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// 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 <http://www.gnu.org/licenses/>.
//! Primitives that may be used at (bridges) runtime level.
#![cfg_attr(not(feature = "std"), no_std)]
use codec::{Decode, Encode, FullCodec, MaxEncodedLen};
log, pallet_prelude::DispatchResult, weights::Weight, PalletError, RuntimeDebug, StorageHasher,
StorageValue,
};
use frame_system::RawOrigin;
use scale_info::TypeInfo;
use sp_core::storage::StorageKey;
use sp_runtime::traits::{BadOrigin, Header as HeaderT, UniqueSaturatedInto};
use sp_std::{convert::TryFrom, fmt::Debug, ops::RangeInclusive, vec, vec::Vec};
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pub use chain::{
AccountIdOf, AccountPublicOf, BalanceOf, BlockNumberOf, Chain, EncodedOrDecodedCall, HashOf,
HasherOf, HeaderOf, IndexOf, Parachain, SignatureOf, TransactionEraOf, UnderlyingChainOf,
UnderlyingChainProvider,
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};
pub use frame_support::storage::storage_prefix as storage_value_final_key;
use num_traits::{CheckedAdd, CheckedSub, One, SaturatingAdd, Zero};
record_all_keys as record_all_trie_keys, Error as StorageProofError,
ProofSize as StorageProofSize, RawStorageProof, StorageProofChecker,
pub use storage_types::BoundedStorageValue;
#[cfg(feature = "std")]
pub use storage_proof::craft_valid_storage_proof;
mod storage_types;
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// Re-export macro to aviod include paste dependency everywhere
pub use sp_runtime::paste;
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/// Use this when something must be shared among all instances.
pub const NO_INSTANCE_ID: ChainId = [0, 0, 0, 0];
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pub const RIALTO_CHAIN_ID: ChainId = *b"rlto";
/// RialtoParachain chain id.
pub const RIALTO_PARACHAIN_CHAIN_ID: ChainId = *b"rlpa";
pub const MILLAU_CHAIN_ID: ChainId = *b"mlau";
pub const POLKADOT_CHAIN_ID: ChainId = *b"pdot";
pub const KUSAMA_CHAIN_ID: ChainId = *b"ksma";
pub const WESTEND_CHAIN_ID: ChainId = *b"wend";
pub const WESTMINT_CHAIN_ID: ChainId = *b"wmnt";
pub const ROCOCO_CHAIN_ID: ChainId = *b"roco";
pub const WOCOCO_CHAIN_ID: ChainId = *b"woco";
/// BridgeHubRococo chain id.
pub const BRIDGE_HUB_ROCOCO_CHAIN_ID: ChainId = *b"bhro";
/// BridgeHubWococo chain id.
pub const BRIDGE_HUB_WOCOCO_CHAIN_ID: ChainId = *b"bhwo";
/// BridgeHubKusama chain id.
pub const BRIDGE_HUB_KUSAMA_CHAIN_ID: ChainId = *b"bhks";
/// BridgeHubPolkadot chain id.
pub const BRIDGE_HUB_POLKADOT_CHAIN_ID: ChainId = *b"bhwo";
RuntimeDebug,
Default,
Clone,
Encode,
Decode,
Copy,
Eq,
Hash,
MaxEncodedLen,
PartialEq,
PartialOrd,
Ord,
TypeInfo,
pub struct HeaderId<Hash, Number>(pub Number, pub Hash);
impl<Hash: Copy, Number: Copy> HeaderId<Hash, Number> {
/// Return header number.
pub fn number(&self) -> Number {
self.0
}
/// Return header hash.
pub fn hash(&self) -> Hash {
self.1
}
}
/// Header id used by the chain.
pub type HeaderIdOf<C> = HeaderId<HashOf<C>, BlockNumberOf<C>>;
/// Generic header id provider.
pub trait HeaderIdProvider<Header: HeaderT> {
// Get the header id.
fn id(&self) -> HeaderId<Header::Hash, Header::Number>;
// Get the header id for the parent block.
fn parent_id(&self) -> Option<HeaderId<Header::Hash, Header::Number>>;
}
impl<Header: HeaderT> HeaderIdProvider<Header> for Header {
fn id(&self) -> HeaderId<Header::Hash, Header::Number> {
HeaderId(*self.number(), self.hash())
}
fn parent_id(&self) -> Option<HeaderId<Header::Hash, Header::Number>> {
self.number()
.checked_sub(&One::one())
.map(|parent_number| HeaderId(parent_number, *self.parent_hash()))
}
}
/// Unique identifier of the chain.
///
/// In addition to its main function (identifying the chain), this type may also be used to
/// identify module instance. We have a bunch of pallets that may be used in different bridges. E.g.
