Newer
Older
assert_eq!(Balances::free_balance(&11), recorded_stash_balance);
fn validator_payment_prefs_work() {
// Test that validator preferences are correctly honored
// Note: unstake threshold is being directly tested in slashing tests.
// This test will focus on validator payment.
with_externalities(&mut ExtBuilder::default()
.session_length(3)
.sessions_per_era(3)
.build(),
|| {
let session_reward = 10;
let validator_cut = 5;
let validator_initial_balance = Balances::total_balance(&11);
// Initial config should be correct
assert_eq!(Staking::era_length(), 9);
assert_eq!(Staking::sessions_per_era(), 3);
assert_eq!(Staking::last_era_length_change(), 0);
assert_eq!(Staking::current_era(), 0);
assert_eq!(Session::current_index(), 0);
assert_eq!(Staking::current_session_reward(), session_reward);
// check the balance of a validator accounts.
assert_eq!(Balances::total_balance(&10), 1);
// check the balance of a validator's stash accounts.
assert_eq!(Balances::total_balance(&11), validator_initial_balance);
let _ = Balances::ensure_free_balance_is(&2, 500);
// add a dummy nominator.
// NOTE: this nominator is being added 'manually', use '.nominate()' to do it realistically.
<Stakers<Test>>::insert(&11, Exposure {
own: 500, // equal division indicates that the reward will be equally divided among validator and nominator.
total: 1000,
others: vec![IndividualExposure {who: 2, value: 500 }]
<Payee<Test>>::insert(&2, RewardDestination::Stash);
<Validators<Test>>::insert(&11, ValidatorPrefs {
unstake_threshold: 3,
validator_payment: validator_cut
let mut block = 3;
// Block 3 => Session 1 => Era 0
System::set_block_number(block);
Timestamp::set_timestamp(block*5); // on time.
Session::check_rotate_session(System::block_number());
assert_eq!(Staking::current_era(), 0);
assert_eq!(Session::current_index(), 1);
// session triggered: the reward value stashed should be 10 -- defined in ExtBuilder genesis.
assert_eq!(Staking::current_session_reward(), session_reward);
assert_eq!(Staking::current_era_reward(), session_reward);
block = 6; // Block 6 => Session 2 => Era 0
System::set_block_number(block);
Timestamp::set_timestamp(block*5); // a little late.
Session::check_rotate_session(System::block_number());
assert_eq!(Staking::current_era(), 0);
assert_eq!(Session::current_index(), 2);
assert_eq!(Staking::current_session_reward(), session_reward);
assert_eq!(Staking::current_era_reward(), 2*session_reward);
block = 9; // Block 9 => Session 3 => Era 1
System::set_block_number(block);
Session::check_rotate_session(System::block_number());
assert_eq!(Staking::current_era(), 1);
assert_eq!(Session::current_index(), 3);
// whats left to be shared is the sum of 3 rounds minus the validator's cut.
let shared_cut = 3 * session_reward - validator_cut;
// Validator's payee is Staked account, 11, reward will be paid here.
assert_eq!(Balances::total_balance(&11), validator_initial_balance + shared_cut/2 + validator_cut);
// Controller account will not get any reward.
assert_eq!(Balances::total_balance(&10), 1);
// Rest of the reward will be shared and paid to the nominator in stake.
assert_eq!(Balances::total_balance(&2), 500 + shared_cut/2);
#[test]
fn bond_extra_works() {
// Tests that extra `free_balance` in the stash can be added to stake
// NOTE: this tests only verifies `StakingLedger` for correct updates
// See `bond_extra_and_withdraw_unbonded_works` for more details and updates on `Exposure`.
with_externalities(&mut ExtBuilder::default().build(),
|| {
// Check that account 10 is a validator
assert!(<Validators<Test>>::exists(11));
// Check that account 10 is bonded to account 11
assert_eq!(Staking::bonded(&11), Some(10));
// Check how much is at stake
assert_eq!(Staking::ledger(&10), Some(StakingLedger { stash: 11, total: 1000, active: 1000, unlocking: vec![] }));
// Give account 11 some large free balance greater than total
let _ = Balances::ensure_free_balance_is(&11, 1000000);
// Call the bond_extra function from controller, add only 100
assert_ok!(Staking::bond_extra(Origin::signed(10), 100));
// There should be 100 more `total` and `active` in the ledger
assert_eq!(Staking::ledger(&10), Some(StakingLedger { stash: 11, total: 1000 + 100, active: 1000 + 100, unlocking: vec![] }));
// Call the bond_extra function with a large number, should handle it
assert_ok!(Staking::bond_extra(Origin::signed(10), u64::max_value()));
// The full amount of the funds should now be in the total and active
assert_eq!(Staking::ledger(&10), Some(StakingLedger { stash: 11, total: 1000000, active: 1000000, unlocking: vec![] }));
});
}
#[test]
fn bond_extra_and_withdraw_unbonded_works() {
// * Should test
// * Given an account being bonded [and chosen as a validator](not mandatory)
// * It can add extra funds to the bonded account.
