tests.rs

		// this era.

		// Era 3
		start_active_era(3);

		// Collect payouts for an era where the validator did not receive any points.
		let call = TestCall::Staking(StakingCall::payout_stakers { validator_stash: 11, era: 2 });
		let info = call.get_dispatch_info();
		let result = call.dispatch(RuntimeOrigin::signed(20));
		assert_ok!(result);
		assert_eq!(extract_actual_weight(&result, &info), zero_nom_payouts_weight);

		// Reward the validator and its nominators.
		Staking::reward_by_ids(vec![(11, 1)]);

		// Era 4
		start_active_era(4);

		// Collect payouts when the validator has `half_max_nom_rewarded` nominators.
		let call = TestCall::Staking(StakingCall::payout_stakers { validator_stash: 11, era: 3 });
		let info = call.get_dispatch_info();
		let result = call.dispatch(RuntimeOrigin::signed(20));
		assert_ok!(result);
		assert_eq!(extract_actual_weight(&result, &info), half_max_nom_rewarded_weight);

		// Add enough nominators so that we are at the limit. They will be active nominators
		// in the next era.
		for i in half_max_nom_rewarded..max_nom_rewarded {
			bond_nominator((1000 + i).into(), (100 + i).into(), balance + i as Balance, vec![11]);
		}

		// Era 5
		start_active_era(5);
		// We now have `max_nom_rewarded` nominators actively nominating our validator.

		// Reward the validator so we can collect for everyone in the next era.
		Staking::reward_by_ids(vec![(11, 1)]);

		// Era 6
		start_active_era(6);

		// Collect payouts when the validator had `half_max_nom_rewarded` nominators.
		let call = TestCall::Staking(StakingCall::payout_stakers { validator_stash: 11, era: 5 });
		let info = call.get_dispatch_info();
		let result = call.dispatch(RuntimeOrigin::signed(20));
		assert_ok!(result);
		assert_eq!(extract_actual_weight(&result, &info), max_nom_rewarded_weight);

		// Try and collect payouts for an era that has already been collected.
		let call = TestCall::Staking(StakingCall::payout_stakers { validator_stash: 11, era: 5 });
		let info = call.get_dispatch_info();
		let result = call.dispatch(RuntimeOrigin::signed(20));
		assert!(result.is_err());
		// When there is an error the consumed weight == weight when there are 0 nominator payouts.
		assert_eq!(extract_actual_weight(&result, &info), zero_nom_payouts_weight);
	});
}

#[test]
fn bond_during_era_correctly_populates_claimed_rewards() {
	ExtBuilder::default().has_stakers(false).build_and_execute(|| {
		// Era = None
		bond_validator(9, 8, 1000);
		assert_eq!(
			Staking::ledger(&8),
			Some(StakingLedger {
				stash: 9,
				total: 1000,
				active: 1000,
				unlocking: Default::default(),
				claimed_rewards: bounded_vec![],
			})
		);
		mock::start_active_era(5);
		bond_validator(11, 10, 1000);
		assert_eq!(
			Staking::ledger(&10),
			Some(StakingLedger {
				stash: 11,
				total: 1000,
				active: 1000,
				unlocking: Default::default(),
				claimed_rewards: (0..5).collect::<Vec<_>>().try_into().unwrap(),
			})
		);

		// make sure only era upto history depth is stored
		let current_era = 99;
		let last_reward_era = 99 - HistoryDepth::get();
		mock::start_active_era(current_era);
		bond_validator(13, 12, 1000);
		assert_eq!(
			Staking::ledger(&12),
			Some(StakingLedger {
				stash: 13,
				total: 1000,
				active: 1000,
				unlocking: Default::default(),
				claimed_rewards: (last_reward_era..current_era)
					.collect::<Vec<_>>()
					.try_into()
					.unwrap(),
			})
		);
	});
}

#[test]
fn offences_weight_calculated_correctly() {
	ExtBuilder::default().nominate(true).build_and_execute(|| {
		// On offence with zero offenders: 4 Reads, 1 Write
		let zero_offence_weight =
			<Test as frame_system::Config>::DbWeight::get().reads_writes(4, 1);
		assert_eq!(
			Staking::on_offence(&[], &[Perbill::from_percent(50)], 0, DisableStrategy::WhenSlashed),
			zero_offence_weight
		);

