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// This file is part of Substrate.
// Copyright (C) Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: Apache-2.0
// 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.
#![allow(dead_code)]
assert_ok, parameter_types, traits,
traits::{Hooks, UnfilteredDispatchable},
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weights::constants,
use frame_system::EnsureRoot;
use sp_core::{ConstU32, Get};
use sp_npos_elections::{ElectionScore, VoteWeight};
use sp_runtime::{
offchain::{
testing::{OffchainState, PoolState, TestOffchainExt, TestTransactionPoolExt},
OffchainDbExt, OffchainWorkerExt, TransactionPoolExt,
},
testing,
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transaction_validity, BuildStorage, PerU16, Perbill, Percent,
};
use sp_staking::{
offence::{DisableStrategy, OffenceDetails, OnOffenceHandler},
EraIndex, SessionIndex,
};
use sp_std::prelude::*;
use std::collections::BTreeMap;
use frame_election_provider_support::{
bounds::ElectionBoundsBuilder, onchain, ElectionDataProvider, ExtendedBalance,
SequentialPhragmen, Weight,
};
use pallet_election_provider_multi_phase::{
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unsigned::MinerConfig, Call, ElectionCompute, GeometricDepositBase, QueuedSolution,
SolutionAccuracyOf,
};
use pallet_staking::StakerStatus;
use parking_lot::RwLock;
use std::sync::Arc;
use frame_support::derive_impl;
use crate::{log, log_current_time};
pub const INIT_TIMESTAMP: BlockNumber = 30_000;
pub const BLOCK_TIME: BlockNumber = 1000;
type Block = frame_system::mocking::MockBlockU32<Runtime>;
type Extrinsic = testing::TestXt<RuntimeCall, ()>;
frame_support::construct_runtime!(
pub enum Runtime {
System: frame_system,
ElectionProviderMultiPhase: pallet_election_provider_multi_phase,
Staking: pallet_staking,
Balances: pallet_balances,
BagsList: pallet_bags_list,
Session: pallet_session,
Historical: pallet_session::historical,
Timestamp: pallet_timestamp,
}
);
pub(crate) type AccountId = u64;
pub(crate) type AccountIndex = u32;
pub(crate) type BlockNumber = u32;
pub(crate) type Balance = u64;
pub(crate) type VoterIndex = u16;
pub(crate) type TargetIndex = u16;
pub(crate) type Moment = u32;
#[derive_impl(frame_system::config_preludes::TestDefaultConfig as frame_system::DefaultConfig)]
impl frame_system::Config for Runtime {
type Block = Block;
type AccountData = pallet_balances::AccountData<Balance>;
type BlockHashCount = ConstU32<10>;
}
const NORMAL_DISPATCH_RATIO: Perbill = Perbill::from_percent(75);
parameter_types! {
pub static ExistentialDeposit: Balance = 1;
pub BlockWeights: frame_system::limits::BlockWeights = frame_system::limits::BlockWeights
::with_sensible_defaults(
Weight::from_parts(2u64 * constants::WEIGHT_REF_TIME_PER_SECOND, u64::MAX),
NORMAL_DISPATCH_RATIO,
);
}
impl pallet_balances::Config for Runtime {
type MaxLocks = traits::ConstU32<1024>;
type MaxReserves = ();
type ReserveIdentifier = [u8; 8];
type Balance = Balance;
type RuntimeEvent = RuntimeEvent;
type DustRemoval = ();
type ExistentialDeposit = ExistentialDeposit;
type AccountStore = System;
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type MaxFreezes = traits::ConstU32<1>;
type RuntimeHoldReason = RuntimeHoldReason;
type RuntimeFreezeReason = RuntimeFreezeReason;
type FreezeIdentifier = ();
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type WeightInfo = ();
}
impl pallet_timestamp::Config for Runtime {
type Moment = Moment;
type OnTimestampSet = ();
type MinimumPeriod = traits::ConstU32<5>;
type WeightInfo = ();
}
parameter_types! {
pub static Period: u32 = 30;
pub static Offset: u32 = 0;
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}
sp_runtime::impl_opaque_keys! {
pub struct SessionKeys {
pub other: OtherSessionHandler,
}
}
impl pallet_session::Config for Runtime {
type SessionManager = pallet_session::historical::NoteHistoricalRoot<Runtime, Staking>;