// * it can unbond a portion of its funds from the stash account.
// * Once the unbonding period is done, it can actually take the funds out of the stash.
with_externalities(&mut ExtBuilder::default()
.nominate(false)
|| {
// Set payee to controller. avoids confusion
assert_ok!(Staking::set_payee(Origin::signed(10), RewardDestination::Controller));
// Set unbonding era (bonding_duration) to 2
assert_ok!(Staking::set_bonding_duration(2));
// Give account 11 some large free balance greater than total
let _ = Balances::ensure_free_balance_is(&11, 1000000);
// Initial config should be correct
assert_eq!(Staking::sessions_per_era(), 1);
assert_eq!(Staking::current_era(), 0);
assert_eq!(Session::current_index(), 0);
assert_eq!(Staking::current_session_reward(), 10);
// check the balance of a validator accounts.
assert_eq!(Balances::total_balance(&10), 1);
// confirm that 10 is a normal validator and gets paid at the end of the era.
System::set_block_number(1);
Timestamp::set_timestamp(5);
Session::check_rotate_session(System::block_number());
assert_eq!(Staking::current_era(), 1);
assert_eq!(Session::current_index(), 1);
// NOTE: despite having .nominate() in extBuilder, 20 doesn't have a share since
// rewards are paid before election in new_era()
assert_eq!(Balances::total_balance(&10), 1 + 10);
// Initial state of 10
assert_eq!(Staking::ledger(&10), Some(StakingLedger { stash: 11, total: 1000, active: 1000, unlocking: vec![] }));
assert_eq!(Staking::stakers(&11), Exposure { total: 1000, own: 1000, others: vec![] });
// deposit the extra 100 units
Staking::bond_extra(Origin::signed(10), 100).unwrap();
assert_eq!(Staking::ledger(&10), Some(StakingLedger { stash: 11, total: 1000 + 100, active: 1000 + 100, unlocking: vec![] }));
// Exposure is a snapshot! only updated after the next era update.
assert_ne!(Staking::stakers(&11), Exposure { total: 1000 + 100, own: 1000 + 100, others: vec![] });
System::set_block_number(2);Timestamp::set_timestamp(10);Session::check_rotate_session(System::block_number());
assert_eq!(Staking::current_era(), 2);
assert_eq!(Session::current_index(), 2);
// ledger should be the same.
assert_eq!(Staking::ledger(&10), Some(StakingLedger { stash: 11, total: 1000 + 100, active: 1000 + 100, unlocking: vec![] }));
// Exposure is now updated.
assert_eq!(Staking::stakers(&11), Exposure { total: 1000 + 100, own: 1000 + 100, others: vec![] });
// Note that by this point 10 also have received more rewards, but we don't care now.
// assert_eq!(Balances::total_balance(&10), 1 + 10 + MORE_REWARD);
// Unbond almost all of the funds in stash.
Staking::unbond(Origin::signed(10), 1000).unwrap();
assert_eq!(Staking::ledger(&10), Some(StakingLedger {
stash: 11, total: 1000 + 100, active: 100, unlocking: vec![UnlockChunk{ value: 1000, era: 2 + 2}] }));
// Attempting to free the balances now will fail. 2 eras need to pass.
Staking::withdraw_unbonded(Origin::signed(10)).unwrap();
assert_eq!(Staking::ledger(&10), Some(StakingLedger {
stash: 11, total: 1000 + 100, active: 100, unlocking: vec![UnlockChunk{ value: 1000, era: 2 + 2}] }));
// trigger next era.
System::set_block_number(3);Timestamp::set_timestamp(15);Session::check_rotate_session(System::block_number());
assert_eq!(Staking::current_era(), 3);
assert_eq!(Session::current_index(), 3);
// nothing yet
Staking::withdraw_unbonded(Origin::signed(10)).unwrap();
assert_eq!(Staking::ledger(&10), Some(StakingLedger {
stash: 11, total: 1000 + 100, active: 100, unlocking: vec![UnlockChunk{ value: 1000, era: 2 + 2}] }));
// trigger next era.
