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// Copyright 2019-2021 Parity Technologies (UK) Ltd.
// This file is part of Polkadot.
// Polkadot is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Polkadot is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Polkadot. If not, see <http://www.gnu.org/licenses/>.
//! Mocking utilities for testing with real pallets.
use sp_std::sync::Arc;
use sp_io::TestExternalities;
use sp_core::{H256, crypto::KeyTypeId};
use sp_runtime::{
ModuleId,
traits::{
BlakeTwo256, IdentityLookup, One,
},
};
use sp_keystore::{KeystoreExt, testing::KeyStore};
use primitives::v1::{BlockNumber, Header, Id as ParaId, ValidationCode, HeadData};
use frame_support::{
parameter_types, assert_ok, assert_noop,
storage::StorageMap,
traits::{Currency, OnInitialize, OnFinalize, KeyOwnerProofSystem},
};
use frame_system::EnsureRoot;
use runtime_parachains::{
ParaLifecycle, Origin as ParaOrigin,
paras, configuration, shared,
};
use frame_support_test::TestRandomness;
use crate::{
auctions, crowdloan, slots, paras_registrar,
traits::{
Registrar as RegistrarT, Auctioneer,
},
};
type UncheckedExtrinsic = frame_system::mocking::MockUncheckedExtrinsic<Test>;
type Block = frame_system::mocking::MockBlock<Test>;
type AccountId = u32;
type Balance = u32;
type Moment = u32;
frame_support::construct_runtime!(
pub enum Test where
Block = Block,
NodeBlock = Block,
UncheckedExtrinsic = UncheckedExtrinsic,
{
// System Stuff
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System: frame_system::{Pallet, Call, Config, Storage, Event<T>},
Balances: pallet_balances::{Pallet, Call, Storage, Config<T>, Event<T>},
Babe: pallet_babe::{Pallet, Call, Storage, Config, ValidateUnsigned},
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Configuration: configuration::{Pallet, Call, Storage, Config<T>},
Paras: paras::{Pallet, Origin, Call, Storage, Config<T>},
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Registrar: paras_registrar::{Pallet, Call, Storage, Event<T>},
Auctions: auctions::{Pallet, Call, Storage, Event<T>},
Crowdloan: crowdloan::{Pallet, Call, Storage, Event<T>},
Slots: slots::{Pallet, Call, Storage, Event<T>},
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}
);
use crate::crowdloan::Error as CrowdloanError;
parameter_types! {
pub const BlockHashCount: u32 = 250;
pub BlockWeights: frame_system::limits::BlockWeights =
frame_system::limits::BlockWeights::simple_max(4 * 1024 * 1024);
}
impl frame_system::Config for Test {
type BaseCallFilter = ();
type BlockWeights = BlockWeights;
type BlockLength = ();
type DbWeight = ();
type Origin = Origin;
type Call = Call;
type Index = u64;
type BlockNumber = BlockNumber;
type Hash = H256;
type Hashing = BlakeTwo256;
type AccountId = AccountId;
type Lookup = IdentityLookup<AccountId>;
type Header = Header;
type Event = Event;
type BlockHashCount = BlockHashCount;
type Version = ();
type PalletInfo = PalletInfo;
type AccountData = pallet_balances::AccountData<Balance>;
type OnNewAccount = ();
type OnKilledAccount = ();
type SystemWeightInfo = ();
type SS58Prefix = ();
}
parameter_types! {
pub const EpochDuration: u64 = 10;
pub const ExpectedBlockTime: Moment = 6_000;
pub const ReportLongevity: u64 = 10;
}
impl pallet_babe::Config for Test {
type EpochDuration = EpochDuration;
type ExpectedBlockTime = ExpectedBlockTime;
type EpochChangeTrigger = pallet_babe::ExternalTrigger;
type KeyOwnerProofSystem = ();
type KeyOwnerProof =
<Self::KeyOwnerProofSystem as KeyOwnerProofSystem<(KeyTypeId, pallet_babe::AuthorityId)>>::Proof;