/// messages pallet may be deployed twice in the same runtime to bridge ThisChain with Chain1 and
/// Chain2. Sometimes we need to be able to identify deployed instance dynamically. This type may be
/// used for that.
pub type ChainId = [u8; 4];
/// Anything that has size.
pub trait Size {
/// Return size of this object (in bytes).
fn size(&self) -> u32;
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impl Size for () {
fn size(&self) -> u32 {
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0
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impl Size for Vec<u8> {
fn size(&self) -> u32 {
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self.len() as _
}
}
/// Pre-computed size.
pub struct PreComputedSize(pub usize);
impl Size for PreComputedSize {
fn size(&self) -> u32 {
u32::try_from(self.0).unwrap_or(u32::MAX)
}
}
/// Era of specific transaction.
#[derive(RuntimeDebug, Clone, Copy, PartialEq)]
pub enum TransactionEra<BlockNumber, BlockHash> {
/// Transaction is immortal.
Immortal,
/// Transaction is valid for a given number of blocks, starting from given block.
Mortal(HeaderId<BlockHash, BlockNumber>, u32),
impl<BlockNumber: Copy + UniqueSaturatedInto<u64>, BlockHash: Copy>
TransactionEra<BlockNumber, BlockHash>
{
/// Prepare transaction era, based on mortality period and current best block number.
best_block_id: HeaderId<BlockHash, BlockNumber>,
.map(|mortality_period| TransactionEra::Mortal(best_block_id, mortality_period))
.unwrap_or(TransactionEra::Immortal)
}
/// Create new immortal transaction era.
pub fn immortal() -> Self {
TransactionEra::Immortal
}
/// Returns mortality period if transaction is mortal.
pub fn mortality_period(&self) -> Option<u32> {
match *self {
TransactionEra::Immortal => None,
TransactionEra::Mortal(_, period) => Some(period),
}
}
/// Returns era that is used by FRAME-based runtimes.
pub fn frame_era(&self) -> sp_runtime::generic::Era {
match *self {
TransactionEra::Immortal => sp_runtime::generic::Era::immortal(),
// `unique_saturated_into` is fine here - mortality `u64::MAX` is not something we
// expect to see on any chain
TransactionEra::Mortal(header_id, period) =>
sp_runtime::generic::Era::mortal(period as _, header_id.0.unique_saturated_into()),
}
}
/// Returns header hash that needs to be included in the signature payload.
pub fn signed_payload(&self, genesis_hash: BlockHash) -> BlockHash {
match *self {
TransactionEra::Immortal => genesis_hash,
TransactionEra::Mortal(header_id, _) => header_id.1,
/// `frame_support::storage::generator::StorageMap::storage_map_final_key` for maps based
/// on selected hasher.
///
/// We're using it because to call `storage_map_final_key` directly, we need access to the runtime
/// and pallet instance, which (sometimes) is impossible.
pub fn storage_map_final_key<H: StorageHasher>(
pallet_prefix: &str,
map_name: &str,
key: &[u8],
) -> StorageKey {
let key_hashed = H::hash(key);
let pallet_prefix_hashed = frame_support::Twox128::hash(pallet_prefix.as_bytes());
let storage_prefix_hashed = frame_support::Twox128::hash(map_name.as_bytes());
pallet_prefix_hashed.len() + storage_prefix_hashed.len() + key_hashed.as_ref().len(),
final_key.extend_from_slice(&pallet_prefix_hashed[..]);
final_key.extend_from_slice(&storage_prefix_hashed[..]);
final_key.extend_from_slice(key_hashed.as_ref());
StorageKey(final_key)
}
/// This is how a storage key of storage parameter (`parameter_types! { storage Param: bool = false;
/// }`) is computed.
/// Copied from `frame_support::parameter_types` macro.
pub fn storage_parameter_key(parameter_name: &str) -> StorageKey {
let mut buffer = Vec::with_capacity(1 + parameter_name.len() + 1);
buffer.extend_from_slice(parameter_name.as_bytes());
StorageKey(sp_io::hashing::twox_128(&buffer).to_vec())
}
/// This is how a storage key of storage value is computed.
