Newer
Older
current_era(),
3004
3005
3006
3007
3008
3009
3010
3011
3012
3013
3014
3015
3016
3017
3018
3019
3020
3021
3022
3023
3024
3025
3026
3027
3028
3029
3030
3031
3032
3033
3034
3035
3036
3037
3038
3039
));
let queued_result = Staking::queued_elected().unwrap();
assert_eq!(queued_result.compute, ElectionCompute::Signed);
run_to_block(15);
assert_eq!(Staking::era_election_status(), ElectionStatus::Closed);
assert_eq!(
System::events()
.into_iter()
.map(|r| r.event)
.filter_map(|e| {
if let MetaEvent::staking(inner) = e {
Some(inner)
} else {
None
}
})
.last()
.unwrap(),
RawEvent::StakingElection(ElectionCompute::Signed),
);
})
}
#[test]
fn signed_result_can_be_submitted_later() {
// same as `signed_result_can_be_submitted` but at a later block.
ExtBuilder::default()
.offchain_phragmen_ext()
.build()
.execute_with(|| {
run_to_block(14);
assert_eq!(Staking::era_election_status(), ElectionStatus::Open(12));
let (compact, winners, score) = prepare_submission_with(true, 2, |_| {});
assert_ok!(Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
3047
3048
3049
3050
3051
3052
3053
3054
3055
3056
3057
3058
3059
3060
3061
3062
3063
3064
3065
3066
3067
3068
3069
3070
3071
3072
3073
3074
));
let queued_result = Staking::queued_elected().unwrap();
assert_eq!(queued_result.compute, ElectionCompute::Signed);
run_to_block(15);
assert_eq!(Staking::era_election_status(), ElectionStatus::Closed);
assert_eq!(
System::events()
.into_iter()
.map(|r| r.event)
.filter_map(|e| {
if let MetaEvent::staking(inner) = e {
Some(inner)
} else {
None
}
})
.last()
.unwrap(),
RawEvent::StakingElection(ElectionCompute::Signed),
);
})
}
#[test]
fn early_solution_submission_is_rejected() {
// should check that we have a new validator set normally, event says that it comes from
// offchain.
ExtBuilder::default()
.offchain_phragmen_ext()
.build()
.execute_with(|| {
run_to_block(11);
// submission is not yet allowed
assert_eq!(Staking::era_election_status(), ElectionStatus::Closed);
// create all the indices just to build the solution.
Staking::create_stakers_snapshot();
let (compact, winners, score) = prepare_submission_with(true, 2, |_| {});
Staking::kill_stakers_snapshot();
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenEarlySubmission,
);
})
}
#[test]
fn weak_solution_is_rejected() {
// A solution which is weaker than what we currently have on-chain is rejected.
ExtBuilder::default()
.offchain_phragmen_ext()
.has_stakers(false)
.validator_count(4)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
// a good solution
let (compact, winners, score) = prepare_submission_with(true, 2, |_| {});
assert_ok!(Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
));
// a bad solution
let (compact, winners, score) = horrible_phragmen_with_post_processing(false);
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
3134
3135
3136
3137
3138
3139
3140
3141
3142
3143
3144
3145
3146
3147
3148
3149
3150
3151
3152
3153
3154
3155
3156
3157
3158
),
Error::<Test>::PhragmenWeakSubmission,
);
})
}
#[test]
fn better_solution_is_accepted() {
// A solution which is better than what we currently have on-chain is accepted.
