Newer
Older
// Copyright 2017-2018 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate 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.
// Substrate 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 Substrate. If not, see <http://www.gnu.org/licenses/>.
//! Staking manager: Periodically determines the best set of validators.
#![cfg_attr(not(feature = "std"), no_std)]
#[cfg(feature = "std")]
extern crate serde;
#[macro_use]
extern crate parity_codec as codec;
extern crate sr_primitives as primitives;
extern crate srml_balances as balances;
extern crate srml_consensus as consensus;
extern crate srml_session as session;
extern crate srml_system as system;
#[cfg(test)]
extern crate substrate_primitives;
#[cfg(test)]
extern crate sr_io as runtime_io;
#[cfg(test)]
use codec::{HasCompact, Compact};
use runtime_support::{Parameter, StorageValue, StorageMap, dispatch::Result};
use session::OnSessionChange;
use primitives::{Perbill, traits::{Zero, One, Bounded, As, StaticLookup}};
use balances::OnDilution;
#[cfg_attr(test, derive(Debug))]
pub enum LockStatus<BlockNumber: Parameter> {
#[derive(PartialEq, Eq, Clone, Encode, Decode)]
#[cfg_attr(feature = "std", derive(Debug))]
pub struct ValidatorPrefs<Balance: HasCompact + Copy> { // TODO: @bkchr shouldn't need this Copy but derive(Encode) breaks otherwise
/// Validator should ensure this many more slashes than is necessary before being unstaked.
// Reward that validator takes up-front; only the rest is split between themselves and nominators.
#[codec(encoded_as = "<Balance as HasCompact>::Type")]
impl<B: Default + HasCompact + Copy> Default for ValidatorPrefs<B> {
validator_payment: Default::default(),
pub trait Trait: balances::Trait + session::Trait {
type OnRewardMinted: OnDilution<<Self as balances::Trait>::Balance>;
type Event: From<Event<Self>> + Into<<Self as system::Trait>::Event>;
pub struct Module<T: Trait> for enum Call where origin: T::Origin {
fn deposit_event<T>() = default;
/// Declare the desire to stake for the transactor.
///
/// Effects will be felt at the beginning of the next era.
fn stake(origin) {
let who = ensure_signed(origin)?;
ensure!(Self::nominating(&who).is_none(), "Cannot stake if already nominating.");
let mut intentions = <Intentions<T>>::get();
// can't be in the list twice.
ensure!(intentions.iter().find(|&t| t == &who).is_none(), "Cannot stake if already staked.");
<Bondage<T>>::insert(&who, T::BlockNumber::max_value());
intentions.push(who);
<Intentions<T>>::put(intentions);
}
/// Retract the desire to stake for the transactor.
///
/// Effects will be felt at the beginning of the next era.
fn unstake(origin, #[compact] intentions_index: u32) -> Result {
let who = ensure_signed(origin)?;
// unstake fails in degenerate case of having too few existing staked parties
if Self::intentions().len() <= Self::minimum_validator_count() as usize {
return Err("cannot unstake when there are too few staked participants")
}
Self::apply_unstake(&who, intentions_index as usize)
}
fn nominate(origin, target: <T::Lookup as StaticLookup>::Source) {
let who = ensure_signed(origin)?;
let target = T::Lookup::lookup(target)?;
ensure!(Self::nominating(&who).is_none(), "Cannot nominate if already nominating.");
ensure!(Self::intentions().iter().find(|&t| t == &who).is_none(), "Cannot nominate if already staked.");
// update nominators_for
let mut t = Self::nominators_for(&target);
t.push(who.clone());
<NominatorsFor<T>>::insert(&target, t);
// update nominating
<Nominating<T>>::insert(&who, &target);
// Update bondage
<Bondage<T>>::insert(&who, T::BlockNumber::max_value());
}
/// Will panic if called when source isn't currently nominating target.
