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// Copyright 2017-2020 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/>.
//! Pallet to handle parathread/parachain registration and related fund management.
//! In essence this is a simple wrapper around `paras`.
use frame_support::{
dispatch::DispatchResult,
};
use frame_system::{self, ensure_root, ensure_signed};
use primitives::v1::{HeadData, Id as ParaId, ValidationCode, LOWEST_PUBLIC_ID};
configuration, ensure_parachain,
paras::{self, ParaGenesisArgs},
pub use pallet::*;
use scale_info::TypeInfo;
use sp_runtime::{
traits::{CheckedSub, Saturating},
RuntimeDebug,
};
#[derive(Encode, Decode, Clone, PartialEq, Eq, Default, RuntimeDebug, TypeInfo)]
pub struct ParaInfo<Account, Balance> {
/// The account that has placed a deposit for registering this para.
/// The amount reserved by the `manager` account for the registration.
/// Whether the para registration should be locked from being controlled by the manager.
locked: bool,
<<T as Config>::Currency as Currency<<T as frame_system::Config>::AccountId>>::Balance;
fn force_register() -> Weight;
fn deregister() -> Weight;
fn swap() -> Weight;
}
pub struct TestWeightInfo;
impl WeightInfo for TestWeightInfo {
fn reserve() -> Weight {
0
}
fn register() -> Weight {
0
}
fn force_register() -> Weight {
0
}
fn deregister() -> Weight {
0
}
fn swap() -> Weight {
0
}
#[frame_support::pallet]
pub mod pallet {
use frame_support::pallet_prelude::*;
use frame_system::pallet_prelude::*;
#[pallet::pallet]
#[pallet::generate_store(pub(super) trait Store)]
pub struct Pallet<T>(_);
#[pallet::config]
#[pallet::disable_frame_system_supertrait_check]
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pub trait Config: configuration::Config + paras::Config {
/// The overarching event type.
type Event: From<Event<Self>> + IsType<<Self as frame_system::Config>::Event>;
/// The aggregated origin type must support the `parachains` origin. We require that we can
/// infallibly convert between this origin and the system origin, but in reality, they're the
/// same type, we just can't express that to the Rust type system without writing a `where`
/// clause everywhere.
type Origin: From<<Self as frame_system::Config>::Origin>
+ Into<result::Result<Origin, <Self as Config>::Origin>>;
/// The system's currency for parathread payment.
type Currency: ReservableCurrency<Self::AccountId>;
/// Runtime hook for when a parachain and parathread swap.
type OnSwap: crate::traits::OnSwap;
/// The deposit to be paid to run a parathread.
/// This should include the cost for storing the genesis head and validation code.
#[pallet::constant]
type ParaDeposit: Get<BalanceOf<Self>>;
/// The deposit to be paid per byte stored on chain.
#[pallet::constant]
type DataDepositPerByte: Get<BalanceOf<Self>>;
/// Weight Information for the Extrinsics in the Pallet
type WeightInfo: WeightInfo;
#[pallet::event]
#[pallet::generate_deposit(pub(super) fn deposit_event)]
pub enum Event<T: Config> {
Registered(ParaId, T::AccountId),
Reserved(ParaId, T::AccountId),
#[pallet::error]
pub enum Error<T> {
/// The ID is not registered.
NotRegistered,
/// The ID is already registered.
AlreadyRegistered,
/// The caller is not the owner of this Id.
NotOwner,
/// Invalid para code size.
CodeTooLarge,
/// Invalid para head data size.
HeadDataTooLarge,
/// Para is not a Parachain.
NotParachain,
/// Para is not a Parathread.
NotParathread,
/// Cannot deregister para
CannotDeregister,
/// Cannot schedule downgrade of parachain to parathread
CannotDowngrade,
/// Cannot schedule upgrade of parathread to parachain
CannotUpgrade,
/// Para is locked from manipulation by the manager. Must use parachain or relay chain governance.
ParaLocked,
/// The ID given for registration has not been reserved.