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
// a meeeeh solution
let (compact, winners, score) = horrible_phragmen_with_post_processing(false);
assert_ok!(Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
let (compact, winners, score) = prepare_submission_with(true, 2, |_| {});
assert_ok!(Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
));
})
}
#[test]
fn offchain_worker_runs_when_window_open() {
// at the end of the first finalized block with ElectionStatus::open(_), it should execute.
let mut ext = ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(2)
.build();
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3183
3184
3185
3186
3187
3188
3189
3190
3191
3192
3193
3194
3195
3196
3197
3198
3199
3200
3201
3202
3203
3204
ext.execute_with(|| {
run_to_block(12);
// local key 11 is in the elected set.
assert_eq_uvec!(Session::validators(), vec![11, 21]);
assert_eq!(state.read().transactions.len(), 0);
Staking::offchain_worker(12);
assert_eq!(state.read().transactions.len(), 1);
let encoded = state.read().transactions[0].clone();
let extrinsic: Extrinsic = Decode::decode(&mut &*encoded).unwrap();
let call = extrinsic.call;
let inner = match call {
mock::Call::Staking(inner) => inner,
};
assert_eq!(
<Staking as sp_runtime::traits::ValidateUnsigned>::validate_unsigned(
TransactionSource::Local,
&inner,
),
TransactionValidity::Ok(ValidTransaction {
priority: UnsignedPriority::get() + 1125, // the proposed slot stake.
provides: vec![("StakingOffchain", current_era()).encode()],
longevity: 3,
propagate: false,
})
)
})
}
#[test]
fn offchain_worker_runs_with_equalise() {
// Offchain worker equalises based on the number provided by randomness. See the difference
// in the priority, which comes from the computed score.
let mut ext = ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(2)
.max_offchain_iterations(2)
.build();
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3227
3228
3229
3230
3231
3232
3233
3234
3235
3236
3237
3238
3239
3240
3241
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3245
3246
3247
3248
3249
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3251
3252
3253
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3255
3256
3257
3258
ext.execute_with(|| {
run_to_block(12);
// local key 11 is in the elected set.
assert_eq_uvec!(Session::validators(), vec![11, 21]);
assert_eq!(state.read().transactions.len(), 0);
Staking::offchain_worker(12);
assert_eq!(state.read().transactions.len(), 1);
let encoded = state.read().transactions[0].clone();
let extrinsic: Extrinsic = Decode::decode(&mut &*encoded).unwrap();
let call = extrinsic.call;
let inner = match call {
mock::Call::Staking(inner) => inner,
};
assert_eq!(
<Staking as sp_runtime::traits::ValidateUnsigned>::validate_unsigned(
TransactionSource::Local,
&inner,
),
TransactionValidity::Ok(ValidTransaction {
// the proposed slot stake, with equalize.
priority: UnsignedPriority::get() + 1250,
requires: vec![],
provides: vec![("StakingOffchain", active_era()).encode()],
longevity: 3,
propagate: false,
})
)
})
}
#[test]
fn mediocre_submission_from_authority_is_early_rejected() {
let mut ext = ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.build();
ext.execute_with(|| {
run_to_block(12);
// put a good solution on-chain
let (compact, winners, score) = prepare_submission_with(true, 2, |_| {});
assert_ok!(Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
3276
3277
3278
3279
3280
3281
3282
3283
3284
3285
3286
3287
3288
3289
3290
3291
3292
3293
3294
3295
3296
3297
3298
3299
3300
3301
3302
3303
3304
3305
3306
3307
3308
3309
3310
3311
3312
3313
3314
),);
// now run the offchain worker in the same chain state.
Staking::offchain_worker(12);
assert_eq!(state.read().transactions.len(), 1);
let encoded = state.read().transactions[0].clone();
let extrinsic: Extrinsic = Decode::decode(&mut &*encoded).unwrap();
let call = extrinsic.call;
let inner = match call {
mock::Call::Staking(inner) => inner,
};
// pass this call to ValidateUnsigned
assert_eq!(
<Staking as sp_runtime::traits::ValidateUnsigned>::validate_unsigned(
TransactionSource::Local,
&inner,
),
TransactionValidity::Err(
InvalidTransaction::Custom(<Error<Test>>::PhragmenWeakSubmission.as_u8()).into(),
),
)
})
}
#[test]
fn invalid_phragmen_result_correct_number_of_winners() {
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
ValidatorCount::put(3);
let (compact, winners, score) = prepare_submission_with(true, 2, |_| {});
ValidatorCount::put(4);
assert_eq!(winners.len(), 3);
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenBogusWinnerCount,
);
})
}
#[test]
fn invalid_phragmen_result_correct_number_of_winners_1() {
// if we have too little validators, then the number of candidates is the bound.
