// Copyright 2015, 2016 Ethcore (UK) Ltd. // This file is part of Parity. // Parity 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. // Parity 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 Parity. If not, see . //! Transaction Execution environment. use common::*; use state::*; use engine::*; use executive::*; use evm::{self, Schedule, Ext, ContractCreateResult, MessageCallResult, Factory}; use substate::*; use trace::Tracer; /// Policy for handling output data on `RETURN` opcode. pub enum OutputPolicy<'a, 'b> { /// Return reference to fixed sized output. /// Used for message calls. Return(BytesRef<'a>, Option<&'b mut Bytes>), /// Init new contract as soon as `RETURN` is called. InitContract(Option<&'b mut Bytes>), } /// Transaction properties that externalities need to know about. pub struct OriginInfo { address: Address, origin: Address, gas_price: U256, value: U256 } impl OriginInfo { /// Populates origin info from action params. pub fn from(params: &ActionParams) -> Self { OriginInfo { address: params.address.clone(), origin: params.origin.clone(), gas_price: params.gas_price, value: match params.value { ActionValue::Transfer(val) | ActionValue::Apparent(val) => val } } } } /// Implementation of evm Externalities. pub struct Externalities<'a, T> where T: 'a + Tracer { state: &'a mut State, env_info: &'a EnvInfo, engine: &'a Engine, vm_factory: &'a Factory, depth: usize, origin_info: OriginInfo, substate: &'a mut Substate, schedule: Schedule, output: OutputPolicy<'a, 'a>, tracer: &'a mut T, } impl<'a, T> Externalities<'a, T> where T: 'a + Tracer { #[cfg_attr(feature="dev", allow(too_many_arguments))] /// Basic `Externalities` constructor. pub fn new(state: &'a mut State, env_info: &'a EnvInfo, engine: &'a Engine, vm_factory: &'a Factory, depth: usize, origin_info: OriginInfo, substate: &'a mut Substate, output: OutputPolicy<'a, 'a>, tracer: &'a mut T, ) -> Self { Externalities { state: state, env_info: env_info, engine: engine, vm_factory: vm_factory, depth: depth, origin_info: origin_info, substate: substate, schedule: engine.schedule(env_info), output: output, tracer: tracer, } } } impl<'a, T> Ext for Externalities<'a, T> where T: 'a + Tracer { fn storage_at(&self, key: &H256) -> H256 { self.state.storage_at(&self.origin_info.address, key) } fn set_storage(&mut self, key: H256, value: H256) { self.state.set_storage(&self.origin_info.address, key, value) } fn exists(&self, address: &Address) -> bool { self.state.exists(address) } fn balance(&self, address: &Address) -> U256 { self.state.balance(address) } fn blockhash(&self, number: &U256) -> H256 { // TODO: comment out what this function expects from env_info, since it will produce panics if the latter is inconsistent match *number < U256::from(self.env_info.number) && number.low_u64() >= cmp::max(256, self.env_info.number) - 256 { true => { let index = self.env_info.number - number.low_u64() - 1; assert!(index < self.env_info.last_hashes.len() as u64, format!("Inconsistent env_info, should contain at least {:?} last hashes", index+1)); let r = self.env_info.last_hashes[index as usize].clone(); trace!("ext: blockhash({}) -> {} self.env_info.number={}\n", number, r, self.env_info.number); r }, false => { trace!("ext: blockhash({}) -> null self.env_info.number={}\n", number, self.env_info.number); H256::zero() }, } } fn create(&mut self, gas: &U256, value: &U256, code: &[u8]) -> ContractCreateResult { // create new contract address let address = contract_address(&self.origin_info.address, &self.state.nonce(&self.origin_info.address)); // prepare the params let params = ActionParams { code_address: address.clone(), address: address.clone(), sender: self.origin_info.address.clone(), origin: self.origin_info.origin.clone(), gas: *gas, gas_price: self.origin_info.gas_price, value: ActionValue::Transfer(*value), code: Some(code.to_vec()), data: None, }; self.state.inc_nonce(&self.origin_info.address); let mut ex = Executive::from_parent(self.state, self.env_info, self.engine, self.vm_factory, self.depth); // TODO: handle internal error separately match ex.create(params, self.substate, self.tracer) { Ok(gas_left) => { self.substate.contracts_created.push(address.clone()); ContractCreateResult::Created(address, gas_left) }, _ => ContractCreateResult::Failed } } fn call(&mut self, gas: &U256, sender_address: &Address, receive_address: &Address, value: Option, data: &[u8], code_address: &Address, output: &mut [u8] ) -> MessageCallResult { trace!(target: "externalities", "call"); let mut params = ActionParams { sender: sender_address.clone(), address: receive_address.clone(), value: ActionValue::Apparent(self.origin_info.value), code_address: code_address.clone(), origin: self.origin_info.origin.clone(), gas: *gas, gas_price: self.origin_info.gas_price, code: self.state.code(code_address), data: Some(data.to_vec()), }; if let Some(value) = value { params.value = ActionValue::Transfer(value); } let mut ex = Executive::from_parent(self.state, self.env_info, self.engine, self.vm_factory, self.depth); match ex.call(params, self.substate, BytesRef::Fixed(output), self.tracer) { Ok(gas_left) => MessageCallResult::Success(gas_left), _ => MessageCallResult::Failed } } fn extcode(&self, address: &Address) -> Bytes { self.state.code(address).unwrap_or_else(|| vec![]) } #[cfg_attr(feature="dev", allow(match_ref_pats))] fn ret(&mut self, gas: &U256, data: &[u8]) -> Result { let handle_copy = |to: &mut Option<&mut Bytes>| { to.as_mut().map(|b| **b = data.to_owned()); }; match self.output { OutputPolicy::Return(BytesRef::Fixed(ref mut slice), ref mut copy) => { handle_copy(copy); let len = cmp::min(slice.len(), data.len()); unsafe { ptr::copy(data.as_ptr(), slice.as_mut_ptr(), len); } Ok(*gas) }, OutputPolicy::Return(BytesRef::Flexible(ref mut vec), ref mut copy) => { handle_copy(copy); vec.clear(); vec.reserve(data.len()); unsafe { ptr::copy(data.as_ptr(), vec.as_mut_ptr(), data.len()); vec.set_len(data.len()); } Ok(*gas) }, OutputPolicy::InitContract(ref mut copy) => { let return_cost = U256::from(data.len()) * U256::from(self.schedule.create_data_gas); if return_cost > *gas { return match self.schedule.exceptional_failed_code_deposit { true => Err(evm::Error::OutOfGas), false => Ok(*gas) } } handle_copy(copy); let mut code = vec![]; code.reserve(data.len()); unsafe { ptr::copy(data.as_ptr(), code.as_mut_ptr(), data.len()); code.set_len(data.len()); } self.state.init_code(&self.origin_info.address, code); Ok(*gas - return_cost) } } } fn log(&mut self, topics: Vec, data: &[u8]) { let address = self.origin_info.address.clone(); self.substate.logs.push(LogEntry { address: address, topics: topics, data: data.to_vec() }); } fn suicide(&mut self, refund_address: &Address) { let address = self.origin_info.address.clone(); let balance = self.balance(&address); if &address == refund_address { // TODO [todr] To be consisted with CPP client we set balance to 0 in that case. self.state.sub_balance(&address, &balance); } else { trace!("Suiciding {} -> {} (xfer: {})", address, refund_address, balance); self.state.transfer_balance(&address, refund_address, &balance); } self.substate.suicides.insert(address); } fn schedule(&self) -> &Schedule { &self.schedule } fn env_info(&self) -> &EnvInfo { &self.env_info } fn depth(&self) -> usize { self.depth } fn inc_sstore_clears(&mut self) { self.substate.sstore_clears_count = self.substate.sstore_clears_count + U256::one(); } } #[cfg(test)] mod tests { use common::*; use state::*; use engine::*; use evm::{Ext}; use substate::*; use tests::helpers::*; use super::*; use trace::{NoopTracer}; fn get_test_origin() -> OriginInfo { OriginInfo { address: Address::zero(), origin: Address::zero(), gas_price: U256::zero(), value: U256::zero() } } fn get_test_env_info() -> EnvInfo { EnvInfo { number: 100, author: x!