		// On Offence with N offenders, Unapplied: 4 Reads, 1 Write + 4 Reads, 5 Writes
		let n_offence_unapplied_weight = <Test as frame_system::Config>::DbWeight::get()
			.reads_writes(4, 1) +
			<Test as frame_system::Config>::DbWeight::get().reads_writes(4, 5);

		let offenders: Vec<
			OffenceDetails<
				<Test as frame_system::Config>::AccountId,
				pallet_session::historical::IdentificationTuple<Test>,
			>,
		> = (1..10)
			.map(|i| OffenceDetails {
				offender: (i, Staking::eras_stakers(active_era(), i)),
				reporters: vec![],
			})
			.collect();
		assert_eq!(
			Staking::on_offence(
				&offenders,
				&[Perbill::from_percent(50)],
				0,
				DisableStrategy::WhenSlashed
			),
			n_offence_unapplied_weight
		);

		// On Offence with one offenders, Applied
		let one_offender = [OffenceDetails {
			offender: (11, Staking::eras_stakers(active_era(), 11)),
			reporters: vec![1],
		}];

		let n = 1; // Number of offenders
		let rw = 3 + 3 * n; // rw reads and writes
		let one_offence_unapplied_weight =
			<Test as frame_system::Config>::DbWeight::get().reads_writes(4, 1)
		 +
			<Test as frame_system::Config>::DbWeight::get().reads_writes(rw, rw)
			// One `slash_cost`
			+ <Test as frame_system::Config>::DbWeight::get().reads_writes(6, 5)
			// `slash_cost` * nominators (1)
			+ <Test as frame_system::Config>::DbWeight::get().reads_writes(6, 5)
			// `reward_cost` * reporters (1)
			+ <Test as frame_system::Config>::DbWeight::get().reads_writes(2, 2)
		;

		assert_eq!(
			Staking::on_offence(
				&one_offender,
				&[Perbill::from_percent(50)],
				0,
				DisableStrategy::WhenSlashed{}
			),
			one_offence_unapplied_weight
		);
	});
}

#[test]
fn payout_creates_controller() {
	ExtBuilder::default().has_stakers(false).build_and_execute(|| {
		let balance = 1000;
		// Create a validator:
		bond_validator(11, 10, balance);

		// Create a stash/controller pair
		bond_nominator(1234, 1337, 100, vec![11]);

		// kill controller
		assert_ok!(Balances::transfer(RuntimeOrigin::signed(1337), 1234, 100));
		assert_eq!(Balances::free_balance(1337), 0);

		mock::start_active_era(1);
		Staking::reward_by_ids(vec![(11, 1)]);
		// compute and ensure the reward amount is greater than zero.
		let _ = current_total_payout_for_duration(reward_time_per_era());
		mock::start_active_era(2);
		assert_ok!(Staking::payout_stakers(RuntimeOrigin::signed(1337), 11, 1));

		// Controller is created
		assert!(Balances::free_balance(1337) > 0);
	})
}

#[test]
fn payout_to_any_account_works() {
	ExtBuilder::default().has_stakers(false).build_and_execute(|| {
		let balance = 1000;
		// Create a validator:
		bond_validator(11, 10, balance); // Default(64)

		// Create a stash/controller pair
		bond_nominator(1234, 1337, 100, vec![11]);

		// Update payout location
		assert_ok!(Staking::set_payee(RuntimeOrigin::signed(1337), RewardDestination::Account(42)));

		// Reward Destination account doesn't exist
		assert_eq!(Balances::free_balance(42), 0);

		mock::start_active_era(1);
		Staking::reward_by_ids(vec![(11, 1)]);
		// compute and ensure the reward amount is greater than zero.
		let _ = current_total_payout_for_duration(reward_time_per_era());
		mock::start_active_era(2);
		assert_ok!(Staking::payout_stakers(RuntimeOrigin::signed(1337), 11, 1));