type KeyOwnerIdentification = <Self::KeyOwnerProofSystem as KeyOwnerProofSystem<(
KeyTypeId,
pallet_babe::AuthorityId,
)>>::IdentificationTuple;
type HandleEquivocation = ();
type WeightInfo = ();
}
parameter_types! {
pub const MinimumPeriod: Moment = 6_000 / 2;
}
impl pallet_timestamp::Config for Test {
type Moment = Moment;
type OnTimestampSet = ();
type MinimumPeriod = MinimumPeriod;
type WeightInfo = ();
}
parameter_types! {
pub static ExistentialDeposit: Balance = 1;
}
impl pallet_balances::Config for Test {
type MaxLocks = ();
type Balance = Balance;
type Event = Event;
type DustRemoval = ();
type ExistentialDeposit = ExistentialDeposit;
type AccountStore = System;
type WeightInfo = ();
}
impl configuration::Config for Test { }
impl shared::Config for Test { }
impl paras::Config for Test {
type Origin = Origin;
}
parameter_types! {
pub const ParaDeposit: Balance = 500;
pub const DataDepositPerByte: Balance = 1;
pub const MaxCodeSize: u32 = 200;
pub const MaxHeadSize: u32 = 100;
}
impl paras_registrar::Config for Test {
type Event = Event;
type OnSwap = (Crowdloan, Slots);
type ParaDeposit = ParaDeposit;
type DataDepositPerByte = DataDepositPerByte;
type MaxCodeSize = MaxCodeSize;
type MaxHeadSize = MaxHeadSize;
type Currency = Balances;
type Origin = Origin;
type WeightInfo = crate::paras_registrar::TestWeightInfo;
}
parameter_types! {
pub const EndingPeriod: BlockNumber = 10;
pub const SampleLength: BlockNumber = 1;
}
impl auctions::Config for Test {
type Event = Event;
type Leaser = Slots;
type EndingPeriod = EndingPeriod;
type SampleLength = SampleLength;
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type Randomness = TestRandomness<Self>;
type InitiateOrigin = EnsureRoot<AccountId>;
type WeightInfo = crate::auctions::TestWeightInfo;
}
parameter_types! {
pub const LeasePeriod: BlockNumber = 100;
}
impl slots::Config for Test {
type Event = Event;
type Currency = Balances;
type Registrar = Registrar;
type LeasePeriod = LeasePeriod;
type WeightInfo = crate::slots::TestWeightInfo;
}
parameter_types! {
pub const CrowdloanId: ModuleId = ModuleId(*b"py/cfund");
pub const SubmissionDeposit: Balance = 100;
pub const MinContribution: Balance = 1;
pub const RetirementPeriod: BlockNumber = 10;
pub const RemoveKeysLimit: u32 = 100;
}
impl crowdloan::Config for Test {
type Event = Event;
type ModuleId = CrowdloanId;
type SubmissionDeposit = SubmissionDeposit;
type MinContribution = MinContribution;
type RetirementPeriod = RetirementPeriod;
type OrphanedFunds = ();
type RemoveKeysLimit = RemoveKeysLimit;
type Registrar = Registrar;
type Auctioneer = Auctions;
type WeightInfo = crate::crowdloan::TestWeightInfo;
}
/// Create a new set of test externalities.
pub fn new_test_ext() -> TestExternalities {
let t = frame_system::GenesisConfig::default().build_storage::<Test>().unwrap();
let keystore = KeyStore::new();
let mut ext: sp_io::TestExternalities = t.into();
ext.register_extension(KeystoreExt(Arc::new(keystore)));
ext.execute_with(|| System::set_block_number(1));
ext
}
const BLOCKS_PER_SESSION: u32 = 10;
fn maybe_new_session(n: u32) {
if n % BLOCKS_PER_SESSION == 0 {
shared::Module::<Test>::set_session_index(
shared::Module::<Test>::session_index() + 1
);
Paras::test_on_new_session();
}
}
fn test_genesis_head(size: usize) -> HeadData {
HeadData(vec![0u8; size])
}
fn test_validation_code(size: usize) -> ValidationCode {
let mut validation_code = vec![0u8; size as usize];
// Replace first bytes of code with "WASM_MAGIC" to pass validation test.