System::set_block_number(4);Timestamp::set_timestamp(20);Session::check_rotate_session(System::block_number());
assert_eq!(Staking::current_era(), 4);
assert_eq!(Session::current_index(), 4);
Staking::withdraw_unbonded(Origin::signed(10)).unwrap();
// Now the value is free and the staking ledger is updated.
assert_eq!(Staking::ledger(&10), Some(StakingLedger {
stash: 11, total: 100, active: 100, unlocking: vec![] }));
})
}
#[test]
fn slot_stake_is_least_staked_validator_and_limits_maximum_punishment() {
// Test that slot_stake is determined by the least staked validator
// Test that slot_stake is the maximum punishment that can happen to a validator
// Note that rewardDestination is the stash account by default
// Note that unlike reward slash will affect free_balance, not the stash account.
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.fare(false)
.build(),
|| {
// Give the man some money.
// Confirm validator count is 2
assert_eq!(Staking::validator_count(), 2);
// Confirm account 10 and 20 are validators
assert!(<Validators<Test>>::exists(&11) && <Validators<Test>>::exists(&21));
assert_eq!(Staking::stakers(&11).total, 1000);
assert_eq!(Staking::stakers(&21).total, 2000);
// Give the man some money.
let _ = Balances::ensure_free_balance_is(&10, 1000);
let _ = Balances::ensure_free_balance_is(&20, 1000);
// We confirm initialized slot_stake is this value
assert_eq!(Staking::slot_stake(), Staking::stakers(&11).total);
// Now lets lower account 20 stake
<Stakers<Test>>::insert(&21, Exposure { total: 69, own: 69, others: vec![] });
assert_eq!(Staking::stakers(&21).total, 69);
<Ledger<Test>>::insert(&20, StakingLedger { stash: 22, total: 69, active: 69, unlocking: vec![] });
// New era --> rewards are paid --> stakes are changed
System::set_block_number(1);
Timestamp::set_timestamp(5);
Session::check_rotate_session(System::block_number());
assert_eq!(Staking::current_era(), 1);
// -- new balances + reward
assert_eq!(Staking::stakers(&11).total, 1000 + 10);
assert_eq!(Staking::stakers(&21).total, 69 + 10);
// -- Note that rewards are going directly to stash, not as free balance.
assert_eq!(Balances::free_balance(&10), 1000);
assert_eq!(Balances::free_balance(&20), 1000);
// -- slot stake should also be updated.
assert_eq!(Staking::slot_stake(), 79);
// // If 10 gets slashed now, despite having +1000 in stash, it will be slashed byt 79, which is the slot stake
Staking::on_offline_validator(10, 4);
// // Confirm user has been reported
assert_eq!(Staking::slash_count(&11), 4);
// // check the balance of 10 (slash will be deducted from free balance.)
assert_eq!(Balances::free_balance(&11), 1000 + 10 - 50 /*5% of 1000*/ * 8 /*2**3*/);
#[test]
fn on_free_balance_zero_stash_removes_validator() {
// Tests that validator storage items are cleaned up when stash is empty
// Tests that storage items are untouched when controller is empty
with_externalities(&mut ExtBuilder::default()
.existential_deposit(10)
.build(),
|| {
// Check that account 10 is a validator
assert!(<Validators<Test>>::exists(11));
// Check the balance of the validator account
assert_eq!(Balances::free_balance(&10), 256);
// Check the balance of the stash account
assert_eq!(Balances::free_balance(&11), 256000);
// Check these two accounts are bonded
assert_eq!(Staking::bonded(&11), Some(10));
// Set some storage items which we expect to be cleaned up
// Initiate slash count storage item
Staking::on_offline_validator(10, 1);
// Set payee information
assert_ok!(Staking::set_payee(Origin::signed(10), RewardDestination::Stash));
// Check storage items that should be cleaned up
assert!(<Ledger<Test>>::exists(&10));
assert!(<Bonded<Test>>::exists(&11));
assert!(<Validators<Test>>::exists(&11));
assert!(<SlashCount<Test>>::exists(&11));
assert!(<Payee<Test>>::exists(&11));
// Reduce free_balance of controller to 0
Balances::slash(&10, u64::max_value());
// Check the balance of the stash account has not been touched
assert_eq!(Balances::free_balance(&11), 256000);
// Check these two accounts are still bonded
assert_eq!(Staking::bonded(&11), Some(10));
// Check storage items have not changed
assert!(<Ledger<Test>>::exists(&10));
assert!(<Bonded<Test>>::exists(&11));
