// Copyright 2019-2021 Parity Technologies (UK) Ltd.
// This file is part of Parity Bridges Common.
// Parity Bridges Common 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.
// Parity Bridges Common 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 Parity Bridges Common. If not, see .
//! The Millau runtime. This can be compiled with `#[no_std]`, ready for Wasm.
#![cfg_attr(not(feature = "std"), no_std)]
// `construct_runtime!` does a lot of recursion and requires us to increase the limit to 256.
#![recursion_limit = "256"]
// Runtime-generated enums
#![allow(clippy::large_enum_variant)]
// From construct_runtime macro
#![allow(clippy::from_over_into)]
// Make the WASM binary available.
#[cfg(feature = "std")]
include!(concat!(env!("OUT_DIR"), "/wasm_binary.rs"));
pub mod rialto_messages;
use crate::rialto_messages::{ToRialtoMessagePayload, WithRialtoMessageBridge};
use beefy_primitives::{crypto::AuthorityId as BeefyId, mmr::{MmrLeafVersion}, ValidatorSet};
use bridge_runtime_common::messages::{
source::estimate_message_dispatch_and_delivery_fee, MessageBridge,
};
use pallet_grandpa::{
fg_primitives, AuthorityId as GrandpaId, AuthorityList as GrandpaAuthorityList,
};
use sp_mmr_primitives::{
DataOrHash, EncodableOpaqueLeaf, Error as MmrError, LeafDataProvider,
BatchProof as MmrBatchProof, Proof as MmrProof, LeafIndex as MmrLeafIndex
};
use pallet_transaction_payment::{FeeDetails, Multiplier, RuntimeDispatchInfo};
use sp_api::impl_runtime_apis;
use sp_consensus_aura::sr25519::AuthorityId as AuraId;
use sp_core::{crypto::KeyTypeId, OpaqueMetadata};
use sp_runtime::{
create_runtime_str, generic, impl_opaque_keys,
traits::{Block as BlockT, IdentityLookup, Keccak256, NumberFor, OpaqueKeys},
transaction_validity::{TransactionSource, TransactionValidity},
ApplyExtrinsicResult, FixedPointNumber, FixedU128, MultiSignature, MultiSigner, Perquintill,
};
use sp_std::prelude::*;
#[cfg(feature = "std")]
use sp_version::NativeVersion;
use sp_version::RuntimeVersion;
// A few exports that help ease life for downstream crates.
pub use frame_support::{
construct_runtime, parameter_types,
traits::{Currency, ExistenceRequirement, Imbalance, KeyOwnerProofSystem},
weights::{constants::WEIGHT_PER_SECOND, DispatchClass, IdentityFee, RuntimeDbWeight, Weight},
StorageValue,
};
pub use frame_system::Call as SystemCall;
pub use pallet_balances::Call as BalancesCall;
pub use pallet_bridge_grandpa::Call as BridgeGrandpaCall;
pub use pallet_bridge_messages::Call as MessagesCall;
pub use pallet_sudo::Call as SudoCall;
pub use pallet_timestamp::Call as TimestampCall;
#[cfg(any(feature = "std", test))]
pub use sp_runtime::BuildStorage;
pub use sp_runtime::{Perbill, Permill};
/// An index to a block.
pub type BlockNumber = bp_millau::BlockNumber;
/// Alias to 512-bit hash when used in the context of a transaction signature on the chain.
pub type Signature = bp_millau::Signature;
/// Some way of identifying an account on the chain. We intentionally make it equivalent
/// to the public key of our transaction signing scheme.
pub type AccountId = bp_millau::AccountId;
/// The type for looking up accounts. We don't expect more than 4 billion of them, but you
/// never know...
pub type AccountIndex = u32;
/// Balance of an account.
pub type Balance = bp_millau::Balance;
/// Index of a transaction in the chain.
pub type Index = bp_millau::Index;
/// A hash of some data used by the chain.
pub type Hash = bp_millau::Hash;
/// Hashing algorithm used by the chain.
pub type Hashing = bp_millau::Hasher;
/// Opaque types. These are used by the CLI to instantiate machinery that don't need to know
/// the specifics of the runtime. They can then be made to be agnostic over specific formats
/// of data like extrinsics, allowing for them to continue syncing the network through upgrades
/// to even the core data structures.
pub mod opaque {
use super::*;
pub use sp_runtime::OpaqueExtrinsic as UncheckedExtrinsic;
/// Opaque block header type.
pub type Header = generic::Header;
/// Opaque block type.
pub type Block = generic::Block;
/// Opaque block identifier type.
pub type BlockId = generic::BlockId;
}
impl_opaque_keys! {
pub struct SessionKeys {
pub aura: Aura,
pub beefy: Beefy,
pub grandpa: Grandpa,
}
}
/// This runtime version.
pub const VERSION: RuntimeVersion = RuntimeVersion {
spec_name: create_runtime_str!("millau-runtime"),
impl_name: create_runtime_str!("millau-runtime"),
authoring_version: 1,
spec_version: 1,
impl_version: 1,
apis: RUNTIME_API_VERSIONS,
transaction_version: 1,
state_version: 0,
};
/// The version information used to identify this runtime when compiled natively.