let _ = validation_code.splice(
..crate::WASM_MAGIC.len(),
crate::WASM_MAGIC.iter().cloned(),
).collect::<Vec<_>>();
ValidationCode(validation_code)
}
fn para_origin(id: u32) -> ParaOrigin {
ParaOrigin::Parachain(id.into())
}
fn run_to_block(n: u32) {
assert!(System::block_number() < n);
while System::block_number() < n {
let block_number = System::block_number();
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AllPallets::on_finalize(block_number);
System::on_finalize(block_number);
System::set_block_number(block_number + 1);
System::on_initialize(block_number + 1);
maybe_new_session(block_number + 1);
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AllPallets::on_initialize(block_number + 1);
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}
}
fn run_to_session(n: u32) {
let block_number = BLOCKS_PER_SESSION * n;
run_to_block(block_number);
}
fn last_event() -> Event {
System::events().pop().expect("Event expected").event
}
#[test]
fn basic_end_to_end_works() {
new_test_ext().execute_with(|| {
assert!(System::block_number().is_one());
// User 1 and 2 will own parachains
Balances::make_free_balance_be(&1, 1_000);
Balances::make_free_balance_be(&2, 1_000);
// First register 2 parathreads
let genesis_head = Registrar::worst_head_data();
let validation_code = Registrar::worst_validation_code();
assert_ok!(Registrar::register(
Origin::signed(1),
ParaId::from(1),
genesis_head.clone(),
validation_code.clone(),
));
assert_ok!(Registrar::register(
Origin::signed(2),
ParaId::from(2),
genesis_head,
validation_code,
));
// Paras should be onboarding
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Onboarding));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Onboarding));
// Start a new auction in the future
let duration = 99u32;
let lease_period_index_start = 4u32;
assert_ok!(Auctions::new_auction(Origin::root(), duration, lease_period_index_start));
// 2 sessions later they are parathreads
run_to_session(2);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parathread));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parathread));
// Para 1 will bid directly for slot 1, 2
// Open a crowdloan for Para 2 for slot 3, 4
assert_ok!(Crowdloan::create(
Origin::signed(2),
ParaId::from(2),
1_000, // Cap
lease_period_index_start + 2, // First Slot
lease_period_index_start + 3, // Last Slot
200, // Block End
None,
));
let crowdloan_account = Crowdloan::fund_account_id(ParaId::from(2));
// Auction ending begins on block 100, so we make a bid before then.
run_to_block(90);
Balances::make_free_balance_be(&10, 1_000);
Balances::make_free_balance_be(&20, 1_000);
// User 10 will bid directly for parachain 1
assert_ok!(Auctions::bid(
Origin::signed(10),
ParaId::from(1),
1, // Auction Index
lease_period_index_start + 0, // First Slot
lease_period_index_start + 1, // Last slot
910, // Amount
));
// User 2 will be a contribute to crowdfund for parachain 2
Balances::make_free_balance_be(&2, 1_000);
assert_ok!(Crowdloan::contribute(Origin::signed(2), ParaId::from(2), 920, None));
// Auction ends at block 110
run_to_block(109);
assert_eq!(
last_event(),
crowdloan::RawEvent::HandleBidResult(ParaId::from(2), Ok(())).into(),
);
run_to_block(110);
assert_eq!(
last_event(),
auctions::RawEvent::AuctionClosed(1).into(),
);
// Paras should have won slots
assert_eq!(
slots::Leases::<Test>::get(ParaId::from(1)),
// -- 1 --- 2 --- 3 --------- 4 ------------ 5 --------
vec![None, None, None, Some((10, 910)), Some((10, 910))],
);
assert_eq!(
slots::Leases::<Test>::get(ParaId::from(2)),
// -- 1 --- 2 --- 3 --- 4 --- 5 ---------------- 6 --------------------------- 7 ----------------
vec![None, None, None, None, None, Some((crowdloan_account, 920)), Some((crowdloan_account, 920))],
);
// New leases will start on block 400
let lease_start_block = 400;
run_to_block(lease_start_block);
// First slot, Para 1 should be transitioning to Parachain
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::UpgradingParathread));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parathread));
// Two sessions later, it has upgraded
run_to_block(lease_start_block + 20);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parachain));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parathread));
// Second slot nothing happens :)