type Keys = SessionKeys;
type ShouldEndSession = pallet_session::PeriodicSessions<Period, Offset>;
type NextSessionRotation = pallet_session::PeriodicSessions<Period, Offset>;
type SessionHandler = (OtherSessionHandler,);
type RuntimeEvent = RuntimeEvent;
type ValidatorId = AccountId;
type ValidatorIdOf = pallet_staking::StashOf<Runtime>;
type WeightInfo = ();
}
impl pallet_session::historical::Config for Runtime {
type FullIdentification = pallet_staking::Exposure<AccountId, Balance>;
type FullIdentificationOf = pallet_staking::ExposureOf<Runtime>;
}
frame_election_provider_support::generate_solution_type!(
#[compact]
pub struct MockNposSolution::<
VoterIndex = VoterIndex,
TargetIndex = TargetIndex,
Accuracy = PerU16,
MaxVoters = ConstU32::<2_000>
>(16)
);
parameter_types! {
pub static SignedPhase: BlockNumber = 10;
pub static UnsignedPhase: BlockNumber = 10;
// we expect a minimum of 3 blocks in signed phase and unsigned phases before trying
// enetering in emergency phase after the election failed.
pub static MinBlocksBeforeEmergency: BlockNumber = 3;
pub static MaxActiveValidators: u32 = 1000;
pub static OffchainRepeat: u32 = 5;
pub static MinerMaxLength: u32 = 256;
pub static MinerMaxWeight: Weight = BlockWeights::get().max_block;
pub static TransactionPriority: transaction_validity::TransactionPriority = 1;
pub static MaxWinners: u32 = 100;
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pub static MaxVotesPerVoter: u32 = 16;
pub static SignedFixedDeposit: Balance = 1;
pub static SignedDepositIncreaseFactor: Percent = Percent::from_percent(10);
pub static ElectionBounds: frame_election_provider_support::bounds::ElectionBounds = ElectionBoundsBuilder::default()
.voters_count(1_000.into()).targets_count(1_000.into()).build();
}
impl pallet_election_provider_multi_phase::Config for Runtime {
type RuntimeEvent = RuntimeEvent;
type Currency = Balances;
type EstimateCallFee = frame_support::traits::ConstU32<8>;
type SignedPhase = SignedPhase;
type UnsignedPhase = UnsignedPhase;
type BetterSignedThreshold = ();
type OffchainRepeat = OffchainRepeat;
type MinerTxPriority = TransactionPriority;
type MinerConfig = Self;
type SignedMaxSubmissions = ConstU32<10>;
type SignedRewardBase = ();
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type SignedDepositBase =
GeometricDepositBase<Balance, SignedFixedDeposit, SignedDepositIncreaseFactor>;
type SignedDepositByte = ();
type SignedMaxRefunds = ConstU32<3>;
type SignedDepositWeight = ();
type SignedMaxWeight = ();
type SlashHandler = ();
type RewardHandler = ();
type DataProvider = Staking;
type Fallback =
frame_election_provider_support::NoElection<(AccountId, BlockNumber, Staking, MaxWinners)>;
type GovernanceFallback = onchain::OnChainExecution<OnChainSeqPhragmen>;
type Solver = SequentialPhragmen<AccountId, SolutionAccuracyOf<Runtime>, ()>;
type ForceOrigin = EnsureRoot<AccountId>;
type MaxWinners = MaxWinners;
type ElectionBounds = ElectionBounds;
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type BenchmarkingConfig = NoopElectionProviderBenchmarkConfig;
type WeightInfo = ();
}
impl MinerConfig for Runtime {
type AccountId = AccountId;
type Solution = MockNposSolution;
type MaxVotesPerVoter =
<<Self as pallet_election_provider_multi_phase::Config>::DataProvider as ElectionDataProvider>::MaxVotesPerVoter;
type MaxLength = MinerMaxLength;
type MaxWeight = MinerMaxWeight;
type MaxWinners = MaxWinners;
fn solution_weight(_v: u32, _t: u32, _a: u32, _d: u32) -> Weight {
Weight::zero()
}
}
const THRESHOLDS: [VoteWeight; 9] = [10, 20, 30, 40, 50, 60, 1_000, 2_000, 10_000];
parameter_types! {
pub static BagThresholds: &'static [sp_npos_elections::VoteWeight] = &THRESHOLDS;
pub const SessionsPerEra: sp_staking::SessionIndex = 2;
pub const BondingDuration: sp_staking::EraIndex = 28;
pub const SlashDeferDuration: sp_staking::EraIndex = 7; // 1/4 the bonding duration.