assert!(<Validators<Test>>::exists(&11));
assert!(<SlashCount<Test>>::exists(&11));
assert!(<Payee<Test>>::exists(&11));
// Reduce free_balance of stash to 0
Balances::slash(&11, u64::max_value());
assert_eq!(Balances::total_balance(&11), 0);
// Check storage items do not exist
assert!(!<Ledger<Test>>::exists(&10));
assert!(!<Bonded<Test>>::exists(&11));
assert!(!<Validators<Test>>::exists(&11));
assert!(!<Nominators<Test>>::exists(&11));
assert!(!<SlashCount<Test>>::exists(&11));
assert!(!<Payee<Test>>::exists(&11));
});
}
#[test]
fn on_free_balance_zero_stash_removes_nominator() {
// Tests that nominator storage items are cleaned up when stash is empty
// Tests that storage items are untouched when controller is empty
with_externalities(&mut ExtBuilder::default()
.existential_deposit(10)
.build(),
|| {
// Make 10 a nominator
assert_ok!(Staking::nominate(Origin::signed(10), vec![20]));
// Check that account 10 is a nominator
assert!(<Nominators<Test>>::exists(11));
// Check the balance of the nominator account
assert_eq!(Balances::free_balance(&10), 256);
// Check the balance of the stash account
assert_eq!(Balances::free_balance(&11), 256000);
// Check these two accounts are bonded
assert_eq!(Staking::bonded(&11), Some(10));
// Set payee information
assert_ok!(Staking::set_payee(Origin::signed(10), RewardDestination::Stash));
// Check storage items that should be cleaned up
assert!(<Ledger<Test>>::exists(&10));
assert!(<Bonded<Test>>::exists(&11));
assert!(<Nominators<Test>>::exists(&11));
assert!(<Payee<Test>>::exists(&11));
// Reduce free_balance of controller to 0
Balances::slash(&10, u64::max_value());
// Check total balance of account 10
assert_eq!(Balances::total_balance(&10), 0);
// Check the balance of the stash account has not been touched
assert_eq!(Balances::free_balance(&11), 256000);
// Check these two accounts are still bonded
assert_eq!(Staking::bonded(&11), Some(10));
// Check storage items have not changed
assert!(<Ledger<Test>>::exists(&10));
assert!(<Bonded<Test>>::exists(&11));
assert!(<Nominators<Test>>::exists(&11));
assert!(<Payee<Test>>::exists(&11));
// Reduce free_balance of stash to 0
Balances::slash(&11, u64::max_value());
assert_eq!(Balances::total_balance(&11), 0);
// Check storage items do not exist
assert!(!<Ledger<Test>>::exists(&10));
assert!(!<Bonded<Test>>::exists(&11));
assert!(!<Validators<Test>>::exists(&11));
assert!(!<Nominators<Test>>::exists(&11));
assert!(!<SlashCount<Test>>::exists(&11));
assert!(!<Payee<Test>>::exists(&11));
}
#[test]
fn phragmen_poc_works() {
// Tests the POC test of the phragmen, mentioned in the paper and reference implementation.
// Initial votes:
// Votes [
// ('2', 500, ['10', '20', '30']),
// ('4', 500, ['10', '20', '40']),
// ('10', 1000, ['10']),
// ('20', 1000, ['20']),
// ('30', 1000, ['30']),
// ('40', 1000, ['40'])]
//
// Sequential Phragmén gives
// 10 is elected with stake 1666.6666666666665 and score 0.0005
// 20 is elected with stake 1333.3333333333333 and score 0.00075
// 2 has load 0.00075 and supported
// 10 with stake 333.3333333333333 20 with stake 166.66666666666666 30 with stake 0.0
// 4 has load 0.00075 and supported
// 10 with stake 333.3333333333333 20 with stake 166.66666666666666 40 with stake 0.0
// 10 has load 0.0005 and supported
// 10 with stake 1000.0
// 20 has load 0.00075 and supported
// 20 with stake 1000.0
// 30 has load 0 and supported
// 30 with stake 0
// 40 has load 0 and supported
// 40 with stake 0
// Sequential Phragmén with post processing gives
// 10 is elected with stake 1500.0 and score 0.0005
// 20 is elected with stake 1500.0 and score 0.00075
// 10 has load 0.0005 and supported
// 10 with stake 1000.0
// 20 has load 0.00075 and supported
// 20 with stake 1000.0
// 30 has load 0 and supported
// 30 with stake 0
// 40 has load 0 and supported
// 40 with stake 0
// 2 has load 0.00075 and supported
// 10 with stake 166.66666666666674 20 with stake 333.33333333333326 30 with stake 0
// 4 has load 0.00075 and supported
// 10 with stake 333.3333333333333 20 with stake 166.66666666666666 40 with stake 0.0
with_externalities(&mut ExtBuilder::default()
.nominate(false)
// We don't really care about this. At this point everything is even.