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(8) // we simply cannot elect 8
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
ValidatorCount::put(3);
let (compact, winners, score) = prepare_submission_with(true, 2, |_| {});
ValidatorCount::put(4);
assert_eq!(winners.len(), 3);
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenBogusWinnerCount,
);
})
}
#[test]
fn invalid_phragmen_result_correct_number_of_winners_2() {
// if we have too little validators, then the number of candidates is the bound.
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(8) // we simply cannot elect 8
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
let (compact, winners, score) = prepare_submission_with(true, 2, |_| {});
assert_eq!(winners.len(), 4);
// all good. We chose 4 and it works.
assert_ok!(Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),);
})
}
#[test]
fn invalid_phragmen_result_out_of_bound_nominator_index() {
// A nominator index which is simply invalid
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
assert_eq!(Staking::snapshot_nominators().unwrap().len(), 5 + 4);
assert_eq!(Staking::snapshot_validators().unwrap().len(), 4);
let (mut compact, winners, score) = prepare_submission_with(true, 2, |_| {});
// index 9 doesn't exist.
compact.votes1.push((9, 2));
// The error type sadly cannot be more specific now.
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenBogusCompact,
);
})
}
#[test]
fn invalid_phragmen_result_out_of_bound_validator_index() {
// A validator index which is out of bound
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
assert_eq!(Staking::snapshot_nominators().unwrap().len(), 5 + 4);
assert_eq!(Staking::snapshot_validators().unwrap().len(), 4);
let (mut compact, winners, score) = prepare_submission_with(true, 2, |_| {});
// index 4 doesn't exist.
compact.votes1.push((3, 4));
// The error type sadly cannot be more specific now.
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenBogusCompact,
);
})
}
#[test]
fn invalid_phragmen_result_out_of_bound_winner_index() {
// A winner index which is simply invalid
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
assert_eq!(Staking::snapshot_nominators().unwrap().len(), 5 + 4);
assert_eq!(Staking::snapshot_validators().unwrap().len(), 4);
let (compact, _, score) = prepare_submission_with(true, 2, |_| {});
// index 4 doesn't exist.
let winners = vec![0, 1, 2, 4];
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
3483
3484
3485
3486
3487
3488
3489
3490
3491
3492
3493
3494
3495
3496
3497
3498
3499
3500
3501
3502
3503
),
Error::<Test>::PhragmenBogusWinner,
);
})
}
#[test]
fn invalid_phragmen_result_non_winner_validator_index() {
// An edge that points to a correct validator index who is NOT a winner. This is very
// similar to the test that raises `PhragmenBogusNomination`.
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(2) // we select only 2.
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
assert_eq!(Staking::snapshot_nominators().unwrap().len(), 5 + 4);
assert_eq!(Staking::snapshot_validators().unwrap().len(), 4);
let (compact, winners, score) = prepare_submission_with(true, 2, |a| {
a.iter_mut()
.find(|x| x.who == 5)
// all 3 cannot be among the winners. Although, all of them are validator
// candidates.
.map(|x| x.distribution = vec![(21, 50), (41, 30), (31, 20)]);
});
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenBogusEdge,
);
})
}
#[test]
fn invalid_phragmen_result_wrong_self_vote() {
// A self vote for someone else.
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
let (compact, winners, score) = prepare_submission_with(true, 2, |a| {
// mutate a self vote to target someone else. That someone else is still among the
// winners
a.iter_mut().find(|x| x.who == 11).map(|x| {
x.distribution
.iter_mut()
.find(|y| y.0 == 11)
.map(|y| y.0 = 21)
});
});
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenBogusSelfVote,
);
})
}
#[test]
fn invalid_phragmen_result_wrong_self_vote_2() {
// A self validator voting for someone else next to self vote.