pub const OffendingValidatorsThreshold: Perbill = Perbill::from_percent(40);
pub HistoryDepth: u32 = 84;
}
impl pallet_bags_list::Config for Runtime {
type RuntimeEvent = RuntimeEvent;
type WeightInfo = ();
type ScoreProvider = Staking;
type BagThresholds = BagThresholds;
type Score = VoteWeight;
}
/// Upper limit on the number of NPOS nominations.
const MAX_QUOTA_NOMINATIONS: u32 = 16;
impl pallet_staking::Config for Runtime {
type Currency = Balances;
type CurrencyBalance = Balance;
type UnixTime = Timestamp;
type CurrencyToVote = ();
type RewardRemainder = ();
type RuntimeEvent = RuntimeEvent;
type Slash = (); // burn slashes
type Reward = (); // rewards are minted from the void
type SessionsPerEra = SessionsPerEra;
type BondingDuration = BondingDuration;
type SlashDeferDuration = SlashDeferDuration;
type AdminOrigin = EnsureRoot<AccountId>; // root can cancel slashes
type SessionInterface = Self;
type EraPayout = ();
type NextNewSession = Session;
type MaxExposurePageSize = ConstU32<256>;
type OffendingValidatorsThreshold = OffendingValidatorsThreshold;
type ElectionProvider = ElectionProviderMultiPhase;
type GenesisElectionProvider = onchain::OnChainExecution<OnChainSeqPhragmen>;
type VoterList = BagsList;
type NominationsQuota = pallet_staking::FixedNominationsQuota<MAX_QUOTA_NOMINATIONS>;
type TargetList = pallet_staking::UseValidatorsMap<Self>;
type MaxUnlockingChunks = ConstU32<32>;
type MaxControllersInDeprecationBatch = ConstU32<100>;
type HistoryDepth = HistoryDepth;
type EventListeners = ();
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type WeightInfo = pallet_staking::weights::SubstrateWeight<Runtime>;
type BenchmarkingConfig = pallet_staking::TestBenchmarkingConfig;
}
impl<LocalCall> frame_system::offchain::SendTransactionTypes<LocalCall> for Runtime
where
RuntimeCall: From<LocalCall>,
{
type OverarchingCall = RuntimeCall;
type Extrinsic = Extrinsic;
}
pub struct OnChainSeqPhragmen;
parameter_types! {
pub static VotersBound: u32 = 600;
pub static TargetsBound: u32 = 400;
}
impl onchain::Config for OnChainSeqPhragmen {
type System = Runtime;
type Solver = SequentialPhragmen<
AccountId,
pallet_election_provider_multi_phase::SolutionAccuracyOf<Runtime>,
>;
type DataProvider = Staking;
type WeightInfo = ();
type MaxWinners = MaxWinners;
type Bounds = ElectionBounds;
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}
pub struct NoopElectionProviderBenchmarkConfig;
impl pallet_election_provider_multi_phase::BenchmarkingConfig
for NoopElectionProviderBenchmarkConfig
{
const VOTERS: [u32; 2] = [0, 0];
const TARGETS: [u32; 2] = [0, 0];
const ACTIVE_VOTERS: [u32; 2] = [0, 0];
const DESIRED_TARGETS: [u32; 2] = [0, 0];
const SNAPSHOT_MAXIMUM_VOTERS: u32 = 0;
const MINER_MAXIMUM_VOTERS: u32 = 0;
const MAXIMUM_TARGETS: u32 = 0;
}
pub struct OtherSessionHandler;
impl traits::OneSessionHandler<AccountId> for OtherSessionHandler {
type Key = testing::UintAuthorityId;
fn on_genesis_session<'a, I: 'a>(_: I)
where
I: Iterator<Item = (&'a AccountId, Self::Key)>,
AccountId: 'a,
{
}
fn on_new_session<'a, I: 'a>(_: bool, _: I, _: I)
where
I: Iterator<Item = (&'a AccountId, Self::Key)>,
AccountId: 'a,
{
}
fn on_disabled(_validator_index: u32) {}
}
impl sp_runtime::BoundToRuntimeAppPublic for OtherSessionHandler {
type Public = testing::UintAuthorityId;
}
pub struct StakingExtBuilder {
validator_count: u32,
minimum_validator_count: u32,
min_nominator_bond: Balance,
min_validator_bond: Balance,
status: BTreeMap<AccountId, StakerStatus<AccountId>>,
stakes: BTreeMap<AccountId, Balance>,
stakers: Vec<(AccountId, AccountId, Balance, StakerStatus<AccountId>)>,
}
impl Default for StakingExtBuilder {
fn default() -> Self {
let stakers = vec![
// (stash, ctrl, stake, status)
// these two will be elected in the default test where we elect 2.