// assert_eq!(Session::validators(), vec![40, 30]);
assert_eq!(Staking::ledger(&10), Some(StakingLedger { stash: 11, total: 1000, active: 1000, unlocking: vec![] }));
assert_eq!(Staking::ledger(&20), Some(StakingLedger { stash: 21, total: 1000, active: 1000, unlocking: vec![] }));
assert_eq!(Staking::ledger(&30), Some(StakingLedger { stash: 31, total: 1000, active: 1000, unlocking: vec![] }));
assert_eq!(Staking::ledger(&40), Some(StakingLedger { stash: 41, total: 1000, active: 1000, unlocking: vec![] }));
assert_ok!(Staking::set_payee(Origin::signed(10), RewardDestination::Controller));
assert_ok!(Staking::set_payee(Origin::signed(20), RewardDestination::Controller));
assert_ok!(Staking::set_payee(Origin::signed(30), RewardDestination::Controller));
assert_ok!(Staking::set_payee(Origin::signed(40), RewardDestination::Controller));
// no one is a nominator
assert_eq!(<Nominators<Test>>::enumerate().count(), 0 as usize);
// bond [2,1] / [4,3] a nominator
let _ = Balances::deposit_creating(&1, 1000);
let _ = Balances::deposit_creating(&3, 1000);
assert_ok!(Staking::bond(Origin::signed(1), 2, 500, RewardDestination::default()));
assert_ok!(Staking::nominate(Origin::signed(2), vec![11, 21, 31]));
assert_ok!(Staking::bond(Origin::signed(3), 4, 500, RewardDestination::default()));
assert_ok!(Staking::nominate(Origin::signed(4), vec![11, 21, 41]));
// New era => election algorithm will trigger
System::set_block_number(1);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![20, 10]);
// with stake 1666 and 1333 respectively
assert_eq!(Staking::stakers(11).own, 1000);
assert_eq!(Staking::stakers(11).total, 1000 + 332);
assert_eq!(Staking::stakers(21).own, 1000);
assert_eq!(Staking::stakers(21).total, 1000 + 666);
// Nominator's stake distribution.
assert_eq!(Staking::stakers(11).others.iter().map(|e| e.value).collect::<Vec<BalanceOf<Test>>>(), vec![166, 166]);
assert_eq!(Staking::stakers(11).others.iter().map(|e| e.value).sum::<BalanceOf<Test>>(), 332);
assert_eq!(Staking::stakers(11).others.iter().map(|e| e.who).collect::<Vec<BalanceOf<Test>>>(), vec![3, 1]);
assert_eq!(Staking::stakers(21).others.iter().map(|e| e.value).collect::<Vec<BalanceOf<Test>>>(), vec![333, 333]);
assert_eq!(Staking::stakers(21).others.iter().map(|e| e.value).sum::<BalanceOf<Test>>(), 666);
assert_eq!(Staking::stakers(21).others.iter().map(|e| e.who).collect::<Vec<BalanceOf<Test>>>(), vec![3, 1]);
fn phragmen_election_works_example_2() {
// tests the encapsulated phragmen::elect function.
with_externalities(&mut ExtBuilder::default().nominate(false).build(), || {
// initial setup of 10 and 20, both validators
assert_eq!(Session::validators(), vec![20, 10]);
// no one is a nominator
assert_eq!(<Nominators<Test>>::enumerate().count(), 0 as usize);
// Bond [30, 31] as the third validator
assert_ok!(Staking::bond(Origin::signed(31), 30, 1000, RewardDestination::default()));
assert_ok!(Staking::validate(Origin::signed(30), ValidatorPrefs::default()));
// bond [2,1](A), [4,3](B), as 2 nominators
// Give all of them some balance to be able to bond properly.
