Newer
Older
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committed
(Nominators::<Test>::count() + Validators::<Test>::count()) as u32;
assert_eq!(<Test as Config>::VoterList::count(), pre_insert_voter_count);
assert_eq!(<Test as Config>::VoterList::iter().collect::<Vec<_>>(), vec![11, 21, 31]);
// when account 11 re-validates
assert_ok!(Staking::validate(Origin::signed(10), Default::default()));
// then counts don't change
assert_eq!(<Test as Config>::VoterList::count(), pre_insert_voter_count);
// and the list is the same
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assert_eq!(<Test as Config>::VoterList::iter().collect::<Vec<_>>(), vec![11, 21, 31]);
});
}
}
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#[test]
fn force_apply_min_commission_works() {
let prefs = |c| ValidatorPrefs { commission: Perbill::from_percent(c), blocked: false };
let validators = || Validators::<Test>::iter().collect::<Vec<_>>();
ExtBuilder::default().build_and_execute(|| {
assert_ok!(Staking::validate(Origin::signed(30), prefs(10)));
assert_ok!(Staking::validate(Origin::signed(20), prefs(5)));
// Given
assert_eq!(validators(), vec![(31, prefs(10)), (21, prefs(5)), (11, prefs(0))]);
MinCommission::<Test>::set(Perbill::from_percent(5));
// When applying to a commission greater than min
assert_ok!(Staking::force_apply_min_commission(Origin::signed(1), 31));
// Then the commission is not changed
assert_eq!(validators(), vec![(31, prefs(10)), (21, prefs(5)), (11, prefs(0))]);
// When applying to a commission that is equal to min
assert_ok!(Staking::force_apply_min_commission(Origin::signed(1), 21));
// Then the commission is not changed
assert_eq!(validators(), vec![(31, prefs(10)), (21, prefs(5)), (11, prefs(0))]);
// When applying to a commission that is less than the min
assert_ok!(Staking::force_apply_min_commission(Origin::signed(1), 11));
// Then the commission is bumped to the min
assert_eq!(validators(), vec![(31, prefs(10)), (21, prefs(5)), (11, prefs(5))]);
// When applying commission to a validator that doesn't exist then storage is not altered
assert_noop!(
Staking::force_apply_min_commission(Origin::signed(1), 420),
Error::<Test>::NotStash
);
});
}
#[test]
fn proportional_slash_stop_slashing_if_remaining_zero() {
let c = |era, value| UnlockChunk::<Balance> { era, value };
// Given
let mut ledger = StakingLedger::<Test> {
stash: 123,
total: 40,
active: 20,
// we have some chunks, but they are not affected.
unlocking: bounded_vec![c(1, 10), c(2, 10)],
claimed_rewards: vec![],
};
assert_eq!(BondingDuration::get(), 3);
// should not slash more than the amount requested, by accidentally slashing the first chunk.
assert_eq!(ledger.slash(18, 1, 0), 18);
}
fn proportional_ledger_slash_works() {
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let c = |era, value| UnlockChunk::<Balance> { era, value };
// Given
let mut ledger = StakingLedger::<Test> {
stash: 123,
total: 10,
active: 10,
unlocking: bounded_vec![],
claimed_rewards: vec![],
};
assert_eq!(BondingDuration::get(), 3);
// When we slash a ledger with no unlocking chunks
assert_eq!(ledger.slash(5, 1, 0), 5);
// Then
assert_eq!(ledger.total, 5);
assert_eq!(ledger.active, 5);
assert_eq!(LedgerSlashPerEra::get().0, 5);
assert_eq!(LedgerSlashPerEra::get().1, Default::default());
// When we slash a ledger with no unlocking chunks and the slash amount is greater then the
// total
assert_eq!(ledger.slash(11, 1, 0), 5);
// Then
assert_eq!(ledger.total, 0);
assert_eq!(ledger.active, 0);
assert_eq!(LedgerSlashPerEra::get().0, 0);
assert_eq!(LedgerSlashPerEra::get().1, Default::default());
// Given
ledger.unlocking = bounded_vec![c(4, 10), c(5, 10)];
ledger.total = 2 * 10;
ledger.active = 0;
// When all the chunks overlap with the slash eras
assert_eq!(ledger.slash(20, 0, 0), 20);
// Then
assert_eq!(ledger.unlocking, vec![]);
assert_eq!(ledger.total, 0);
assert_eq!(LedgerSlashPerEra::get().0, 0);
assert_eq!(LedgerSlashPerEra::get().1, BTreeMap::from([(4, 0), (5, 0)]));
// Given
ledger.unlocking = bounded_vec![c(4, 100), c(5, 100), c(6, 100), c(7, 100)];
ledger.total = 4 * 100;
ledger.active = 0;
// When the first 2 chunks don't overlap with the affected range of unlock eras.