#[cfg(feature = "std")]
pub fn native_version() -> NativeVersion {
NativeVersion { runtime_version: VERSION, can_author_with: Default::default() }
}
parameter_types! {
pub const BlockHashCount: BlockNumber = 250;
pub const Version: RuntimeVersion = VERSION;
pub const DbWeight: RuntimeDbWeight = RuntimeDbWeight {
read: 60_000_000, // ~0.06 ms = ~60 µs
write: 200_000_000, // ~0.2 ms = 200 µs
};
pub const SS58Prefix: u8 = 60;
}
impl frame_system::Config for Runtime {
/// The basic call filter to use in dispatchable.
type BaseCallFilter = frame_support::traits::Everything;
/// The identifier used to distinguish between accounts.
type AccountId = AccountId;
/// The aggregated dispatch type that is available for extrinsics.
type Call = Call;
/// The lookup mechanism to get account ID from whatever is passed in dispatchers.
type Lookup = IdentityLookup;
/// The index type for storing how many extrinsics an account has signed.
type Index = Index;
/// The index type for blocks.
type BlockNumber = BlockNumber;
/// The type for hashing blocks and tries.
type Hash = Hash;
/// The hashing algorithm used.
type Hashing = Hashing;
/// The header type.
type Header = generic::Header;
/// The ubiquitous event type.
type Event = Event;
/// The ubiquitous origin type.
type Origin = Origin;
/// Maximum number of block number to block hash mappings to keep (oldest pruned first).
type BlockHashCount = BlockHashCount;
/// Version of the runtime.
type Version = Version;
/// Provides information about the pallet setup in the runtime.
type PalletInfo = PalletInfo;
/// What to do if a new account is created.
type OnNewAccount = ();
/// What to do if an account is fully reaped from the system.
type OnKilledAccount = ();
/// The data to be stored in an account.
type AccountData = pallet_balances::AccountData;
// TODO: update me (https://github.com/paritytech/parity-bridges-common/issues/78)
/// Weight information for the extrinsics of this pallet.
type SystemWeightInfo = ();
/// Block and extrinsics weights: base values and limits.
type BlockWeights = bp_millau::BlockWeights;
/// The maximum length of a block (in bytes).
type BlockLength = bp_millau::BlockLength;
/// The weight of database operations that the runtime can invoke.
type DbWeight = DbWeight;
/// The designated `SS58` prefix of this chain.
type SS58Prefix = SS58Prefix;
/// The set code logic, just the default since we're not a parachain.
type OnSetCode = ();
type MaxConsumers = frame_support::traits::ConstU32<16>;
}
impl pallet_randomness_collective_flip::Config for Runtime {}
parameter_types! {
pub const MaxAuthorities: u32 = 10;
}
impl pallet_aura::Config for Runtime {
type AuthorityId = AuraId;
type MaxAuthorities = MaxAuthorities;
type DisabledValidators = ();
}
impl pallet_beefy::Config for Runtime {
type BeefyId = BeefyId;
}
impl pallet_bridge_dispatch::Config for Runtime {
type Event = Event;
type BridgeMessageId = (bp_messages::LaneId, bp_messages::MessageNonce);
type Call = Call;
type CallFilter = frame_support::traits::Everything;
type EncodedCall = crate::rialto_messages::FromRialtoEncodedCall;
type SourceChainAccountId = bp_rialto::AccountId;
type TargetChainAccountPublic = MultiSigner;
type TargetChainSignature = MultiSignature;
type AccountIdConverter = bp_millau::AccountIdConverter;
}
impl pallet_grandpa::Config for Runtime {
type Event = Event;
type Call = Call;
type KeyOwnerProofSystem = ();
type KeyOwnerProof =
>::Proof;
type KeyOwnerIdentification = >::IdentificationTuple;
type HandleEquivocation = ();
// TODO: update me (https://github.com/paritytech/parity-bridges-common/issues/78)
type WeightInfo = ();
type MaxAuthorities = MaxAuthorities;
}
type MmrHash = ::Output;
impl pallet_mmr::Config for Runtime {
const INDEXING_PREFIX: &'static [u8] = b"mmr";
type Hashing = Keccak256;
type Hash = MmrHash;
type OnNewRoot = pallet_beefy_mmr::DepositBeefyDigest;
type WeightInfo = ();
type LeafData = pallet_beefy_mmr::Pallet;
}
parameter_types! {
/// Version of the produced MMR leaf.
