed {
exception: if r.apply_state {
None
} else {
Some(vm::Error::Reverted)
},
gas: t.tx().gas,
gas_used: gas_used,
refunded: refunded,
cumulative_gas_used: self.info.gas_used + gas_used,
logs: substate.logs,
contracts_created: substate.contracts_created,
output: output,
trace: trace,
vm_trace: vm_trace,
state_diff: None,
}),
}
}
}
#[cfg(test)]
#[allow(dead_code)]
mod tests {
use super::*;
use crypto::publickey::{Generator, Random};
use error::ExecutionError;
use ethereum_types::{Address, BigEndianHash, H160, H256, U256, U512};
use evm::{Factory, VMType};
use machine::EthereumMachine;
use rustc_hex::FromHex;
use state::{CleanupMode, Substate};
use std::{str::FromStr, sync::Arc};
use test_helpers::{get_temp_state, get_temp_state_with_factory};
use trace::{
trace, ExecutiveTracer, ExecutiveVMTracer, FlatTrace, MemoryDiff, NoopTracer, NoopVMTracer,
StorageDiff, Tracer, VMExecutedOperation, VMOperation, VMTrace, VMTracer,
};
use types::transaction::{
AccessListTx, Action, EIP1559TransactionTx, Transaction, TypedTransaction,
};
use vm::{ActionParams, ActionValue, CallType, CreateContractAddress, EnvInfo};
fn make_frontier_machine(max_depth: usize) -> EthereumMachine {
let mut machine = ::ethereum::new_frontier_test_machine();
machine.set_schedule_creation_rules(Box::new(move |s, _| s.max_depth = max_depth));
machine
}
fn make_byzantium_machine(max_depth: usize) -> EthereumMachine {
let mut machine = ::ethereum::new_byzantium_test_machine();
machine.set_schedule_creation_rules(Box::new(move |s, _| s.max_depth = max_depth));
machine
}
fn make_london_machine(max_depth: usize) -> EthereumMachine {
let mut machine = ::ethereum::new_london_test_machine();
machine.set_schedule_creation_rules(Box::new(move |s, _| s.max_depth = max_depth));
machine
}
#[test]
fn test_contract_address() {
let address = Address::from_str("0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6").unwrap();
let expected_address =
Address::from_str("3f09c73a5ed19289fb9bdc72f1742566df146f56").unwrap();
assert_eq!(
expected_address,
contract_address(
CreateContractAddress::FromSenderAndNonce,
&address,
&U256::from(88),
&[]
)
.0
);
}
// TODO: replace params with transactions!
evm_test! {test_sender_balance: test_sender_balance_int}
fn test_sender_balance(factory: Factory) {
let sender = Address::from_str("0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6").unwrap();
let address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
let mut params = ActionParams::default();
params.address = address.clone();
params.sender = sender.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new("3331600055".from_hex().unwrap()));
params.value = ActionValue::Transfer(U256::from(0x7));
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(&sender, &U256::from(0x100u64), CleanupMode::NoEmpty)
.unwrap();
let info = EnvInfo::default();
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let FinalizationResult { gas_left, .. } = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.create(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
.unwrap()
};
assert_eq!(gas_left, U256::from(79_975));
assert_eq!(
state.storage_at(&address, &H256::default()).unwrap(),
BigEndianHash::from_uint(&U256::from(0xf9u64))
);
assert_eq!(state.balance(&sender).unwrap(), U256::from(0xf9));
assert_eq!(state.balance(&address).unwrap(), U256::from(0x7));
assert_eq!(substate.contracts_created.len(), 0);
// TODO: just test state root.
}
evm_test! {test_create_contract_out_of_depth: test_create_contract_out_of_depth_int}
fn test_create_contract_out_of_depth(factory: Factory) {
// code:
//
// 7c 601080600c6000396000f3006000355415600957005b60203560003555 - push 29 bytes?