(0), timestamp: 0, difficulty: x!(0), last_hashes: vec![], gas_used: x!(0), gas_limit: x!(0) } } struct TestSetup { state: GuardedTempResult, engine: Box, sub_state: Substate, env_info: EnvInfo } impl Default for TestSetup { fn default() -> Self { TestSetup::new() } } impl TestSetup { fn new() -> Self { TestSetup { state: get_temp_state(), engine: get_test_spec().engine, sub_state: Substate::new(), env_info: get_test_env_info() } } } #[test] fn can_be_created() { let mut setup = TestSetup::new(); let state = setup.state.reference_mut(); let mut tracer = NoopTracer; let vm_factory = Default::default(); let ext = Externalities::new(state, &setup.env_info, &*setup.engine, &vm_factory, 0, get_test_origin(), &mut setup.sub_state, OutputPolicy::InitContract(None), &mut tracer); assert_eq!(ext.env_info().number, 100); } #[test] fn can_return_block_hash_no_env() { let mut setup = TestSetup::new(); let state = setup.state.reference_mut(); let mut tracer = NoopTracer; let vm_factory = Default::default(); let ext = Externalities::new(state, &setup.env_info, &*setup.engine, &vm_factory, 0, get_test_origin(), &mut setup.sub_state, OutputPolicy::InitContract(None), &mut tracer); let hash = ext.blockhash(&U256::from_str("0000000000000000000000000000000000000000000000000000000000120000").unwrap()); assert_eq!(hash, H256::zero()); } #[test] fn can_return_block_hash() { let test_hash = H256::from("afafafafafafafafafafafbcbcbcbcbcbcbcbcbcbeeeeeeeeeeeeedddddddddd"); let test_env_number = 0x120001; let mut setup = TestSetup::new(); { let env_info = &mut setup.env_info; env_info.number = test_env_number; env_info.last_hashes.push(test_hash.clone()); } let state = setup.state.reference_mut(); let mut tracer = NoopTracer; let vm_factory = Default::default(); let ext = Externalities::new(state, &setup.env_info, &*setup.engine, &vm_factory, 0, get_test_origin(), &mut setup.sub_state, OutputPolicy::InitContract(None), &mut tracer); let hash = ext.blockhash(&U256::from_str("0000000000000000000000000000000000000000000000000000000000120000").unwrap()); assert_eq!(test_hash, hash); } #[test] #[should_panic] fn can_call_fail_empty() { let mut setup = TestSetup::new(); let state = setup.state.reference_mut(); let mut tracer = NoopTracer; let vm_factory = Default::default(); let mut ext = Externalities::new(state, &setup.env_info, &*setup.engine, &vm_factory, 0, get_test_origin(), &mut setup.sub_state, OutputPolicy::InitContract(None), &mut tracer); let mut output = vec![]; // this should panic because we have no balance on any account ext.call( &U256::from_str("0000000000000000000000000000000000000000000000000000000000120000").unwrap(), &Address::new(), &Address::new(), Some(U256::from_str("0000000000000000000000000000000000000000000000000000000000150000").unwrap()), &[], &Address::new(), &mut output); } #[test] fn can_log() { let log_data = vec![120u8, 110u8]; let log_topics = vec![H256::from("af0fa234a6af46afa23faf23bcbc1c1cb4bcb7bcbe7e7e7ee3ee2edddddddddd")]; let mut setup = TestSetup::new(); let state = setup.state.reference_mut(); let mut tracer = NoopTracer; { let vm_factory = Default::default(); let mut ext = Externalities::new(state, &setup.env_info, &*setup.engine, &vm_factory, 0, get_test_origin(), &mut setup.sub_state, OutputPolicy::InitContract(None), &mut tracer); ext.log(log_topics, &log_data); } assert_eq!(setup.sub_state.logs.len(), 1); } #[test] fn can_suicide() { let refund_account = &Address::new(); let mut setup = TestSetup::new(); let state = setup.state.reference_mut(); let mut tracer = NoopTracer; { let vm_factory = Default::default(); let mut ext = Externalities::new(state, &setup.env_info, &*setup.engine, &vm_factory, 0, get_test_origin(), &mut setup.sub_state, OutputPolicy::InitContract(None), &mut tracer); ext.suicide(&refund_account); } assert_eq!(setup.sub_state.suicides.len(), 1); } }