///
/// Copied from `frame_support::storage::storage_prefix`.
pub fn storage_value_key(pallet_prefix: &str, value_name: &str) -> StorageKey {
let pallet_hash = sp_io::hashing::twox_128(pallet_prefix.as_bytes());
let storage_hash = sp_io::hashing::twox_128(value_name.as_bytes());
let mut final_key = vec![0u8; 32];
final_key[..16].copy_from_slice(&pallet_hash);
final_key[16..].copy_from_slice(&storage_hash);
StorageKey(final_key)
}
/// Can be use to access the runtime storage key of a `StorageMap`.
pub trait StorageMapKeyProvider {
/// The name of the variable that holds the `StorageMap`.
const MAP_NAME: &'static str;
/// The same as `StorageMap::Hasher1`.
type Hasher: StorageHasher;
/// The same as `StorageMap::Key1`.
type Key: FullCodec;
/// The same as `StorageMap::Value`.
type Value: FullCodec;
/// This is a copy of the
/// `frame_support::storage::generator::StorageMap::storage_map_final_key`.
///
/// We're using it because to call `storage_map_final_key` directly, we need access
/// to the runtime and pallet instance, which (sometimes) is impossible.
fn final_key(pallet_prefix: &str, key: &Self::Key) -> StorageKey {
storage_map_final_key::<Self::Hasher>(pallet_prefix, Self::MAP_NAME, &key.encode())
}
}
/// Can be use to access the runtime storage key of a `StorageDoubleMap`.
pub trait StorageDoubleMapKeyProvider {
/// The name of the variable that holds the `StorageDoubleMap`.
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type Value: FullCodec;
/// This is a copy of the
/// `frame_support::storage::generator::StorageDoubleMap::storage_double_map_final_key`.
///
/// We're using it because to call `storage_double_map_final_key` directly, we need access
/// to the runtime and pallet instance, which (sometimes) is impossible.
fn final_key(pallet_prefix: &str, key1: &Self::Key1, key2: &Self::Key2) -> StorageKey {
let key1_hashed = Self::Hasher1::hash(&key1.encode());
let key2_hashed = Self::Hasher2::hash(&key2.encode());
let pallet_prefix_hashed = frame_support::Twox128::hash(pallet_prefix.as_bytes());
let storage_prefix_hashed = frame_support::Twox128::hash(Self::MAP_NAME.as_bytes());
let mut final_key = Vec::with_capacity(
pallet_prefix_hashed.len() +
storage_prefix_hashed.len() +
key1_hashed.as_ref().len() +
key2_hashed.as_ref().len(),
);
final_key.extend_from_slice(&pallet_prefix_hashed[..]);
final_key.extend_from_slice(&storage_prefix_hashed[..]);
final_key.extend_from_slice(key1_hashed.as_ref());
final_key.extend_from_slice(key2_hashed.as_ref());
StorageKey(final_key)
}
}
/// Error generated by the `OwnedBridgeModule` trait.
#[derive(Encode, Decode, TypeInfo, PalletError)]
pub enum OwnedBridgeModuleError {
/// All pallet operations are halted.
Halted,
}
/// Operating mode for a bridge module.
pub trait OperatingMode: Send + Copy + Debug + FullCodec {
// Returns true if the bridge module is halted.
fn is_halted(&self) -> bool;
}
/// Basic operating modes for a bridges module (Normal/Halted).
#[derive(Encode, Decode, Clone, Copy, PartialEq, Eq, RuntimeDebug, TypeInfo, MaxEncodedLen)]
#[cfg_attr(feature = "std", derive(serde::Serialize, serde::Deserialize))]
pub enum BasicOperatingMode {
/// Normal mode, when all operations are allowed.
Normal,
/// The pallet is halted. All operations (except operating mode change) are prohibited.
Halted,
}
impl Default for BasicOperatingMode {
fn default() -> Self {
Self::Normal
}
}
impl OperatingMode for BasicOperatingMode {
fn is_halted(&self) -> bool {
*self == BasicOperatingMode::Halted
}
}
/// Bridge module that has owner and operating mode
pub trait OwnedBridgeModule<T: frame_system::Config> {
/// The target that will be used when publishing logs related to this module.
const LOG_TARGET: &'static str;
type OwnerStorage: StorageValue<T::AccountId, Query = Option<T::AccountId>>;
type OperatingMode: OperatingMode;
type OperatingModeStorage: StorageValue<Self::OperatingMode, Query = Self::OperatingMode>;
/// Check if the module is halted.
fn is_halted() -> bool {
Self::OperatingModeStorage::get().is_halted()
}
/// Ensure that the origin is either root, or `PalletOwner`.
fn ensure_owner_or_root(origin: T::RuntimeOrigin) -> Result<(), BadOrigin> {
match origin.into() {
Ok(RawOrigin::Root) => Ok(()),
Ok(RawOrigin::Signed(ref signer))
if Self::OwnerStorage::get().as_ref() == Some(signer) =>
Ok(()),
_ => Err(BadOrigin),
}
}
/// Ensure that the module is not halted.