(11, 11, 1000, StakerStatus::<AccountId>::Validator),
(21, 21, 1000, StakerStatus::<AccountId>::Validator),
// loser validators if validator_count() is default.
(31, 31, 500, StakerStatus::<AccountId>::Validator),
(41, 41, 1500, StakerStatus::<AccountId>::Validator),
(51, 51, 1500, StakerStatus::<AccountId>::Validator),
(61, 61, 1500, StakerStatus::<AccountId>::Validator),
(71, 71, 1500, StakerStatus::<AccountId>::Validator),
(81, 81, 1500, StakerStatus::<AccountId>::Validator),
(91, 91, 1500, StakerStatus::<AccountId>::Validator),
(101, 101, 500, StakerStatus::<AccountId>::Validator),
// an idle validator
(201, 201, 1000, StakerStatus::<AccountId>::Idle),
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];
Self {
validator_count: 2,
minimum_validator_count: 0,
min_nominator_bond: ExistentialDeposit::get(),
min_validator_bond: ExistentialDeposit::get(),
status: Default::default(),
stakes: Default::default(),
stakers,
}
}
}
impl StakingExtBuilder {
pub fn validator_count(mut self, n: u32) -> Self {
self.validator_count = n;
self
}
}
pub struct EpmExtBuilder {}
impl Default for EpmExtBuilder {
fn default() -> Self {
EpmExtBuilder {}
}
}
impl EpmExtBuilder {
pub fn disable_emergency_throttling(self) -> Self {
<MinBlocksBeforeEmergency>::set(0);
self
}
pub fn phases(self, signed: BlockNumber, unsigned: BlockNumber) -> Self {
<SignedPhase>::set(signed);
<UnsignedPhase>::set(unsigned);
self
}
}
pub struct BalancesExtBuilder {
balances: Vec<(AccountId, Balance)>,
}
impl Default for BalancesExtBuilder {
fn default() -> Self {
let balances = vec![
// (account_id, balance)
(1, 10),
(2, 20),
(3, 300),
(4, 400),
// controllers (still used in some tests. Soon to be deprecated).
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(10, 100),
(20, 100),
(30, 100),
(40, 100),
(50, 100),
(60, 100),
(70, 100),
(80, 100),
(90, 100),
(100, 100),
(200, 100),
// stashes
(11, 1000),
(21, 2000),
(31, 3000),
(41, 4000),
(51, 5000),
(61, 6000),
(71, 7000),
(81, 8000),
(91, 9000),
(101, 10000),
(201, 20000),
// This allows us to have a total_payout different from 0.
(999, 1_000_000_000_000),
];
Self { balances }
}
}
pub struct ExtBuilder {
staking_builder: StakingExtBuilder,
epm_builder: EpmExtBuilder,
balances_builder: BalancesExtBuilder,
}
impl Default for ExtBuilder {
fn default() -> Self {
Self {
staking_builder: StakingExtBuilder::default(),
epm_builder: EpmExtBuilder::default(),
balances_builder: BalancesExtBuilder::default(),
}
}
}
impl ExtBuilder {
pub fn build(&self) -> sp_io::TestExternalities {
sp_tracing::try_init_simple();
let mut storage =
frame_system::GenesisConfig::<Runtime>::default().build_storage().unwrap();
let _ = pallet_balances::GenesisConfig::<Runtime> {
balances: self.balances_builder.balances.clone(),
}
.assimilate_storage(&mut storage);
let mut stakers = self.staking_builder.stakers.clone();
self.staking_builder.status.clone().into_iter().for_each(|(stash, status)| {
let (_, _, _, ref mut prev_status) = stakers
.iter_mut()
.find(|s| s.0 == stash)
.expect("set_status staker should exist; qed");
*prev_status = status;
});
// replaced any of the stakes if needed.