run_to_block(lease_start_block + 100);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parachain));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parathread));
// Third slot, Para 2 should be upgrading, and Para 1 is downgrading
run_to_block(lease_start_block + 200);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::DowngradingParachain));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::UpgradingParathread));
// Two sessions later, they have transitioned
run_to_block(lease_start_block + 220);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parathread));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parachain));
// Fourth slot nothing happens :)
run_to_block(lease_start_block + 300);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parathread));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parachain));
// Fifth slot, Para 2 is downgrading
run_to_block(lease_start_block + 400);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parathread));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::DowngradingParachain));
// Two sessions later, Para 2 is downgraded
run_to_block(lease_start_block + 420);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parathread));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parathread));
});
}
#[test]
fn basic_errors_fail() {
new_test_ext().execute_with(|| {
assert!(System::block_number().is_one());
// Can't double register
Balances::make_free_balance_be(&1, 1_000);
Balances::make_free_balance_be(&2, 1_000);
let genesis_head = Registrar::worst_head_data();
let validation_code = Registrar::worst_validation_code();
assert_ok!(Registrar::register(
Origin::signed(1),
ParaId::from(1),
genesis_head.clone(),
validation_code.clone(),
));
assert_noop!(Registrar::register(
Origin::signed(2),
ParaId::from(1),
genesis_head,
validation_code,
), paras_registrar::Error::<Test>::AlreadyRegistered);
// Start an auction
let duration = 99u32;
let lease_period_index_start = 4u32;
assert_ok!(Auctions::new_auction(Origin::root(), duration, lease_period_index_start));
// Cannot create a crowdloan if you do not own the para
assert_noop!(Crowdloan::create(
Origin::signed(2),
ParaId::from(1),
1_000, // Cap
lease_period_index_start + 2, // First Slot
lease_period_index_start + 3, // Last Slot
200, // Block End
None,
), crowdloan::Error::<Test>::InvalidOrigin);
});
}
#[test]
fn competing_slots() {
// This test will verify that competing slots, from different sources will resolve appropriately.
new_test_ext().execute_with(|| {
assert!(System::block_number().is_one());
let max_bids = 10u32;
// Create n paras and owners
for n in 1 ..= max_bids {
Balances::make_free_balance_be(&n, 1_000);
let genesis_head = Registrar::worst_head_data();
let validation_code = Registrar::worst_validation_code();
assert_ok!(Registrar::register(
Origin::signed(n),
ParaId::from(n),
genesis_head,
validation_code,
));
}
// Start a new auction in the future
let duration = 99u32;
let lease_period_index_start = 4u32;
assert_ok!(Auctions::new_auction(Origin::root(), duration, lease_period_index_start));
for n in 1 ..= max_bids {
// Increment block number
run_to_block(n * 10);
Balances::make_free_balance_be(&(n * 10), n * 1_000);
let (start, end) = match n {
1 => (0, 0),
2 => (0, 1),
3 => (0, 2),
4 => (0, 3),
5 => (1, 1),
6 => (1, 2),
7 => (1, 3),
8 => (2, 2),
9 => (2, 3),
10 => (3, 3),
_ => panic!("test not meant for this"),
};
// User 10 will bid directly for parachain 1
assert_ok!(Auctions::bid(
Origin::signed(n * 10),
ParaId::from(n),
1, // Auction Index
lease_period_index_start + start, // First Slot
lease_period_index_start + end, // Last slot
n * 900, // Amount
));
}
// All winner slots are filled by bids
for winner in &auctions::Winning::<Test>::get(0).unwrap() {
assert!(winner.is_some());
}
// Auction should be done
run_to_block(110);
// Appropriate Paras should have won slots
// 900 + 4500 + 2x 8100 = 21,600
// 900 + 4500 + 7200 + 9000 = 21,600
assert_eq!(
slots::Leases::<Test>::get(ParaId::from(1)),
// -- 1 --- 2 --- 3 ---------- 4 ------
vec![None, None, None, Some((10, 900))],
);
assert_eq!(
slots::Leases::<Test>::get(ParaId::from(5)),
// -- 1 --- 2 --- 3 --- 4 ---------- 5 -------
vec![None, None, None, None, Some((50, 4500))],
);
// TODO: Is this right?
