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let recorded_stash_balance = 1000 + total_payout_0 + total_payout_1;
// Check that amount at stake is NOT increased
assert_eq!(Staking::ledger(&10), Some(StakingLedger {
stash: 11,
total: 1000 + total_payout_0,
active: 1000 + total_payout_0,
// Change RewardDestination to Controller
<Payee<Test>>::insert(&11, RewardDestination::Controller);
// Check controller balance
assert_eq!(Balances::free_balance(&10), 1);
// Compute total payout now for whole duration as other parameter won't change
let total_payout_2 = current_total_payout_for_duration(3);
assert!(total_payout_2 > 100); // Test is meaningfull if reward something
<Module<Test>>::reward_by_ids(vec![(11, 1)]);
// Check that RewardDestination is Controller
assert_eq!(Staking::payee(&11), RewardDestination::Controller);
// Check that reward went to the controller account
assert_eq!(Balances::free_balance(&10), 1 + total_payout_2);
// Check that amount at stake is NOT increased
assert_eq!(Staking::ledger(&10), Some(StakingLedger {
stash: 11,
total: 1000 + total_payout_0,
active: 1000 + total_payout_0,
// Check that amount in staked account is NOT increased.
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()
.build(),
let stash_initial_balance = Balances::total_balance(&11);
// 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), stash_initial_balance);
let _ = Balances::make_free_balance_be(&2, 500);
<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
// Compute total payout now for whole duration as other parameter won't change
let total_payout_0 = current_total_payout_for_duration(3);
assert!(total_payout_0 > 100); // Test is meaningfull if reward something
<Module<Test>>::reward_by_ids(vec![(11, 1)]);
// whats left to be shared is the sum of 3 rounds minus the validator's cut.
let shared_cut = total_payout_0 - validator_cut;
// Validator's payee is Staked account, 11, reward will be paid here.
assert_eq!(Balances::total_balance(&11), stash_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::make_free_balance_be(&11, 1000000);
// Call the bond_extra function from controller, add only 100
assert_ok!(Staking::bond_extra(Origin::signed(11), 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(11), 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![],
}));
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));
// Give account 11 some large free balance greater than total
let _ = Balances::make_free_balance_be(&11, 1000000);
// Initial config should be correct
assert_eq!(Staking::current_era(), 0);
assert_eq!(Session::current_index(), 0);
// 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.
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(11), 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![] });
Timestamp::set_timestamp(10);
start_era(2);
assert_eq!(Staking::current_era(), 2);
// ledger should be the same.
assert_eq!(Staking::ledger(&10), Some(StakingLedger {
stash: 11,
total: 1000 + 100,
active: 1000 + 100,
unlocking: vec![],
}));
assert_eq!(Staking::stakers(&11), Exposure { total: 1000 + 100, own: 1000 + 100, others: vec![] });
// 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 + 3}] })
// 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 + 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 + 3}] }));
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 too_many_unbond_calls_should_not_work() {
with_externalities(&mut ExtBuilder::default().build(), || {
// locked at era 0 until 3
for _ in 0..MAX_UNLOCKING_CHUNKS-1 {
assert_ok!(Staking::unbond(Origin::signed(10), 1));
}
assert_ok!(Staking::unbond(Origin::signed(10), 1));
// can't do more.
assert_noop!(Staking::unbond(Origin::signed(10), 1), "can not schedule more unlock chunks");
assert_noop!(Staking::unbond(Origin::signed(10), 1), "can not schedule more unlock chunks");
// free up.
assert_ok!(Staking::withdraw_unbonded(Origin::signed(10)));
// Can add again.
assert_ok!(Staking::unbond(Origin::signed(10), 1));
assert_eq!(Staking::ledger(&10).unwrap().unlocking.len(), 2);
})
}
fn slot_stake_is_least_staked_validator_and_exposure_defines_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
with_externalities(&mut ExtBuilder::default()
.nominate(false)
// 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::make_free_balance_be(&10, 1000);
let _ = Balances::make_free_balance_be(&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![] });
// Compute total payout now for whole duration as other parameter won't change
let total_payout_0 = current_total_payout_for_duration(3);
assert!(total_payout_0 > 100); // Test is meaningfull if reward something
<Module<Test>>::reward_by_ids(vec![(11, 1)]);
<Module<Test>>::reward_by_ids(vec![(21, 1)]);
// New era --> rewards are paid --> stakes are changed
assert_eq!(Staking::stakers(&11).total, 1000 + total_payout_0/2);
assert_eq!(Staking::stakers(&21).total, 69 + total_payout_0/2);
let _11_balance = Balances::free_balance(&11);
assert_eq!(_11_balance, 1000 + total_payout_0/2);
// -- slot stake should also be updated.