///
/// The version consists of two parts;
/// - `major` (3 bits)
/// - `minor` (5 bits)
///
/// `major` should be updated only if decoding the previous MMR Leaf format from the payload
/// is not possible (i.e. backward incompatible change).
/// `minor` should be updated if fields are added to the previous MMR Leaf, which given SCALE
/// encoding does not prevent old leafs from being decoded.
///
/// Hence we expect `major` to be changed really rarely (think never).
/// See [`MmrLeafVersion`] type documentation for more details.
pub LeafVersion: MmrLeafVersion = MmrLeafVersion::new(0, 0);
}
impl pallet_beefy_mmr::Config for Runtime {
type LeafVersion = LeafVersion;
type BeefyAuthorityToMerkleLeaf = pallet_beefy_mmr::BeefyEcdsaToEthereum;
type BeefyDataProvider = ();
}
parameter_types! {
pub const MinimumPeriod: u64 = bp_millau::SLOT_DURATION / 2;
}
impl pallet_timestamp::Config for Runtime {
/// A timestamp: milliseconds since the UNIX epoch.
type Moment = u64;
type OnTimestampSet = Aura;
type MinimumPeriod = MinimumPeriod;
// TODO: update me (https://github.com/paritytech/parity-bridges-common/issues/78)
type WeightInfo = ();
}
parameter_types! {
pub const ExistentialDeposit: bp_millau::Balance = 500;
// For weight estimation, we assume that the most locks on an individual account will be 50.
// This number may need to be adjusted in the future if this assumption no longer holds true.
pub const MaxLocks: u32 = 50;
pub const MaxReserves: u32 = 50;
}
impl pallet_balances::Config for Runtime {
/// The type for recording an account's balance.
type Balance = Balance;
/// The ubiquitous event type.
type Event = Event;
type DustRemoval = ();
type ExistentialDeposit = ExistentialDeposit;
type AccountStore = System;
// TODO: update me (https://github.com/paritytech/parity-bridges-common/issues/78)
type WeightInfo = ();
type MaxLocks = MaxLocks;
type MaxReserves = MaxReserves;
type ReserveIdentifier = [u8; 8];
}
parameter_types! {
pub const TransactionBaseFee: Balance = 0;
pub const TransactionByteFee: Balance = 1;
pub const OperationalFeeMultiplier: u8 = 5;
// values for following parameters are copied from polkadot repo, but it is fine
// not to sync them - we're not going to make Rialto a full copy of one of Polkadot-like chains
pub const TargetBlockFullness: Perquintill = Perquintill::from_percent(25);
pub AdjustmentVariable: Multiplier = Multiplier::saturating_from_rational(3, 100_000);
pub MinimumMultiplier: Multiplier = Multiplier::saturating_from_rational(1, 1_000_000u128);
}
impl pallet_transaction_payment::Config for Runtime {
type OnChargeTransaction = pallet_transaction_payment::CurrencyAdapter;
type TransactionByteFee = TransactionByteFee;
type OperationalFeeMultiplier = OperationalFeeMultiplier;
type WeightToFee = bp_millau::WeightToFee;
type FeeMultiplierUpdate = pallet_transaction_payment::TargetedFeeAdjustment<
Runtime,
TargetBlockFullness,
AdjustmentVariable,
MinimumMultiplier,
>;
}
impl pallet_sudo::Config for Runtime {
type Event = Event;
type Call = Call;
}
parameter_types! {
/// Authorities are changing every 5 minutes.
pub const Period: BlockNumber = bp_millau::SESSION_LENGTH;
pub const Offset: BlockNumber = 0;
}
impl pallet_session::Config for Runtime {
type Event = Event;
type ValidatorId = ::AccountId;
type ValidatorIdOf = ();
type ShouldEndSession = pallet_session::PeriodicSessions;
type NextSessionRotation = pallet_session::PeriodicSessions;
type SessionManager = pallet_shift_session_manager::Pallet;
type SessionHandler = ::KeyTypeIdProviders;
type Keys = SessionKeys;
// TODO: update me (https://github.com/paritytech/parity-bridges-common/issues/78)
type WeightInfo = ();
}
parameter_types! {
// This is a pretty unscientific cap.