// 60 00 - push 0
// 52
// 60 1d - push 29
// 60 03 - push 3
// 60 17 - push 17
// f0 - create
// 60 00 - push 0
// 55 sstore
//
// other code:
//
// 60 10 - push 16
// 80 - duplicate first stack item
// 60 0c - push 12
// 60 00 - push 0
// 39 - copy current code to memory
// 60 00 - push 0
// f3 - return
let code = "7c601080600c6000396000f3006000355415600957005b60203560003555600052601d60036017f0600055".from_hex().unwrap();
let sender = Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
// TODO: add tests for 'callcreate'
//let next_address = contract_address(&address, &U256::zero());
let mut params = ActionParams::default();
params.address = address.clone();
params.sender = sender.clone();
params.origin = sender.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new(code));
params.value = ActionValue::Transfer(U256::from(100));
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(&sender, &U256::from(100), CleanupMode::NoEmpty)
.unwrap();
let info = EnvInfo::default();
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let FinalizationResult { gas_left, .. } = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.create(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
.unwrap()
};
assert_eq!(gas_left, U256::from(62_976));
// ended with max depth
assert_eq!(substate.contracts_created.len(), 0);
}
#[test]
fn test_call_to_precompiled_tracing() {
// code:
//
// 60 00 - push 00 out size
// 60 00 - push 00 out offset
// 60 00 - push 00 in size
// 60 00 - push 00 in offset
// 60 01 - push 01 value
// 60 03 - push 03 to
// 61 ffff - push fff gas
// f1 - CALL
let code = "60006000600060006001600361fffff1".from_hex().unwrap();
let sender = Address::from_str("4444444444444444444444444444444444444444").unwrap();
let address = Address::from_str("5555555555555555555555555555555555555555").unwrap();
let mut params = ActionParams::default();
params.address = address.clone();
params.code_address = address.clone();
params.sender = sender.clone();
params.origin = sender.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new(code));
params.value = ActionValue::Transfer(U256::from(100));
params.call_type = CallType::Call;
let mut state = get_temp_state();
state
.add_balance(&sender, &U256::from(100), CleanupMode::NoEmpty)
.unwrap();
let info = EnvInfo::default();
let machine = make_byzantium_machine(5);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let mut tracer = ExecutiveTracer::default();
let mut vm_tracer = ExecutiveVMTracer::toplevel();
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.call(params, &mut substate, &mut tracer, &mut vm_tracer)
.unwrap();
assert_eq!(
tracer.drain(),
vec![
FlatTrace {
action: trace::Action::Call(trace::Call {
from: H160::from_str("4444444444444444444444444444444444444444").unwrap(),
to: H160::from_str("5555555555555555555555555555555555555555").unwrap(),
value: 100.into(),
gas: 100_000.into(),
input: vec![],
call_type: CallType::Call
}),
result: trace::Res::Call(trace::CallResult {
gas_used: 33021.into(),
output: vec![]
}),
subtraces: 1,
trace_address: Default::default()
},
FlatTrace {
action: trace::Action::Call(trace::Call {
from: H160::from_str("5555555555555555555555555555555555555555").unwrap(),
to: H160::from_str("0000000000000000000000000000000000000003").unwrap(),
value: 1.into(),
gas: 66560.into(),
input: vec![],
call_type: CallType::Call
}),
result: trace::Res::Call(trace::CallResult {
gas_used: 600.into(),
output: vec![
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 156, 17, 133, 165, 197, 233, 252,
84, 97, 40, 8, 151, 126, 232, 245, 72, 178, 37, 141, 49
]
}),
subtraces: 0,
trace_address: vec![0].into_iter().collect(),
}
]
);
}
#[test]
// Tracing is not suported in JIT
fn test_call_to_create() {
// code:
//
// 7c 601080600c6000396000f3006000355415600957005b60203560003555 - push 29 bytes?
// 60 00 - push 0
// 52
// 60 1d - push 29
// 60 03 - push 3
// 60 17 - push 23
// f0 - create
// 60 00 - push 0
// 55 sstore
//
// other code:
//
// 60 10 - push 16
// 80 - duplicate first stack item
// 60 0c - push 12
// 60 00 - push 0
// 39 - copy current code to memory
// 60 00 - push 0
// f3 - return
let code = "7c601080600c6000396000f3006000355415600957005b60203560003555600052601d60036017f0600055".from_hex().unwrap();
let sender = Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
// TODO: add tests for 'callcreate'
//let next_address = contract_address(&address, &U256::zero());
let mut params = ActionParams::default();
params.address = address.clone();
params.code_address = address.clone();
params.sender = sender.clone();
params.origin = sender.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new(code));
params.value = ActionValue::Transfer(U256::from(100));
params.call_type = CallType::Call;
let mut state = get_temp_state();
state
.add_balance(&sender, &U256::from(100), CleanupMode::NoEmpty)
.unwrap();
let info = EnvInfo::default();
let machine = make_frontier_machine(5);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let mut tracer = ExecutiveTracer::default();
let mut vm_tracer = ExecutiveVMTracer::toplevel();
let FinalizationResult { gas_left, .. } = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.call(params, &mut substate, &mut tracer, &mut vm_tracer)
.unwrap()
};
assert_eq!(gas_left, U256::from(44_752));
let expected_trace = vec![
FlatTrace {
trace_address: Default::default(),
subtraces: 1,
action: trace::Action::Call(trace::Call {