/// Updates Nominating, NominatorsFor and NominationBalance.
fn unnominate(origin, #[compact] target_index: u32) {
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
let source = ensure_signed(origin)?;
let target_index = target_index as usize;
let target = <Nominating<T>>::get(&source).ok_or("Account must be nominating")?;
let mut t = Self::nominators_for(&target);
if t.get(target_index) != Some(&source) {
return Err("Invalid target index")
}
// Ok - all valid.
// update nominators_for
t.swap_remove(target_index);
<NominatorsFor<T>>::insert(&target, t);
// update nominating
<Nominating<T>>::remove(&source);
// update bondage
<Bondage<T>>::insert(
source,
<system::Module<T>>::block_number() + Self::bonding_duration()
);
}
/// Set the given account's preference for slashing behaviour should they be a validator.
///
/// An error (no-op) if `Self::intentions()[intentions_index] != origin`.
fn register_preferences(
origin,
prefs: ValidatorPrefs<T::Balance>
let who = ensure_signed(origin)?;
if Self::intentions().get(intentions_index as usize) != Some(&who) {
return Err("Invalid index")
}
<ValidatorPreferences<T>>::insert(who, prefs);
}
/// Set the number of sessions in an era.
fn set_sessions_per_era(#[compact] new: T::BlockNumber) {
<NextSessionsPerEra<T>>::put(new);
}
/// The length of the bonding duration in eras.
fn set_bonding_duration(#[compact] new: T::BlockNumber) {
<BondingDuration<T>>::put(new);
/// The ideal number of validators.
fn set_validator_count(#[compact] new: u32) {
<ValidatorCount<T>>::put(new);
}
/// Force there to be a new era. This also forces a new session immediately after.
/// `apply_rewards` should be true for validators to get the session reward.
fn force_new_era(apply_rewards: bool) -> Result {
Self::apply_force_new_era(apply_rewards)
}
/// Set the offline slash grace period.
fn set_offline_slash_grace(#[compact] new: u32) {
<OfflineSlashGrace<T>>::put(new);
}
/// Set the validators who cannot be slashed (if any).
fn set_invulnerables(validators: Vec<T::AccountId>) {
<Invulerables<T>>::put(validators);
}
pub enum Event<T> where <T as balances::Trait>::Balance, <T as system::Trait>::AccountId {
/// All validators have been rewarded by the given balance.
Reward(Balance),
/// One validator (and their nominators) has been given a offline-warning (they're still
/// within their grace). The accrued number of slashes is recorded, too.
OfflineWarning(AccountId, u32),
/// One validator (and their nominators) has been slashed by the given amount.
OfflineSlash(AccountId, Balance),
}
);
trait Store for Module<T: Trait> as Staking {
/// The ideal number of staking participants.
pub ValidatorCount get(validator_count) config(): u32;
/// Minimum number of staking participants before emergency conditions are imposed.
pub MinimumValidatorCount get(minimum_validator_count) config(): u32 = DEFAULT_MINIMUM_VALIDATOR_COUNT;
/// The length of a staking era in sessions.
pub SessionsPerEra get(sessions_per_era) config(): T::BlockNumber = T::BlockNumber::sa(1000);
/// Maximum reward, per validator, that is provided per acceptable session.
pub SessionReward get(session_reward) config(): Perbill = Perbill::from_billionths(60);
/// Slash, per validator that is taken for the first time they are found to be offline.
pub OfflineSlash get(offline_slash) config(): Perbill = Perbill::from_millionths(1000); // Perbill::from_fraction() is only for std, so use from_millionths().
/// Number of instances of offline reports before slashing begins for validators.
pub OfflineSlashGrace get(offline_slash_grace) config(): u32;
/// The length of the bonding duration in blocks.
pub BondingDuration get(bonding_duration) config(): T::BlockNumber = T::BlockNumber::sa(1000);
/// Any validators that may never be slashed or forcible kicked. It's a Vec since they're easy to initialise
/// and the performance hit is minimal (we expect no more than four invulnerables) and restricted to testnets.
pub Invulerables get(invulnerables) config(): Vec<T::AccountId>;
pub CurrentEra get(current_era) config(): T::BlockNumber;
/// Preferences that a validator has.
pub ValidatorPreferences get(validator_preferences): map T::AccountId => ValidatorPrefs<T::Balance>;
/// All the accounts with a desire to stake.