//
// Note that once this is hit the pallet will essentially throttle incoming requests down to one
// call per block.
pub const MaxRequests: u32 = 50;
}
#[cfg(feature = "runtime-benchmarks")]
parameter_types! {
/// Number of headers to keep in benchmarks.
///
/// In benchmarks we always populate with full number of `HeadersToKeep` to make sure that
/// pruning is taken into account.
///
/// Note: This is lower than regular value, to speed up benchmarking setup.
pub const HeadersToKeep: u32 = 1024;
}
#[cfg(not(feature = "runtime-benchmarks"))]
parameter_types! {
/// Number of headers to keep.
///
/// Assuming the worst case of every header being finalized, we will keep headers at least for a
/// week.
pub const HeadersToKeep: u32 = 7 * bp_rialto::DAYS as u32;
}
pub type RialtoGrandpaInstance = ();
impl pallet_bridge_grandpa::Config for Runtime {
type BridgedChain = bp_rialto::Rialto;
type MaxRequests = MaxRequests;
type HeadersToKeep = HeadersToKeep;
type WeightInfo = pallet_bridge_grandpa::weights::MillauWeight;
}
pub type WestendGrandpaInstance = pallet_bridge_grandpa::Instance1;
impl pallet_bridge_grandpa::Config for Runtime {
type BridgedChain = bp_westend::Westend;
type MaxRequests = MaxRequests;
type HeadersToKeep = HeadersToKeep;
type WeightInfo = pallet_bridge_grandpa::weights::MillauWeight;
}
impl pallet_shift_session_manager::Config for Runtime {}
parameter_types! {
pub const MaxMessagesToPruneAtOnce: bp_messages::MessageNonce = 8;
pub const MaxUnrewardedRelayerEntriesAtInboundLane: bp_messages::MessageNonce =
bp_rialto::MAX_UNREWARDED_RELAYERS_IN_CONFIRMATION_TX;
pub const MaxUnconfirmedMessagesAtInboundLane: bp_messages::MessageNonce =
bp_rialto::MAX_UNCONFIRMED_MESSAGES_IN_CONFIRMATION_TX;
// `IdentityFee` is used by Millau => we may use weight directly
pub const GetDeliveryConfirmationTransactionFee: Balance =
bp_millau::MAX_SINGLE_MESSAGE_DELIVERY_CONFIRMATION_TX_WEIGHT as _;
pub const RootAccountForPayments: Option = None;
pub const RialtoChainId: bp_runtime::ChainId = bp_runtime::RIALTO_CHAIN_ID;
}
/// Instance of the messages pallet used to relay messages to/from Rialto chain.
pub type WithRialtoMessagesInstance = ();
impl pallet_bridge_messages::Config for Runtime {
type Event = Event;
type WeightInfo = pallet_bridge_messages::weights::MillauWeight;
type Parameter = rialto_messages::MillauToRialtoMessagesParameter;
type MaxMessagesToPruneAtOnce = MaxMessagesToPruneAtOnce;
type MaxUnrewardedRelayerEntriesAtInboundLane = MaxUnrewardedRelayerEntriesAtInboundLane;
type MaxUnconfirmedMessagesAtInboundLane = MaxUnconfirmedMessagesAtInboundLane;
type OutboundPayload = crate::rialto_messages::ToRialtoMessagePayload;
type OutboundMessageFee = Balance;
type InboundPayload = crate::rialto_messages::FromRialtoMessagePayload;
type InboundMessageFee = bp_rialto::Balance;
type InboundRelayer = bp_rialto::AccountId;
type AccountIdConverter = bp_millau::AccountIdConverter;
type TargetHeaderChain = crate::rialto_messages::Rialto;
type LaneMessageVerifier = crate::rialto_messages::ToRialtoMessageVerifier;
type MessageDeliveryAndDispatchPayment =
pallet_bridge_messages::instant_payments::InstantCurrencyPayments<
Runtime,
WithRialtoMessagesInstance,
pallet_balances::Pallet,
GetDeliveryConfirmationTransactionFee,
>;
type OnMessageAccepted = ();
type OnDeliveryConfirmed =
pallet_bridge_token_swap::Pallet;
type SourceHeaderChain = crate::rialto_messages::Rialto;
type MessageDispatch = crate::rialto_messages::FromRialtoMessageDispatch;
type BridgedChainId = RialtoChainId;
}
parameter_types! {
pub const TokenSwapMessagesLane: bp_messages::LaneId = *b"swap";
}
/// Instance of the with-Rialto token swap pallet.