assert_eq!(ledger.slash(140, 0, 3), 140);
// Then
assert_eq!(ledger.unlocking, vec![c(4, 100), c(5, 100), c(6, 30), c(7, 30)]);
assert_eq!(ledger.total, 4 * 100 - 140);
assert_eq!(LedgerSlashPerEra::get().0, 0);
assert_eq!(LedgerSlashPerEra::get().1, BTreeMap::from([(6, 30), (7, 30)]));
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// Given
ledger.unlocking = bounded_vec![c(4, 100), c(5, 100), c(6, 100), c(7, 100)];
ledger.total = 4 * 100;
ledger.active = 0;
// When the first 2 chunks don't overlap with the affected range of unlock eras.
assert_eq!(ledger.slash(15, 0, 3), 15);
// Then
assert_eq!(ledger.unlocking, vec![c(4, 100), c(5, 100), c(6, 100 - 8), c(7, 100 - 7)]);
assert_eq!(ledger.total, 4 * 100 - 15);
assert_eq!(LedgerSlashPerEra::get().0, 0);
assert_eq!(LedgerSlashPerEra::get().1, BTreeMap::from([(6, 92), (7, 93)]));
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// Given
ledger.unlocking = bounded_vec![c(4, 40), c(5, 100), c(6, 10), c(7, 250)];
ledger.active = 500;
// 900
ledger.total = 40 + 10 + 100 + 250 + 500;
// When we have a partial slash that touches all chunks
assert_eq!(ledger.slash(900 / 2, 0, 0), 450);
// Then
assert_eq!(ledger.active, 500 / 2);
assert_eq!(ledger.unlocking, vec![c(4, 40 / 2), c(5, 100 / 2), c(6, 10 / 2), c(7, 250 / 2)]);
assert_eq!(ledger.total, 900 / 2);
assert_eq!(LedgerSlashPerEra::get().0, 500 / 2);
assert_eq!(
LedgerSlashPerEra::get().1,
BTreeMap::from([(4, 40 / 2), (5, 100 / 2), (6, 10 / 2), (7, 250 / 2)])
);
// slash 1/4th with not chunk.
ledger.unlocking = bounded_vec![];
ledger.active = 500;
ledger.total = 500;
// When we have a partial slash that touches all chunks
assert_eq!(ledger.slash(500 / 4, 0, 0), 500 / 4);
// Then
assert_eq!(ledger.active, 3 * 500 / 4);
assert_eq!(ledger.unlocking, vec![]);
assert_eq!(ledger.total, ledger.active);
assert_eq!(LedgerSlashPerEra::get().0, 3 * 500 / 4);
assert_eq!(LedgerSlashPerEra::get().1, Default::default());
// Given we have the same as above,
ledger.unlocking = bounded_vec![c(4, 40), c(5, 100), c(6, 10), c(7, 250)];
ledger.active = 500;
ledger.total = 40 + 10 + 100 + 250 + 500; // 900
assert_eq!(ledger.total, 900);
// When we have a higher min balance
assert_eq!(
ledger.slash(
900 / 2,
25, /* min balance - chunks with era 0 & 2 will be slashed to <=25, causing it to
* get swept */
0
),
);
assert_eq!(ledger.active, 500 / 2);
// the last chunk was not slashed 50% like all the rest, because some other earlier chunks got
// dusted.