NotReserved,
/// Registering parachain with empty code is not allowed.
EmptyCode,
/// Pending swap operations.
#[pallet::storage]
pub(super) type PendingSwap<T> = StorageMap<_, Twox64Concat, ParaId, ParaId>;
/// Amount held on deposit for each para and the original depositor.
///
/// The given account ID is responsible for registering the code and initial head data, but may only do
/// so if it isn't yet registered. (After that, it's up to governance to do so.)
#[pallet::storage]
pub type Paras<T: Config> =
StorageMap<_, Twox64Concat, ParaId, ParaInfo<T::AccountId, BalanceOf<T>>>;
/// The next free `ParaId`.
#[pallet::storage]
pub type NextFreeParaId<T> = StorageValue<_, ParaId, ValueQuery>;
#[pallet::genesis_config]
pub struct GenesisConfig {
pub next_free_para_id: ParaId,
}
#[cfg(feature = "std")]
impl Default for GenesisConfig {
fn default() -> Self {
GenesisConfig { next_free_para_id: LOWEST_PUBLIC_ID }
}
}
#[pallet::genesis_build]
impl<T: Config> GenesisBuild<T> for GenesisConfig {
fn build(&self) {
NextFreeParaId::<T>::put(self.next_free_para_id);
}
}
#[pallet::hooks]
impl<T: Config> Hooks<BlockNumberFor<T>> for Pallet<T> {}
#[pallet::call]
impl<T: Config> Pallet<T> {
/// Register head data and validation code for a reserved Para Id.
/// ## Arguments
/// - `origin`: Must be called by a `Signed` origin.
/// - `id`: The para ID. Must be owned/managed by the `origin` signing account.
/// - `genesis_head`: The genesis head data of the parachain/thread.
/// - `validation_code`: The initial validation code of the parachain/thread.
/// ## Deposits/Fees
/// The origin signed account must reserve a corresponding deposit for the registration. Anything already
/// reserved previously for this para ID is accounted for.
/// ## Events
/// The `Registered` event is emitted in case of success.
#[pallet::weight(<T as Config>::WeightInfo::register())]
origin: OriginFor<T>,
id: ParaId,
genesis_head: HeadData,
validation_code: ValidationCode,
) -> DispatchResult {
let who = ensure_signed(origin)?;
Self::do_register(who, None, id, genesis_head, validation_code, true)?;
}
/// Force the registration of a Para Id on the relay chain.
///
/// This function must be called by a Root origin.
///
/// The deposit taken can be specified for this registration. Any `ParaId`
/// can be registered, including sub-1000 IDs which are System Parachains.
#[pallet::weight(<T as Config>::WeightInfo::force_register())]
pub fn force_register(
origin: OriginFor<T>,
who: T::AccountId,
deposit: BalanceOf<T>,
id: ParaId,
genesis_head: HeadData,
validation_code: ValidationCode,
) -> DispatchResult {
ensure_root(origin)?;
Self::do_register(who, Some(deposit), id, genesis_head, validation_code, false)
/// Deregister a Para Id, freeing all data and returning any deposit.
/// The caller must be Root, the `para` owner, or the `para` itself. The para must be a parathread.
#[pallet::weight(<T as Config>::WeightInfo::deregister())]
pub fn deregister(origin: OriginFor<T>, id: ParaId) -> DispatchResult {
Self::ensure_root_para_or_owner(origin, id)?;
/// Swap a parachain with another parachain or parathread.
///
/// The origin must be Root, the `para` owner, or the `para` itself.
///
/// The swap will happen only if there is already an opposite swap pending. If there is not,
/// the swap will be stored in the pending swaps map, ready for a later confirmatory swap.
///
/// The `ParaId`s remain mapped to the same head data and code so external code can rely on
/// `ParaId` to be a long-term identifier of a notional "parachain". However, their
/// scheduling info (i.e. whether they're a parathread or parachain), auction information
/// and the auction deposit are switched.