pub type WithRialtoTokenSwapInstance = ();
impl pallet_bridge_token_swap::Config for Runtime {
type Event = Event;
type WeightInfo = ();
type BridgedChainId = RialtoChainId;
type OutboundMessageLaneId = TokenSwapMessagesLane;
#[cfg(not(feature = "runtime-benchmarks"))]
type MessagesBridge = pallet_bridge_messages::Pallet;
#[cfg(feature = "runtime-benchmarks")]
type MessagesBridge = bp_messages::source_chain::NoopMessagesBridge;
type ThisCurrency = pallet_balances::Pallet;
type FromSwapToThisAccountIdConverter = bp_rialto::AccountIdConverter;
type BridgedChain = bp_rialto::Rialto;
type FromBridgedToThisAccountIdConverter = bp_millau::AccountIdConverter;
}
construct_runtime!(
pub enum Runtime where
Block = Block,
NodeBlock = opaque::Block,
UncheckedExtrinsic = UncheckedExtrinsic
{
System: frame_system::{Pallet, Call, Config, Storage, Event},
Sudo: pallet_sudo::{Pallet, Call, Config, Storage, Event},
// Must be before session.
Aura: pallet_aura::{Pallet, Config},
Timestamp: pallet_timestamp::{Pallet, Call, Storage, Inherent},
Balances: pallet_balances::{Pallet, Call, Storage, Config, Event},
TransactionPayment: pallet_transaction_payment::{Pallet, Storage},
// Consensus support.
Session: pallet_session::{Pallet, Call, Storage, Event, Config},
Grandpa: pallet_grandpa::{Pallet, Call, Storage, Config, Event},
ShiftSessionManager: pallet_shift_session_manager::{Pallet},
RandomnessCollectiveFlip: pallet_randomness_collective_flip::{Pallet, Storage},
// BEEFY Bridges support.
Beefy: pallet_beefy::{Pallet, Storage, Config},
Mmr: pallet_mmr::{Pallet, Storage},
MmrLeaf: pallet_beefy_mmr::{Pallet, Storage},
// Rialto bridge modules.
BridgeRialtoGrandpa: pallet_bridge_grandpa::{Pallet, Call, Storage},
BridgeDispatch: pallet_bridge_dispatch::{Pallet, Event},
BridgeRialtoMessages: pallet_bridge_messages::{Pallet, Call, Storage, Event, Config},
BridgeRialtoTokenSwap: pallet_bridge_token_swap::{Pallet, Call, Storage, Event, Origin},
// Westend bridge modules.
BridgeWestendGrandpa: pallet_bridge_grandpa::::{Pallet, Call, Config, Storage},
}
);
/// The address format for describing accounts.
pub type Address = AccountId;
/// Block header type as expected by this runtime.
pub type Header = generic::Header;
/// Block type as expected by this runtime.
pub type Block = generic::Block;
/// A Block signed with a Justification
pub type SignedBlock = generic::SignedBlock;
/// `BlockId` type as expected by this runtime.
pub type BlockId = generic::BlockId;
/// The `SignedExtension` to the basic transaction logic.
pub type SignedExtra = (
frame_system::CheckNonZeroSender,
frame_system::CheckSpecVersion,
frame_system::CheckTxVersion,
frame_system::CheckGenesis,
frame_system::CheckEra,
frame_system::CheckNonce,
frame_system::CheckWeight,
pallet_transaction_payment::ChargeTransactionPayment,
);
/// The payload being signed in transactions.
pub type SignedPayload = generic::SignedPayload;
/// Unchecked extrinsic type as expected by this runtime.
pub type UncheckedExtrinsic = generic::UncheckedExtrinsic;
/// Extrinsic type that has already been checked.
pub type CheckedExtrinsic = generic::CheckedExtrinsic;
/// Executive: handles dispatch to the various modules.
