// Copyright 2015-2019 Parity Technologies (UK) Ltd.
// This file is part of Parity Ethereum.
// Parity Ethereum is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Parity Ethereum is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Parity Ethereum. If not, see .
//! A module with types for declaring block rewards and a client interface for interacting with a
//! block reward contract.
use ethabi;
use ethabi::ParamType;
use ethereum_types::{H160, Address, U256};
use std::sync::Arc;
use hash::keccak;
use error::Error;
use machine::Machine;
use trace;
use types::BlockNumber;
use super::{SystemOrCodeCall, SystemOrCodeCallKind};
use trace::{Tracer, ExecutiveTracer, Tracing};
use block::ExecutedBlock;
use_contract!(block_reward_contract, "res/contracts/block_reward.json");
/// The kind of block reward.
/// Depending on the consensus engine the allocated block reward might have
/// different semantics which could lead e.g. to different reward values.
#[derive(PartialEq, Eq, Clone, Copy, Debug)]
pub enum RewardKind {
/// Reward attributed to the block author.
Author,
/// Reward attributed to the author(s) of empty step(s) included in the block (AuthorityRound engine).
EmptyStep,
/// Reward attributed by an external protocol (e.g. block reward contract).
External,
/// Reward attributed to the block uncle(s) with given difference.
Uncle(u8),
}
impl RewardKind {
/// Create `RewardKind::Uncle` from given current block number and uncle block number.
pub fn uncle(number: BlockNumber, uncle: BlockNumber) -> Self {
RewardKind::Uncle(if number > uncle && number - uncle <= u8::max_value().into() { (number - uncle) as u8 } else { 0 })
}
}
impl From for u16 {
fn from(reward_kind: RewardKind) -> Self {
match reward_kind {
RewardKind::Author => 0,
RewardKind::EmptyStep => 2,
RewardKind::External => 3,
RewardKind::Uncle(depth) => 100 + depth as u16,
}
}
}
impl Into for RewardKind {
fn into(self) -> trace::RewardType {
match self {
RewardKind::Author => trace::RewardType::Block,
RewardKind::Uncle(_) => trace::RewardType::Uncle,
RewardKind::EmptyStep => trace::RewardType::EmptyStep,
RewardKind::External => trace::RewardType::External,
}
}
}
/// A client for the block reward contract.
#[derive(PartialEq, Debug)]
pub struct BlockRewardContract {
kind: SystemOrCodeCallKind,
}
impl BlockRewardContract {
/// Create a new block reward contract client targeting the system call kind.
pub fn new(kind: SystemOrCodeCallKind) -> BlockRewardContract {
BlockRewardContract {
kind,
}
}
/// Create a new block reward contract client targeting the contract address.
pub fn new_from_address(address: Address) -> BlockRewardContract {
Self::new(SystemOrCodeCallKind::Address(address))
}
/// Create a new block reward contract client targeting the given code.
pub fn new_from_code(code: Arc>) -> BlockRewardContract {
let code_hash = keccak(&code[..]);
Self::new(SystemOrCodeCallKind::Code(code, code_hash))
}
/// Calls the block reward contract with the given beneficiaries list (and associated reward kind)
/// and returns the reward allocation (address - value). The block reward contract *must* be
/// called by the system address so the `caller` must ensure that (e.g. using
/// `machine.execute_as_system`).
pub fn reward(
&self,
beneficiaries: &[(Address, RewardKind)],
caller: &mut SystemOrCodeCall,
) -> Result, Error> {
let input = block_reward_contract::functions::reward::encode_input(
beneficiaries.iter().map(|&(address, _)| H160::from(address)),
beneficiaries.iter().map(|&(_, ref reward_kind)| u16::from(*reward_kind)),
);
let output = caller(self.kind.clone(), input)
.map_err(Into::into)
.map_err(::engines::EngineError::FailedSystemCall)?;
// since this is a non-constant call we can't use ethabi's function output
// deserialization, sadness ensues.