assert_eq!(
slots::Leases::<Test>::get(ParaId::from(9)),
// -- 1 --- 2 --- 3 --- 4 --- 5 ---------- 6 --------------- 7 -------
vec![None, None, None, None, None, Some((90, 8100)), Some((90, 8100))],
);
});
}
#[test]
fn competing_bids() {
// This test will verify that competing bids, from different sources will resolve appropriately.
new_test_ext().execute_with(|| {
assert!(System::block_number().is_one());
// Start a new auction in the future
let duration = 99u32;
let lease_period_index_start = 4u32;
assert_ok!(Auctions::new_auction(Origin::root(), duration, lease_period_index_start));
// Create 3 paras and owners
for n in 1 ..= 3 {
Balances::make_free_balance_be(&n, 1_000);
let genesis_head = Registrar::worst_head_data();
let validation_code = Registrar::worst_validation_code();
assert_ok!(Registrar::register(
Origin::signed(n),
ParaId::from(n),
genesis_head,
validation_code,
));
// Create a crowdloan for each para
assert_ok!(Crowdloan::create(
Origin::signed(n),
ParaId::from(n),
100_000, // Cap
lease_period_index_start + 2, // First Slot
lease_period_index_start + 3, // Last Slot
200, // Block End,
None,
));
}
for n in 1 ..= 9 {
// Increment block number
run_to_block(n * 10);
Balances::make_free_balance_be(&(n * 10), n * 1_000);
let para = n % 3 + 1;
if n % 2 == 0 {
// User 10 will bid directly for parachain 1
assert_ok!(Auctions::bid(
Origin::signed(n * 10),
ParaId::from(para),
1, // Auction Index
lease_period_index_start + 0, // First Slot
lease_period_index_start + 1, // Last slot
n * 900, // Amount
));
} else {
// User 20 will be a contribute to crowdfund for parachain 2
assert_ok!(Crowdloan::contribute(
Origin::signed(n * 10),
ParaId::from(para),
n + 900,
None,
));
}
}
// Auction should be done
run_to_block(110);
// Appropriate Paras should have won slots
let crowdloan_2 = Crowdloan::fund_account_id(ParaId::from(2));
assert_eq!(
slots::Leases::<Test>::get(ParaId::from(1)),
// -- 1 --- 2 --- 3 --- 4 --- 5 ------------- 6 ------------------------ 7 -------------
vec![None, None, None, None, None, Some((crowdloan_2, 1812)), Some((crowdloan_2, 1812))],
);
assert_eq!(
slots::Leases::<Test>::get(ParaId::from(3)),
// -- 1 --- 2 --- 3 ---------- 4 --------------- 5 -------
vec![None, None, None, Some((80, 7200)), Some((80, 7200))],
);
});
}
#[test]
fn basic_swap_works() {
// This test will test a swap between a parachain and parathread works successfully.
