// Copyright 2020 The Grin Developers
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//! Values that should be shared across all modules, without necessarily
//! having to pass them all over the place, but aren't consensus values.
//! should be used sparingly.
use crate::consensus::{
graph_weight, valid_header_version, HeaderInfo, BASE_EDGE_BITS, BLOCK_TIME_SEC,
COINBASE_MATURITY, CUT_THROUGH_HORIZON, DAY_HEIGHT, DEFAULT_MIN_EDGE_BITS,
DIFFICULTY_ADJUST_WINDOW, INITIAL_DIFFICULTY, MAX_BLOCK_WEIGHT, PROOFSIZE,
SECOND_POW_EDGE_BITS, STATE_SYNC_THRESHOLD,
};
use crate::core::block::HeaderVersion;
use crate::pow::{
self, new_cuckaroo_ctx, new_cuckarood_ctx, new_cuckaroom_ctx, new_cuckarooz_ctx,
new_cuckatoo_ctx, PoWContext,
};
use std::cell::Cell;
use util::OneTime;
/// An enum collecting sets of parameters used throughout the
/// code wherever mining is needed. This should allow for
/// different sets of parameters for different purposes,
/// e.g. CI, User testing, production values
/// Define these here, as they should be developer-set, not really tweakable
/// by users
/// The default "local" protocol version for this node.
/// We negotiate compatible versions with each peer via Hand/Shake.
/// Note: We also use a specific (possible different) protocol version
/// for both the backend database and MMR data files.
/// This defines the p2p layer protocol version for this node.
pub const PROTOCOL_VERSION: u32 = 2;
/// Automated testing edge_bits
pub const AUTOMATED_TESTING_MIN_EDGE_BITS: u8 = 10;
/// Automated testing proof size
pub const AUTOMATED_TESTING_PROOF_SIZE: usize = 8;
/// User testing edge_bits
pub const USER_TESTING_MIN_EDGE_BITS: u8 = 15;
/// User testing proof size
pub const USER_TESTING_PROOF_SIZE: usize = 42;
/// Automated testing coinbase maturity
pub const AUTOMATED_TESTING_COINBASE_MATURITY: u64 = 3;
/// User testing coinbase maturity
pub const USER_TESTING_COINBASE_MATURITY: u64 = 3;
/// Testing cut through horizon in blocks
pub const AUTOMATED_TESTING_CUT_THROUGH_HORIZON: u32 = 20;
/// Testing cut through horizon in blocks
pub const USER_TESTING_CUT_THROUGH_HORIZON: u32 = 70;
/// Testing state sync threshold in blocks
pub const TESTING_STATE_SYNC_THRESHOLD: u32 = 20;
/// Testing initial graph weight
pub const TESTING_INITIAL_GRAPH_WEIGHT: u32 = 1;
/// Testing initial block difficulty
pub const TESTING_INITIAL_DIFFICULTY: u64 = 1;
/// Testing max_block_weight (artifically low, just enough to support a few txs).
pub const TESTING_MAX_BLOCK_WEIGHT: usize = 250;
/// If a peer's last updated difficulty is 2 hours ago and its difficulty's lower than ours,
/// we're sure this peer is a stuck node, and we will kick out such kind of stuck peers.
pub const STUCK_PEER_KICK_TIME: i64 = 2 * 3600 * 1000;
/// If a peer's last seen time is 2 weeks ago we will forget such kind of defunct peers.
const PEER_EXPIRATION_DAYS: i64 = 7 * 2;
/// Constant that expresses defunct peer timeout in seconds to be used in checks.
pub const PEER_EXPIRATION_REMOVE_TIME: i64 = PEER_EXPIRATION_DAYS * 24 * 3600;
/// Trigger compaction check on average every day for all nodes.
/// Randomized per node - roll the dice on every block to decide.
/// Will compact the txhashset to remove pruned data.
/// Will also remove old blocks and associated data from the database.
