Files
pezkuwi-subxt/polkadot/xcm/src/v3/junction.rs
T
Francisco Aguirre 8428f678fe XCMv4 (#1230)
# Note for reviewer

Most changes are just syntax changes necessary for the new version.
Most important files should be the ones under the `xcm` folder.

# Description 

Added XCMv4.

## Removed `Multi` prefix
The following types have been renamed:
- MultiLocation -> Location
- MultiAsset -> Asset
- MultiAssets -> Assets
- InteriorMultiLocation -> InteriorLocation
- MultiAssetFilter -> AssetFilter
- VersionedMultiAsset -> VersionedAsset
- WildMultiAsset -> WildAsset
- VersionedMultiLocation -> VersionedLocation

In order to fix a name conflict, the `Assets` in `xcm-executor` were
renamed to `HoldingAssets`, as they represent assets in holding.

## Removed `Abstract` asset id

It was not being used anywhere and this simplifies the code.

Now assets are just constructed as follows:

```rust
let asset: Asset = (AssetId(Location::new(1, Here)), 100u128).into();
```

No need for specifying `Concrete` anymore.

## Outcome is now a named fields struct

Instead of

```rust
pub enum Outcome {
  Complete(Weight),
  Incomplete(Weight, Error),
  Error(Error),
}
```

we now have

```rust
pub enum Outcome {
  Complete { used: Weight },
  Incomplete { used: Weight, error: Error },
  Error { error: Error },
}
```

## Added Reanchorable trait

Now both locations and assets implement this trait, making it easier to
reanchor both.

## New syntax for building locations and junctions

Now junctions are built using the following methods:

```rust
let location = Location {
    parents: 1,
    interior: [Parachain(1000), PalletInstance(50), GeneralIndex(1984)].into()
};
```

or

```rust
let location = Location::new(1, [Parachain(1000), PalletInstance(50), GeneralIndex(1984)]);
```

And they are matched like so:

```rust
match location.unpack() {
  (1, [Parachain(id)]) => ...
  (0, Here) => ...,
  (1, [_]) => ...,
}
```

This syntax is mandatory in v4, and has been also implemented for v2 and
v3 for easier migration.

This was needed to make all sizes smaller.

# TODO
- [x] Scaffold v4
- [x] Port github.com/paritytech/polkadot/pull/7236
- [x] Remove `Multi` prefix
- [x] Remove `Abstract` asset id

---------

Co-authored-by: command-bot <>
Co-authored-by: Keith Yeung <kungfukeith11@gmail.com>
2024-01-16 18:18:04 +00:00