self.staking_builder.stakes.clone().into_iter().for_each(|(stash, stake)| {
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let (_, _, ref mut prev_stake, _) = stakers
.iter_mut()
.find(|s| s.0 == stash)
.expect("set_stake staker should exits; qed.");
*prev_stake = stake;
});
let _ = pallet_staking::GenesisConfig::<Runtime> {
stakers: stakers.clone(),
validator_count: self.staking_builder.validator_count,
minimum_validator_count: self.staking_builder.minimum_validator_count,
slash_reward_fraction: Perbill::from_percent(10),
min_nominator_bond: self.staking_builder.min_nominator_bond,
min_validator_bond: self.staking_builder.min_validator_bond,
..Default::default()
}
.assimilate_storage(&mut storage);
let _ = pallet_session::GenesisConfig::<Runtime> {
// set the keys for the first session.
keys: stakers
.into_iter()
.map(|(id, ..)| (id, id, SessionKeys { other: (id as u64).into() }))
.collect(),
}
.assimilate_storage(&mut storage);
let mut ext = sp_io::TestExternalities::from(storage);
// We consider all test to start after timestamp is initialized This must be ensured by
// having `timestamp::on_initialize` called before `staking::on_initialize`.
ext.execute_with(|| {
System::set_block_number(1);
Session::on_initialize(1);
<Staking as Hooks<u32>>::on_initialize(1);
Timestamp::set_timestamp(INIT_TIMESTAMP);
});
ext
}
pub fn staking(mut self, builder: StakingExtBuilder) -> Self {
self.staking_builder = builder;
self
}
pub fn epm(mut self, builder: EpmExtBuilder) -> Self {
self.epm_builder = builder;
self
}
pub fn balances(mut self, builder: BalancesExtBuilder) -> Self {
self.balances_builder = builder;
self
}
pub fn build_offchainify(
self,
) -> (sp_io::TestExternalities, Arc<RwLock<PoolState>>, Arc<RwLock<OffchainState>>) {
// add offchain and pool externality extensions.
let mut ext = self.build();
let (offchain, offchain_state) = TestOffchainExt::new();
let (pool, pool_state) = TestTransactionPoolExt::new();
ext.register_extension(OffchainDbExt::new(offchain.clone()));
ext.register_extension(OffchainWorkerExt::new(offchain));
ext.register_extension(TransactionPoolExt::new(pool));
(ext, pool_state, offchain_state)
}
pub fn build_and_execute(self, test: impl FnOnce() -> ()) {
let mut ext = self.build();
ext.execute_with(test);
#[cfg(feature = "try-runtime")]
ext.execute_with(|| {
let bn = System::block_number();
assert_ok!(<MultiPhase as Hooks<u64>>::try_state(bn));
assert_ok!(<Staking as Hooks<u64>>::try_state(bn));
assert_ok!(<Session as Hooks<u64>>::try_state(bn));
});
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}
}
// Progress to given block, triggering session and era changes as we progress and ensuring that
// there is a solution queued when expected.
pub fn roll_to(n: BlockNumber, delay_solution: bool) {
for b in (System::block_number()) + 1..=n {
System::set_block_number(b);
Session::on_initialize(b);
Timestamp::set_timestamp(System::block_number() * BLOCK_TIME + INIT_TIMESTAMP);
// TODO(gpestana): implement a realistic OCW worker insted of simulating it
// https://github.com/paritytech/substrate/issues/13589
// if there's no solution queued and the solution should not be delayed, try mining and
// queue a solution.