		// Payment is successful
		assert!(Balances::free_balance(42) > 0);
	})
}

#[test]
fn session_buffering_with_offset() {
	// similar to live-chains, have some offset for the first session
	ExtBuilder::default()
		.offset(2)
		.period(5)
		.session_per_era(5)
		.build_and_execute(|| {
			assert_eq!(current_era(), 0);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 0);

			start_session(1);
			assert_eq!(current_era(), 0);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 1);
			assert_eq!(System::block_number(), 2);

			start_session(2);
			assert_eq!(current_era(), 0);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 2);
			assert_eq!(System::block_number(), 7);

			start_session(3);
			assert_eq!(current_era(), 0);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 3);
			assert_eq!(System::block_number(), 12);

			// active era is lagging behind by one session, because of how session module works.
			start_session(4);
			assert_eq!(current_era(), 1);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 4);
			assert_eq!(System::block_number(), 17);

			start_session(5);
			assert_eq!(current_era(), 1);
			assert_eq!(active_era(), 1);
			assert_eq!(Session::current_index(), 5);
			assert_eq!(System::block_number(), 22);

			// go all the way to active 2.
			start_active_era(2);
			assert_eq!(current_era(), 2);
			assert_eq!(active_era(), 2);
			assert_eq!(Session::current_index(), 10);
		});
}

#[test]
fn session_buffering_no_offset() {
	// no offset, first session starts immediately
	ExtBuilder::default()
		.offset(0)
		.period(5)
		.session_per_era(5)
		.build_and_execute(|| {
			assert_eq!(current_era(), 0);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 0);

			start_session(1);
			assert_eq!(current_era(), 0);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 1);
			assert_eq!(System::block_number(), 5);

			start_session(2);
			assert_eq!(current_era(), 0);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 2);
			assert_eq!(System::block_number(), 10);

			start_session(3);
			assert_eq!(current_era(), 0);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 3);
			assert_eq!(System::block_number(), 15);

			// active era is lagging behind by one session, because of how session module works.
			start_session(4);
			assert_eq!(current_era(), 1);
			assert_eq!(active_era(), 0);
			assert_eq!(Session::current_index(), 4);
			assert_eq!(System::block_number(), 20);

			start_session(5);
			assert_eq!(current_era(), 1);
			assert_eq!(active_era(), 1);
			assert_eq!(Session::current_index(), 5);
			assert_eq!(System::block_number(), 25);

			// go all the way to active 2.
			start_active_era(2);
			assert_eq!(current_era(), 2);
			assert_eq!(active_era(), 2);
			assert_eq!(Session::current_index(), 10);
		});
}

#[test]
fn cannot_rebond_to_lower_than_ed() {
	ExtBuilder::default()
		.existential_deposit(10)
		.balance_factor(10)
		.build_and_execute(|| {
			// initial stuff.
			assert_eq!(
				Staking::ledger(&20).unwrap(),
				StakingLedger {
					stash: 21,
					total: 10 * 1000,
					active: 10 * 1000,
					unlocking: Default::default(),
					claimed_rewards: bounded_vec![],
				}
			);

			// unbond all of it. must be chilled first.
			assert_ok!(Staking::chill(RuntimeOrigin::signed(20)));
			assert_ok!(Staking::unbond(RuntimeOrigin::signed(20), 10 * 1000));
			assert_eq!(
				Staking::ledger(&20).unwrap(),
				StakingLedger {
					stash: 21,
					total: 10 * 1000,
					active: 0,
					unlocking: bounded_vec![UnlockChunk { value: 10 * 1000, era: 3 }],
					claimed_rewards: bounded_vec![],
				}
			);

			// now bond a wee bit more
			assert_noop!(
				Staking::rebond(RuntimeOrigin::signed(20), 5),
				Error::<Test>::InsufficientBond
			);
		})
}

#[test]
fn cannot_bond_extra_to_lower_than_ed() {
	ExtBuilder::default()
		.existential_deposit(10)
		.balance_factor(10)
		.build_and_execute(|| {
			// initial stuff.
			assert_eq!(
				Staking::ledger(&20).unwrap(),
				StakingLedger {
					stash: 21,
					total: 10 * 1000,
					active: 10 * 1000,
					unlocking: Default::default(),
					claimed_rewards: bounded_vec![],
				}
			);