for i in &[1, 3] { let _ = Balances::deposit_creating(i, 2000); }
assert_ok!(Staking::bond(Origin::signed(1), 2, 50, RewardDestination::default()));
assert_ok!(Staking::nominate(Origin::signed(2), vec![11, 21]));
assert_ok!(Staking::bond(Origin::signed(3), 4, 1000, RewardDestination::default()));
assert_ok!(Staking::nominate(Origin::signed(4), vec![11, 31]));
let rounds = || 2 as usize;
let validators = || <Validators<Test>>::enumerate();
let nominators = || <Nominators<Test>>::enumerate();
let min_validator_count = Staking::minimum_validator_count() as usize;
let winners = phragmen::elect::<Test, _, _, _, _>(
rounds,
validators,
nominators,
Staking::slashable_balance_of,
min_validator_count,
ElectionConfig::<BalanceOf<Test>> {
equalise: true,
tolerance: <BalanceOf<Test>>::sa(10 as u64),
iterations: 10,
}
let winners = winners.unwrap();
assert_eq!(winners.iter().map(|w| w.who).collect::<Vec<BalanceOf<Test>>>(), vec![11, 31]);
let winner_10 = winners.iter().filter(|w| w.who == 11).nth(0).unwrap();
let winner_30 = winners.iter().filter(|w| w.who == 31).nth(0).unwrap();
// python implementation output:
/*
1544
1545
1546
1547
1548
1549
1550
1551
1552
1553
1554
1555
1556
1557
1558
1559
1560
1561
1562
1563
1564
1565
1566
1567
1568
1569
1570
1571
1572
1573
1574
1575
1576
1577
1578
1579
1580
Votes [
('10', 1000, ['10']),
('20', 1000, ['20']),
('30', 1000, ['30']),
('2', 50, ['10', '20']),
('4', 1000, ['10', '30'])
]
Sequential Phragmén gives
10 is elected with stake 1705.7377049180327 and score 0.0004878048780487805
30 is elected with stake 1344.2622950819673 and score 0.0007439024390243903
10 has load 0.0004878048780487805 and supported
10 with stake 1000.0
20 has load 0 and supported
20 with stake 0
30 has load 0.0007439024390243903 and supported
30 with stake 1000.0
2 has load 0.0004878048780487805 and supported
10 with stake 50.0 20 with stake 0.0
4 has load 0.0007439024390243903 and supported
10 with stake 655.7377049180328 30 with stake 344.26229508196724
Sequential Phragmén with post processing gives
10 is elected with stake 1525.0 and score 0.0004878048780487805
30 is elected with stake 1525.0 and score 0.0007439024390243903
10 has load 0.0004878048780487805 and supported
10 with stake 1000.0
20 has load 0 and supported
20 with stake 0
30 has load 0.0007439024390243903 and supported
30 with stake 1000.0
2 has load 0.0004878048780487805 and supported
10 with stake 50.0 20 with stake 0.0
4 has load 0.0007439024390243903 and supported
10 with stake 475.0 30 with stake 525.0
assert_eq!(winner_10.exposure.total, 1000 + 525);
assert_eq!(winner_10.score, Perquintill::from_quintillionths(487804878048780));
assert_eq!(winner_10.exposure.others[0].value, 475);
assert_eq!(winner_10.exposure.others[1].value, 50);
assert_eq!(winner_30.exposure.total, 1000 + 525);
assert_eq!(winner_30.score, Perquintill::from_quintillionths(743902439024390));
assert_eq!(winner_30.exposure.others[0].value, 525);
})
}
#[test]
fn switching_roles() {
// Show: It should be possible to switch between roles (nominator, validator, idle) with minimal overhead.
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.sessions_per_era(3)
.build(),
|| {
// Reset reward destination
for i in &[10, 20] { assert_ok!(Staking::set_payee(Origin::signed(*i), RewardDestination::Controller)); }
assert_eq!(Session::validators(), vec![20, 10]);
// put some money in account that we'll use.