#[pallet::weight(<T as Config>::WeightInfo::swap())]
pub fn swap(origin: OriginFor<T>, id: ParaId, other: ParaId) -> DispatchResult {
Self::ensure_root_para_or_owner(origin, id)?;
if PendingSwap::<T>::get(other) == Some(id) {
if let Some(other_lifecycle) = paras::Pallet::<T>::lifecycle(other) {
if let Some(id_lifecycle) = paras::Pallet::<T>::lifecycle(id) {
// identify which is a parachain and which is a parathread
if id_lifecycle.is_parachain() && other_lifecycle.is_parathread() {
// We check that both paras are in an appropriate lifecycle for a swap,
// so these should never fail.
let res1 = runtime_parachains::schedule_parachain_downgrade::<T>(id);
debug_assert!(res1.is_ok());
let res2 = runtime_parachains::schedule_parathread_upgrade::<T>(other);
debug_assert!(res2.is_ok());
T::OnSwap::on_swap(id, other);
} else if id_lifecycle.is_parathread() && other_lifecycle.is_parachain() {
// We check that both paras are in an appropriate lifecycle for a swap,
// so these should never fail.
let res1 = runtime_parachains::schedule_parachain_downgrade::<T>(other);
debug_assert!(res1.is_ok());
let res2 = runtime_parachains::schedule_parathread_upgrade::<T>(id);
debug_assert!(res2.is_ok());
T::OnSwap::on_swap(id, other);
}
PendingSwap::<T>::remove(other);
PendingSwap::<T>::insert(id, other);
/// Remove a manager lock from a para. This will allow the manager of a
/// previously locked para to deregister or swap a para without using governance.
///
/// Can only be called by the Root origin.
#[pallet::weight(T::DbWeight::get().reads_writes(1, 1))]
pub fn force_remove_lock(origin: OriginFor<T>, para: ParaId) -> DispatchResult {
ensure_root(origin)?;
Self::remove_lock(para);
/// Reserve a Para Id on the relay chain.
/// This function will reserve a new Para Id to be owned/managed by the origin account.
/// The origin account is able to register head data and validation code using `register` to create
/// a parathread. Using the Slots pallet, a parathread can then be upgraded to get a parachain slot.
/// ## Arguments
/// - `origin`: Must be called by a `Signed` origin. Becomes the manager/owner of the new para ID.
/// ## Deposits/Fees
/// The origin must reserve a deposit of `ParaDeposit` for the registration.
///
/// ## Events
/// The `Reserved` event is emitted in case of success, which provides the ID reserved for use.
#[pallet::weight(<T as Config>::WeightInfo::reserve())]
pub fn reserve(origin: OriginFor<T>) -> DispatchResult {
let who = ensure_signed(origin)?;
let id = NextFreeParaId::<T>::get().max(LOWEST_PUBLIC_ID);
Self::do_reserve(who, None, id)?;
NextFreeParaId::<T>::set(id + 1);
impl<T: Config> Registrar for Pallet<T> {
type AccountId = T::AccountId;
/// Return the manager `AccountId` of a para if one exists.
fn manager_of(id: ParaId) -> Option<T::AccountId> {
Some(Paras::<T>::get(id)?.manager)
}
// All parachains. Ordered ascending by ParaId. Parathreads are not included.
fn parachains() -> Vec<ParaId> {
paras::Pallet::<T>::parachains()
}
// Return if a para is a parathread
fn is_parathread(id: ParaId) -> bool {
paras::Pallet::<T>::is_parathread(id)
}
// Return if a para is a parachain
fn is_parachain(id: ParaId) -> bool {
paras::Pallet::<T>::is_parachain(id)
// Apply a lock to the parachain.
fn apply_lock(id: ParaId) {
Paras::<T>::mutate(id, |x| x.as_mut().map(|mut info| info.locked = true));
}
// Apply a lock to the parachain.
fn remove_lock(id: ParaId) {
Paras::<T>::mutate(id, |x| x.as_mut().map(|mut info| info.locked = false));
}
// Register a Para ID under control of `manager`.