from: H160::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap(),
to: H160::from_str("b010143a42d5980c7e5ef0e4a4416dc098a4fed3").unwrap(),
value: 100.into(),
gas: 100000.into(),
input: vec![],
call_type: CallType::Call,
}),
result: trace::Res::Call(trace::CallResult {
gas_used: U256::from(55_248),
output: vec![],
}),
},
FlatTrace {
trace_address: vec![0].into_iter().collect(),
subtraces: 0,
action: trace::Action::Create(trace::Create {
from: H160::from_str("b010143a42d5980c7e5ef0e4a4416dc098a4fed3").unwrap(),
value: 23.into(),
gas: 67979.into(),
init: vec![
96, 16, 128, 96, 12, 96, 0, 57, 96, 0, 243, 0, 96, 0, 53, 84, 21, 96, 9,
87, 0, 91, 96, 32, 53, 96, 0, 53, 85,
],
}),
result: trace::Res::Create(trace::CreateResult {
gas_used: U256::from(3224),
address: Address::from_str("c6d80f262ae5e0f164e5fde365044d7ada2bfa34").unwrap(),
code: vec![96, 0, 53, 84, 21, 96, 9, 87, 0, 91, 96, 32, 53, 96, 0, 53],
}),
},
];
assert_eq!(tracer.drain(), expected_trace);
let expected_vm_trace = VMTrace {
parent_step: 0,
code: vec![124, 96, 16, 128, 96, 12, 96, 0, 57, 96, 0, 243, 0, 96, 0, 53, 84, 21, 96, 9, 87, 0, 91, 96, 32, 53, 96, 0, 53, 85, 96, 0, 82, 96, 29, 96, 3, 96, 23, 240, 96, 0, 85],
operations: vec![
VMOperation { pc: 0, instruction: 124, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 99997.into(), stack_push: vec_into![U256::from_dec_str("2589892687202724018173567190521546555304938078595079151649957320078677").unwrap()], mem_diff: None, store_diff: None }) },
VMOperation { pc: 30, instruction: 96, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 99994.into(), stack_push: vec_into![0], mem_diff: None, store_diff: None }) },
VMOperation { pc: 32, instruction: 82, gas_cost: 6.into(), executed: Some(VMExecutedOperation { gas_used: 99988.into(), stack_push: vec_into![], mem_diff: Some(MemoryDiff { offset: 0, data: vec![0, 0, 0, 96, 16, 128, 96, 12, 96, 0, 57, 96, 0, 243, 0, 96, 0, 53, 84, 21, 96, 9, 87, 0, 91, 96, 32, 53, 96, 0, 53, 85] }), store_diff: None }) },
VMOperation { pc: 33, instruction: 96, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 99985.into(), stack_push: vec_into![29], mem_diff: None, store_diff: None }) },
VMOperation { pc: 35, instruction: 96, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 99982.into(), stack_push: vec_into![3], mem_diff: None, store_diff: None }) },
VMOperation { pc: 37, instruction: 96, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 99979.into(), stack_push: vec_into![23], mem_diff: None, store_diff: None }) },
VMOperation { pc: 39, instruction: 240, gas_cost: 99979.into(), executed: Some(VMExecutedOperation { gas_used: 64755.into(), stack_push: vec_into![U256::from_dec_str("1135198453258042933984631383966629874710669425204").unwrap()], mem_diff: None, store_diff: None }) },
VMOperation { pc: 40, instruction: 96, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 64752.into(), stack_push: vec_into![0], mem_diff: None, store_diff: None }) },
VMOperation { pc: 42, instruction: 85, gas_cost: 20000.into(), executed: Some(VMExecutedOperation { gas_used: 44752.into(), stack_push: vec_into![], mem_diff: None, store_diff: Some(StorageDiff { location: 0.into(), value: U256::from_dec_str("1135198453258042933984631383966629874710669425204").unwrap() }) }) }
],
subs: vec![
VMTrace {
parent_step: 6,
code: vec![96, 16, 128, 96, 12, 96, 0, 57, 96, 0, 243, 0, 96, 0, 53, 84, 21, 96, 9, 87, 0, 91, 96, 32, 53, 96, 0, 53, 85],
operations: vec![
VMOperation { pc: 0, instruction: 96, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 67976.into(), stack_push: vec_into![16], mem_diff: None, store_diff: None }) },
VMOperation { pc: 2, instruction: 128, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 67973.into(), stack_push: vec_into![16, 16], mem_diff: None, store_diff: None }) },
VMOperation { pc: 3, instruction: 96, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 67970.into(), stack_push: vec_into![12], mem_diff: None, store_diff: None }) },
VMOperation { pc: 5, instruction: 96, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 67967.into(), stack_push: vec_into![0], mem_diff: None, store_diff: None }) },
VMOperation { pc: 7, instruction: 57, gas_cost: 9.into(), executed: Some(VMExecutedOperation { gas_used: 67958.into(), stack_push: vec_into![], mem_diff: Some(MemoryDiff { offset: 0, data: vec![96, 0, 53, 84, 21, 96, 9, 87, 0, 91, 96, 32, 53, 96, 0, 53] }), store_diff: None }) },
VMOperation { pc: 8, instruction: 96, gas_cost: 3.into(), executed: Some(VMExecutedOperation { gas_used: 67955.into(), stack_push: vec_into![0], mem_diff: None, store_diff: None }) },
VMOperation { pc: 10, instruction: 243, gas_cost: 0.into(), executed: Some(VMExecutedOperation { gas_used: 67955.into(), stack_push: vec_into![], mem_diff: None, store_diff: None }) }
],
subs: vec![]
}
]
};
assert_eq!(vm_tracer.drain().unwrap(), expected_vm_trace);
}
#[test]
fn test_trace_reverted_create() {
// code:
//
// 65 60016000fd - push 5 bytes
// 60 00 - push 0
// 52 mstore
// 60 05 - push 5
// 60 1b - push 27
// 60 17 - push 23
// f0 - create
// 60 00 - push 0
// 55 sstore
//
// other code:
//
// 60 01
// 60 00
// fd - revert
let code = "6460016000fd6000526005601b6017f0600055".from_hex().unwrap();
let sender = Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
let mut params = ActionParams::default();
params.address = address.clone();
params.code_address = address.clone();