			// unbond all of it. must be chilled first.
			assert_ok!(Staking::chill(RuntimeOrigin::signed(20)));
			assert_ok!(Staking::unbond(RuntimeOrigin::signed(20), 10 * 1000));
			assert_eq!(
				Staking::ledger(&20).unwrap(),
				StakingLedger {
					stash: 21,
					total: 10 * 1000,
					active: 0,
					unlocking: bounded_vec![UnlockChunk { value: 10 * 1000, era: 3 }],
					claimed_rewards: bounded_vec![],
				}
			);

			// now bond a wee bit more
			assert_noop!(
				Staking::bond_extra(RuntimeOrigin::signed(21), 5),
				Error::<Test>::InsufficientBond,
			);
		})
}

#[test]
fn do_not_die_when_active_is_ed() {
	let ed = 10;
	ExtBuilder::default()
		.existential_deposit(ed)
		.balance_factor(ed)
		.build_and_execute(|| {
			// given
			assert_eq!(
				Staking::ledger(&20).unwrap(),
				StakingLedger {
					stash: 21,
					total: 1000 * ed,
					active: 1000 * ed,
					unlocking: Default::default(),
					claimed_rewards: bounded_vec![],
				}
			);

			// when unbond all of it except ed.
			assert_ok!(Staking::unbond(RuntimeOrigin::signed(20), 999 * ed));
			start_active_era(3);
			assert_ok!(Staking::withdraw_unbonded(RuntimeOrigin::signed(20), 100));

			// then
			assert_eq!(
				Staking::ledger(&20).unwrap(),
				StakingLedger {
					stash: 21,
					total: ed,
					active: ed,
					unlocking: Default::default(),
					claimed_rewards: bounded_vec![],
				}
			);
		})
}

#[test]
fn on_finalize_weight_is_nonzero() {
	ExtBuilder::default().build_and_execute(|| {
		let on_finalize_weight = <Test as frame_system::Config>::DbWeight::get().reads(1);
		assert!(<Staking as Hooks<u64>>::on_initialize(1).all_gte(on_finalize_weight));
	})
}

mod election_data_provider {
	use super::*;
	use frame_election_provider_support::ElectionDataProvider;

	#[test]
	fn targets_2sec_block() {
		let mut validators = 1000;
		while <Test as Config>::WeightInfo::get_npos_targets(validators).all_lt(Weight::from_parts(
			2u64 * frame_support::weights::constants::WEIGHT_REF_TIME_PER_SECOND,
			u64::MAX,
		)) {
			validators += 1;
		}

		println!("Can create a snapshot of {} validators in 2sec block", validators);
	}

	#[test]
	fn voters_2sec_block() {
		// we assume a network only wants up to 1000 validators in most cases, thus having 2000
		// candidates is as high as it gets.
		let validators = 2000;
		let mut nominators = 1000;

		while <Test as Config>::WeightInfo::get_npos_voters(validators, nominators).all_lt(
			Weight::from_parts(
				2u64 * frame_support::weights::constants::WEIGHT_REF_TIME_PER_SECOND,
				u64::MAX,
			),
		) {
			nominators += 1;
		}

		println!(
			"Can create a snapshot of {} nominators [{} validators, each 1 slashing] in 2sec block",
			nominators, validators
		);
	}

	#[test]
	fn set_minimum_active_stake_is_correct() {
		ExtBuilder::default()
			.nominate(false)
			.add_staker(61, 60, 2_000, StakerStatus::<AccountId>::Nominator(vec![21]))
			.add_staker(71, 70, 10, StakerStatus::<AccountId>::Nominator(vec![21]))
			.add_staker(81, 80, 50, StakerStatus::<AccountId>::Nominator(vec![21]))
			.build_and_execute(|| {
				assert_ok!(<Staking as ElectionDataProvider>::electing_voters(None));
				assert_eq!(MinimumActiveStake::<Test>::get(), 10);

				// remove staker with lower bond by limiting the number of voters and check
				// `MinimumActiveStake` again after electing voters.
				assert_ok!(<Staking as ElectionDataProvider>::electing_voters(Some(5)));
				assert_eq!(MinimumActiveStake::<Test>::get(), 50);
			});
	}