pub Intentions get(intentions) config(): Vec<T::AccountId>;
/// All nominator -> nominee relationships.
pub Nominating get(nominating): map T::AccountId => Option<T::AccountId>;
/// Nominators for a particular account.
pub NominatorsFor get(nominators_for): map T::AccountId => Vec<T::AccountId>;
/// Nominators for a particular account that is in action right now.
pub CurrentNominatorsFor get(current_nominators_for): map T::AccountId => Vec<T::AccountId>;
/// Maximum reward, per validator, that is provided per acceptable session.
pub CurrentSessionReward get(current_session_reward) config(): T::Balance;
/// Slash, per validator that is taken for the first time they are found to be offline.
pub CurrentOfflineSlash get(current_offline_slash) config(): T::Balance;
/// The next value of sessions per era.
pub NextSessionsPerEra get(next_sessions_per_era): Option<T::BlockNumber>;
/// The session index at which the era length last changed.
pub LastEraLengthChange get(last_era_length_change): T::BlockNumber;
/// The highest and lowest staked validator slashable balances.
pub StakeRange get(stake_range): PairOf<T::Balance>;
/// The block at which the `who`'s funds become entirely liquid.
pub Bondage get(bondage): map T::AccountId => T::BlockNumber;
/// The number of times a given validator has been reported offline. This gets decremented by one each era that passes.
pub SlashCount get(slash_count): map T::AccountId => u32;
pub ForcingNewEra get(forcing_new_era): Option<()>;
// Just force_new_era without origin check.
fn apply_force_new_era(apply_rewards: bool) -> Result {
<ForcingNewEra<T>>::put(());
<session::Module<T>>::apply_force_new_session(apply_rewards)
// PUBLIC IMMUTABLES
/// The length of a staking era in blocks.
pub fn era_length() -> T::BlockNumber {
Self::sessions_per_era() * <session::Module<T>>::length()
}
/// Balance of a (potential) validator that includes all nominators.
pub fn nomination_balance(who: &T::AccountId) -> T::Balance {
Self::nominators_for(who).iter()
.map(<balances::Module<T>>::total_balance)
.fold(Zero::zero(), |acc, x| acc + x)
}
/// The total balance that can be slashed from an account.
pub fn slashable_balance(who: &T::AccountId) -> T::Balance {
Self::nominators_for(who).iter()
.map(<balances::Module<T>>::total_balance)
.fold(<balances::Module<T>>::total_balance(who), |acc, x| acc + x)
/// The block at which the `who`'s funds become entirely liquid.
pub fn unlock_block(who: &T::AccountId) -> LockStatus<T::BlockNumber> {
match Self::bondage(who) {
i if i == T::BlockNumber::max_value() => LockStatus::Bonded,
i if i <= <system::Module<T>>::block_number() => LockStatus::Liquid,
i => LockStatus::LockedUntil(i),
}
}
/// Get the current validators.
pub fn validators() -> Vec<T::AccountId> {
session::Module::<T>::validators()
}
/// Slash a given validator by a specific amount. Removes the slash from their balance by preference,
/// and reduces the nominators' balance if needed.
fn slash_validator(v: &T::AccountId, slash: T::Balance) {
// skip the slash in degenerate case of having only 4 staking participants despite having a larger
// desired number of validators (validator_count).
if Self::intentions().len() <= Self::minimum_validator_count() as usize {
if let Some(rem) = <balances::Module<T>>::slash(v, slash) {
let total = noms.iter().map(<balances::Module<T>>::total_balance).fold(T::Balance::zero(), |acc, x| acc + x);
if !total.is_zero() {
let safe_mul_rational = |b| b * rem / total;// TODO: avoid overflow
for n in noms.iter() {
let _ = <balances::Module<T>>::slash(n, safe_mul_rational(<balances::Module<T>>::total_balance(n))); // best effort - not much that can be done on fail.