527 lines
16 KiB
Rust

// Copyright (C) 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/>.
//! Support data structures for `MultiLocation`, primarily the `Junction` datatype.
use super::{Junctions, MultiLocation};
use crate::{
v2::{
BodyId as OldBodyId, BodyPart as OldBodyPart, Junction as OldJunction,
NetworkId as OldNetworkId,
},
v4::{Junction as NewJunction, NetworkId as NewNetworkId},
VersionedLocation,
};
use bounded_collections::{BoundedSlice, BoundedVec, ConstU32};
use core::convert::{TryFrom, TryInto};
use parity_scale_codec::{self, Decode, Encode, MaxEncodedLen};
use scale_info::TypeInfo;
use serde::{Deserialize, Serialize};
/// A global identifier of a data structure existing within consensus.
///
/// Maintenance note: Networks with global consensus and which are practically bridgeable within the
/// Polkadot ecosystem are given preference over explicit naming in this enumeration.
#[derive(
Copy,
Clone,
Eq,
PartialEq,
Ord,
PartialOrd,
Encode,
Decode,
Debug,
TypeInfo,
MaxEncodedLen,
Serialize,
Deserialize,
)]
#[cfg_attr(feature = "json-schema", derive(schemars::JsonSchema))]
#[scale_info(replace_segment("staging_xcm", "xcm"))]
pub enum NetworkId {
/// Network specified by the first 32 bytes of its genesis block.
ByGenesis([u8; 32]),
/// Network defined by the first 32-bytes of the hash and number of some block it contains.
ByFork { block_number: u64, block_hash: [u8; 32] },
/// The Polkadot mainnet Relay-chain.
Polkadot,
/// The Kusama canary-net Relay-chain.
Kusama,
/// The Westend testnet Relay-chain.
Westend,
/// The Rococo testnet Relay-chain.
Rococo,
/// The Wococo testnet Relay-chain.
Wococo,
/// An Ethereum network specified by its chain ID.
Ethereum {
/// The EIP-155 chain ID.
#[codec(compact)]
chain_id: u64,
},
/// The Bitcoin network, including hard-forks supported by Bitcoin Core development team.
BitcoinCore,
/// The Bitcoin network, including hard-forks supported by Bitcoin Cash developers.
BitcoinCash,
/// The Polkadot Bulletin chain.
PolkadotBulletin,
}
impl From<OldNetworkId> for Option<NetworkId> {
fn from(old: OldNetworkId) -> Option<NetworkId> {
use OldNetworkId::*;
match old {
Any => None,
Named(_) => None,
Polkadot => Some(NetworkId::Polkadot),
Kusama => Some(NetworkId::Kusama),
}
}
}
impl TryFrom<OldNetworkId> for NetworkId {
type Error = ();
fn try_from(old: OldNetworkId) -> Result<Self, Self::Error> {
use OldNetworkId::*;
match old {
Any | Named(_) => Err(()),
Polkadot => Ok(NetworkId::Polkadot),
Kusama => Ok(NetworkId::Kusama),
}
}
}
impl From<NewNetworkId> for Option<NetworkId> {
fn from(new: NewNetworkId) -> Self {
Some(NetworkId::from(new))
}
}
impl From<NewNetworkId> for NetworkId {
fn from(new: NewNetworkId) -> Self {
use NewNetworkId::*;
match new {
ByGenesis(hash) => Self::ByGenesis(hash),
ByFork { block_number, block_hash } => Self::ByFork { block_number, block_hash },
Polkadot => Self::Polkadot,
Kusama => Self::Kusama,
Westend => Self::Westend,
Rococo => Self::Rococo,
Wococo => Self::Wococo,
Ethereum { chain_id } => Self::Ethereum { chain_id },
BitcoinCore => Self::BitcoinCore,
BitcoinCash => Self::BitcoinCash,
PolkadotBulletin => Self::PolkadotBulletin,
}
}
}
/// An identifier of a pluralistic body.
#[derive(
Copy,
Clone,
Eq,
PartialEq,
Ord,
PartialOrd,
Encode,
Decode,
Debug,
TypeInfo,
MaxEncodedLen,
Serialize,
Deserialize,
)]
#[cfg_attr(feature = "json-schema", derive(schemars::JsonSchema))]
#[scale_info(replace_segment("staging_xcm", "xcm"))]
pub enum BodyId {
/// The only body in its context.
Unit,
/// A named body.
Moniker([u8; 4]),
/// An indexed body.
Index(#[codec(compact)] u32),
/// The unambiguous executive body (for Polkadot, this would be the Polkadot council).
Executive,
/// The unambiguous technical body (for Polkadot, this would be the Technical Committee).
Technical,
/// The unambiguous legislative body (for Polkadot, this could be considered the opinion of a
/// majority of lock-voters).
Legislative,
/// The unambiguous judicial body (this doesn't exist on Polkadot, but if it were to get a
/// "grand oracle", it may be considered as that).
Judicial,
/// The unambiguous defense body (for Polkadot, an opinion on the topic given via a public
/// referendum on the `staking_admin` track).
Defense,
/// The unambiguous administration body (for Polkadot, an opinion on the topic given via a
/// public referendum on the `general_admin` track).
Administration,
/// The unambiguous treasury body (for Polkadot, an opinion on the topic given via a public
/// referendum on the `treasurer` track).
Treasury,
}
impl TryFrom<OldBodyId> for BodyId {
type Error = ();
fn try_from(value: OldBodyId) -> Result<Self, ()> {
use OldBodyId::*;
Ok(match value {
Unit => Self::Unit,
Named(n) =>
if n.len() == 4 {
let mut r = [0u8; 4];
r.copy_from_slice(&n[..]);
Self::Moniker(r)
} else {