pub type Executive = frame_executive::Executive<
Runtime,
Block,
frame_system::ChainContext,
Runtime,
AllPalletsWithSystem,
>;
#[cfg(feature = "runtime-benchmarks")]
#[macro_use]
extern crate frame_benchmarking;
#[cfg(feature = "runtime-benchmarks")]
mod benches {
define_benchmarks!(
[pallet_bridge_token_swap, BridgeRialtoTokenSwap]
);
}
type MmrHashing = ::Hashing;
impl_runtime_apis! {
impl sp_api::Core for Runtime {
fn version() -> RuntimeVersion {
VERSION
}
fn execute_block(block: Block) {
Executive::execute_block(block);
}
fn initialize_block(header: &::Header) {
Executive::initialize_block(header)
}
}
impl sp_api::Metadata for Runtime {
fn metadata() -> OpaqueMetadata {
OpaqueMetadata::new(Runtime::metadata().into())
}
}
impl sp_block_builder::BlockBuilder for Runtime {
fn apply_extrinsic(extrinsic: ::Extrinsic) -> ApplyExtrinsicResult {
Executive::apply_extrinsic(extrinsic)
}
fn finalize_block() -> ::Header {
Executive::finalize_block()
}
fn inherent_extrinsics(data: sp_inherents::InherentData) -> Vec<::Extrinsic> {
data.create_extrinsics()
}
fn check_inherents(
block: Block,
data: sp_inherents::InherentData,
) -> sp_inherents::CheckInherentsResult {
data.check_extrinsics(&block)
}
}
impl frame_system_rpc_runtime_api::AccountNonceApi for Runtime {
fn account_nonce(account: AccountId) -> Index {
System::account_nonce(account)
}
}
impl sp_transaction_pool::runtime_api::TaggedTransactionQueue for Runtime {
fn validate_transaction(
source: TransactionSource,
tx: ::Extrinsic,
block_hash: ::Hash,
) -> TransactionValidity {
Executive::validate_transaction(source, tx, block_hash)
}
}
impl sp_offchain::OffchainWorkerApi for Runtime {
fn offchain_worker(header: &::Header) {
Executive::offchain_worker(header)
}
}
impl sp_consensus_aura::AuraApi for Runtime {
fn slot_duration() -> sp_consensus_aura::SlotDuration {
sp_consensus_aura::SlotDuration::from_millis(Aura::slot_duration())
}
fn authorities() -> Vec {
Aura::authorities().to_vec()
}
}
impl pallet_transaction_payment_rpc_runtime_api::TransactionPaymentApi<
Block,
Balance,
> for Runtime {
fn query_info(uxt: ::Extrinsic, len: u32) -> RuntimeDispatchInfo {
TransactionPayment::query_info(uxt, len)
}
fn query_fee_details(uxt: ::Extrinsic, len: u32) -> FeeDetails {
TransactionPayment::query_fee_details(uxt, len)
}
}
impl sp_session::SessionKeys for Runtime {
fn generate_session_keys(seed: Option>) -> Vec {
SessionKeys::generate(seed)
}
fn decode_session_keys(
encoded: Vec,
) -> Option, sp_core::crypto::KeyTypeId)>> {
SessionKeys::decode_into_raw_public_keys(&encoded)
}
}
impl beefy_primitives::BeefyApi for Runtime {
fn validator_set() -> Option> {
Beefy::validator_set()
}
}
impl sp_mmr_primitives::MmrApi for Runtime {
fn generate_proof(leaf_index: MmrLeafIndex)
-> Result<(EncodableOpaqueLeaf, MmrProof), MmrError>
{
Mmr::generate_batch_proof(vec![leaf_index])
.and_then(|(leaves, proof)| Ok((
EncodableOpaqueLeaf::from_leaf(&leaves[0]),
MmrBatchProof::into_single_leaf_proof(proof)?
)))
}
fn verify_proof(leaf: EncodableOpaqueLeaf, proof: MmrProof)
-> Result<(), MmrError>
{
type MmrLeaf = <::LeafData as LeafDataProvider>::LeafData;
let leaf: MmrLeaf = leaf
.into_opaque_leaf()
.try_decode()
.ok_or(MmrError::Verify)?;
Mmr::verify_leaves(vec![leaf], MmrProof::into_batch_proof(proof))
}
fn verify_proof_stateless(
root: MmrHash,
leaf: EncodableOpaqueLeaf,
proof: MmrProof
) -> Result<(), MmrError> {
let node = DataOrHash::Data(leaf.into_opaque_leaf());
pallet_mmr::verify_leaves_proof::(root, vec![node], MmrProof::into_batch_proof(proof))
}
fn generate_batch_proof(leaf_indices: Vec)
-> Result<(Vec, MmrBatchProof), MmrError>
{
Mmr::generate_batch_proof(leaf_indices)
.map(|(leaves, proof)| (leaves.into_iter().map(|leaf| EncodableOpaqueLeaf::from_leaf(&leaf)).collect(), proof))