/// Reward a given validator by a specific amount. Add the reward to their, and their nominators'
/// balance, pro-rata.
fn reward_validator(who: &T::AccountId, reward: T::Balance) {
let off_the_table = reward.min(Self::validator_preferences(who).validator_payment);
let reward = reward - off_the_table;
let validator_cut = if reward.is_zero() {
Zero::zero()
} else {
let noms = Self::current_nominators_for(who);
let total = noms.iter()
.map(<balances::Module<T>>::total_balance)
.fold(<balances::Module<T>>::total_balance(who), |acc, x| acc + x)
.max(One::one());
let safe_mul_rational = |b| b * reward / total;// TODO: avoid overflow
for n in noms.iter() {
let _ = <balances::Module<T>>::reward(n, safe_mul_rational(<balances::Module<T>>::total_balance(n)));
safe_mul_rational(<balances::Module<T>>::total_balance(who))
};
let _ = <balances::Module<T>>::reward(who, validator_cut + off_the_table);
}
/// Actually carry out the unstake operation.
/// Assumes `intentions()[intentions_index] == who`.
fn apply_unstake(who: &T::AccountId, intentions_index: usize) -> Result {
let mut intentions = Self::intentions();
if intentions.get(intentions_index) != Some(who) {
return Err("Invalid index");
}
intentions.swap_remove(intentions_index);
<Intentions<T>>::put(intentions);
<ValidatorPreferences<T>>::remove(who);
<Bondage<T>>::insert(who, <system::Module<T>>::block_number() + Self::bonding_duration());
Ok(())
}
/// Get the reward for the session, assuming it ends with this block.
fn this_session_reward(actual_elapsed: T::Moment) -> T::Balance {
let ideal_elapsed = <session::Module<T>>::ideal_session_duration();
if ideal_elapsed.is_zero() {
return Self::current_session_reward();
}
let per65536: u64 = (T::Moment::sa(65536u64) * ideal_elapsed.clone() / actual_elapsed.max(ideal_elapsed)).as_();
Self::current_session_reward() * T::Balance::sa(per65536) / T::Balance::sa(65536u64)
}
/// Session has just changed. We need to determine whether we pay a reward, slash and/or
/// move to a new era.
fn new_session(actual_elapsed: T::Moment, should_reward: bool) {
if should_reward {
// apply good session reward
let reward = Self::this_session_reward(actual_elapsed);
let validators = <session::Module<T>>::validators();
for v in validators.iter() {
Self::deposit_event(RawEvent::Reward(reward));
let total_minted = reward * <T::Balance as As<usize>>::sa(validators.len());
let total_rewarded_stake = Self::stake_range().1 * <T::Balance as As<usize>>::sa(validators.len());
T::OnRewardMinted::on_dilution(total_minted, total_rewarded_stake);
let session_index = <session::Module<T>>::current_index();
if <ForcingNewEra<T>>::take().is_some()
|| ((session_index - Self::last_era_length_change()) % Self::sessions_per_era()).is_zero()
{
Self::new_era();
}
}
/// The era has changed - enact new staking set.
///
/// NOTE: This always happens immediately before a session change to ensure that new validators
/// get a chance to set their session keys.
fn new_era() {
// Increment current era.
<CurrentEra<T>>::put(&(<CurrentEra<T>>::get() + One::one()));
// Enact era length change.
if let Some(next_spe) = Self::next_sessions_per_era() {
if next_spe != Self::sessions_per_era() {
<SessionsPerEra<T>>::put(&next_spe);
<LastEraLengthChange<T>>::put(&<session::Module<T>>::current_index());
}
}
// evaluate desired staking amounts and nominations and optimise to find the best
// combination of validators, then use session::internal::set_validators().
// for now, this just orders would-be stakers by their balances and chooses the top-most
// <ValidatorCount<T>>::get() of them.
// TODO: this is not sound. this should be moved to an off-chain solution mechanism.