params.sender = sender.clone();
params.origin = sender.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new(code));
params.value = ActionValue::Transfer(U256::from(100));
params.call_type = CallType::Call;
let mut state = get_temp_state();
state
.add_balance(&sender, &U256::from(100), CleanupMode::NoEmpty)
.unwrap();
let info = EnvInfo::default();
let machine = ::ethereum::new_byzantium_test_machine();
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let mut tracer = ExecutiveTracer::default();
let mut vm_tracer = ExecutiveVMTracer::toplevel();
let FinalizationResult { gas_left, .. } = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.call(params, &mut substate, &mut tracer, &mut vm_tracer)
.unwrap()
};
assert_eq!(gas_left, U256::from(62967));
let expected_trace = vec![
FlatTrace {
trace_address: Default::default(),
subtraces: 1,
action: trace::Action::Call(trace::Call {
from: H160::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap(),
to: H160::from_str("b010143a42d5980c7e5ef0e4a4416dc098a4fed3").unwrap(),
value: 100.into(),
gas: 100_000.into(),
input: vec![],
call_type: CallType::Call,
}),
result: trace::Res::Call(trace::CallResult {
gas_used: U256::from(37_033),
output: vec![],
}),
},
FlatTrace {
trace_address: vec![0].into_iter().collect(),
subtraces: 0,
action: trace::Action::Create(trace::Create {
from: H160::from_str("b010143a42d5980c7e5ef0e4a4416dc098a4fed3").unwrap(),
value: 23.into(),
gas: 66_917.into(),
init: vec![0x60, 0x01, 0x60, 0x00, 0xfd],
}),
result: trace::Res::FailedCreate(vm::Error::Reverted.into()),
},
];
assert_eq!(tracer.drain(), expected_trace);
}
#[test]
fn test_create_contract() {
// Tracing is not supported in JIT
// code:
//
// 60 10 - push 16
// 80 - duplicate first stack item
// 60 0c - push 12
// 60 00 - push 0
// 39 - copy current code to memory
// 60 00 - push 0
// f3 - return
let code = "601080600c6000396000f3006000355415600957005b60203560003555"
.from_hex()
.unwrap();
let sender = Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
// TODO: add tests for 'callcreate'
//let next_address = contract_address(&address, &U256::zero());
let mut params = ActionParams::default();
params.address = address.clone();
params.sender = sender.clone();
params.origin = sender.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new(code));
params.value = ActionValue::Transfer(100.into());
let mut state = get_temp_state();
state
.add_balance(&sender, &U256::from(100), CleanupMode::NoEmpty)
.unwrap();
let info = EnvInfo::default();
let machine = make_frontier_machine(5);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let mut tracer = ExecutiveTracer::default();
let mut vm_tracer = ExecutiveVMTracer::toplevel();
let FinalizationResult { gas_left, .. } = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.create(params.clone(), &mut substate, &mut tracer, &mut vm_tracer)
.unwrap()
};
assert_eq!(gas_left, U256::from(96_776));
let expected_trace = vec![FlatTrace {
trace_address: Default::default(),
subtraces: 0,
action: trace::Action::Create(trace::Create {
from: params.sender,
value: 100.into(),
gas: params.gas,
init: vec![
96, 16, 128, 96, 12, 96, 0, 57, 96, 0, 243, 0, 96, 0, 53, 84, 21, 96, 9, 87, 0,
91, 96, 32, 53, 96, 0, 53, 85,
],
}),
result: trace::Res::Create(trace::CreateResult {
gas_used: U256::from(3224),
address: params.address,
code: vec![96, 0, 53, 84, 21, 96, 9, 87, 0, 91, 96, 32, 53, 96, 0, 53],
}),
}];
assert_eq!(tracer.drain(), expected_trace);
let expected_vm_trace = VMTrace {
parent_step: 0,
code: vec![
96, 16, 128, 96, 12, 96, 0, 57, 96, 0, 243, 0, 96, 0, 53, 84, 21, 96, 9, 87, 0, 91,
96, 32, 53, 96, 0, 53, 85,
],
operations: vec![
VMOperation {
pc: 0,
instruction: 96,
gas_cost: 3.into(),
executed: Some(VMExecutedOperation {
gas_used: 99997.into(),
stack_push: vec_into![16],
mem_diff: None,
store_diff: None,
}),
},
VMOperation {
pc: 2,
instruction: 128,
gas_cost: 3.into(),
executed: Some(VMExecutedOperation {
gas_used: 99994.into(),
stack_push: vec_into![16, 16],
mem_diff: None,
store_diff: None,
}),
},
VMOperation {
pc: 3,
instruction: 96,
gas_cost: 3.into(),
executed: Some(VMExecutedOperation {
gas_used: 99991.into(),
stack_push: vec_into![12],
mem_diff: None,
store_diff: None,
}),
},
VMOperation {
pc: 5,
instruction: 96,
gas_cost: 3.into(),
executed: Some(VMExecutedOperation {
gas_used: 99988.into(),
stack_push: vec_into![0],
mem_diff: None,
store_diff: None,
}),
},
VMOperation {
pc: 7,
instruction: 57,
gas_cost: 9.into(),
executed: Some(VMExecutedOperation {
gas_used: 99979.into(),
stack_push: vec_into![],
mem_diff: Some(MemoryDiff {
offset: 0,
data: vec![96, 0, 53, 84, 21, 96, 9, 87, 0, 91, 96, 32, 53, 96, 0, 53],
}),
store_diff: None,
}),
},
VMOperation {
pc: 8,
instruction: 96,
gas_cost: 3.into(),
executed: Some(VMExecutedOperation {
gas_used: 99976.into(),
stack_push: vec_into![0],
mem_diff: None,
store_diff: None,
}),
},
VMOperation {
pc: 10,
instruction: 243,
gas_cost: 0.into(),
executed: Some(VMExecutedOperation {
gas_used: 99976.into(),
stack_push: vec_into![],
mem_diff: None,
store_diff: None,
}),
},
],
subs: vec![],
};
assert_eq!(vm_tracer.drain().unwrap(), expected_vm_trace);
}
evm_test! {test_create_contract_value_too_high: test_create_contract_value_too_high_int}
fn test_create_contract_value_too_high(factory: Factory) {
// code:
//
// 7c 601080600c6000396000f3006000355415600957005b60203560003555 - push 29 bytes?