// Note this is a backend registration API, so verification of ParaId
// is not done here to prevent.
fn register(
manager: T::AccountId,
id: ParaId,
genesis_head: HeadData,
validation_code: ValidationCode,
) -> DispatchResult {
Self::do_register(manager, None, id, genesis_head, validation_code, false)
// Deregister a Para ID, free any data, and return any deposits.
fn deregister(id: ParaId) -> DispatchResult {
Self::do_deregister(id)
}
// Upgrade a registered parathread into a parachain.
fn make_parachain(id: ParaId) -> DispatchResult {
// Para backend should think this is a parathread...
ensure!(
paras::Pallet::<T>::lifecycle(id) == Some(ParaLifecycle::Parathread),
Error::<T>::NotParathread
);
runtime_parachains::schedule_parathread_upgrade::<T>(id)
.map_err(|_| Error::<T>::CannotUpgrade)?;
// Once a para has upgraded to a parachain, it can no longer be managed by the owner.
// Intentionally, the flag stays with the para even after downgrade.
Self::apply_lock(id);
// Downgrade a registered para into a parathread.
fn make_parathread(id: ParaId) -> DispatchResult {
// Para backend should think this is a parachain...
ensure!(
paras::Pallet::<T>::lifecycle(id) == Some(ParaLifecycle::Parachain),
Error::<T>::NotParachain
);
runtime_parachains::schedule_parachain_downgrade::<T>(id)
.map_err(|_| Error::<T>::CannotDowngrade)?;
#[cfg(any(feature = "runtime-benchmarks", test))]
fn worst_head_data() -> HeadData {
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let max_head_size = configuration::Pallet::<T>::config().max_head_data_size;
assert!(max_head_size > 0, "max_head_data can't be zero for generating worst head data.");
vec![0u8; max_head_size as usize].into()
}
#[cfg(any(feature = "runtime-benchmarks", test))]
fn worst_validation_code() -> ValidationCode {
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let max_code_size = configuration::Pallet::<T>::config().max_code_size;
assert!(max_code_size > 0, "max_code_size can't be zero for generating worst code data.");
let validation_code = vec![0u8; max_code_size as usize];
#[cfg(any(feature = "runtime-benchmarks", test))]
fn execute_pending_transitions() {
use runtime_parachains::shared;
shared::Pallet::<T>::set_session_index(shared::Pallet::<T>::scheduled_session());
paras::Pallet::<T>::test_on_new_session();
impl<T: Config> Pallet<T> {
/// Ensure the origin is one of Root, the `para` owner, or the `para` itself.
/// If the origin is the `para` owner, the `para` must be unlocked.
fn ensure_root_para_or_owner(
origin: <T as frame_system::Config>::Origin,
id: ParaId,
) -> DispatchResult {
ensure_signed(origin.clone())
.map_err(|e| e.into())
.and_then(|who| -> DispatchResult {
let para_info = Paras::<T>::get(id).ok_or(Error::<T>::NotRegistered)?;
ensure!(!para_info.locked, Error::<T>::ParaLocked);
ensure!(para_info.manager == who, Error::<T>::NotOwner);
Ok(())
})
.or_else(|_| -> DispatchResult {
// Else check if para origin...
let caller_id = ensure_parachain(<T as Config>::Origin::from(origin.clone()))?;
ensure!(caller_id == id, Error::<T>::NotOwner);
Ok(())
})
.or_else(|_| -> DispatchResult {
// Check if root...