// Avoid reevaluate validator set if it would leave us with fewer than the minimum
// needed validators
if intentions.len() < Self::minimum_validator_count() as usize {
intentions.sort_unstable_by(|&(ref b1, _), &(ref b2, _)| b2.cmp(&b1));
let desired_validator_count = <ValidatorCount<T>>::get() as usize;
let stake_range = if !intentions.is_empty() {
let n = cmp::min(desired_validator_count, intentions.len());
(intentions[0].0, intentions[n - 1].0)
} else {
(Zero::zero(), Zero::zero())
};
<StakeRange<T>>::put(&stake_range);
.take(desired_validator_count)
for v in <session::Module<T>>::validators().iter() {
<CurrentNominatorsFor<T>>::remove(v);
let slash_count = <SlashCount<T>>::take(v);
if slash_count > 1 {
<SlashCount<T>>::insert(v, slash_count - 1);
}
}
for v in vals.iter() {
<CurrentNominatorsFor<T>>::insert(v, Self::nominators_for(v));
}
<session::Module<T>>::set_validators(vals);
// Update the balances for slashing/rewarding according to the stakes.
<CurrentOfflineSlash<T>>::put(Self::offline_slash().times(stake_range.1));
<CurrentSessionReward<T>>::put(Self::session_reward().times(stake_range.1));
/// Call when a validator is determined to be offline. `count` is the
/// number of offences the validator has committed.
pub fn on_offline_validator(v: T::AccountId, count: usize) {
use primitives::traits::{CheckedAdd, CheckedShl};
// Early exit if validator is invulnerable.
if Self::invulnerables().contains(&v) {
return
}
let slash_count = Self::slash_count(&v);
let new_slash_count = slash_count + count as u32;
<SlashCount<T>>::insert(v.clone(), new_slash_count);
let grace = Self::offline_slash_grace();
let event = if new_slash_count > grace {
let slash = {
let base_slash = Self::current_offline_slash();
let instances = slash_count - grace;
let mut total_slash = T::Balance::default();
for i in instances..(instances + count as u32) {
if let Some(total) = base_slash.checked_shl(i)
.and_then(|slash| total_slash.checked_add(&slash)) {
total_slash = total;
} else {
// reset slash count only up to the current
// instance. the total slash overflows the unit for
// balance in the system therefore we can slash all
// the slashable balance for the account
<SlashCount<T>>::insert(v.clone(), slash_count + i);
total_slash = Self::slashable_balance(&v);
break;
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
let _ = Self::slash_validator(&v, slash);
let next_slash = match slash.checked_shl(1) {
Some(slash) => slash,
None => Self::slashable_balance(&v),
};
let instances = new_slash_count - grace;
if instances > Self::validator_preferences(&v).unstake_threshold
|| Self::slashable_balance(&v) < next_slash
|| next_slash <= slash
{
if let Some(pos) = Self::intentions().into_iter().position(|x| &x == &v) {
Self::apply_unstake(&v, pos)
.expect("pos derived correctly from Self::intentions(); \
apply_unstake can only fail if pos wrong; \
Self::intentions() doesn't change; qed");
}
let _ = Self::apply_force_new_era(false);
}
RawEvent::OfflineSlash(v.clone(), slash)
} else {
RawEvent::OfflineWarning(v.clone(), slash_count)
};
Self::deposit_event(event);
impl<T: Trait> OnSessionChange<T::Moment> for Module<T> {
fn on_session_change(elapsed: T::Moment, should_reward: bool) {
Self::new_session(elapsed, should_reward);
impl<T: Trait> balances::EnsureAccountLiquid<T::AccountId> for Module<T> {
fn ensure_account_liquid(who: &T::AccountId) -> Result {
if Self::bondage(who) <= <system::Module<T>>::block_number() {
Ok(())
} else {
Err("cannot transfer illiquid funds")
}
}
}
impl<T: Trait> balances::OnFreeBalanceZero<T::AccountId> for Module<T> {
fn on_free_balance_zero(who: &T::AccountId) {
<Bondage<T>>::remove(who);
}
}
impl<T: Trait> consensus::OnOfflineReport<Vec<u32>> for Module<T> {
fn handle_report(reported_indices: Vec<u32>) {
for validator_index in reported_indices {
let v = <session::Module<T>>::validators()[validator_index as usize].clone();
Self::on_offline_validator(v, 1);
}