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
let (compact, winners, score) = prepare_submission_with(true, 2, |a| {
// Remove the self vote.
a.retain(|x| x.who != 11);
// add is as a new double vote
a.push(StakedAssignment {
who: 11,
distribution: vec![(11, 50), (21, 50)],
});
});
// This raises score issue.
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenBogusSelfVote,
);
})
}
#[test]
fn invalid_phragmen_result_over_stake() {
// Someone's edge ratios sums to more than 100%.
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
// Note: we don't reduce here to be able to tweak votes3. votes3 will vanish if you
// reduce.
let (mut compact, winners, score) = prepare_submission_with(false, 0, |_| {});
if let Some(c) = compact.votes3.iter_mut().find(|x| x.0 == 0) {
// by default it should have been (0, [(2, 33%), (1, 33%)], 0)
// now the sum is above 100%
c.1 = [(2, percent(66)), (1, percent(66))];
}
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
3626
3627
3628
3629
3630
3631
3632
3633
3634
3635
3636
3637
3638
3639
3640
3641
3642
3643
3644
3645
3646
3647
3648
3649
3650
3651
3652
),
Error::<Test>::PhragmenBogusCompact,
);
})
}
#[test]
fn invalid_phragmen_result_under_stake() {
// at the time of this writing, we cannot under stake someone. The compact assignment works
// in a way that some of the stakes are presented by the submitter, and the last one is read
// from chain by subtracting the rest from total. Hence, the sum is always correct.
// This test is only here as a demonstration.
}
#[test]
fn invalid_phragmen_result_invalid_target_stealing() {
// A valid voter who voted for someone who is a candidate, and is a correct winner, but is
// actually NOT nominated by this nominator.
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
let (compact, winners, score) = prepare_submission_with(false, 0, |a| {
// 3 only voted for 20 and 40. We add a fake vote to 30. The stake sum is still
// correctly 100.
a.iter_mut()
.find(|x| x.who == 3)
.map(|x| x.distribution = vec![(21, 50), (41, 30), (31, 20)]);
});
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
3668
3669
3670
3671
3672
3673
3674
3675
3676
3677
3678
3679
3680
3681
3682
3683
3684
3685
3686
3687
3688
3689
3690
),
Error::<Test>::PhragmenBogusNomination,
);
})
}
#[test]
fn nomination_slash_filter_is_checked() {
// If a nominator has voted for someone who has been recently slashed, that particular
// nomination should be disabled for the upcoming election. A solution must respect this
// rule.
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
// finalize the round with fallback. This is needed since all nominator submission
// are in era zero and we want this one to pass with no problems.
run_to_block(15);
// go to the next session to trigger mock::start_era and bump the active era
run_to_block(20);
// slash 10. This must happen outside of the election window.
let offender_expo = Staking::eras_stakers(Staking::active_era().unwrap().index, 11);
on_offence_now(
&[OffenceDetails {
offender: (11, offender_expo.clone()),
reporters: vec![],
}],
&[Perbill::from_percent(50)],
);
// validate 10 again for the next round. But this guy will not have the votes that
// it should have had from 1 and 2.
assert_ok!(Staking::validate(
Origin::signed(10),
Default::default()
));
// open the election window and create snapshots.
run_to_block(32);
// a solution that has been prepared after the slash.
let (compact, winners, score) = prepare_submission_with(false, 0, |a| {
// no one is allowed to vote for 10, except for itself.
a.into_iter()
.filter(|s| s.who != 11)
.for_each(|s|
assert!(s.distribution.iter().find(|(t, _)| *t == 11).is_none())
);
});
// can be submitted.
assert_ok!(Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
let (compact, winners, score) = prepare_submission_with(false, 0, |a| {
// add back the vote that has been filtered out.
a.push(StakedAssignment {
who: 1,
distribution: vec![(11, 100)]
});
});
// is rejected.