	#[test]
	fn set_minimum_active_stake_zero_correct() {
		ExtBuilder::default().has_stakers(false).build_and_execute(|| {
			assert_ok!(<Staking as ElectionDataProvider>::electing_voters(None));
			assert_eq!(MinimumActiveStake::<Test>::get(), 0);
		});
	}

	#[test]
	fn voters_include_self_vote() {
		ExtBuilder::default().nominate(false).build_and_execute(|| {
			assert!(<Validators<Test>>::iter().map(|(x, _)| x).all(|v| Staking::electing_voters(
				None
			)
			.unwrap()
			.into_iter()
			.any(|(w, _, t)| { v == w && t[0] == w })))
		})
	}

	#[test]
	fn respects_snapshot_len_limits() {
		ExtBuilder::default()
			.set_status(41, StakerStatus::Validator)
			.build_and_execute(|| {
				// sum of all nominators who'd be voters (1), plus the self-votes (4).
				assert_eq!(<Test as Config>::VoterList::count(), 5);

				// if limits is less..
				assert_eq!(Staking::electing_voters(Some(1)).unwrap().len(), 1);

				// if limit is equal..
				assert_eq!(Staking::electing_voters(Some(5)).unwrap().len(), 5);

				// if limit is more.
				assert_eq!(Staking::electing_voters(Some(55)).unwrap().len(), 5);

				// if target limit is more..
				assert_eq!(Staking::electable_targets(Some(6)).unwrap().len(), 4);
				assert_eq!(Staking::electable_targets(Some(4)).unwrap().len(), 4);

				// if target limit is less, then we return an error.
				assert_eq!(
					Staking::electable_targets(Some(1)).unwrap_err(),
					"Target snapshot too big"
				);
			});
	}

	// Tests the criteria that in `ElectionDataProvider::voters` function, we try to get at most
	// `maybe_max_len` voters, and if some of them end up being skipped, we iterate at most `2 *
	// maybe_max_len`.
	#[test]
	fn only_iterates_max_2_times_max_allowed_len() {
		ExtBuilder::default()
			.nominate(false)
			// the best way to invalidate a bunch of nominators is to have them nominate a lot of
			// ppl, but then lower the MaxNomination limit.
			.add_staker(
				61,
				60,
				2_000,
				StakerStatus::<AccountId>::Nominator(vec![21, 22, 23, 24, 25]),
			)
			.add_staker(
				71,
				70,
				2_000,
				StakerStatus::<AccountId>::Nominator(vec![21, 22, 23, 24, 25]),
			)
			.add_staker(
				81,
				80,
				2_000,
				StakerStatus::<AccountId>::Nominator(vec![21, 22, 23, 24, 25]),
			)
			.build_and_execute(|| {
				// all voters ordered by stake,
				assert_eq!(
					<Test as Config>::VoterList::iter().collect::<Vec<_>>(),
					vec![61, 71, 81, 11, 21, 31]
				);

				MaxNominations::set(2);

				// we want 2 voters now, and in maximum we allow 4 iterations. This is what happens:
				// 61 is pruned;
				// 71 is pruned;
				// 81 is pruned;
				// 11 is taken;
				// we finish since the 2x limit is reached.
				assert_eq!(
					Staking::electing_voters(Some(2))
						.unwrap()
						.iter()
						.map(|(stash, _, _)| stash)
						.copied()
						.collect::<Vec<_>>(),
					vec![11],
				);
			});
	}

	#[test]
	fn estimate_next_election_works() {
		ExtBuilder::default().session_per_era(5).period(5).build_and_execute(|| {
			// first session is always length 0.
			for b in 1..20 {
				run_to_block(b);
				assert_eq!(Staking::next_election_prediction(System::block_number()), 20);
			}

			// election
			run_to_block(20);
			assert_eq!(Staking::next_election_prediction(System::block_number()), 45);
			assert_eq!(staking_events().len(), 1);
			assert_eq!(*staking_events().last().unwrap(), Event::StakersElected);

			for b in 21..45 {
				run_to_block(b);
				assert_eq!(Staking::next_election_prediction(System::block_number()), 45);
			}

			// election
			run_to_block(45);
			assert_eq!(Staking::next_election_prediction(System::block_number()), 70);
			assert_eq!(staking_events().len(), 3);
			assert_eq!(*staking_events().last().unwrap(), Event::StakersElected);