/// For a node configured as "archival_mode = true" only the txhashset will be compacted.
pub const COMPACTION_CHECK: u64 = DAY_HEIGHT;
/// Number of blocks to reuse a txhashset zip for (automated testing and user testing).
pub const TESTING_TXHASHSET_ARCHIVE_INTERVAL: u64 = 10;
/// Number of blocks to reuse a txhashset zip for.
pub const TXHASHSET_ARCHIVE_INTERVAL: u64 = 12 * 60;
/// Types of chain a server can run with, dictates the genesis block and
/// and mining parameters used.
#[derive(Debug, Clone, Copy, Serialize, Deserialize, PartialEq)]
pub enum ChainTypes {
/// For CI testing
AutomatedTesting,
/// For User testing
UserTesting,
/// Protocol testing network
Floonet,
/// Main production network
Mainnet,
}
impl ChainTypes {
/// Short name representing the chain type ("floo", "main", etc.)
pub fn shortname(&self) -> String {
match *self {
ChainTypes::AutomatedTesting => "auto".to_owned(),
ChainTypes::UserTesting => "user".to_owned(),
ChainTypes::Floonet => "floo".to_owned(),
ChainTypes::Mainnet => "main".to_owned(),
}
}
}
impl Default for ChainTypes {
fn default() -> ChainTypes {
ChainTypes::Mainnet
}
}
lazy_static! {
/// Global chain_type that must be initialized once on node startup.
/// This is accessed via get_chain_type() which allows the global value
/// to be overridden on a per-thread basis (for testing).
pub static ref GLOBAL_CHAIN_TYPE: OneTime<ChainTypes> = OneTime::new();
/// Global feature flag for NRD kernel support.
/// If enabled NRD kernels are treated as valid after HF3 (based on header version).
/// If disabled NRD kernels are invalid regardless of header version or block height.
pub static ref GLOBAL_NRD_FEATURE_ENABLED: OneTime<bool> = OneTime::new();
}
thread_local! {
/// Mainnet|Floonet|UserTesting|AutomatedTesting
pub static CHAIN_TYPE: Cell<Option<ChainTypes>> = Cell::new(None);
/// Local feature flag for NRD kernel support.
pub static NRD_FEATURE_ENABLED: Cell<Option<bool>> = Cell::new(None);
}
/// Set the chain type on a per-thread basis via thread_local storage.
pub fn set_local_chain_type(new_type: ChainTypes) {
CHAIN_TYPE.with(|chain_type| chain_type.set(Some(new_type)))
}
/// Get the chain type via thread_local, fallback to global chain_type.
pub fn get_chain_type() -> ChainTypes {
CHAIN_TYPE.with(|chain_type| match chain_type.get() {
None => {
if GLOBAL_CHAIN_TYPE.is_init() {
let chain_type = GLOBAL_CHAIN_TYPE.borrow();
set_local_chain_type(chain_type);
chain_type
} else {
panic!("GLOBAL_CHAIN_TYPE and CHAIN_TYPE unset. Consider set_local_chain_type() in tests.");
}
}
Some(chain_type) => chain_type,
})
}
/// One time initialization of the global chain_type.
/// Will panic if we attempt to re-initialize this (via OneTime).
pub fn init_global_chain_type(new_type: ChainTypes) {
GLOBAL_CHAIN_TYPE.init(new_type)
}
/// One time initialization of the global chain_type.
/// Will panic if we attempt to re-initialize this (via OneTime).
pub fn init_global_nrd_enabled(enabled: bool) {
GLOBAL_NRD_FEATURE_ENABLED.init(enabled)
}
/// Explicitly enable the NRD global feature flag.
pub fn set_local_nrd_enabled(enabled: bool) {
NRD_FEATURE_ENABLED.with(|flag| flag.set(Some(enabled)))
}
/// Is the NRD feature flag enabled?
/// Look at thread local config first. If not set fallback to global config.
