// Copyright (C) Parity Technologies (UK) Ltd. // SPDX-License-Identifier: Apache-2.0 // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. use super::*; use crate as xcmp_queue; use core::marker::PhantomData; use cumulus_pallet_parachain_system::AnyRelayNumber; use cumulus_primitives_core::{ChannelInfo, IsSystem, ParaId}; use frame_support::{ derive_impl, parameter_types, traits::{ConstU32, Everything, Nothing, OriginTrait}, BoundedSlice, }; use frame_system::EnsureRoot; use sp_core::H256; use sp_runtime::{ traits::{BlakeTwo256, IdentityLookup}, BuildStorage, }; use xcm::prelude::*; use xcm_builder::{ FixedWeightBounds, FrameTransactionalProcessor, FungibleAdapter, IsConcrete, NativeAsset, ParentIsPreset, }; use xcm_executor::traits::ConvertOrigin; type Block = frame_system::mocking::MockBlock; // Configure a mock runtime to test the pallet. frame_support::construct_runtime!( pub enum Test { System: frame_system::{Pallet, Call, Config, Storage, Event}, Balances: pallet_balances::{Pallet, Call, Storage, Config, Event}, ParachainSystem: cumulus_pallet_parachain_system::{ Pallet, Call, Config, Storage, Inherent, Event, ValidateUnsigned, }, XcmpQueue: xcmp_queue::{Pallet, Call, Storage, Event}, } ); parameter_types! { pub const BlockHashCount: u64 = 250; pub const SS58Prefix: u8 = 42; } type AccountId = u64; #[derive_impl(frame_system::config_preludes::TestDefaultConfig)] impl frame_system::Config for Test { type BaseCallFilter = Everything; type BlockWeights = (); type BlockLength = (); type DbWeight = (); type RuntimeOrigin = RuntimeOrigin; type RuntimeCall = RuntimeCall; type Nonce = u64; type Hash = H256; type Hashing = BlakeTwo256; type AccountId = AccountId; type Lookup = IdentityLookup; type Block = Block; type RuntimeEvent = RuntimeEvent; type BlockHashCount = BlockHashCount; type Version = (); type PalletInfo = PalletInfo; type AccountData = pallet_balances::AccountData; type OnNewAccount = (); type OnKilledAccount = (); type SystemWeightInfo = (); type SS58Prefix = SS58Prefix; type OnSetCode = cumulus_pallet_parachain_system::ParachainSetCode; type MaxConsumers = frame_support::traits::ConstU32<16>; } parameter_types! { pub const ExistentialDeposit: u64 = 5; pub const MaxReserves: u32 = 50; } pub type Balance = u64; impl pallet_balances::Config for Test { type Balance = Balance; type RuntimeEvent = RuntimeEvent; type DustRemoval = (); type ExistentialDeposit = ExistentialDeposit; type AccountStore = System; type WeightInfo = (); type MaxLocks = (); type MaxReserves = MaxReserves; type ReserveIdentifier = [u8; 8]; type RuntimeHoldReason = RuntimeHoldReason; type RuntimeFreezeReason = RuntimeFreezeReason; type FreezeIdentifier = (); type MaxFreezes = ConstU32<0>; } impl cumulus_pallet_parachain_system::Config for Test { type WeightInfo = (); type RuntimeEvent = RuntimeEvent; type OnSystemEvent = (); type SelfParaId = (); type OutboundXcmpMessageSource = XcmpQueue; // Ignore all DMP messages by enqueueing them into `()`: type DmpQueue = frame_support::traits::EnqueueWithOrigin<(), sp_core::ConstU8<0>>; type ReservedDmpWeight = (); type XcmpMessageHandler = XcmpQueue; type ReservedXcmpWeight = (); type CheckAssociatedRelayNumber = AnyRelayNumber; type ConsensusHook = cumulus_pallet_parachain_system::consensus_hook::ExpectParentIncluded; } parameter_types! { pub const RelayChain: Location = Location::parent(); pub UniversalLocation: InteriorLocation = [Parachain(1u32)].into(); pub UnitWeightCost: Weight = Weight::from_parts(1_000_000, 1024); pub const MaxInstructions: u32 = 100; pub const MaxAssetsIntoHolding: u32 = 64; } /// Means for transacting assets on this chain. pub type LocalAssetTransactor = FungibleAdapter< // Use this currency: Balances, // Use this currency when it is a fungible asset matching the given location or name: IsConcrete, // Do a simple punn to convert an AccountId32 Location into a native chain account ID: LocationToAccountId, // Our chain's account ID type (we can't get away without mentioning it explicitly): AccountId, // We don't track any teleports. (), >; pub type LocationToAccountId = (ParentIsPreset,); pub struct XcmConfig; impl xcm_executor::Config for XcmConfig { type RuntimeCall = RuntimeCall; type XcmSender = XcmRouter; // How to withdraw and deposit an asset. type AssetTransactor = LocalAssetTransactor; type OriginConverter = (); type IsReserve = NativeAsset; type IsTeleporter = NativeAsset; type UniversalLocation = UniversalLocation; type Barrier = (); type Weigher = FixedWeightBounds; type Trader = (); type ResponseHandler = (); type AssetTrap = (); type AssetClaims = (); type