// 60 00 - push 0
// 52
// 60 1d - push 29
// 60 03 - push 3
// 60 e6 - push 230
// f0 - create a contract trying to send 230.
// 60 00 - push 0
// 55 sstore
//
// other code:
//
// 60 10 - push 16
// 80 - duplicate first stack item
// 60 0c - push 12
// 60 00 - push 0
// 39 - copy current code to memory
// 60 00 - push 0
// f3 - return
let code = "7c601080600c6000396000f3006000355415600957005b60203560003555600052601d600360e6f0600055".from_hex().unwrap();
let sender = Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
// TODO: add tests for 'callcreate'
//let next_address = contract_address(&address, &U256::zero());
let mut params = ActionParams::default();
params.address = address.clone();
params.sender = sender.clone();
params.origin = sender.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new(code));
params.value = ActionValue::Transfer(U256::from(100));
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(&sender, &U256::from(100), CleanupMode::NoEmpty)
.unwrap();
let info = EnvInfo::default();
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let FinalizationResult { gas_left, .. } = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.create(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
.unwrap()
};
assert_eq!(gas_left, U256::from(62_976));
assert_eq!(substate.contracts_created.len(), 0);
}
evm_test! {test_create_contract_without_max_depth: test_create_contract_without_max_depth_int}
fn test_create_contract_without_max_depth(factory: Factory) {
// code:
//
// 7c 601080600c6000396000f3006000355415600957005b60203560003555 - push 29 bytes?
// 60 00 - push 0
// 52
// 60 1d - push 29
// 60 03 - push 3
// 60 17 - push 17
// f0 - create
// 60 00 - push 0
// 55 sstore
//
// other code:
//
// 60 10 - push 16
// 80 - duplicate first stack item
// 60 0c - push 12
// 60 00 - push 0
// 39 - copy current code to memory
// 60 00 - push 0
// f3 - return
let code =
"7c601080600c6000396000f3006000355415600957005b60203560003555600052601d60036017f0"
.from_hex()
.unwrap();
let sender = Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
let next_address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&address,
&U256::zero(),
&[],
)
.0;
let mut params = ActionParams::default();
params.address = address.clone();
params.sender = sender.clone();
params.origin = sender.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new(code));
params.value = ActionValue::Transfer(U256::from(100));
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(&sender, &U256::from(100), CleanupMode::NoEmpty)
.unwrap();
let info = EnvInfo::default();
let machine = make_frontier_machine(1024);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
{
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.create(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
.unwrap();
}
assert_eq!(substate.contracts_created.len(), 1);
assert_eq!(substate.contracts_created[0], next_address);
}
// test is incorrect, mk
// TODO: fix (preferred) or remove
evm_test_ignore! {test_aba_calls: test_aba_calls_int}
fn test_aba_calls(factory: Factory) {
// 60 00 - push 0
// 60 00 - push 0
// 60 00 - push 0
// 60 00 - push 0
// 60 18 - push 18
// 73 945304eb96065b2a98b57a48a06ae28d285a71b5 - push this address
// 61 03e8 - push 1000
// f1 - message call
// 58 - get PC
// 55 - sstore
let code_a = "6000600060006000601873945304eb96065b2a98b57a48a06ae28d285a71b56103e8f15855"
.from_hex()
.unwrap();
// 60 00 - push 0
// 60 00 - push 0
// 60 00 - push 0
// 60 00 - push 0
// 60 17 - push 17
// 73 0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6 - push this address
// 61 0x01f4 - push 500
// f1 - message call
// 60 01 - push 1
// 01 - add
// 58 - get PC
// 55 - sstore
let code_b =
"60006000600060006017730f572e5295c57f15886f9b263e2f6d2d6c7b5ec66101f4f16001015855"
.from_hex()
.unwrap();
let address_a = Address::from_str("0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6").unwrap();
let address_b = Address::from_str("945304eb96065b2a98b57a48a06ae28d285a71b5").unwrap();
let sender = Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let mut params = ActionParams::default();
params.address = address_a.clone();
params.sender = sender.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new(code_a.clone()));
params.value = ActionValue::Transfer(U256::from(100_000));
let mut state = get_temp_state_with_factory(factory);
state.init_code(&address_a, code_a.clone()).unwrap();
state.init_code(&address_b, code_b.clone()).unwrap();
state
.add_balance(&sender, &U256::from(100_000), CleanupMode::NoEmpty)
.unwrap();
let info = EnvInfo::default();
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let FinalizationResult { gas_left, .. } = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.call(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
.unwrap()
};
assert_eq!(gas_left, U256::from(73_237));
assert_eq!(
state
.storage_at(&address_a, &BigEndianHash::from_uint(&U256::from(0x23)))