ensure_root(origin.clone()).map_err(|e| e.into())
})
}
fn do_reserve(
who: T::AccountId,
deposit_override: Option<BalanceOf<T>>,
id: ParaId,
) -> DispatchResult {
ensure!(!Paras::<T>::contains_key(id), Error::<T>::AlreadyRegistered);
ensure!(paras::Pallet::<T>::lifecycle(id).is_none(), Error::<T>::AlreadyRegistered);
let deposit = deposit_override.unwrap_or_else(T::ParaDeposit::get);
<T as Config>::Currency::reserve(&who, deposit)?;
let info = ParaInfo { manager: who.clone(), deposit, locked: false };
Paras::<T>::insert(id, info);
Self::deposit_event(Event::<T>::Reserved(id, who));
/// Attempt to register a new Para Id under management of `who` in the
/// system with the given information.
fn do_register(
who: T::AccountId,
deposit_override: Option<BalanceOf<T>>,
id: ParaId,
genesis_head: HeadData,
validation_code: ValidationCode,
let deposited = if let Some(para_data) = Paras::<T>::get(id) {
ensure!(para_data.manager == who, Error::<T>::NotOwner);
ensure!(!para_data.locked, Error::<T>::ParaLocked);
para_data.deposit
} else {
ensure!(!ensure_reserved, Error::<T>::NotReserved);
Default::default()
};
ensure!(paras::Pallet::<T>::lifecycle(id).is_none(), Error::<T>::AlreadyRegistered);
let (genesis, deposit) =
Self::validate_onboarding_data(genesis_head, validation_code, false)?;
let deposit = deposit_override.unwrap_or(deposit);
if let Some(additional) = deposit.checked_sub(&deposited) {
<T as Config>::Currency::reserve(&who, additional)?;
} else if let Some(rebate) = deposited.checked_sub(&deposit) {
<T as Config>::Currency::unreserve(&who, rebate);
};
let info = ParaInfo { manager: who.clone(), deposit, locked: false };
Paras::<T>::insert(id, info);
// We check above that para has no lifecycle, so this should not fail.
let res = runtime_parachains::schedule_para_initialize::<T>(id, genesis);
debug_assert!(res.is_ok());
Self::deposit_event(Event::<T>::Registered(id, who));
Ok(())
}
/// Deregister a Para Id, freeing all data returning any deposit.
fn do_deregister(id: ParaId) -> DispatchResult {
match paras::Pallet::<T>::lifecycle(id) {
// Para must be a parathread, or not exist at all.
Some(ParaLifecycle::Parathread) | None => {},
_ => return Err(Error::<T>::NotParathread.into()),
runtime_parachains::schedule_para_cleanup::<T>(id)
.map_err(|_| Error::<T>::CannotDeregister)?;
if let Some(info) = Paras::<T>::take(&id) {
<T as Config>::Currency::unreserve(&info.manager, info.deposit);
}
PendingSwap::<T>::remove(id);
Self::deposit_event(Event::<T>::Deregistered(id));
/// Verifies the onboarding data is valid for a para.
///
/// Returns `ParaGenesisArgs` and the deposit needed for the data.
fn validate_onboarding_data(
genesis_head: HeadData,
validation_code: ValidationCode,
parachain: bool,
) -> Result<(ParaGenesisArgs, BalanceOf<T>), sp_runtime::DispatchError> {
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let config = configuration::Pallet::<T>::config();
ensure!(validation_code.0.len() > 0, Error::<T>::EmptyCode);
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ensure!(validation_code.0.len() <= config.max_code_size as usize, Error::<T>::CodeTooLarge);
ensure!(
genesis_head.0.len() <= config.max_head_data_size as usize,
Error::<T>::HeadDataTooLarge
);
let per_byte_fee = T::DataDepositPerByte::get();
let deposit = T::ParaDeposit::get()
.saturating_add(per_byte_fee.saturating_mul((genesis_head.0.len() as u32).into()))
.saturating_add(per_byte_fee.saturating_mul((validation_code.0.len() as u32).into()));
Ok((ParaGenesisArgs { genesis_head, validation_code, parachain }, deposit))
}
#[cfg(test)]
mod tests {
use super::*;
use crate::{paras_registrar, traits::Registrar as RegistrarTrait};