assert_eq!(ledger.unlocking, vec![c(5, 100 / 2), c(7, 150)]);
assert_eq!(ledger.total, 900 / 2);
assert_eq!(LedgerSlashPerEra::get().0, 500 / 2);
assert_eq!(
LedgerSlashPerEra::get().1,
BTreeMap::from([(4, 0), (5, 100 / 2), (6, 0), (7, 150)])
);
// Given
// slash order --------------------NA--------2----------0----------1----
ledger.unlocking = bounded_vec![c(4, 40), c(5, 100), c(6, 10), c(7, 250)];
ledger.active = 500;
ledger.total = 40 + 10 + 100 + 250 + 500; // 900
assert_eq!(
ledger.slash(
500 + 10 + 250 + 100 / 2, // active + era 6 + era 7 + era 5 / 2
0,
3 /* slash era 6 first, so the affected parts are era 6, era 7 and
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* ledge.active. This will cause the affected to go to zero, and then we will
* start slashing older chunks */
),
500 + 250 + 10 + 100 / 2
);
// Then
assert_eq!(ledger.active, 0);
assert_eq!(ledger.unlocking, vec![c(4, 40), c(5, 100 / 2)]);
assert_eq!(ledger.total, 90);
assert_eq!(LedgerSlashPerEra::get().0, 0);
assert_eq!(LedgerSlashPerEra::get().1, BTreeMap::from([(5, 100 / 2), (6, 0), (7, 0)]));
// Given
// iteration order------------------NA---------2----------0----------1----
ledger.unlocking = bounded_vec![c(4, 100), c(5, 100), c(6, 100), c(7, 100)];
ledger.active = 100;
ledger.total = 5 * 100;
// When
assert_eq!(
ledger.slash(
351, // active + era 6 + era 7 + era 5 / 2 + 1
50, // min balance - everything slashed below 50 will get dusted
3 /* slash era 3+3 first, so the affected parts are era 6, era 7 and
* ledge.active. This will cause the affected to go to zero, and then we will
* start slashing older chunks */
),
400
);
// Then
assert_eq!(ledger.active, 0);
assert_eq!(ledger.unlocking, vec![c(4, 100)]);
assert_eq!(ledger.total, 100);
assert_eq!(LedgerSlashPerEra::get().0, 0);
assert_eq!(LedgerSlashPerEra::get().1, BTreeMap::from([(5, 0), (6, 0), (7, 0)]));
// Tests for saturating arithmetic
// Given
let slash = u64::MAX as Balance * 2;
// The value of the other parts of ledger that will get slashed
let value = slash - (10 * 4);
ledger.active = 10;
ledger.unlocking = bounded_vec![c(4, 10), c(5, 10), c(6, 10), c(7, value)];
ledger.total = value + 40;
// When
let slash_amount = ledger.slash(slash, 0, 0);
assert_eq_error_rate!(slash_amount, slash, 5);
// Then
assert_eq!(ledger.active, 0); // slash of 9
assert_eq!(ledger.unlocking, vec![]);
assert_eq!(ledger.total, 0);
assert_eq!(LedgerSlashPerEra::get().0, 0);
assert_eq!(LedgerSlashPerEra::get().1, BTreeMap::from([(4, 0), (5, 0), (6, 0), (7, 0)]));
// Given
NingLin-P
committed
use sp_runtime::PerThing as _;
let slash = u64::MAX as Balance * 2;
let value = u64::MAX as Balance * 2;
let unit = 100;
// slash * value that will saturate
assert!(slash.checked_mul(value).is_none());
// but slash * unit won't.
assert!(slash.checked_mul(unit).is_some());
ledger.unlocking = bounded_vec![c(4, unit), c(5, value), c(6, unit), c(7, unit)];
//--------------------------------------note value^^^
ledger.active = unit;
ledger.total = unit * 4 + value;
// When
NingLin-P
committed
assert_eq!(ledger.slash(slash, 0, 0), slash - 5);
// Then
// The amount slashed out of `unit`
let affected_balance = value + unit * 4;
NingLin-P
committed
let ratio =
Perquintill::from_rational_with_rounding(slash, affected_balance, Rounding::Up).unwrap();
// `unit` after the slash is applied
let unit_slashed = {
NingLin-P
committed
let unit_slash = ratio.mul_ceil(unit);
unit - unit_slash
};
let value_slashed = {
NingLin-P
committed
let value_slash = ratio.mul_ceil(value);
value - value_slash
};
assert_eq!(ledger.active, unit_slashed);
assert_eq!(ledger.unlocking, vec![c(5, value_slashed)]);
assert_eq!(ledger.total, value_slashed);
assert_eq!(LedgerSlashPerEra::get().0, 0);
assert_eq!(
LedgerSlashPerEra::get().1,
BTreeMap::from([(4, 0), (5, value_slashed), (6, 0), (7, 0)])
);
}