assert_eq!(Staking::slot_stake(), 69 + total_payout_0/2);
// If 10 gets slashed now, it will be slashed by 5% of exposure.total * 2.pow(unstake_thresh)
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), _11_balance - _11_balance*5/100 * 2u64.pow(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 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
let _ = 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
let _ = 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);
// 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
let _ = 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
let _ = 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_uvec!(validator_controllers(), vec![40, 30]);
// Set payees to Controller
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
assert_eq_uvec!(validator_controllers(), vec![20, 10]);
assert_eq!(Staking::stakers(11).own, 1000);
assert_eq!(Staking::stakers(21).own, 1000);
if cfg!(feature = "equalize") {
assert_eq!(Staking::stakers(11).total, 1000 + 499);
assert_eq!(Staking::stakers(21).total, 1000 + 499);
} else {
assert_eq!(Staking::stakers(11).total, 1000 + 332);
assert_eq!(Staking::stakers(21).total, 1000 + 666);
}
// Nominator's stake distribution.
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.who).collect::<Vec<BalanceOf<Test>>>(), vec![3, 1]);
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if cfg!(feature = "equalize") {
assert_eq_uvec!(
Staking::stakers(11).others.iter().map(|e| e.value).collect::<Vec<BalanceOf<Test>>>(),
vec![333, 166]
);
assert_eq!(
Staking::stakers(11).others.iter().map(|e| e.value).sum::<BalanceOf<Test>>(),
499
);
assert_eq_uvec!(
Staking::stakers(21).others.iter().map(|e| e.value).collect::<Vec<BalanceOf<Test>>>(),
vec![333, 166]
);
assert_eq!(
Staking::stakers(21).others.iter().map(|e| e.value).sum::<BalanceOf<Test>>(),
499
);
} else {
assert_eq_uvec!(
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_uvec!(
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
);
}
// tests the encapsulated phragmen::elect function.
// 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
with_externalities(&mut ExtBuilder::default().nominate(false).build(), || {
// initial setup of 10 and 20, both validators
assert_eq_uvec!(validator_controllers(), vec![20, 10]);
// Bond [30, 31] as the third validator
assert_ok!(Staking::bond_extra(Origin::signed(31), 999));
assert_ok!(Staking::validate(Origin::signed(30), ValidatorPrefs::default()));
// bond [2,1](A), [4,3](B), as 2 nominators
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 winners = phragmen::elect::<Test, _, _, _>(
2,
Staking::minimum_validator_count() as usize,
<Validators<Test>>::enumerate(),
<Nominators<Test>>::enumerate(),
Staking::slashable_balance_of,
let (winners, assignment) = winners.unwrap();
assert_eq!(winners, vec![11, 31]);
assert_eq!(assignment, vec![
(3, vec![(11, 2816371998), (31, 1478595298)]),
(1, vec![(11, 4294967296)]),
]);
check_exposure_all();
})
}
#[test]
fn switching_roles() {
// Test that it should be possible to switch between roles (nominator, validator, idle) with minimal overhead.
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.build(),
|| {
Timestamp::set_timestamp(1); // Initialize time.
// Reset reward destination
for i in &[10, 20] { assert_ok!(Staking::set_payee(Origin::signed(*i), RewardDestination::Controller)); }
assert_eq_uvec!(validator_controllers(), 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()));
assert_eq_uvec!(validator_controllers(), vec![20, 10]);
assert_eq_uvec!(validator_controllers(), vec![20, 10]);
// new block --> ne era --> new validators
// with current nominators 10 and 5 have the most stake
assert_eq_uvec!(validator_controllers(), vec![6, 10]);
// 2 decides to be a validator. Consequences:
assert_ok!(Staking::validate(Origin::signed(2), ValidatorPrefs::default()));
// new stakes:
// 10: 1000 self vote
// 6 : 1000 self vote
// Winners: 20 and 2
assert_eq_uvec!(validator_controllers(), vec![6, 10]);
assert_eq_uvec!(validator_controllers(), vec![6, 10]);
assert_eq_uvec!(validator_controllers(), vec![2, 20]);
});
}
#[test]
fn wrong_vote_is_null() {
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.validator_pool(true)
.build(),
|| {
assert_eq_uvec!(validator_controllers(), 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.