error::BadOrigin,
parameter_types,
traits::{GenesisBuild, OnFinalize, OnInitialize},
use pallet_balances::Error as BalancesError;
use primitives::v1::{Balance, BlockNumber, Header};
use runtime_parachains::{configuration, shared};
use sp_core::H256;
use sp_io::TestExternalities;
use sp_runtime::{
traits::{BlakeTwo256, IdentityLookup},
Perbill,
};
type UncheckedExtrinsic = frame_system::mocking::MockUncheckedExtrinsic<Test>;
type Block = frame_system::mocking::MockBlock<Test>;
frame_support::construct_runtime!(
pub enum Test where
Block = Block,
NodeBlock = Block,
UncheckedExtrinsic = UncheckedExtrinsic,
{
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System: frame_system::{Pallet, Call, Config, Storage, Event<T>},
Balances: pallet_balances::{Pallet, Call, Storage, Config<T>, Event<T>},
Configuration: configuration::{Pallet, Call, Storage, Config<T>},
Parachains: paras::{Pallet, Origin, Call, Storage, Config, Event},
ParasShared: shared::{Pallet, Call, Storage},
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Registrar: paras_registrar::{Pallet, Call, Storage, Event<T>},
);
const NORMAL_RATIO: Perbill = Perbill::from_percent(75);
parameter_types! {
pub const BlockHashCount: u32 = 250;
pub BlockWeights: limits::BlockWeights =
frame_system::limits::BlockWeights::simple_max(1024);
pub BlockLength: limits::BlockLength =
limits::BlockLength::max_with_normal_ratio(4 * 1024 * 1024, NORMAL_RATIO);
impl frame_system::Config for Test {
type BaseCallFilter = frame_support::traits::Everything;
type Origin = Origin;
type Call = Call;
type Index = u64;
type BlockNumber = BlockNumber;
type Hash = H256;
type Hashing = BlakeTwo256;
type AccountId = u64;
type Lookup = IdentityLookup<u64>;
type Header = Header;
type Event = Event;
type BlockHashCount = BlockHashCount;
type DbWeight = ();
type BlockWeights = BlockWeights;
type BlockLength = BlockLength;
type PalletInfo = PalletInfo;
type AccountData = pallet_balances::AccountData<u128>;
type OnNewAccount = ();
type OnKilledAccount = ();
type SS58Prefix = ();
}
parameter_types! {
pub const ExistentialDeposit: Balance = 1;
}
impl pallet_balances::Config for Test {
type Balance = u128;
type DustRemoval = ();
type Event = Event;
type ExistentialDeposit = ExistentialDeposit;
type AccountStore = System;
type MaxLocks = ();
type MaxReserves = ();
type ReserveIdentifier = [u8; 8];
type WeightInfo = ();
}
impl shared::Config for Test {}
impl paras::Config for Test {
type WeightInfo = paras::TestWeightInfo;
impl configuration::Config for Test {
type WeightInfo = configuration::TestWeightInfo;
pub const ParaDeposit: Balance = 10;
pub const DataDepositPerByte: Balance = 1;
pub const MaxRetries: u32 = 3;
}
impl Config for Test {
type Currency = Balances;
type OnSwap = ();
type ParaDeposit = ParaDeposit;
type DataDepositPerByte = DataDepositPerByte;
type WeightInfo = TestWeightInfo;
pub fn new_test_ext() -> TestExternalities {
let mut t = frame_system::GenesisConfig::default().build_storage::<Test>().unwrap();
GenesisBuild::<Test>::assimilate_storage(
&configuration::GenesisConfig {
config: configuration::HostConfiguration {
max_head_data_size: 1 * 1024 * 1024, // 1 MB
..Default::default()
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},
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pallet_balances::GenesisConfig::<Test> { balances: vec![(1, 10_000_000), (2, 10_000_000)] }
.assimilate_storage(&mut t)
.unwrap();
const BLOCKS_PER_SESSION: u32 = 3;
fn run_to_block(n: BlockNumber) {
// NOTE that this function only simulates modules of interest. Depending on new pallet may
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// require adding it here.