}
fn verify_batch_proof(leaves: Vec, proof: MmrBatchProof)
-> Result<(), MmrError>
{
type MmrLeaf = <::LeafData as LeafDataProvider>::LeafData;
let leaves = leaves.into_iter().map(|leaf|
leaf.into_opaque_leaf()
.try_decode()
.ok_or(MmrError::Verify)).collect::, MmrError>>()?;
Mmr::verify_leaves(leaves, proof)
}
fn verify_batch_proof_stateless(
root: MmrHash,
leaves: Vec,
proof: MmrBatchProof
) -> Result<(), MmrError> {
let nodes = leaves.into_iter().map(|leaf|DataOrHash::Data(leaf.into_opaque_leaf())).collect();
pallet_mmr::verify_leaves_proof::(root, nodes, proof)
}
}
impl fg_primitives::GrandpaApi for Runtime {
fn current_set_id() -> fg_primitives::SetId {
Grandpa::current_set_id()
}
fn grandpa_authorities() -> GrandpaAuthorityList {
Grandpa::grandpa_authorities()
}
fn submit_report_equivocation_unsigned_extrinsic(
equivocation_proof: fg_primitives::EquivocationProof<
::Hash,
NumberFor,
>,
key_owner_proof: fg_primitives::OpaqueKeyOwnershipProof,
) -> Option<()> {
let key_owner_proof = key_owner_proof.decode()?;
Grandpa::submit_unsigned_equivocation_report(
equivocation_proof,
key_owner_proof,
)
}
fn generate_key_ownership_proof(
_set_id: fg_primitives::SetId,
_authority_id: GrandpaId,
) -> Option {
// NOTE: this is the only implementation possible since we've
// defined our key owner proof type as a bottom type (i.e. a type
// with no values).
None
}
}
impl bp_rialto::RialtoFinalityApi for Runtime {
fn best_finalized() -> (bp_rialto::BlockNumber, bp_rialto::Hash) {
let header = BridgeRialtoGrandpa::best_finalized();
(header.number, header.hash())
}
}
impl bp_westend::WestendFinalityApi for Runtime {
fn best_finalized() -> (bp_westend::BlockNumber, bp_westend::Hash) {
let header = BridgeWestendGrandpa::best_finalized();
(header.number, header.hash())
}
}
impl bp_rialto::ToRialtoOutboundLaneApi for Runtime {
fn estimate_message_delivery_and_dispatch_fee(
_lane_id: bp_messages::LaneId,
payload: ToRialtoMessagePayload,
rialto_to_this_conversion_rate: Option,
) -> Option {
estimate_message_dispatch_and_delivery_fee::(
&payload,
WithRialtoMessageBridge::RELAYER_FEE_PERCENT,
rialto_to_this_conversion_rate,
).ok()
}
fn message_details(
lane: bp_messages::LaneId,
begin: bp_messages::MessageNonce,
end: bp_messages::MessageNonce,
) -> Vec> {
bridge_runtime_common::messages_api::outbound_message_details::<
Runtime,
WithRialtoMessagesInstance,
WithRialtoMessageBridge,
>(lane, begin, end)
}
}
#[cfg(feature = "runtime-benchmarks")]
impl frame_benchmarking::Benchmark for Runtime {
fn benchmark_metadata(extra: bool) -> (
Vec,
Vec,
) {
use frame_benchmarking::{Benchmarking, BenchmarkList};
use frame_support::traits::StorageInfoTrait;
use pallet_bridge_messages::benchmarking::Pallet as MessagesBench;
let mut list = Vec::::new();
list_benchmark!(list, extra, pallet_bridge_token_swap, BridgeRialtoTokenSwap);
list_benchmark!(list, extra, pallet_bridge_messages, MessagesBench::);
list_benchmark!(list, extra, pallet_bridge_grandpa, BridgeRialtoGrandpa);
let storage_info = AllPalletsWithSystem::storage_info();
return (list, storage_info)
}
fn dispatch_benchmark(
config: frame_benchmarking::BenchmarkConfig,
) -> Result, sp_runtime::RuntimeString> {
use frame_benchmarking::{Benchmarking, BenchmarkBatch, TrackedStorageKey};
let whitelist: Vec = vec![
// Block Number
hex_literal::hex!("26aa394eea5630e07c48ae0c9558cef702a5c1b19ab7a04f536c519aca4983ac").to_vec().into(),
// Execution Phase
hex_literal::hex!("26aa394eea5630e07c48ae0c9558cef7ff553b5a9862a516939d82b3d3d8661a").to_vec().into(),
// Event Count
hex_literal::hex!("26aa394eea5630e07c48ae0c9558cef70a98fdbe9ce6c55837576c60c7af3850").to_vec().into(),
// System Events