]));
assert_eq_uvec!(validator_controllers(), 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)
.existential_deposit(5)
.nominate(false)
.minimum_validator_count(1)
.build(), || {
assert_noop!(
Staking::bond(Origin::signed(1), 2, 1, RewardDestination::Controller),
"can not bond with value less than minimum balance"
);
// bonded with absolute minimum value possible.
assert_ok!(Staking::bond(Origin::signed(1), 2, 5, RewardDestination::Controller));
assert_eq!(Balances::locks(&1)[0].amount, 5);
// unbonding even 1 will cause all to be unbonded.
assert_ok!(Staking::unbond(Origin::signed(2), 1));
assert_eq!(
Staking::ledger(2),
Some(StakingLedger {
stash: 1,
active: 0,
total: 5,
unlocking: vec![UnlockChunk {value: 5, era: 3}]
})
);
start_era(1);
start_era(2);
// not yet removed.
assert_ok!(Staking::withdraw_unbonded(Origin::signed(2)));
assert!(Staking::ledger(2).is_some());
assert_eq!(Balances::locks(&1)[0].amount, 5);
// poof. Account 1 is removed from the staking system.
assert_ok!(Staking::withdraw_unbonded(Origin::signed(2)));
assert!(Staking::ledger(2).is_none());
assert_eq!(Balances::locks(&1).len(), 0);
});
}
#[test]
fn bond_with_little_staked_value_bounded_by_slot_stake() {
// 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(),
|| {
assert_ok!(Staking::chill(Origin::signed(30)));
assert_ok!(Staking::set_payee(Origin::signed(10), RewardDestination::Controller));
let init_balance_2 = Balances::free_balance(&2);
let init_balance_10 = Balances::free_balance(&10);
// Stingy validator.
assert_ok!(Staking::bond(Origin::signed(1), 2, 1, RewardDestination::Controller));
assert_ok!(Staking::validate(Origin::signed(2), ValidatorPrefs::default()));
let total_payout_0 = current_total_payout_for_duration(3);
assert!(total_payout_0 > 100); // Test is meaningfull if reward something
// 2 is elected.
// and fucks up the slot stake.
assert_eq_uvec!(validator_controllers(), vec![20, 10, 2]);
assert_eq!(Staking::slot_stake(), 1);
// Old ones are rewarded.
assert_eq!(Balances::free_balance(&10), init_balance_10 + total_payout_0/3);
// no rewards paid to 2. This was initial election.