assert!(System::block_number() < n);
while System::block_number() < n {
let b = System::block_number();
if System::block_number() > 1 {
System::on_finalize(System::block_number());
}
// Session change every 3 blocks.
if (b + 1) % BLOCKS_PER_SESSION == 0 {
shared::Pallet::<Test>::set_session_index(
}
System::set_block_number(b + 1);
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System::on_initialize(System::block_number());
fn run_to_session(n: BlockNumber) {
let block_number = n * BLOCKS_PER_SESSION;
run_to_block(block_number);
}
fn test_genesis_head(size: usize) -> HeadData {
HeadData(vec![0u8; size])
}
fn test_validation_code(size: usize) -> ValidationCode {
let validation_code = vec![0u8; size as usize];
ValidationCode(validation_code)
}
fn para_origin(id: ParaId) -> Origin {
runtime_parachains::Origin::Parachain(id).into()
}
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fn max_code_size() -> u32 {
Configuration::config().max_code_size
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}
fn max_head_size() -> u32 {
Configuration::config().max_head_data_size
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}
#[test]
fn basic_setup_works() {
new_test_ext().execute_with(|| {
assert_eq!(PendingSwap::<Test>::get(&ParaId::from(0u32)), None);
assert_eq!(Paras::<Test>::get(&ParaId::from(0u32)), None);
new_test_ext().execute_with(|| {
let para_id = LOWEST_PUBLIC_ID;
// first para is not yet registered
assert!(!Parachains::is_parathread(para_id));
assert_ok!(Registrar::reserve(Origin::signed(1)));
assert_ok!(Registrar::register(
Origin::signed(1),
test_genesis_head(32),
test_validation_code(32),
));
run_to_session(2);
// It is now a parathread.
assert!(Parachains::is_parathread(para_id));
assert!(!Parachains::is_parachain(para_id));
// Some other external process will elevate parathread to parachain
assert_ok!(Registrar::make_parachain(para_id));
run_to_session(4);
// It is now a parachain.
assert!(!Parachains::is_parathread(para_id));
assert!(Parachains::is_parachain(para_id));
assert_ok!(Registrar::make_parathread(para_id));
assert!(Parachains::is_parathread(para_id));
assert!(!Parachains::is_parachain(para_id));
assert_ok!(Registrar::deregister(Origin::root(), para_id,));
run_to_session(8);
// It is nothing
assert!(!Parachains::is_parathread(para_id));
assert!(!Parachains::is_parachain(para_id));
#[test]
fn register_works() {
new_test_ext().execute_with(|| {
run_to_block(1);
let para_id = LOWEST_PUBLIC_ID;
assert!(!Parachains::is_parathread(para_id));
assert_ok!(Registrar::reserve(Origin::signed(1)));
assert_eq!(Balances::reserved_balance(&1), <Test as Config>::ParaDeposit::get());
assert_ok!(Registrar::register(
Origin::signed(1),
test_genesis_head(32),
test_validation_code(32),
assert!(Parachains::is_parathread(para_id));
assert_eq!(
Balances::reserved_balance(&1),
<Test as Config>::ParaDeposit::get() +
64 * <Test as Config>::DataDepositPerByte::get()
#[test]
fn register_handles_basic_errors() {
new_test_ext().execute_with(|| {
let para_id = LOWEST_PUBLIC_ID;
assert_noop!(
Registrar::register(
Origin::signed(1),
para_id,
test_genesis_head(max_head_size() as usize),
test_validation_code(max_code_size() as usize),
),
Error::<Test>::NotReserved
);
// Successfully register para
assert_ok!(Registrar::reserve(Origin::signed(1)));
assert_noop!(
Registrar::register(
Origin::signed(2),
para_id,
test_genesis_head(max_head_size() as usize),