SubscriptionService = (); type PalletInstancesInfo = AllPalletsWithSystem; type MaxAssetsIntoHolding = MaxAssetsIntoHolding; type AssetLocker = (); type AssetExchanger = (); type FeeManager = (); type MessageExporter = (); type UniversalAliases = Nothing; type CallDispatcher = RuntimeCall; type SafeCallFilter = Everything; type Aliasers = Nothing; type TransactionalProcessor = FrameTransactionalProcessor; type HrmpNewChannelOpenRequestHandler = (); type HrmpChannelAcceptedHandler = (); type HrmpChannelClosingHandler = (); } pub type XcmRouter = ( // XCMP to communicate with the sibling chains. XcmpQueue, ); pub struct SystemParachainAsSuperuser(PhantomData); impl ConvertOrigin for SystemParachainAsSuperuser { fn convert_origin( origin: impl Into, kind: OriginKind, ) -> Result { let origin = origin.into(); if kind == OriginKind::Superuser && matches!( origin.unpack(), (1, [Parachain(id)]) if ParaId::from(*id).is_system(), ) { Ok(RuntimeOrigin::root()) } else { Err(origin) } } } parameter_types! { pub static EnqueuedMessages: Vec<(ParaId, Vec)> = Default::default(); } /// An `EnqueueMessage` implementation that puts all messages in thread-local storage. pub struct EnqueueToLocalStorage(PhantomData); impl> EnqueueMessage for EnqueueToLocalStorage { type MaxMessageLen = sp_core::ConstU32<65_536>; fn enqueue_message(message: BoundedSlice, origin: ParaId) { let mut msgs = EnqueuedMessages::get(); msgs.push((origin, message.to_vec())); EnqueuedMessages::set(msgs); T::on_queue_changed(origin, Self::footprint(origin)); } fn enqueue_messages<'a>( iter: impl Iterator>, origin: ParaId, ) { let mut msgs = EnqueuedMessages::get(); msgs.extend(iter.map(|m| (origin, m.to_vec()))); EnqueuedMessages::set(msgs); T::on_queue_changed(origin, Self::footprint(origin)); } fn sweep_queue(origin: ParaId) { let mut msgs = EnqueuedMessages::get(); msgs.retain(|(o, _)| o != &origin); EnqueuedMessages::set(msgs); T::on_queue_changed(origin, Self::footprint(origin)); } fn footprint(origin: ParaId) -> QueueFootprint { let msgs = EnqueuedMessages::get(); let mut footprint = QueueFootprint::default(); for (o, m) in msgs { if o == origin { footprint.storage.count += 1; footprint.storage.size += m.len() as u64; } } footprint.pages = footprint.storage.size as u32 / 16; // Number does not matter footprint.ready_pages = footprint.pages; footprint } } parameter_types! { /// The asset ID for the asset that we use to pay for message delivery fees. pub FeeAssetId: AssetId = AssetId(RelayChain::get()); /// The base fee for the message delivery fees. pub const BaseDeliveryFee: Balance = 300_000_000; /// The fee per byte pub const ByteFee: Balance = 1_000_000; } pub type PriceForSiblingParachainDelivery = polkadot_runtime_common::xcm_sender::ExponentialPrice< FeeAssetId, BaseDeliveryFee, ByteFee, XcmpQueue, >; impl Config for Test { type RuntimeEvent = RuntimeEvent; type ChannelInfo = MockedChannelInfo; type VersionWrapper = (); type XcmpQueue = EnqueueToLocalStorage>; type MaxInboundSuspended = sp_core::ConstU32<1_000>; type ControllerOrigin = EnsureRoot; type ControllerOriginConverter = SystemParachainAsSuperuser; type WeightInfo = (); type PriceForSiblingDelivery = PriceForSiblingParachainDelivery; } pub fn new_test_ext() -> sp_io::TestExternalities { frame_system::GenesisConfig::::default().build_storage().unwrap().into() } /// A para that we have an HRMP channel with. pub const HRMP_PARA_ID: u32 = 7777; pub struct MockedChannelInfo; impl GetChannelInfo for MockedChannelInfo { fn get_channel_status(id: ParaId) -> ChannelStatus { if id == HRMP_PARA_ID.into() { return ChannelStatus::Ready(usize::MAX, usize::MAX) } ParachainSystem::get_channel_status(id) } fn get_channel_info(id: ParaId) -> Option { if id == HRMP_PARA_ID.into() { return Some(ChannelInfo { max_capacity: u32::MAX, max_total_size: u32::MAX, max_message_size: u32::MAX, msg_count: 0, total_size: 0, }) } ParachainSystem::get_channel_info(id) } } pub(crate) fn mk_page() -> Vec { let mut page = Vec::::new(); for i in 0..100 { page.extend(match i % 2 { 0 => v2_xcm().encode(), 1 => v3_xcm().encode(), // We cannot push an undecodable XCM here since it would break the decode stream. // This is expected and the whole reason to introduce `MaybeDoubleEncodedVersionedXcm` // instead. _ => unreachable!(), }); } page } pub(crate) fn v2_xcm() -> VersionedXcm<()> { let instr = xcm::v2::Instruction::<()>::ClearOrigin; VersionedXcm::V2(xcm::v2::Xcm::<()>(vec![instr; 3])) } pub(crate) fn v3_xcm() -> VersionedXcm<()> { let instr = xcm::v3::Instruction::<()>::Trap(1); VersionedXcm::V3(xcm::v3::Xcm::<()>(vec![instr; 3])) }