new_test_ext().execute_with(|| {
assert!(System::block_number().is_one()); // So events are emitted
// User 1 and 2 will own paras
Balances::make_free_balance_be(&1, 1_000);
Balances::make_free_balance_be(&2, 1_000);
// First register 2 parathreads with different data
assert_ok!(Registrar::register(
Origin::signed(1),
ParaId::from(1),
test_genesis_head(10),
test_validation_code(10),
));
assert_ok!(Registrar::register(
Origin::signed(2),
ParaId::from(2),
test_genesis_head(20),
test_validation_code(20),
));
// Paras should be onboarding
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Onboarding));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Onboarding));
// Start a new auction in the future
let duration = 99u32;
let lease_period_index_start = 4u32;
assert_ok!(Auctions::new_auction(Origin::root(), duration, lease_period_index_start));
// 2 sessions later they are parathreads
run_to_session(2);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parathread));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parathread));
// Open a crowdloan for Para 1 for slots 0-3
assert_ok!(Crowdloan::create(
Origin::signed(1),
ParaId::from(1),
1_000_000, // Cap
lease_period_index_start + 0, // First Slot
lease_period_index_start + 3, // Last Slot
200, // Block End
None,
));
// TODO: Check why this is the same for all paras
let crowdloan_account = Crowdloan::fund_account_id(ParaId::from(1));
// Bunch of contributions
let mut total = 0;
for i in 10 .. 20 {
Balances::make_free_balance_be(&i, 1_000);
assert_ok!(Crowdloan::contribute(Origin::signed(i), ParaId::from(1), 900 - i, None));
total += 900 - i;
}
assert!(total > 0);
assert_eq!(Balances::free_balance(&crowdloan_account), total);
// Go to end of auction where everyone won their slots
run_to_block(200);
// Deposit is appropriately taken
// ----------------------------------------- para deposit --- crowdloan
assert_eq!(Balances::reserved_balance(&1), (500 + 10 * 2 * 1) + 100);
assert_eq!(Balances::reserved_balance(&2), 500 + 20 * 2 * 1);
assert_eq!(Balances::reserved_balance(&crowdloan_account), total);
// Crowdloan is appropriately set
assert!(Crowdloan::funds(ParaId::from(1)).is_some());
assert!(Crowdloan::funds(ParaId::from(2)).is_none());
// New leases will start on block 400
let lease_start_block = 400;
run_to_block(lease_start_block);
// Slots are won by Para 1
assert!(!Slots::lease(ParaId::from(1)).is_empty());
assert!(Slots::lease(ParaId::from(2)).is_empty());
// 2 sessions later it is a parachain
run_to_block(lease_start_block + 20);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parachain));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parathread));
// Initiate a swap
assert_ok!(Registrar::swap(para_origin(1).into(), ParaId::from(2)));
assert_ok!(Registrar::swap(para_origin(2).into(), ParaId::from(1)));
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::DowngradingParachain));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::UpgradingParathread));
// 2 session later they have swapped
run_to_block(lease_start_block + 40);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parathread));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parachain));
// Deregister parathread
assert_ok!(Registrar::deregister(para_origin(1).into(), ParaId::from(1)));
// Correct deposit is unreserved
assert_eq!(Balances::reserved_balance(&1), 100); // crowdloan deposit left over
assert_eq!(Balances::reserved_balance(&2), 500 + 20 * 2 * 1);
// Crowdloan ownership is swapped
assert!(Crowdloan::funds(ParaId::from(1)).is_none());
assert!(Crowdloan::funds(ParaId::from(2)).is_some());
// Slot is swapped
assert!(Slots::lease(ParaId::from(1)).is_empty());
assert!(!Slots::lease(ParaId::from(2)).is_empty());
// Cant dissolve
assert_noop!(Crowdloan::dissolve(Origin::signed(1), ParaId::from(1)), CrowdloanError::<Test>::InvalidParaId);