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenSlashedNomination,
);
})
}
#[test]
fn invalid_phragmen_result_wrong_score() {
// A valid voter who's total distributed stake is more than what they bond
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
build_offchain_phragmen_test_ext();
run_to_block(12);
let (compact, winners, mut score) = prepare_submission_with(true, 2, |_| {});
score[0] += 1;
assert_noop!(
Staking::submit_election_solution(
Origin::signed(10),
winners,
compact,
score,
current_era(),
),
Error::<Test>::PhragmenBogusScore,
);
})
}
#[test]
fn offchain_storage_is_set() {
let mut ext = ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.build();
3791
3792
3793
3794
3795
3796
3797
3798
3799
3800
3801
3802
3803
3804
3805
3806
3807
3808
3809
3810
3811
3812
3813
ext.execute_with(|| {
use offchain_election::OFFCHAIN_HEAD_DB;
use sp_runtime::offchain::storage::StorageValueRef;
run_to_block(12);
Staking::offchain_worker(12);
// it works
assert_eq!(state.read().transactions.len(), 1);
// and it is set
let storage = StorageValueRef::persistent(&OFFCHAIN_HEAD_DB);
assert_eq!(storage.get::<BlockNumber>().unwrap().unwrap(), 12);
})
}
#[test]
fn offchain_storage_prevents_duplicate() {
let mut ext = ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.build();
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ext.execute_with(|| {
use offchain_election::OFFCHAIN_HEAD_DB;
use sp_runtime::offchain::storage::StorageValueRef;
let storage = StorageValueRef::persistent(&OFFCHAIN_HEAD_DB);
run_to_block(12);
// first run -- ok
assert_eq!(
offchain_election::set_check_offchain_execution_status::<Test>(12),
Ok(()),
);
assert_eq!(storage.get::<BlockNumber>().unwrap().unwrap(), 12);
// re-execute after the next. not allowed.
assert_eq!(
offchain_election::set_check_offchain_execution_status::<Test>(13),
Err("recently executed."),
);
// a fork like situation -- re-execute 10, 11, 12. But it won't go through.
assert_eq!(
offchain_election::set_check_offchain_execution_status::<Test>(10),
Err("fork."),
);
assert_eq!(
offchain_election::set_check_offchain_execution_status::<Test>(11),
Err("fork."),
);
assert_eq!(
offchain_election::set_check_offchain_execution_status::<Test>(12),
Err("recently executed."),
);
})
}
#[test]
#[should_panic]
fn offence_is_blocked_when_window_open() {
ExtBuilder::default()
.offchain_phragmen_ext()
.validator_count(4)
.has_stakers(false)
.build()
.execute_with(|| {
run_to_block(12);
assert_eq!(Staking::era_election_status(), ElectionStatus::Open(12));
let offender_expo = Staking::eras_stakers(Staking::active_era().unwrap().index, 10);
// panic from the impl in mock
on_offence_now(
&[OffenceDetails {
offender: (10, offender_expo.clone()),
reporters: vec![],
}],
&[Perbill::from_percent(10)],
);
})
}
}
fn slash_kicks_validators_not_nominators_and_disables_nominator_for_kicked_validator() {
ExtBuilder::default().build_and_execute(|| {
assert_eq_uvec!(Session::validators(), vec![11, 21]);
assert_eq!(Balances::free_balance(11), 1000);
assert_eq!(Balances::free_balance(101), 2000);
// 11 and 21 both have the support of 100
let exposure_11 = Staking::eras_stakers(Staking::active_era().unwrap().index, &11);
let exposure_21 = Staking::eras_stakers(Staking::active_era().unwrap().index, &21);
assert_eq!(exposure_11.total, 1000 + 125);
assert_eq!(exposure_21.total, 1000 + 375);
on_offence_now(
&[OffenceDetails {
offender: (11, exposure_11.clone()),
reporters: vec![],
}],
&[Perbill::from_percent(10)],
);
// post-slash balance
let nominator_slash_amount_11 = 125 / 10;
assert_eq!(Balances::free_balance(11), 900);
assert_eq!(
Balances::free_balance(101),
2000 - nominator_slash_amount_11
);
// This is the best way to check that the validator was chilled; `get` will
// return default value.