/// Default to false if global config unset.
pub fn is_nrd_enabled() -> bool {
NRD_FEATURE_ENABLED.with(|flag| match flag.get() {
None => {
if GLOBAL_NRD_FEATURE_ENABLED.is_init() {
let global_flag = GLOBAL_NRD_FEATURE_ENABLED.borrow();
flag.set(Some(global_flag));
global_flag
} else {
// Global config unset, default to false.
false
}
}
Some(flag) => flag,
})
}
/// Return either a cuckoo context or a cuckatoo context
/// Single change point
pub fn create_pow_context<T>(
height: u64,
edge_bits: u8,
proof_size: usize,
max_sols: u32,
) -> Result<Box<dyn PoWContext>, pow::Error> {
let chain_type = get_chain_type();
match chain_type {
// Mainnet has Cuckaroo{,d,m,z}29 for AR and Cuckatoo31+ for AF
ChainTypes::Mainnet if edge_bits > 29 => new_cuckatoo_ctx(edge_bits, proof_size, max_sols),
ChainTypes::Mainnet if valid_header_version(height, HeaderVersion(4)) => {
new_cuckarooz_ctx(edge_bits, proof_size)
}
ChainTypes::Mainnet if valid_header_version(height, HeaderVersion(3)) => {
new_cuckaroom_ctx(edge_bits, proof_size)
}
ChainTypes::Mainnet if valid_header_version(height, HeaderVersion(2)) => {
new_cuckarood_ctx(edge_bits, proof_size)
}
ChainTypes::Mainnet => new_cuckaroo_ctx(edge_bits, proof_size),
// Same for Floonet
ChainTypes::Floonet if edge_bits > 29 => new_cuckatoo_ctx(edge_bits, proof_size, max_sols),
ChainTypes::Floonet if valid_header_version(height, HeaderVersion(4)) => {
new_cuckarooz_ctx(edge_bits, proof_size)
}
ChainTypes::Floonet if valid_header_version(height, HeaderVersion(3)) => {
new_cuckaroom_ctx(edge_bits, proof_size)
}
ChainTypes::Floonet if valid_header_version(height, HeaderVersion(2)) => {
new_cuckarood_ctx(edge_bits, proof_size)
}
ChainTypes::Floonet => new_cuckaroo_ctx(edge_bits, proof_size),
// Everything else is Cuckatoo only
_ => new_cuckatoo_ctx(edge_bits, proof_size, max_sols),
}
}
/// The minimum acceptable edge_bits
pub fn min_edge_bits() -> u8 {
match get_chain_type() {
ChainTypes::AutomatedTesting => AUTOMATED_TESTING_MIN_EDGE_BITS,
ChainTypes::UserTesting => USER_TESTING_MIN_EDGE_BITS,
_ => DEFAULT_MIN_EDGE_BITS,
}
}
/// Reference edge_bits used to compute factor on higher Cuck(at)oo graph sizes,
/// while the min_edge_bits can be changed on a soft fork, changing
/// base_edge_bits is a hard fork.
pub fn base_edge_bits() -> u8 {
match get_chain_type() {
ChainTypes::AutomatedTesting => AUTOMATED_TESTING_MIN_EDGE_BITS,
ChainTypes::UserTesting => USER_TESTING_MIN_EDGE_BITS,
_ => BASE_EDGE_BITS,
}
}
/// The proofsize
pub fn proofsize() -> usize {
match get_chain_type() {
ChainTypes::AutomatedTesting => AUTOMATED_TESTING_PROOF_SIZE,
ChainTypes::UserTesting => USER_TESTING_PROOF_SIZE,
_ => PROOFSIZE,
}
}
/// Coinbase maturity for coinbases to be spent
pub fn coinbase_maturity() -> u64 {
match get_chain_type() {
ChainTypes::AutomatedTesting => AUTOMATED_TESTING_COINBASE_MATURITY,
ChainTypes::UserTesting => USER_TESTING_COINBASE_MATURITY,
_ => COINBASE_MATURITY,
}
}
/// Initial mining difficulty
pub fn initial_block_difficulty() -> u64 {
match get_chain_type() {
ChainTypes::AutomatedTesting => TESTING_INITIAL_DIFFICULTY,
ChainTypes::UserTesting => TESTING_INITIAL_DIFFICULTY,
ChainTypes::Floonet => INITIAL_DIFFICULTY,
ChainTypes::Mainnet => INITIAL_DIFFICULTY,
}
}
/// Initial mining secondary scale
pub fn initial_graph_weight() -> u32 {
match get_chain_type() {
ChainTypes::AutomatedTesting => TESTING_INITIAL_GRAPH_WEIGHT,
ChainTypes::UserTesting => TESTING_INITIAL_GRAPH_WEIGHT,
ChainTypes::Floonet => graph_weight(0, SECOND_POW_EDGE_BITS) as u32,
ChainTypes::Mainnet => graph_weight(0, SECOND_POW_EDGE_BITS) as u32,
}
}
/// Maximum allowed block weight.