let types = &[
ParamType::Array(Box::new(ParamType::Address)),
ParamType::Array(Box::new(ParamType::Uint(256))),
];
let tokens = ethabi::decode(types, &output)
.map_err(|err| err.to_string())
.map_err(::engines::EngineError::FailedSystemCall)?;
assert!(tokens.len() == 2);
let addresses = tokens[0].clone().to_array().expect("type checked by ethabi::decode; qed");
let rewards = tokens[1].clone().to_array().expect("type checked by ethabi::decode; qed");
if addresses.len() != rewards.len() {
return Err(::engines::EngineError::FailedSystemCall(
"invalid data returned by reward contract: both arrays must have the same size".into()
).into());
}
let addresses = addresses.into_iter().map(|t| t.to_address().expect("type checked by ethabi::decode; qed"));
let rewards = rewards.into_iter().map(|t| t.to_uint().expect("type checked by ethabi::decode; qed"));
Ok(addresses.zip(rewards).collect())
}
}
/// Applies the given block rewards, i.e. adds the given balance to each beneficiary' address.
/// If tracing is enabled the operations are recorded.
pub fn apply_block_rewards(
rewards: &[(Address, RewardKind, U256)],
block: &mut ExecutedBlock,
machine: &M,
) -> Result<(), M::Error> {
for &(ref author, _, ref block_reward) in rewards {
machine.add_balance(block, author, block_reward)?;
}
if let Tracing::Enabled(ref mut traces) = *block.traces_mut() {
let mut tracer = ExecutiveTracer::default();
for &(address, reward_kind, amount) in rewards {
tracer.trace_reward(address, amount, reward_kind.into());
}
traces.push(tracer.drain().into());
}
Ok(())
}
#[cfg(test)]
mod test {
use std::str::FromStr;
use client::PrepareOpenBlock;
use ethereum_types::{U256, Address};
use spec::Spec;
use test_helpers::generate_dummy_client_with_spec;
use engines::SystemOrCodeCallKind;
use super::{BlockRewardContract, RewardKind};
#[test]
fn block_reward_contract() {
let client = generate_dummy_client_with_spec(Spec::new_test_round_block_reward_contract);
let machine = Spec::new_test_machine();
// the spec has a block reward contract defined at the given address
let block_reward_contract = BlockRewardContract::new_from_address(
Address::from_str("0000000000000000000000000000000000000042").unwrap(),
);
let mut call = |to, data| {
let mut block = client.prepare_open_block(
Address::from_str("0000000000000000000000000000000000000001").unwrap(),
(3141562.into(), 31415620.into()),
vec![],
).unwrap();
let result = match to {
SystemOrCodeCallKind::Address(to) => {
machine.execute_as_system(
block.block_mut(),
to,
U256::max_value(),
Some(data),
)
},
_ => panic!("Test reward contract is created by an address, we never reach this branch."),
};
result.map_err(|e| format!("{}", e))
};
// if no beneficiaries are given no rewards are attributed
assert!(block_reward_contract.reward(&vec![], &mut call).unwrap().is_empty());
// the contract rewards (1000 + kind) for each benefactor
let beneficiaries = vec![
(Address::from_str("0000000000000000000000000000000000000033").unwrap(), RewardKind::Author),
(Address::from_str("0000000000000000000000000000000000000034").unwrap(), RewardKind::Uncle(1)),
(Address::from_str("0000000000000000000000000000000000000035").unwrap(), RewardKind::EmptyStep),
];
let rewards = block_reward_contract.reward(&beneficiaries, &mut call).unwrap();
let expected = vec![
(Address::from_str("0000000000000000000000000000000000000033").unwrap(), U256::from(1000)),
(Address::from_str("0000000000000000000000000000000000000034").unwrap(), U256::from(1000 + 101)),
(Address::from_str("0000000000000000000000000000000000000035").unwrap(), U256::from(1000 + 2)),
];
assert_eq!(expected, rewards);
}
}