.unwrap(),
BigEndianHash::from_uint(&U256::from(1))
);
}
// test is incorrect, mk
// TODO: fix (preferred) or remove
evm_test_ignore! {test_recursive_bomb1: test_recursive_bomb1_int}
fn test_recursive_bomb1(factory: Factory) {
// 60 01 - push 1
// 60 00 - push 0
// 54 - sload
// 01 - add
// 60 00 - push 0
// 55 - sstore
// 60 00 - push 0
// 60 00 - push 0
// 60 00 - push 0
// 60 00 - push 0
// 60 00 - push 0
// 30 - load address
// 60 e0 - push e0
// 5a - get gas
// 03 - sub
// f1 - message call (self in this case)
// 60 01 - push 1
// 55 - sstore
let sender = Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let code = "600160005401600055600060006000600060003060e05a03f1600155"
.from_hex()
.unwrap();
let address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
let mut params = ActionParams::default();
params.address = address.clone();
params.gas = U256::from(100_000);
params.code = Some(Arc::new(code.clone()));
let mut state = get_temp_state_with_factory(factory);
state.init_code(&address, code).unwrap();
let info = EnvInfo::default();
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let FinalizationResult { gas_left, .. } = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.call(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
.unwrap()
};
assert_eq!(gas_left, U256::from(59_870));
assert_eq!(
state
.storage_at(&address, &BigEndianHash::from_uint(&U256::zero()))
.unwrap(),
BigEndianHash::from_uint(&U256::from(1))
);
assert_eq!(
state
.storage_at(&address, &BigEndianHash::from_uint(&U256::one()))
.unwrap(),
BigEndianHash::from_uint(&U256::from(1))
);
}
// test is incorrect, mk
// TODO: fix (preferred) or remove
evm_test_ignore! {test_transact_simple: test_transact_simple_int}
fn test_transact_simple(factory: Factory) {
let keypair = Random.generate();
let t = TypedTransaction::Legacy(Transaction {
action: Action::Create,
value: U256::from(17),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(100_000),
gas_price: U256::zero(),
nonce: U256::zero(),
})
.sign(keypair.secret(), None);
let sender = t.sender();
let contract = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(&sender, &U256::from(18), CleanupMode::NoEmpty)
.unwrap();
let mut info = EnvInfo::default();
info.gas_limit = U256::from(100_000);
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let executed = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
let opts = TransactOptions::with_no_tracing();
ex.transact(&t, opts).unwrap()
};
assert_eq!(executed.gas, U256::from(100_000));
assert_eq!(executed.gas_used, U256::from(41_301));
assert_eq!(executed.refunded, U256::from(58_699));
assert_eq!(executed.cumulative_gas_used, U256::from(41_301));
assert_eq!(executed.logs.len(), 0);
assert_eq!(executed.contracts_created.len(), 0);
assert_eq!(state.balance(&sender).unwrap(), U256::from(1));
assert_eq!(state.balance(&contract).unwrap(), U256::from(17));
assert_eq!(state.nonce(&sender).unwrap(), U256::from(1));
assert_eq!(
state.storage_at(&contract, &H256::zero()).unwrap(),
BigEndianHash::from_uint(&U256::from(1))
);
}
evm_test! {test_transact_invalid_nonce: test_transact_invalid_nonce_int}
fn test_transact_invalid_nonce(factory: Factory) {
let keypair = Random.generate();
let t = TypedTransaction::Legacy(Transaction {
action: Action::Create,
value: U256::from(17),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(100_000),
gas_price: U256::zero(),
nonce: U256::one(),
})
.sign(keypair.secret(), None);
let sender = t.sender();
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(&sender, &U256::from(17), CleanupMode::NoEmpty)
.unwrap();
let mut info = EnvInfo::default();
info.gas_limit = U256::from(100_000);
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let res = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
let opts = TransactOptions::with_no_tracing();
ex.transact(&t, opts)
};
match res {
Err(ExecutionError::InvalidNonce { expected, got })
if expected == U256::zero() && got == U256::one() =>
{
()
}
_ => assert!(false, "Expected invalid nonce error."),
}
}
evm_test! {test_transact_gas_limit_reached: test_transact_gas_limit_reached_int}
fn test_transact_gas_limit_reached(factory: Factory) {
let keypair = Random.generate();
let t = TypedTransaction::Legacy(Transaction {
action: Action::Create,
value: U256::from(17),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(80_001),
gas_price: U256::zero(),
nonce: U256::zero(),
})
.sign(keypair.secret(), None);
let sender = t.sender();
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(&sender, &U256::from(17), CleanupMode::NoEmpty)
.unwrap();
let mut info = EnvInfo::default();
info.gas_used = U256::from(20_000);
info.gas_limit = U256::from(100_000);
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let res = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
let opts = TransactOptions::with_no_tracing();
ex.transact(&t, opts)
};