for i in 1..7 { let _ = Balances::deposit_creating(&i, 5000); }
assert_ok!(Staking::bond(Origin::signed(1), 2, 2000, RewardDestination::Controller));
assert_ok!(Staking::nominate(Origin::signed(2), vec![11, 5]));
assert_ok!(Staking::bond(Origin::signed(3), 4, 500, RewardDestination::Controller));
assert_ok!(Staking::nominate(Origin::signed(4), vec![21, 1]));
// add a new validator candidate
assert_ok!(Staking::bond(Origin::signed(5), 6, 1000, RewardDestination::Controller));
assert_ok!(Staking::validate(Origin::signed(6), ValidatorPrefs::default()));
System::set_block_number(1);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![20, 10]);
System::set_block_number(2);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![20, 10]);
// new block --> ne era --> new validators
System::set_block_number(3);
Session::check_rotate_session(System::block_number());
// with current nominators 10 and 5 have the most stake
assert_eq!(Session::validators(), vec![6, 10]);
// 2 decides to be a validator. Consequences:
// new stakes:
// 10: 1000 self vote
// 6: 1000 self vote
// 20: 1000 self vote + 500 vote
// 2: 2000 self vote + 500 vote.
assert_ok!(Staking::validate(Origin::signed(2), ValidatorPrefs::default()));
System::set_block_number(4);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![6, 10]);
System::set_block_number(5);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![6, 10]);
System::set_block_number(6);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![2, 20]);
});
}
#[test]
fn wrong_vote_is_null() {
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.validator_pool(true)
.build(),
|| {
assert_eq!(Session::validators(), vec![40, 30]);
// put some money in account that we'll use.
for i in 1..3 { let _ = Balances::deposit_creating(&i, 5000); }
// add 1 nominators
assert_ok!(Staking::bond(Origin::signed(1), 2, 2000, RewardDestination::default()));
assert_ok!(Staking::nominate(Origin::signed(2), vec![
1, 2, 15, 1000, 25 // crap votes. No effect.
]));
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// new block
System::set_block_number(1);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![20, 10]);
});
}
#[test]
fn bond_with_no_staked_value() {
// Behavior when someone bonds with no staked value.
// Particularly when she votes and the candidate is elected.
with_externalities(&mut ExtBuilder::default()
.validator_count(3)
.nominate(false)
.minimum_validator_count(1)
.build(), || {
// setup
assert_ok!(Staking::set_payee(Origin::signed(10), RewardDestination::Controller));
assert_ok!(Staking::set_payee(Origin::signed(20), RewardDestination::Controller));
let _ = Balances::deposit_creating(&3, 1000);
let initial_balance_2 = Balances::free_balance(&2);
let initial_balance_4 = Balances::free_balance(&4);
// initial validators
assert_eq!(Session::validators(), vec![20, 10]);
// Stingy validator.
assert_ok!(Staking::bond(Origin::signed(1), 2, 0, RewardDestination::Controller));
assert_ok!(Staking::validate(Origin::signed(2), ValidatorPrefs::default()));
System::set_block_number(1);
Session::check_rotate_session(System::block_number());
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// Not elected even though we want 3.
assert_eq!(Session::validators(), vec![20, 10]);
// min of 10 and 20.
assert_eq!(Staking::slot_stake(), 1000);
// let's make the stingy one elected.
assert_ok!(Staking::bond(Origin::signed(3), 4, 500, RewardDestination::Controller));
assert_ok!(Staking::nominate(Origin::signed(4), vec![1]));
assert_eq!(Staking::ledger(4), Some(StakingLedger { stash: 3, active: 500, total: 500, unlocking: vec![]}));
assert_eq!(Balances::free_balance(&2), initial_balance_2);
assert_eq!(Balances::free_balance(&4), initial_balance_4);
System::set_block_number(2);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![20, 10, 2]);
assert_eq!(Staking::stakers(1), Exposure { own: 0, total: 500, others: vec![IndividualExposure { who: 3, value: 500}]});
assert_eq!(Staking::slot_stake(), 500);
// no rewards paid to 2 and 4 yet
assert_eq!(Balances::free_balance(&2), initial_balance_2);
assert_eq!(Balances::free_balance(&4), initial_balance_4);
System::set_block_number(3);
Session::check_rotate_session(System::block_number());
let reward = Staking::current_session_reward();
// 2 will not get any reward
// 4 will get all the reward share
assert_eq!(Balances::free_balance(&2), initial_balance_2);
// assert_eq!(Balances::free_balance(&4), initial_balance_4 + reward);
assert_eq!(Balances::free_balance(&4), initial_balance_4 + reward);
});
}
#[test]
fn bond_with_little_staked_value() {
// Behavior when someone bonds with little staked value.