			Staking::force_no_eras(RuntimeOrigin::root()).unwrap();
			assert_eq!(Staking::next_election_prediction(System::block_number()), u64::MAX);

			Staking::force_new_era_always(RuntimeOrigin::root()).unwrap();
			assert_eq!(Staking::next_election_prediction(System::block_number()), 45 + 5);

			Staking::force_new_era(RuntimeOrigin::root()).unwrap();
			assert_eq!(Staking::next_election_prediction(System::block_number()), 45 + 5);

			// Do a fail election
			MinimumValidatorCount::<Test>::put(1000);
			run_to_block(50);
			// Election: failed, next session is a new election
			assert_eq!(Staking::next_election_prediction(System::block_number()), 50 + 5);
			// The new era is still forced until a new era is planned.
			assert_eq!(ForceEra::<Test>::get(), Forcing::ForceNew);

			MinimumValidatorCount::<Test>::put(2);
			run_to_block(55);
			assert_eq!(Staking::next_election_prediction(System::block_number()), 55 + 25);
			assert_eq!(staking_events().len(), 6);
			assert_eq!(*staking_events().last().unwrap(), Event::StakersElected);
			// The new era has been planned, forcing is changed from `ForceNew` to `NotForcing`.
			assert_eq!(ForceEra::<Test>::get(), Forcing::NotForcing);
		})
	}
}

#[test]
#[should_panic]
fn count_check_works() {
	ExtBuilder::default().build_and_execute(|| {
		// We should never insert into the validators or nominators map directly as this will
		// not keep track of the count. This test should panic as we verify the count is accurate
		// after every test using the `post_checks` in `mock`.
		Validators::<Test>::insert(987654321, ValidatorPrefs::default());
		Nominators::<Test>::insert(
			987654321,
			Nominations {
				targets: Default::default(),
				submitted_in: Default::default(),
				suppressed: false,
			},
		);
	})
}

#[test]
fn min_bond_checks_work() {
	ExtBuilder::default()
		.existential_deposit(100)
		.balance_factor(100)
		.min_nominator_bond(1_000)
		.min_validator_bond(1_500)
		.build_and_execute(|| {
			// 500 is not enough for any role
			assert_ok!(Staking::bond(
				RuntimeOrigin::signed(3),
				4,
				500,
				RewardDestination::Controller
			));
			assert_noop!(
				Staking::nominate(RuntimeOrigin::signed(4), vec![1]),
				Error::<Test>::InsufficientBond
			);
			assert_noop!(
				Staking::validate(RuntimeOrigin::signed(4), ValidatorPrefs::default()),
				Error::<Test>::InsufficientBond,
			);

			// 1000 is enough for nominator
			assert_ok!(Staking::bond_extra(RuntimeOrigin::signed(3), 500));
			assert_ok!(Staking::nominate(RuntimeOrigin::signed(4), vec![1]));
			assert_noop!(
				Staking::validate(RuntimeOrigin::signed(4), ValidatorPrefs::default()),
				Error::<Test>::InsufficientBond,
			);

			// 1500 is enough for validator
			assert_ok!(Staking::bond_extra(RuntimeOrigin::signed(3), 500));
			assert_ok!(Staking::nominate(RuntimeOrigin::signed(4), vec![1]));
			assert_ok!(Staking::validate(RuntimeOrigin::signed(4), ValidatorPrefs::default()));

			// Can't unbond anything as validator
			assert_noop!(
				Staking::unbond(RuntimeOrigin::signed(4), 500),
				Error::<Test>::InsufficientBond
			);

			// Once they are a nominator, they can unbond 500
			assert_ok!(Staking::nominate(RuntimeOrigin::signed(4), vec![1]));
			assert_ok!(Staking::unbond(RuntimeOrigin::signed(4), 500));
			assert_noop!(
				Staking::unbond(RuntimeOrigin::signed(4), 500),
				Error::<Test>::InsufficientBond
			);

			// Once they are chilled they can unbond everything
			assert_ok!(Staking::chill(RuntimeOrigin::signed(4)));
			assert_ok!(Staking::unbond(RuntimeOrigin::signed(4), 1000));
		})
}