match res {
Err(ExecutionError::BlockGasLimitReached {
gas_limit,
gas_used,
gas,
}) if gas_limit == U256::from(100_000)
&& gas_used == U256::from(20_000)
&& gas == U256::from(80_001) =>
{
()
}
_ => assert!(false, "Expected block gas limit error."),
}
}
evm_test! {test_transact_eip1559: test_transact_eip1559_int}
fn test_transact_eip1559(factory: Factory) {
let keypair = Random.generate();
let t = TypedTransaction::EIP1559Transaction(EIP1559TransactionTx {
transaction: AccessListTx::new(
Transaction {
action: Action::Create,
value: U256::from(17),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(100_000),
gas_price: U256::from(150),
nonce: U256::zero(),
},
vec![
(
H160::from_low_u64_be(10),
vec![H256::from_low_u64_be(102), H256::from_low_u64_be(103)],
),
(H160::from_low_u64_be(400), vec![]),
],
),
max_priority_fee_per_gas: U256::from(30),
})
.sign(keypair.secret(), None);
let sender = t.sender();
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(&sender, &U256::from(15000017), CleanupMode::NoEmpty)
.unwrap();
let mut info = EnvInfo::default();
info.gas_limit = U256::from(100_000);
info.base_fee = Some(U256::from(100));
let machine = make_london_machine(0);
let schedule = machine.schedule(info.number);
let res = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
let opts = TransactOptions::with_no_tracing();
ex.transact(&t, opts).unwrap()
};
assert_eq!(res.gas, U256::from(100_000));
assert_eq!(res.gas_used, U256::from(83873));
}
evm_test! {test_not_enough_cash: test_not_enough_cash_int}
fn test_not_enough_cash(factory: Factory) {
let keypair = Random.generate();
let t = TypedTransaction::Legacy(Transaction {
action: Action::Create,
value: U256::from(18),
data: "3331600055".from_hex().unwrap(),
gas: U256::from(100_000),
gas_price: U256::one(),
nonce: U256::zero(),
})
.sign(keypair.secret(), None);
let sender = t.sender();
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(&sender, &U256::from(100_017), CleanupMode::NoEmpty)
.unwrap();
let mut info = EnvInfo::default();
info.gas_limit = U256::from(100_000);
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let res = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
let opts = TransactOptions::with_no_tracing();
ex.transact(&t, opts)
};
match res {
Err(ExecutionError::NotEnoughCash { required, got })
if required == U512::from(100_018) && got == U512::from(100_017) =>
{
()
}
_ => assert!(false, "Expected not enough cash error. {:?}", res),
}
}
evm_test! {test_keccak: test_keccak_int}
fn test_keccak(factory: Factory) {
let code = "6064640fffffffff20600055".from_hex().unwrap();
let sender = Address::from_str("0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6").unwrap();
let address = contract_address(
CreateContractAddress::FromSenderAndNonce,
&sender,
&U256::zero(),
&[],
)
.0;
// TODO: add tests for 'callcreate'
//let next_address = contract_address(&address, &U256::zero());
let mut params = ActionParams::default();
params.address = address.clone();
params.sender = sender.clone();
params.origin = sender.clone();
params.gas = U256::from(0x0186a0);
params.code = Some(Arc::new(code));
params.value = ActionValue::Transfer(U256::from_str("0de0b6b3a7640000").unwrap());
let mut state = get_temp_state_with_factory(factory);
state
.add_balance(
&sender,
&U256::from_str("152d02c7e14af6800000").unwrap(),
CleanupMode::NoEmpty,
)
.unwrap();
let info = EnvInfo::default();
let machine = make_frontier_machine(0);
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let result = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.create(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
};
match result {
Err(_) => {}
_ => panic!("Expected OutOfGas"),
}
}
evm_test! {test_revert: test_revert_int}
fn test_revert(factory: Factory) {
let contract_address =
Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let sender = Address::from_str("0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6").unwrap();
// EIP-140 test case
let code = "6c726576657274656420646174616000557f726576657274206d657373616765000000000000000000000000000000000000600052600e6000fd".from_hex().unwrap();
let returns = "726576657274206d657373616765".from_hex().unwrap();
let mut state = get_temp_state_with_factory(factory.clone());
state
.add_balance(
&sender,
&U256::from_str("152d02c7e14af68000000").unwrap(),
CleanupMode::NoEmpty,
)
.unwrap();
state.commit().unwrap();
let mut params = ActionParams::default();
params.address = contract_address.clone();
params.sender = sender.clone();
params.origin = sender.clone();
params.gas = U256::from(20025);
params.code = Some(Arc::new(code));
params.value = ActionValue::Transfer(U256::zero());
let info = EnvInfo::default();
let machine = ::ethereum::new_byzantium_test_machine();
let schedule = machine.schedule(info.number);
let mut substate = Substate::new();
let mut output = [0u8; 14];
let FinalizationResult {
gas_left: result,
return_data,
..