if ElectionProviderMultiPhase::current_phase().is_signed() && !delay_solution {
let _ = try_queue_solution(ElectionCompute::Signed).map_err(|e| {
log!(info, "failed to mine/queue solution: {:?}", e);
});
}
ElectionProviderMultiPhase::on_initialize(b);
Staking::on_initialize(b);
if b != n {
Staking::on_finalize(System::block_number());
}
log_current_time();
}
}
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// Progress to given block, triggering session and era changes as we progress and ensuring that
// there is a solution queued when expected.
pub fn roll_to_with_ocw(n: BlockNumber, pool: Arc<RwLock<PoolState>>, delay_solution: bool) {
for b in (System::block_number()) + 1..=n {
System::set_block_number(b);
Session::on_initialize(b);
Timestamp::set_timestamp(System::block_number() * BLOCK_TIME + INIT_TIMESTAMP);
ElectionProviderMultiPhase::on_initialize(b);
ElectionProviderMultiPhase::offchain_worker(b);
if !delay_solution && pool.read().transactions.len() > 0 {
// decode submit_unsigned callable that may be queued in the pool by ocw. skip all
// other extrinsics in the pool.
for encoded in &pool.read().transactions {
let extrinsic = Extrinsic::decode(&mut &encoded[..]).unwrap();
let _ = match extrinsic.call {
RuntimeCall::ElectionProviderMultiPhase(
call @ Call::submit_unsigned { .. },
) => {
// call submit_unsigned callable in OCW pool.
crate::assert_ok!(call.dispatch_bypass_filter(RuntimeOrigin::none()));
},
_ => (),
};
}
pool.try_write().unwrap().transactions.clear();
}
Staking::on_initialize(b);
if b != n {
Staking::on_finalize(System::block_number());
}
log_current_time();
}
}
// helper to progress one block ahead.
pub fn roll_one(pool: Arc<RwLock<PoolState>>, delay_solution: bool) {
let bn = System::block_number().saturating_add(1);
roll_to_with_ocw(bn, pool, delay_solution);
}
/// Progresses from the current block number (whatever that may be) to the block where the session
/// `session_index` starts.
pub(crate) fn start_session(
session_index: SessionIndex,
pool: Arc<RwLock<PoolState>>,
delay_solution: bool,
) {
let end = if Offset::get().is_zero() {
Period::get() * session_index
} else {
Offset::get() * session_index + Period::get() * session_index
};
assert!(end >= System::block_number());
roll_to_with_ocw(end, pool, delay_solution);
// session must have progressed properly.
assert_eq!(
Session::current_index(),
session_index,
"current session index = {}, expected = {}",
Session::current_index(),
session_index,
);
}
/// Go one session forward.
pub(crate) fn advance_session(pool: Arc<RwLock<PoolState>>) {
let current_index = Session::current_index();
start_session(current_index + 1, pool, false);
}
pub(crate) fn advance_session_delayed_solution(pool: Arc<RwLock<PoolState>>) {
let current_index = Session::current_index();
start_session(current_index + 1, pool, true);
}
pub(crate) fn start_next_active_era(pool: Arc<RwLock<PoolState>>) -> Result<(), ()> {
start_active_era(active_era() + 1, pool, false)
}
pub(crate) fn start_next_active_era_delayed_solution(
pool: Arc<RwLock<PoolState>>,
) -> Result<(), ()> {
start_active_era(active_era() + 1, pool, true)
}
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pub(crate) fn advance_eras(n: usize, pool: Arc<RwLock<PoolState>>) {
for _ in 0..n {
assert_ok!(start_next_active_era(pool.clone()));
}
}
/// Progress until the given era.
pub(crate) fn start_active_era(
era_index: EraIndex,
pool: Arc<RwLock<PoolState>>,
delay_solution: bool,
) -> Result<(), ()> {
let era_before = current_era();
start_session((era_index * <SessionsPerEra as Get<u32>>::get()).into(), pool, delay_solution);
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log!(
info,
"start_active_era - era_before: {}, current era: {} -> progress to: {} -> after era: {}",
era_before,
active_era(),
era_index,
current_era(),
);
// if the solution was not delayed, era should have progressed.
if !delay_solution && (active_era() != era_index || current_era() != active_era()) {
Err(())
} else {
Ok(())
}
}
pub(crate) fn active_era() -> EraIndex {
Staking::active_era().unwrap().index
}
pub(crate) fn current_era() -> EraIndex {
Staking::current_era().unwrap()
}
// Fast forward until EPM signed phase.