for (stash, _) in <Staking as Store>::Validators::iter() {
assert!(stash != 11);
}
let nominations = <Staking as Store>::Nominators::get(&101).unwrap();
// and make sure that the vote will be ignored even if the validator
// re-registers.
let last_slash = <Staking as Store>::SlashingSpans::get(&11)
.unwrap()
.last_nonzero_slash();
assert!(nominations.submitted_in < last_slash);
// actually re-bond the slashed validator
assert_ok!(Staking::validate(Origin::signed(10), Default::default()));
let exposure_11 = Staking::eras_stakers(Staking::active_era().unwrap().index, &11);
let exposure_21 = Staking::eras_stakers(Staking::active_era().unwrap().index, &21);
// 10 is re-elected, but without the support of 100
assert_eq!(exposure_11.total, 900);
// 20 is re-elected, with the (almost) entire support of 100
assert_eq!(exposure_21.total, 1000 + 500 - nominator_slash_amount_11);
}
#[test]
fn claim_reward_at_the_last_era_and_no_double_claim_and_invalid_claim() {
// should check that:
// * rewards get paid until history_depth for both validators and nominators
// * an invalid era to claim doesn't update last_reward
// * double claim of one era fails
ExtBuilder::default().nominate(true).build_and_execute(|| {
let init_balance_10 = Balances::total_balance(&10);
let init_balance_100 = Balances::total_balance(&100);
let part_for_10 = Perbill::from_rational_approximation::<u32>(1000, 1125);
let part_for_100 = Perbill::from_rational_approximation::<u32>(125, 1125);
// Check state
Payee::<Test>::insert(11, RewardDestination::Controller);
Payee::<Test>::insert(101, RewardDestination::Controller);
<Module<Test>>::reward_by_ids(vec![(11, 1)]);
// Compute total payout now for whole duration as other parameter won't change
let total_payout_0 = current_total_payout_for_duration(3000);
assert!(total_payout_0 > 10); // Test is meaningful if reward something
<Module<Test>>::reward_by_ids(vec![(11, 1)]);
// Change total issuance in order to modify total payout
let _ = Balances::deposit_creating(&999, 1_000_000_000);
// Compute total payout now for whole duration as other parameter won't change
let total_payout_1 = current_total_payout_for_duration(3000);
assert!(total_payout_1 > 10); // Test is meaningful if reward something
assert!(total_payout_1 != total_payout_0);
<Module<Test>>::reward_by_ids(vec![(11, 1)]);
// Change total issuance in order to modify total payout
let _ = Balances::deposit_creating(&999, 1_000_000_000);
// Compute total payout now for whole duration as other parameter won't change
let total_payout_2 = current_total_payout_for_duration(3000);
assert!(total_payout_2 > 10); // Test is meaningful if reward something
assert!(total_payout_2 != total_payout_0);
assert!(total_payout_2 != total_payout_1);
mock::start_era(Staking::history_depth() + 1);
let active_era = Staking::active_era().unwrap().index;
// This is the latest planned era in staking, not the active era
let current_era = Staking::current_era().unwrap();
// Last kept is 1:
assert!(current_era - Staking::history_depth() == 1);
assert_noop!(
Staking::payout_stakers(Origin::signed(1337), 11, 0),
// Fail: Era out of history
Error::<Test>::InvalidEraToReward
);
assert_ok!(Staking::payout_stakers(Origin::signed(1337), 11, 1));
assert_ok!(Staking::payout_stakers(Origin::signed(1337), 11, 2));