fn ensure_not_halted() -> Result<(), OwnedBridgeModuleError> {
match Self::is_halted() {
true => Err(OwnedBridgeModuleError::Halted),
false => Ok(()),
}
}
/// Change the owner of the module.
fn set_owner(origin: T::RuntimeOrigin, maybe_owner: Option<T::AccountId>) -> DispatchResult {
Self::ensure_owner_or_root(origin)?;
match maybe_owner {
Some(owner) => {
Self::OwnerStorage::put(&owner);
log::info!(target: Self::LOG_TARGET, "Setting pallet Owner to: {:?}", owner);
},
None => {
Self::OwnerStorage::kill();
log::info!(target: Self::LOG_TARGET, "Removed Owner of pallet.");
},
}
Ok(())
}
/// Halt or resume all/some module operations.
fn set_operating_mode(
origin: T::RuntimeOrigin,
operating_mode: Self::OperatingMode,
) -> DispatchResult {
Self::ensure_owner_or_root(origin)?;
Self::OperatingModeStorage::put(operating_mode);
log::info!(target: Self::LOG_TARGET, "Setting operating mode to {:?}.", operating_mode);
/// All extra operations with weights that we need in bridges.
pub trait WeightExtraOps {
/// Checked division of individual components of two weights.
///
/// Divides components and returns minimal division result. Returns `None` if one
/// of `other` weight components is zero.
fn min_components_checked_div(&self, other: Weight) -> Option<u64>;
}
impl WeightExtraOps for Weight {
fn min_components_checked_div(&self, other: Weight) -> Option<u64> {
Some(sp_std::cmp::min(
self.ref_time().checked_div(other.ref_time())?,
self.proof_size().checked_div(other.proof_size())?,
))
}
}
/// Trait that provides a static `str`.
pub trait StaticStrProvider {
const STR: &'static str;
}
#[macro_export]
macro_rules! generate_static_str_provider {
($str:expr) => {
$crate::paste::item! {
pub struct [<Str $str>];
impl $crate::StaticStrProvider for [<Str $str>] {
const STR: &'static str = stringify!($str);
}
}
};
}
#[derive(Encode, Decode, Clone, Eq, PartialEq, PalletError, TypeInfo)]
#[scale_info(skip_type_params(T))]
pub struct StrippableError<T> {
_phantom_data: sp_std::marker::PhantomData<T>,
#[codec(skip)]
#[cfg(feature = "std")]
message: String,
}
impl<T: Debug> From<T> for StrippableError<T> {
fn from(_err: T) -> Self {
Self {
_phantom_data: Default::default(),
#[cfg(feature = "std")]
message: format!("{:?}", _err),
}
}
}
impl<T> Debug for StrippableError<T> {
#[cfg(feature = "std")]
fn fmt(&self, f: &mut sp_std::fmt::Formatter<'_>) -> sp_std::fmt::Result {
f.write_str(&self.message)
}
#[cfg(not(feature = "std"))]
fn fmt(&self, f: &mut sp_std::fmt::Formatter<'_>) -> sp_std::fmt::Result {
f.write_str("Stripped error")
}
}
/// A trait defining helper methods for `RangeInclusive` (start..=end)
pub trait RangeInclusiveExt<Idx> {
/// Computes the length of the `RangeInclusive`, checking for underflow and overflow.
fn checked_len(&self) -> Option<Idx>;
/// Computes the length of the `RangeInclusive`, saturating in case of underflow or overflow.
fn saturating_len(&self) -> Idx;
}
impl<Idx> RangeInclusiveExt<Idx> for RangeInclusive<Idx>
where
Idx: CheckedSub + CheckedAdd + SaturatingAdd + One + Zero,
{
fn checked_len(&self) -> Option<Idx> {
self.end()
.checked_sub(self.start())
.and_then(|len| len.checked_add(&Idx::one()))
}
fn saturating_len(&self) -> Idx {
let len = match self.end().checked_sub(self.start()) {
Some(len) => len,
None => return Idx::zero(),
};
len.saturating_add(&Idx::one())
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn storage_parameter_key_works() {
assert_eq!(
storage_parameter_key("MillauToRialtoConversionRate"),
StorageKey(hex_literal::hex!("58942375551bb0af1682f72786b59d04").to_vec()),
);
}
#[test]
fn storage_value_key_works() {
assert_eq!(
storage_value_key("PalletTransactionPayment", "NextFeeMultiplier"),
StorageKey(
hex_literal::hex!(
"f0e954dfcca51a255ab12c60c789256a3f2edf3bdf381debe331ab7446addfdc"
)
.to_vec()
),
);
}
#[test]
fn generate_static_str_provider_works() {
generate_static_str_provider!(Test);
assert_eq!(StrTest::STR, "Test");
}