assert_noop!(Crowdloan::dissolve(Origin::signed(2), ParaId::from(2)), CrowdloanError::<Test>::NotReadyToDissolve);
// Go way in the future when the para is offboarded
run_to_block(lease_start_block + 1000);
// Withdraw of contributions works
assert_eq!(Balances::free_balance(&crowdloan_account), total);
for i in 10 .. 20 {
assert_ok!(Crowdloan::withdraw(Origin::signed(i), i, ParaId::from(2)));
}
assert_eq!(Balances::free_balance(&crowdloan_account), 0);
// Dissolve returns the balance of the person who put a deposit for crowdloan
assert_ok!(Crowdloan::dissolve(Origin::signed(1), ParaId::from(2)));
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assert_eq!(Balances::reserved_balance(&1), 0);
assert_eq!(Balances::reserved_balance(&2), 500 + 20 * 2 * 1);
// Final deregister sets everything back to the start
assert_ok!(Registrar::deregister(para_origin(2).into(), ParaId::from(2)));
assert_eq!(Balances::reserved_balance(&2), 0);
})
}
#[test]
fn crowdloan_ending_period_bid() {
new_test_ext().execute_with(|| {
assert!(System::block_number().is_one()); // So events are emitted
// User 1 and 2 will own paras
Balances::make_free_balance_be(&1, 1_000);
Balances::make_free_balance_be(&2, 1_000);
// First register 2 parathreads
assert_ok!(Registrar::register(
Origin::signed(1),
ParaId::from(1),
test_genesis_head(10),
test_validation_code(10),
));
assert_ok!(Registrar::register(
Origin::signed(2),
ParaId::from(2),
test_genesis_head(20),
test_validation_code(20),
));
// Paras should be onboarding
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Onboarding));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Onboarding));
// Start a new auction in the future
let duration = 99u32;
let lease_period_index_start = 4u32;
assert_ok!(Auctions::new_auction(Origin::root(), duration, lease_period_index_start));
// 2 sessions later they are parathreads
run_to_session(2);
assert_eq!(Paras::lifecycle(ParaId::from(1)), Some(ParaLifecycle::Parathread));
assert_eq!(Paras::lifecycle(ParaId::from(2)), Some(ParaLifecycle::Parathread));
// Open a crowdloan for Para 1 for slots 0-3
assert_ok!(Crowdloan::create(
Origin::signed(1),
ParaId::from(1),
1_000_000, // Cap
lease_period_index_start + 0, // First Slot
lease_period_index_start + 3, // Last Slot
200, // Block End
None,
));
// TODO: Check why this is the same for all paras
let crowdloan_account = Crowdloan::fund_account_id(ParaId::from(1));
// Bunch of contributions
let mut total = 0;
for i in 10 .. 20 {
Balances::make_free_balance_be(&i, 1_000);
assert_ok!(Crowdloan::contribute(Origin::signed(i), ParaId::from(1), 900 - i, None));
total += 900 - i;
}
assert!(total > 0);
assert_eq!(Balances::free_balance(&crowdloan_account), total);
// Bid for para 2 directly
Balances::make_free_balance_be(&2, 1_000);
assert_ok!(Auctions::bid(
Origin::signed(2),
ParaId::from(2),
1, // Auction Index
lease_period_index_start + 0, // First Slot
lease_period_index_start + 1, // Last slot
900, // Amount
));
// Go to beginning of ending period
run_to_block(100);
assert_eq!(Auctions::is_ending(100), Some(0));
assert_eq!(Auctions::winning(0), Some(
[
None, // 0-0
Some((2, ParaId::from(2), 900)), // 0-1
None, // 0-2
Some((crowdloan_account, ParaId::from(1), total)), // 0-3
None, // 1-1
None, // 1-2
None, // 1-3
None, // 2-2
None, // 2-3
None, // 3-3
]
));
run_to_block(101);
Balances::make_free_balance_be(&1234, 1_000);
assert_ok!(Crowdloan::contribute(Origin::signed(1234), ParaId::from(1), 900, None));
// Data propagates correctly
run_to_block(102);
assert_eq!(Auctions::winning(2), Some(
[
None, // 0-0
Some((2, ParaId::from(2), 900)), // 0-1
None, // 0-2
Some((crowdloan_account, ParaId::from(1), total + 900)), // 0-3
None, // 1-1
None, // 1-2
None, // 1-3
None, // 2-2
None, // 2-3
None, // 3-3
]
));
})
}