cuprate-hinto-janai/consensus/rules/src/miner_tx.rs

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use monero_serai::{
ringct::RctType,
transaction::{Input, Output, Timelock, Transaction},
};
use crate::{is_decomposed_amount, transactions::check_output_types, HardFork, TxVersion};
#[derive(Debug, Clone, Copy, PartialEq, Eq, thiserror::Error)]
pub enum MinerTxError {
#[error("The miners transaction version is invalid.")]
VersionInvalid,
#[error("The miner transaction does not have exactly one input.")]
IncorrectNumbOfInputs,
#[error("The miner transactions input has the wrong block height.")]
InputsHeightIncorrect,
#[error("The input is not of type `gen`.")]
InputNotOfTypeGen,
#[error("The transaction has an incorrect lock time.")]
InvalidLockTime,
#[error("The transaction has an output which is not decomposed.")]
OutputNotDecomposed,
#[error("The transaction outputs overflow when summed.")]
OutputsOverflow,
#[error("The miner transaction outputs the wrong amount.")]
OutputAmountIncorrect,
#[error("The miner transactions RCT type is not NULL.")]
RCTTypeNotNULL,
#[error("The miner transactions has an invalid output type.")]
InvalidOutputType,
}
/// A constant called "money supply", not actually a cap, it is used during
/// block reward calculations.
const MONEY_SUPPLY: u64 = u64::MAX;
/// The minimum block reward per minute, "tail-emission"
const MINIMUM_REWARD_PER_MIN: u64 = 3 * 10_u64.pow(11);
/// The value which `lock_time` should be for a coinbase output.
const MINER_TX_TIME_LOCKED_BLOCKS: u64 = 60;
/// Calculates the base block reward without taking away the penalty for expanding
/// the block.
fn calculate_base_reward(already_generated_coins: u64, hf: &HardFork) -> u64 {
let target_mins = hf.block_time().as_secs() / 60;
let emission_speed_factor = 20 - (target_mins - 1);
((MONEY_SUPPLY - already_generated_coins) >> emission_speed_factor)
.max(MINIMUM_REWARD_PER_MIN * target_mins)
}
/// Calculates the miner reward for this block.
pub fn calculate_block_reward(
block_weight: usize,
median_bw: usize,
already_generated_coins: u64,
hf: &HardFork,
) -> u64 {
let base_reward = calculate_base_reward(already_generated_coins, hf);
if block_weight <= median_bw {
return base_reward;
}
let multiplicand: u128 = ((2 * median_bw - block_weight) * block_weight)
.try_into()
.unwrap();
let effective_median_bw: u128 = median_bw.try_into().unwrap();
(((base_reward as u128 * multiplicand) / effective_median_bw) / effective_median_bw)
.try_into()
.unwrap()
}
/// Checks the miner transactions version.
///
/// https://cuprate.github.io/monero-book/consensus_rules/blocks/miner_tx.html#version
fn check_miner_tx_version(tx_version: &TxVersion, hf: &HardFork) -> Result<(), MinerTxError> {
// The TxVersion enum checks if the version is not 1 or 2
if hf >= &HardFork::V12 && tx_version != &TxVersion::RingCT {
Err(MinerTxError::VersionInvalid)
} else {
Ok(())
}
}
/// Checks the miner transactions inputs.
///
/// https://cuprate.github.io/monero-book/consensus_rules/blocks/miner_tx.html#input
/// https://cuprate.github.io/monero-book/consensus_rules/blocks/miner_tx.html#height
fn check_inputs(inputs: &[Input], chain_height: u64) -> Result<(), MinerTxError> {
if inputs.len() != 1 {
return Err(MinerTxError::IncorrectNumbOfInputs);
}
match &inputs[0] {
Input::Gen(height) => {
if height != &chain_height {
Err(MinerTxError::InputsHeightIncorrect)
} else {
Ok(())
}
}
_ => Err(MinerTxError::InputNotOfTypeGen),
}
}
/// Checks the miner transaction has a correct time lock.
///
/// https://cuprate.github.io/monero-book/consensus_rules/blocks/miner_tx.html#unlock-time
fn check_time_lock(time_lock: &Timelock, chain_height: u64) -> Result<(), MinerTxError> {
match time_lock {
Timelock::Block(till_height) => {
// Lock times above this amount are timestamps not blocks.
// This is just for safety though and shouldn't actually be hit.
if till_height >= &500_000_000 {
Err(MinerTxError::InvalidLockTime)?;
}
if u64::try_from(*till_height).unwrap() != chain_height + MINER_TX_TIME_LOCKED_BLOCKS {
Err(MinerTxError::InvalidLockTime)
} else {
Ok(())
}
}
_ => Err(MinerTxError::InvalidLockTime),
}
}
/// Sums the outputs checking for overflow.
///
/// https://cuprate.github.io/monero-book/consensus_rules/blocks/miner_tx.html#output-amounts
fn sum_outputs(outputs: &[Output], hf: &HardFork) -> Result<u64, MinerTxError> {
let mut sum: u64 = 0;
for out in outputs {
let amt = out.amount.unwrap_or(0);
if hf == &HardFork::V3 && !is_decomposed_amount(&amt) {
return Err(MinerTxError::OutputNotDecomposed);
}
sum = sum.checked_add(amt).ok_or(MinerTxError::OutputsOverflow)?;
}
Ok(sum)
}
/// Checks the total outputs amount is correct returning the amount of coins collected by the miner.
///
/// https://cuprate.github.io/monero-book/consensus_rules/blocks/miner_tx.html#total-outputs
fn check_total_output_amt(
total_output: u64,
reward: u64,
fees: u64,
hf: &HardFork,
) -> Result<u64, MinerTxError> {
if hf == &HardFork::V1 || hf >= &HardFork::V12 {
if total_output != reward + fees {
return Err(MinerTxError::OutputAmountIncorrect);
}
Ok(reward)
} else {
if total_output - fees > reward || total_output > reward + fees {
return Err(MinerTxError::OutputAmountIncorrect);
}
Ok(total_output - fees)
}
}
pub fn check_miner_tx(
tx: &Transaction,
total_fees: u64,
chain_height: u64,
block_weight: usize,
median_bw: usize,
already_generated_coins: u64,
hf: &HardFork,
) -> Result<u64, MinerTxError> {
let tx_version = TxVersion::from_raw(tx.prefix.version).ok_or(MinerTxError::VersionInvalid)?;
check_miner_tx_version(&tx_version, hf)?;
if hf >= &HardFork::V12 && tx.rct_signatures.rct_type() != RctType::Null {
return Err(MinerTxError::RCTTypeNotNULL);
}
check_time_lock(&tx.prefix.timelock, chain_height)?;
check_inputs(&tx.prefix.inputs, chain_height)?;
check_output_types(&tx.prefix.outputs, hf).map_err(|_| MinerTxError::InvalidOutputType)?;
let reward = calculate_block_reward(block_weight, median_bw, already_generated_coins, hf);
let total_outs = sum_outputs(&tx.prefix.outputs, hf)?;
check_total_output_amt(total_outs, reward, total_fees, hf)
}