// Particularly when she votes and the candidate is elected.
with_externalities(&mut ExtBuilder::default()
.validator_count(3)
.nominate(false)
.minimum_validator_count(1)
.build(),
|| {
// setup
assert_ok!(Staking::set_payee(Origin::signed(10), RewardDestination::Controller));
assert_ok!(Staking::set_payee(Origin::signed(20), RewardDestination::Controller));
let initial_balance_2 = Balances::free_balance(&2);
// initial validators
assert_eq!(Session::validators(), vec![20, 10]);
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// Stingy validator.
assert_ok!(Staking::bond(Origin::signed(1), 2, 1, RewardDestination::Controller));
assert_ok!(Staking::validate(Origin::signed(2), ValidatorPrefs::default()));
System::set_block_number(1);
Session::check_rotate_session(System::block_number());
// 2 is elected.
// and fucks up the slot stake.
assert_eq!(Session::validators(), vec![20, 10, 2]);
assert_eq!(Staking::slot_stake(), 1);
// Old ones are rewarded.
assert_eq!(Balances::free_balance(&10), 1 + 10);
assert_eq!(Balances::free_balance(&20), 1 + 10);
// no rewards paid to 2. This was initial election.
assert_eq!(Balances::free_balance(&2), initial_balance_2);
System::set_block_number(2);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![20, 10, 2]);
assert_eq!(Staking::slot_stake(), 1);
let reward = Staking::current_session_reward();
// 2 will not get the full reward, practically 1
assert_eq!(Balances::free_balance(&2), initial_balance_2 + reward.max(1));
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#[test]
#[ignore] // Enable this once post-processing is on.
fn phragmen_linear_worse_case_equalise() {
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.validator_pool(true)
.fare(true)
.build(),
|| {
let bond_validator = |a, b| {
let _ = Balances::deposit_creating(&(a-1), b);
assert_ok!(Staking::bond(Origin::signed(a-1), a, b, RewardDestination::Controller));
assert_ok!(Staking::validate(Origin::signed(a), ValidatorPrefs::default()));
};
let bond_nominator = |a, b, v| {
let _ = Balances::deposit_creating(&(a-1), b);
assert_ok!(Staking::bond(Origin::signed(a-1), a, b, RewardDestination::Controller));
assert_ok!(Staking::nominate(Origin::signed(a), v));
};
for i in &[10, 20, 30, 40] { assert_ok!(Staking::set_payee(Origin::signed(*i), RewardDestination::Controller)); }
bond_validator(50, 1000);
bond_validator(60, 1000);
bond_validator(70, 1000);
bond_nominator(2, 2000, vec![11]);
bond_nominator(4, 1000, vec![11, 21]);
bond_nominator(6, 1000, vec![21, 31]);
bond_nominator(8, 1000, vec![31, 41]);
bond_nominator(110, 1000, vec![41, 51]);
bond_nominator(112, 1000, vec![51, 61]);
bond_nominator(114, 1000, vec![61, 71]);
assert_eq!(Session::validators(), vec![40, 30]);
assert_ok!(Staking::set_validator_count(7));
System::set_block_number(1);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators(), vec![10, 60, 40, 20, 50, 30, 70]);
// Sequential Phragmén with post processing gives
// 10 is elected with stake 3000.0 and score 0.00025
// 30 is elected with stake 2008.8712884829595 and score 0.0003333333333333333
// 50 is elected with stake 2000.0001049958742 and score 0.0003333333333333333
// 60 is elected with stake 1991.128921508789 and score 0.0004444444444444444
// 20 is elected with stake 2017.7421569824219 and score 0.0005277777777777777
// 40 is elected with stake 2000.0001049958742 and score 0.0005555555555555556
// 70 is elected with stake 1982.2574230340813 and score 0.0007222222222222222
assert_eq!(Staking::stakers(11).total, 3000);
assert_eq!(Staking::stakers(31).total, 2035);
assert_eq!(Staking::stakers(51).total, 2000);
assert_eq!(Staking::stakers(61).total, 1968);
assert_eq!(Staking::stakers(21).total, 2035);
assert_eq!(Staking::stakers(41).total, 2024);
assert_eq!(Staking::stakers(71).total, 1936);
})
}
#[test]
fn phragmen_chooses_correct_validators() {
with_externalities(&mut ExtBuilder::default()
.nominate(true)
.validator_pool(true)
.fare(true)
.validator_count(1)
.build(),
|| {
// 4 validator candidates
// self vote + default account 100 is nominator.
assert_eq!(Staking::validator_count(), 1);
assert_eq!(Session::validators().len(), 1);
System::set_block_number(1);
Session::check_rotate_session(System::block_number());
assert_eq!(Session::validators().len(), 1);
})
}