pub fn max_block_weight() -> usize {
match get_chain_type() {
ChainTypes::AutomatedTesting => TESTING_MAX_BLOCK_WEIGHT,
ChainTypes::UserTesting => TESTING_MAX_BLOCK_WEIGHT,
ChainTypes::Floonet => MAX_BLOCK_WEIGHT,
ChainTypes::Mainnet => MAX_BLOCK_WEIGHT,
}
}
/// Horizon at which we can cut-through and do full local pruning
pub fn cut_through_horizon() -> u32 {
match get_chain_type() {
ChainTypes::AutomatedTesting => AUTOMATED_TESTING_CUT_THROUGH_HORIZON,
ChainTypes::UserTesting => USER_TESTING_CUT_THROUGH_HORIZON,
_ => CUT_THROUGH_HORIZON,
}
}
/// Threshold at which we can request a txhashset (and full blocks from)
pub fn state_sync_threshold() -> u32 {
match get_chain_type() {
ChainTypes::AutomatedTesting => TESTING_STATE_SYNC_THRESHOLD,
ChainTypes::UserTesting => TESTING_STATE_SYNC_THRESHOLD,
_ => STATE_SYNC_THRESHOLD,
}
}
/// Number of blocks to reuse a txhashset zip for.
pub fn txhashset_archive_interval() -> u64 {
match get_chain_type() {
ChainTypes::AutomatedTesting => TESTING_TXHASHSET_ARCHIVE_INTERVAL,
ChainTypes::UserTesting => TESTING_TXHASHSET_ARCHIVE_INTERVAL,
_ => TXHASHSET_ARCHIVE_INTERVAL,
}
}
/// Are we in production mode?
/// Production defined as a live public network, testnet[n] or mainnet.
pub fn is_production_mode() -> bool {
match get_chain_type() {
ChainTypes::Floonet => true,
ChainTypes::Mainnet => true,
_ => false,
}
}
/// Are we in floonet?
/// Note: We do not have a corresponding is_mainnet() as we want any tests to be as close
/// as possible to "mainnet" configuration as possible.
/// We want to avoid missing any mainnet only code paths.
pub fn is_floonet() -> bool {
match get_chain_type() {
ChainTypes::Floonet => true,
_ => false,
}
}
/// Converts an iterator of block difficulty data to more a more manageable
/// vector and pads if needed (which will) only be needed for the first few
/// blocks after genesis
pub fn difficulty_data_to_vector<T>(cursor: T) -> Vec<HeaderInfo>
where
T: IntoIterator<Item = HeaderInfo>,
{
// Convert iterator to vector, so we can append to it if necessary
let needed_block_count = DIFFICULTY_ADJUST_WINDOW as usize + 1;
let mut last_n: Vec<HeaderInfo> = cursor.into_iter().take(needed_block_count).collect();
// Only needed just after blockchain launch... basically ensures there's
// always enough data by simulating perfectly timed pre-genesis
// blocks at the genesis difficulty as needed.
let n = last_n.len();
if needed_block_count > n {
let last_ts_delta = if n > 1 {
last_n[0].timestamp - last_n[1].timestamp
} else {
BLOCK_TIME_SEC
};
let last_diff = last_n[0].difficulty;
// fill in simulated blocks with values from the previous real block
let mut last_ts = last_n.last().unwrap().timestamp;
for _ in n..needed_block_count {
last_ts = last_ts.saturating_sub(last_ts_delta);
last_n.push(HeaderInfo::from_ts_diff(last_ts, last_diff));
}
}
last_n.reverse();
last_n
}