test_validation_code(max_code_size() as usize),
),
Error::<Test>::NotOwner
);
assert_ok!(Registrar::register(
Origin::signed(1),
Shawn Tabrizi
committed
test_genesis_head(max_head_size() as usize),
test_validation_code(max_code_size() as usize),
assert_ok!(Registrar::deregister(Origin::root(), para_id));
// Can't do it again
assert_noop!(
Registrar::register(
Origin::signed(1),
para_id,
test_genesis_head(max_head_size() as usize),
test_validation_code(max_code_size() as usize),
),
Error::<Test>::NotReserved
);
assert_ok!(Registrar::reserve(Origin::signed(2)));
assert_noop!(
Registrar::register(
Origin::signed(2),
para_id + 1,
test_genesis_head((max_head_size() + 1) as usize),
test_validation_code(max_code_size() as usize),
),
Error::<Test>::HeadDataTooLarge
);
assert_noop!(
Registrar::register(
Origin::signed(2),
para_id + 1,
test_genesis_head(max_head_size() as usize),
test_validation_code((max_code_size() + 1) as usize),
),
Error::<Test>::CodeTooLarge
);
// Needs enough funds for deposit
assert_noop!(
Registrar::reserve(Origin::signed(1337)),
BalancesError::<Test, _>::InsufficientBalance
);
new_test_ext().execute_with(|| {
run_to_block(1);
let para_id = LOWEST_PUBLIC_ID;
assert!(!Parachains::is_parathread(para_id));
assert_ok!(Registrar::reserve(Origin::signed(1)));
assert_ok!(Registrar::register(
Origin::signed(1),
test_genesis_head(32),
test_validation_code(32),
));
run_to_session(2);
assert!(Parachains::is_parathread(para_id));
assert_ok!(Registrar::deregister(Origin::root(), para_id,));
assert!(paras::Pallet::<Test>::lifecycle(para_id).is_none());
assert_eq!(Balances::reserved_balance(&1), 0);
});
}
#[test]
fn deregister_handles_basic_errors() {
new_test_ext().execute_with(|| {
run_to_block(1);
let para_id = LOWEST_PUBLIC_ID;
assert!(!Parachains::is_parathread(para_id));
assert_ok!(Registrar::reserve(Origin::signed(1)));
test_genesis_head(32),
test_validation_code(32),
assert!(Parachains::is_parathread(para_id));
// Owner check
assert_noop!(Registrar::deregister(Origin::signed(2), para_id,), BadOrigin);
assert_ok!(Registrar::make_parachain(para_id));
run_to_session(4);
// Cant directly deregister parachain
assert_noop!(
Registrar::deregister(Origin::root(), para_id,),
Error::<Test>::NotParathread
);
#[test]
fn swap_works() {
new_test_ext().execute_with(|| {
// Successfully register first two parachains
let para_1 = LOWEST_PUBLIC_ID;
let para_2 = LOWEST_PUBLIC_ID + 1;
assert_ok!(Registrar::reserve(Origin::signed(1)));
assert_ok!(Registrar::register(
Origin::signed(1),
Shawn Tabrizi
committed
test_genesis_head(max_head_size() as usize),
test_validation_code(max_code_size() as usize),
assert_ok!(Registrar::reserve(Origin::signed(2)));
assert_ok!(Registrar::register(
Origin::signed(2),
Shawn Tabrizi
committed
test_genesis_head(max_head_size() as usize),
test_validation_code(max_code_size() as usize),
// Upgrade 1023 into a parachain
assert_ok!(Registrar::make_parachain(para_1));
assert!(Parachains::is_parachain(para_1));
assert!(!Parachains::is_parathread(para_1));
assert!(!Parachains::is_parachain(para_2));
assert!(Parachains::is_parathread(para_2));
assert_ok!(Registrar::swap(para_origin(para_1), para_1, para_2,));
assert_ok!(Registrar::swap(para_origin(para_2), para_2, para_1,));
// Deregister a parathread that was originally a parachain
assert_eq!(Parachains::lifecycle(para_1), Some(ParaLifecycle::Parathread));