pub fn roll_to_epm_signed() {
while !matches!(
ElectionProviderMultiPhase::current_phase(),
pallet_election_provider_multi_phase::Phase::Signed
) {
roll_to(System::block_number() + 1, false);
}
}
// Fast forward until EPM unsigned phase.
pub fn roll_to_epm_unsigned() {
while !matches!(
ElectionProviderMultiPhase::current_phase(),
pallet_election_provider_multi_phase::Phase::Unsigned(_)
) {
roll_to(System::block_number() + 1, false);
}
}
// Fast forward until EPM off.
pub fn roll_to_epm_off() {
while !matches!(
ElectionProviderMultiPhase::current_phase(),
pallet_election_provider_multi_phase::Phase::Off
) {
roll_to(System::block_number() + 1, false);
}
}
// Queue a solution based on the current snapshot.
pub(crate) fn try_queue_solution(when: ElectionCompute) -> Result<(), String> {
let raw_solution = ElectionProviderMultiPhase::mine_solution()
.map_err(|e| format!("error mining solution: {:?}", e))?;
ElectionProviderMultiPhase::feasibility_check(raw_solution.0, when)
.map(|ready| {
QueuedSolution::<Runtime>::put(ready);
})
.map_err(|e| format!("error in solution feasibility: {:?}", e))
}
pub(crate) fn on_offence_now(
offenders: &[OffenceDetails<
AccountId,
pallet_session::historical::IdentificationTuple<Runtime>,
>],
slash_fraction: &[Perbill],
) {
let now = Staking::active_era().unwrap().index;
let _ = Staking::on_offence(
offenders,
slash_fraction,
Staking::eras_start_session_index(now).unwrap(),
DisableStrategy::WhenSlashed,
);
}
// Add offence to validator, slash it.
pub(crate) fn add_slash(who: &AccountId) {
on_offence_now(
&[OffenceDetails {
offender: (*who, Staking::eras_stakers(active_era(), who)),
reporters: vec![],
}],
&[Perbill::from_percent(10)],
);
}
// Slashes enough validators to cross the `Staking::OffendingValidatorsThreshold`.
pub(crate) fn slash_through_offending_threshold() {
let validators = Session::validators();
let mut remaining_slashes =
<Runtime as pallet_staking::Config>::OffendingValidatorsThreshold::get() *
validators.len() as u32;
for v in validators.into_iter() {
if remaining_slashes != 0 {
add_slash(&v);
remaining_slashes -= 1;
}
}
}
// Slashes a percentage of the active nominators that haven't been slashed yet, with
// a minimum of 1 validator slash.
pub(crate) fn slash_percentage(percentage: Perbill) -> Vec<AccountId> {
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let validators = Session::validators();
let mut remaining_slashes = (percentage * validators.len() as u32).max(1);
let mut slashed = vec![];
for v in validators.into_iter() {
if remaining_slashes != 0 {
add_slash(&v);
slashed.push(v);
remaining_slashes -= 1;
}
}
slashed
}
pub(crate) fn set_minimum_election_score(
minimal_stake: ExtendedBalance,
sum_stake: ExtendedBalance,
sum_stake_squared: ExtendedBalance,
) -> Result<(), ()> {
let election_score = ElectionScore { minimal_stake, sum_stake, sum_stake_squared };
ElectionProviderMultiPhase::set_minimum_untrusted_score(
RuntimeOrigin::root(),
Some(election_score),
)
.map(|_| ())
.map_err(|_| ())
}
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pub(crate) fn staking_events() -> Vec<pallet_staking::Event<Runtime>> {
System::events()
.into_iter()
.map(|r| r.event)
.filter_map(|e| if let RuntimeEvent::Staking(inner) = e { Some(inner) } else { None })
.collect::<Vec<_>>()
}
pub(crate) fn epm_events() -> Vec<pallet_election_provider_multi_phase::Event<Runtime>> {
System::events()
.into_iter()
.map(|r| r.event)
.filter_map(|e| {
if let RuntimeEvent::ElectionProviderMultiPhase(inner) = e {
Some(inner)
} else {
None
}
})
.collect::<Vec<_>>()
}