} = {
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.call(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
.unwrap()
};
(&mut output).copy_from_slice(&return_data[..(cmp::min(14, return_data.len()))]);
assert_eq!(result, U256::from(1));
assert_eq!(output[..], returns[..]);
assert_eq!(
state
.storage_at(&contract_address, &BigEndianHash::from_uint(&U256::zero()))
.unwrap(),
BigEndianHash::from_uint(&U256::from(0))
);
}
evm_test! {test_eip1283: test_eip1283_int}
fn test_eip1283(factory: Factory) {
let x1 = Address::from_low_u64_be(0x1000);
let x2 = Address::from_low_u64_be(0x1001);
let y1 = Address::from_low_u64_be(0x2001);
let y2 = Address::from_low_u64_be(0x2002);
let operating_address = Address::from_low_u64_be(0);
let k = H256::default();
let mut state = get_temp_state_with_factory(factory.clone());
state
.new_contract(&x1, U256::zero(), U256::from(1))
.unwrap();
state
.init_code(&x1, "600160005560006000556001600055".from_hex().unwrap())
.unwrap();
state
.new_contract(&x2, U256::zero(), U256::from(1))
.unwrap();
state
.init_code(&x2, "600060005560016000556000600055".from_hex().unwrap())
.unwrap();
state
.new_contract(&y1, U256::zero(), U256::from(1))
.unwrap();
state
.init_code(&y1, "600060006000600061100062fffffff4".from_hex().unwrap())
.unwrap();
state
.new_contract(&y2, U256::zero(), U256::from(1))
.unwrap();
state
.init_code(&y2, "600060006000600061100162fffffff4".from_hex().unwrap())
.unwrap();
let info = EnvInfo::default();
let machine = ::ethereum::new_constantinople_test_machine();
let schedule = machine.schedule(info.number);
assert_eq!(
state.storage_at(&operating_address, &k).unwrap(),
BigEndianHash::from_uint(&U256::from(0))
);
// Test a call via top-level -> y1 -> x1
let (FinalizationResult { gas_left, .. }, refund, gas) = {
let gas = U256::from(0xffffffffffu64);
let mut params = ActionParams::default();
params.code = Some(Arc::new(
"6001600055600060006000600061200163fffffffff4"
.from_hex()
.unwrap(),
));
params.gas = gas;
let mut substate = Substate::new();
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
let res = ex
.call(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
.unwrap();
(res, substate.sstore_clears_refund, gas)
};
let gas_used = gas - gas_left;
// sstore: 0 -> (1) -> () -> (1 -> 0 -> 1)
assert_eq!(gas_used, U256::from(41860));
assert_eq!(refund, 19800);
assert_eq!(
state.storage_at(&operating_address, &k).unwrap(),
BigEndianHash::from_uint(&U256::from(1))
);
// Test a call via top-level -> y2 -> x2
let (FinalizationResult { gas_left, .. }, refund, gas) = {
let gas = U256::from(0xffffffffffu64);
let mut params = ActionParams::default();
params.code = Some(Arc::new(
"6001600055600060006000600061200263fffffffff4"
.from_hex()
.unwrap(),
));
params.gas = gas;
let mut substate = Substate::new();
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
let res = ex
.call(params, &mut substate, &mut NoopTracer, &mut NoopVMTracer)
.unwrap();
(res, substate.sstore_clears_refund, gas)
};
let gas_used = gas - gas_left;
// sstore: 1 -> (1) -> () -> (0 -> 1 -> 0)
assert_eq!(gas_used, U256::from(11860));
assert_eq!(refund, 19800);
}
fn wasm_sample_code() -> Arc<Vec<u8>> {
Arc::new(
"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"
.from_hex()
.unwrap()
)
}
#[test]
fn wasm_activated_test() {
let contract_address =
Address::from_str("cd1722f3947def4cf144679da39c4c32bdc35681").unwrap();
let sender = Address::from_str("0f572e5295c57f15886f9b263e2f6d2d6c7b5ec6").unwrap();
let mut state = get_temp_state();
state
.add_balance(&sender, &U256::from(10000000000u64), CleanupMode::NoEmpty)
.unwrap();
state.commit().unwrap();
let mut params = ActionParams::default();
params.origin = sender.clone();
params.sender = sender.clone();
params.address = contract_address.clone();
params.gas = U256::from(20025);
params.code = Some(wasm_sample_code());
let mut info = EnvInfo::default();
// 200 (wasmDisableTransition) > 100 > 10 (wasmActivationTransition)
info.number = 100;
// Network with wasm activated at block 10
let machine = ::ethereum::new_kovan_wasm_test_machine();
let mut output = [0u8; 20];
let FinalizationResult {
gas_left: result,
return_data,
..
} = {
let schedule = machine.schedule(info.number);
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.call(
params.clone(),
&mut Substate::new(),
&mut NoopTracer,
&mut NoopVMTracer,
)
.unwrap()
};
(&mut output).copy_from_slice(&return_data[..(cmp::min(20, return_data.len()))]);
assert_eq!(result, U256::from(18433));
// Transaction successfully returned sender
assert_eq!(output[..], sender[..]);
// 1 < 10 (wasmActivationTransition)
info.number = 1;
let mut output = [0u8; 20];
let FinalizationResult {
gas_left: result,
return_data,
..
} = {
let schedule = machine.schedule(info.number);
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.call(
params.clone(),
&mut Substate::new(),
&mut NoopTracer,
&mut NoopVMTracer,
)
.unwrap()
};
(&mut output[..(cmp::min(20, return_data.len()))])
.copy_from_slice(&return_data[..(cmp::min(20, return_data.len()))]);
assert_eq!(result, U256::from(20025));
// Since transaction errored due to wasm was not activated, result is just empty
assert_eq!(output[..], [0u8; 20][..]);
// 200 == wasmDisableTransition
info.number = 200;
let mut output = [0u8; 20];
let FinalizationResult {
gas_left: result,
return_data,
..
} = {
let schedule = machine.schedule(info.number);
let mut ex = Executive::new(&mut state, &info, &machine, &schedule);
ex.call(
params,
&mut Substate::new(),
&mut NoopTracer,
&mut NoopVMTracer,
)
.unwrap()
};
(&mut output[..(cmp::min(20, return_data.len()))])
.copy_from_slice(&return_data[..(cmp::min(20, return_data.len()))]);
assert_eq!(result, U256::from(20025));
// Since transaction errored due to wasm was deactivated, result is just empty
assert_eq!(output[..], [0u8; 20][..]);
}
}
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