assert_eq!(Balances::free_balance(&2), init_balance_2);
let total_payout_1 = current_total_payout_for_duration(3);
assert!(total_payout_1 > 100); // Test is meaningfull if reward something
assert_eq_uvec!(validator_controllers(), vec![20, 10, 2]);
assert_eq!(Staking::slot_stake(), 1);
assert_eq!(Balances::free_balance(&2), init_balance_2 + total_payout_1/3);
assert_eq!(Balances::free_balance(&10), init_balance_10 + total_payout_0/3 + total_payout_1/3);
fn phragmen_linear_worse_case_equalize() {
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.validator_pool(true)
.build(),
|| {
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(120, 1000, vec![51, 61]);
bond_nominator(130, 1000, vec![61, 71]);
for i in &[10, 20, 30, 40, 50, 60, 70] {
assert_ok!(Staking::set_payee(Origin::signed(*i), RewardDestination::Controller));
}
assert_eq_uvec!(validator_controllers(), vec![40, 30]);
assert_ok!(Staking::set_validator_count(Origin::ROOT, 7));
assert_eq_uvec!(validator_controllers(), vec![10, 60, 40, 20, 50, 30, 70]);
assert_eq!(Staking::stakers(11).total, 3000);
assert_eq!(Staking::stakers(21).total, 2254);
assert_eq!(Staking::stakers(31).total, 2254);
assert_eq!(Staking::stakers(41).total, 1926);
assert_eq!(Staking::stakers(51).total, 1871);
assert_eq!(Staking::stakers(61).total, 1892);
assert_eq!(Staking::stakers(71).total, 1799);
})
}
#[test]
fn phragmen_chooses_correct_number_of_validators() {
with_externalities(&mut ExtBuilder::default()
.nominate(true)
.validator_pool(true)
.validator_count(1)
.build(),
|| {
assert_eq!(Staking::validator_count(), 1);
assert_eq!(validator_controllers().len(), 1);
System::set_block_number(1);
Session::on_initialize(System::block_number());
assert_eq!(validator_controllers().len(), 1);
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#[test]
fn phragmen_score_should_be_accurate_on_large_stakes() {
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.build(),
|| {
bond_validator(2, u64::max_value());
bond_validator(4, u64::max_value());
bond_validator(6, u64::max_value()-1);
bond_validator(8, u64::max_value()-2);
assert_eq!(validator_controllers(), vec![4, 2]);
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#[test]
fn phragmen_should_not_overflow_validators() {
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.build(),
|| {
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let _ = Staking::chill(Origin::signed(10));
let _ = Staking::chill(Origin::signed(20));
bond_validator(2, u64::max_value());
bond_validator(4, u64::max_value());
bond_nominator(6, u64::max_value()/2, vec![3, 5]);
bond_nominator(8, u64::max_value()/2, vec![3, 5]);
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assert_eq_uvec!(validator_controllers(), vec![4, 2]);
// This test will fail this. Will saturate.
// check_exposure_all();
assert_eq!(Staking::stakers(3).total, u64::max_value());
assert_eq!(Staking::stakers(5).total, u64::max_value());
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})
}
#[test]
fn phragmen_should_not_overflow_nominators() {
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.build(),
|| {
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let _ = Staking::chill(Origin::signed(10));
let _ = Staking::chill(Origin::signed(20));
bond_validator(2, u64::max_value()/2);
bond_validator(4, u64::max_value()/2);
bond_nominator(6, u64::max_value(), vec![3, 5]);
bond_nominator(8, u64::max_value(), vec![3, 5]);
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assert_eq_uvec!(validator_controllers(), vec![4, 2]);
// Saturate.
assert_eq!(Staking::stakers(3).total, u64::max_value());
assert_eq!(Staking::stakers(5).total, u64::max_value());
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})
}
#[test]
fn phragmen_should_not_overflow_ultimate() {
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.build(),
|| {
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bond_validator(2, u64::max_value());
bond_validator(4, u64::max_value());
bond_nominator(6, u64::max_value(), vec![3, 5]);
bond_nominator(8, u64::max_value(), vec![3, 5]);
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assert_eq_uvec!(validator_controllers(), vec![4, 2]);
// Saturate.
assert_eq!(Staking::stakers(3).total, u64::max_value());
assert_eq!(Staking::stakers(5).total, u64::max_value());
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})
with_externalities(&mut ExtBuilder::default()
.nominate(false)
.minimum_validator_count(1)
.validator_count(20)
.build(),
|| {
let _ = Staking::chill(Origin::signed(10));
let _ = Staking::chill(Origin::signed(20));
let _ = Staking::chill(Origin::signed(30));
let prefix = 200;
bond_validator(prefix + 2, 1);
bond_validator(prefix + 4, 100);
bond_validator(prefix + 6, 1000000);
bond_validator(prefix + 8, 100000000001000);
bond_validator(prefix + 10, 100000000002000);
bond_validator(prefix + 12, 100000000003000);
bond_validator(prefix + 14, 400000000000000);
bond_validator(prefix + 16, 400000000001000);
bond_validator(prefix + 18, 18000000000000000);
bond_validator(prefix + 20, 20000000000000000);
bond_validator(prefix + 22, 500000000000100000);
bond_validator(prefix + 24, 500000000000200000);
bond_nominator(50, 990000000000000000, vec![
prefix + 3,
prefix + 5,
prefix + 7,
prefix + 9,
prefix + 11,