#[test]
fn chill_other_works() {
	ExtBuilder::default()
		.existential_deposit(100)
		.balance_factor(100)
		.min_nominator_bond(1_000)
		.min_validator_bond(1_500)
		.build_and_execute(|| {
			let initial_validators = Validators::<Test>::count();
			let initial_nominators = Nominators::<Test>::count();
			for i in 0..15 {
				let a = 4 * i;
				let b = 4 * i + 1;
				let c = 4 * i + 2;
				let d = 4 * i + 3;
				Balances::make_free_balance_be(&a, 100_000);
				Balances::make_free_balance_be(&b, 100_000);
				Balances::make_free_balance_be(&c, 100_000);
				Balances::make_free_balance_be(&d, 100_000);

				// Nominator
				assert_ok!(Staking::bond(
					RuntimeOrigin::signed(a),
					b,
					1000,
					RewardDestination::Controller
				));
				assert_ok!(Staking::nominate(RuntimeOrigin::signed(b), vec![1]));

				// Validator
				assert_ok!(Staking::bond(
					RuntimeOrigin::signed(c),
					d,
					1500,
					RewardDestination::Controller
				));
				assert_ok!(Staking::validate(RuntimeOrigin::signed(d), ValidatorPrefs::default()));
			}

			// To chill other users, we need to:
			// * Set a minimum bond amount
			// * Set a limit
			// * Set a threshold
			//
			// If any of these are missing, we do not have enough information to allow the
			// `chill_other` to succeed from one user to another.

			// Can't chill these users
			assert_noop!(
				Staking::chill_other(RuntimeOrigin::signed(1337), 1),
				Error::<Test>::CannotChillOther
			);
			assert_noop!(
				Staking::chill_other(RuntimeOrigin::signed(1337), 3),
				Error::<Test>::CannotChillOther
			);

			// Change the minimum bond... but no limits.
			assert_ok!(Staking::set_staking_configs(
				RuntimeOrigin::root(),
				ConfigOp::Set(1_500),
				ConfigOp::Set(2_000),
				ConfigOp::Remove,
				ConfigOp::Remove,
				ConfigOp::Remove,
				ConfigOp::Remove
			));

			// Still can't chill these users
			assert_noop!(
				Staking::chill_other(RuntimeOrigin::signed(1337), 1),
				Error::<Test>::CannotChillOther
			);
			assert_noop!(
				Staking::chill_other(RuntimeOrigin::signed(1337), 3),
				Error::<Test>::CannotChillOther
			);

			// Add limits, but no threshold
			assert_ok!(Staking::set_staking_configs(
				RuntimeOrigin::root(),
				ConfigOp::Noop,
				ConfigOp::Noop,
				ConfigOp::Set(10),
				ConfigOp::Set(10),
				ConfigOp::Noop,
				ConfigOp::Noop
			));

			// Still can't chill these users
			assert_noop!(
				Staking::chill_other(RuntimeOrigin::signed(1337), 1),
				Error::<Test>::CannotChillOther
			);
			assert_noop!(
				Staking::chill_other(RuntimeOrigin::signed(1337), 3),
				Error::<Test>::CannotChillOther
			);

			// Add threshold, but no limits
			assert_ok!(Staking::set_staking_configs(
				RuntimeOrigin::root(),
				ConfigOp::Noop,
				ConfigOp::Noop,
				ConfigOp::Remove,
				ConfigOp::Remove,
				ConfigOp::Noop,
				ConfigOp::Noop
			));

			// Still can't chill these users
			assert_noop!(
				Staking::chill_other(RuntimeOrigin::signed(1337), 1),
				Error::<Test>::CannotChillOther
			);
			assert_noop!(
				Staking::chill_other(RuntimeOrigin::signed(1337), 3),
				Error::<Test>::CannotChillOther
			);

			// Add threshold and limits
			assert_ok!(Staking::set_staking_configs(
				RuntimeOrigin::root(),
				ConfigOp::Noop,
				ConfigOp::Noop,
				ConfigOp::Set(10),
				ConfigOp::Set(10),
				ConfigOp::Set(Percent::from_percent(75)),
				ConfigOp::Noop
			));