hex_literal::hex!("26aa394eea5630e07c48ae0c9558cef780d41e5e16056765bc8461851072c9d7").to_vec().into(),
// Caller 0 Account
hex_literal::hex!("26aa394eea5630e07c48ae0c9558cef7b99d880ec681799c0cf30e8886371da946c154ffd9992e395af90b5b13cc6f295c77033fce8a9045824a6690bbf99c6db269502f0a8d1d2a008542d5690a0749").to_vec().into(),
];
let mut batches = Vec::::new();
let params = (&config, &whitelist);
use bridge_runtime_common::messages_benchmarking::{prepare_message_delivery_proof, prepare_message_proof, prepare_outbound_message};
use bridge_runtime_common::messages;
use pallet_bridge_messages::benchmarking::{
Pallet as MessagesBench,
Config as MessagesConfig,
MessageDeliveryProofParams,
MessageParams,
MessageProofParams,
};
use rialto_messages::WithRialtoMessageBridge;
impl MessagesConfig for Runtime {
fn maximal_message_size() -> u32 {
messages::source::maximal_message_size::()
}
fn bridged_relayer_id() -> Self::InboundRelayer {
[0u8; 32].into()
}
fn account_balance(account: &Self::AccountId) -> Self::OutboundMessageFee {
pallet_balances::Pallet::::free_balance(account)
}
fn endow_account(account: &Self::AccountId) {
pallet_balances::Pallet::::make_free_balance_be(
account,
Balance::MAX / 100,
);
}
fn prepare_outbound_message(
params: MessageParams,
) -> (rialto_messages::ToRialtoMessagePayload, Balance) {
(prepare_outbound_message::(params), Self::message_fee())
}
fn prepare_message_proof(
params: MessageProofParams,
) -> (rialto_messages::FromRialtoMessagesProof, Weight) {
prepare_message_proof::(
params,
&VERSION,
Balance::MAX / 100,
)
}
fn prepare_message_delivery_proof(
params: MessageDeliveryProofParams,
) -> rialto_messages::ToRialtoMessagesDeliveryProof {
prepare_message_delivery_proof::(
params,
)
}
fn is_message_dispatched(nonce: bp_messages::MessageNonce) -> bool {
frame_system::Pallet::::events()
.into_iter()
.map(|event_record| event_record.event)
.any(|event| matches!(
event,
Event::BridgeDispatch(pallet_bridge_dispatch::Event::::MessageDispatched(
_, ([0, 0, 0, 0], nonce_from_event), _,
)) if nonce_from_event == nonce
))
}
}
use pallet_bridge_token_swap::benchmarking::Config as TokenSwapConfig;
impl TokenSwapConfig for Runtime {
fn initialize_environment() {
let relayers_fund_account = pallet_bridge_messages::relayer_fund_account_id::<
bp_millau::AccountId,
bp_millau::AccountIdConverter,
>();
pallet_balances::Pallet::::make_free_balance_be(
&relayers_fund_account,
Balance::MAX / 100,
);
}
}
add_benchmark!(
params,
batches,
pallet_bridge_messages,
MessagesBench::
);
add_benchmark!(params, batches, pallet_bridge_grandpa, BridgeRialtoGrandpa);
add_benchmark!(params, batches, pallet_bridge_token_swap, BridgeRialtoTokenSwap);
Ok(batches)
}
}
}
/// Rialto account ownership digest from Millau.
///
/// The byte vector returned by this function should be signed with a Rialto account private key.
/// This way, the owner of `millau_account_id` on Millau proves that the Rialto account private key
/// is also under his control.
pub fn millau_to_rialto_account_ownership_digest(
rialto_call: &Call,
millau_account_id: AccountId,
rialto_spec_version: SpecVersion,
) -> sp_std::vec::Vec
where
Call: codec::Encode,
AccountId: codec::Encode,
SpecVersion: codec::Encode,
{
pallet_bridge_dispatch::account_ownership_digest(
rialto_call,
millau_account_id,
rialto_spec_version,
bp_runtime::MILLAU_CHAIN_ID,
bp_runtime::RIALTO_CHAIN_ID,
)
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn call_size() {
const BRIDGES_PALLETS_MAX_CALL_SIZE: usize = 200;
assert!(
core::mem::size_of::>() <=
BRIDGES_PALLETS_MAX_CALL_SIZE
);
assert!(
core::mem::size_of::>() <=
BRIDGES_PALLETS_MAX_CALL_SIZE
);
const MAX_CALL_SIZE: usize = 230; // value from polkadot-runtime tests
assert!(core::mem::size_of::() <= MAX_CALL_SIZE);
}
}