			// 16 people total because tests start with 2 active one
			assert_eq!(Nominators::<Test>::count(), 15 + initial_nominators);
			assert_eq!(Validators::<Test>::count(), 15 + initial_validators);

			// Users can now be chilled down to 7 people, so we try to remove 9 of them (starting
			// with 16)
			for i in 6..15 {
				let b = 4 * i + 1;
				let d = 4 * i + 3;
				assert_ok!(Staking::chill_other(RuntimeOrigin::signed(1337), b));
				assert_ok!(Staking::chill_other(RuntimeOrigin::signed(1337), d));
			}

			// chill a nominator. Limit is not reached, not chill-able
			assert_eq!(Nominators::<Test>::count(), 7);
			assert_noop!(
				Staking::chill_other(RuntimeOrigin::signed(1337), 1),
				Error::<Test>::CannotChillOther
			);
			// chill a validator. Limit is reached, chill-able.
			assert_eq!(Validators::<Test>::count(), 9);
			assert_ok!(Staking::chill_other(RuntimeOrigin::signed(1337), 3));
		})
}

#[test]
fn capped_stakers_works() {
	ExtBuilder::default().build_and_execute(|| {
		let validator_count = Validators::<Test>::count();
		assert_eq!(validator_count, 3);
		let nominator_count = Nominators::<Test>::count();
		assert_eq!(nominator_count, 1);

		// Change the maximums
		let max = 10;
		assert_ok!(Staking::set_staking_configs(
			RuntimeOrigin::root(),
			ConfigOp::Set(10),
			ConfigOp::Set(10),
			ConfigOp::Set(max),
			ConfigOp::Set(max),
			ConfigOp::Remove,
			ConfigOp::Remove,
		));

		// can create `max - validator_count` validators
		let mut some_existing_validator = AccountId::default();
		for i in 0..max - validator_count {
			let (_, controller) = testing_utils::create_stash_controller::<Test>(
				i + 10_000_000,
				100,
				RewardDestination::Controller,
			)
			.unwrap();
			assert_ok!(Staking::validate(
				RuntimeOrigin::signed(controller),
				ValidatorPrefs::default()
			));
			some_existing_validator = controller;
		}

		// but no more
		let (_, last_validator) = testing_utils::create_stash_controller::<Test>(
			1337,
			100,
			RewardDestination::Controller,
		)
		.unwrap();

		assert_noop!(
			Staking::validate(RuntimeOrigin::signed(last_validator), ValidatorPrefs::default()),
			Error::<Test>::TooManyValidators,
		);

		// same with nominators
		let mut some_existing_nominator = AccountId::default();
		for i in 0..max - nominator_count {
			let (_, controller) = testing_utils::create_stash_controller::<Test>(
				i + 20_000_000,
				100,
				RewardDestination::Controller,
			)
			.unwrap();
			assert_ok!(Staking::nominate(RuntimeOrigin::signed(controller), vec![1]));
			some_existing_nominator = controller;
		}

		// one more is too many
		let (_, last_nominator) = testing_utils::create_stash_controller::<Test>(
			30_000_000,
			100,
			RewardDestination::Controller,
		)
		.unwrap();
		assert_noop!(
			Staking::nominate(RuntimeOrigin::signed(last_nominator), vec![1]),
			Error::<Test>::TooManyNominators
		);

		// Re-nominate works fine
		assert_ok!(Staking::nominate(RuntimeOrigin::signed(some_existing_nominator), vec![1]));
		// Re-validate works fine
		assert_ok!(Staking::validate(
			RuntimeOrigin::signed(some_existing_validator),
			ValidatorPrefs::default()
		));

		// No problem when we set to `None` again
		assert_ok!(Staking::set_staking_configs(
			RuntimeOrigin::root(),
			ConfigOp::Noop,
			ConfigOp::Noop,
			ConfigOp::Remove,
			ConfigOp::Remove,
			ConfigOp::Noop,
			ConfigOp::Noop,
		));
		assert_ok!(Staking::nominate(RuntimeOrigin::signed(last_nominator), vec![1]));
		assert_ok!(Staking::validate(
			RuntimeOrigin::signed(last_validator),
			ValidatorPrefs::default()