return Err(())
},
Index(n) => Self::Index(n),
Executive => Self::Executive,
Technical => Self::Technical,
Legislative => Self::Legislative,
Judicial => Self::Judicial,
Defense => Self::Defense,
Administration => Self::Administration,
Treasury => Self::Treasury,
})
}
}
/// A part of a pluralistic body.
#[derive(
Copy,
Clone,
Eq,
PartialEq,
Ord,
PartialOrd,
Encode,
Decode,
Debug,
TypeInfo,
MaxEncodedLen,
Serialize,
Deserialize,
)]
#[cfg_attr(feature = "json-schema", derive(schemars::JsonSchema))]
#[scale_info(replace_segment("staging_xcm", "xcm"))]
pub enum BodyPart {
/// The body's declaration, under whatever means it decides.
Voice,
/// A given number of members of the body.
Members {
#[codec(compact)]
count: u32,
},
/// A given number of members of the body, out of some larger caucus.
Fraction {
#[codec(compact)]
nom: u32,
#[codec(compact)]
denom: u32,
},
/// No less than the given proportion of members of the body.
AtLeastProportion {
#[codec(compact)]
nom: u32,
#[codec(compact)]
denom: u32,
},
/// More than than the given proportion of members of the body.
MoreThanProportion {
#[codec(compact)]
nom: u32,
#[codec(compact)]
denom: u32,
},
}
impl BodyPart {
/// Returns `true` if the part represents a strict majority (> 50%) of the body in question.
pub fn is_majority(&self) -> bool {
match self {
BodyPart::Fraction { nom, denom } if *nom * 2 > *denom => true,
BodyPart::AtLeastProportion { nom, denom } if *nom * 2 > *denom => true,
BodyPart::MoreThanProportion { nom, denom } if *nom * 2 >= *denom => true,
_ => false,
}
}
}
impl TryFrom<OldBodyPart> for BodyPart {
type Error = ();
fn try_from(value: OldBodyPart) -> Result<Self, ()> {
use OldBodyPart::*;
Ok(match value {
Voice => Self::Voice,
Members { count } => Self::Members { count },
Fraction { nom, denom } => Self::Fraction { nom, denom },
AtLeastProportion { nom, denom } => Self::AtLeastProportion { nom, denom },
MoreThanProportion { nom, denom } => Self::MoreThanProportion { nom, denom },
})
}
}
/// A single item in a path to describe the relative location of a consensus system.
///
/// Each item assumes a pre-existing location as its context and is defined in terms of it.
#[derive(
Copy,
Clone,
Eq,
PartialEq,
Ord,
PartialOrd,
Encode,
Decode,
Debug,
TypeInfo,
MaxEncodedLen,
Serialize,
Deserialize,
)]
#[cfg_attr(feature = "json-schema", derive(schemars::JsonSchema))]
#[scale_info(replace_segment("staging_xcm", "xcm"))]
pub enum Junction {
/// An indexed parachain belonging to and operated by the context.
///
/// Generally used when the context is a Polkadot Relay-chain.
Parachain(#[codec(compact)] u32),
/// A 32-byte identifier for an account of a specific network that is respected as a sovereign
/// endpoint within the context.
///
/// Generally used when the context is a Substrate-based chain.
AccountId32 { network: Option<NetworkId>, id: [u8; 32] },
/// An 8-byte index for an account of a specific network that is respected as a sovereign
/// endpoint within the context.
///
/// May be used when the context is a Frame-based chain and includes e.g. an indices pallet.
AccountIndex64 {
network: Option<NetworkId>,
#[codec(compact)]
index: u64,
},
/// A 20-byte identifier for an account of a specific network that is respected as a sovereign
/// endpoint within the context.
///
/// May be used when the context is an Ethereum or Bitcoin chain or smart-contract.
AccountKey20 { network: Option<NetworkId>, key: [u8; 20] },
/// An instanced, indexed pallet that forms a constituent part of the context.
///
/// Generally used when the context is a Frame-based chain.
// TODO XCMv4 inner should be `Compact<u32>`.
PalletInstance(u8),
/// A non-descript index within the context location.
///
/// Usage will vary widely owing to its generality.
///
/// NOTE: Try to avoid using this and instead use a more specific item.
GeneralIndex(#[codec(compact)] u128),
/// A nondescript array datum, 32 bytes, acting as a key within the context
/// location.
///
/// Usage will vary widely owing to its generality.
///
/// NOTE: Try to avoid using this and instead use a more specific item.
// Note this is implemented as an array with a length rather than using `BoundedVec` owing to
// the bound for `Copy`.
GeneralKey { length: u8, data: [u8; 32] },
/// The unambiguous child.
///
/// Not currently used except as a fallback when deriving context.
OnlyChild,
/// A pluralistic body existing within consensus.
///
/// Typical to be used to represent a governance origin of a chain, but could in principle be
/// used to represent things such as multisigs also.
Plurality { id: BodyId, part: BodyPart },
/// A global network capable of externalizing its own consensus. This is not generally
/// meaningful outside of the universal level.
GlobalConsensus(NetworkId),
}
impl From<NetworkId> for Junction {
fn from(n: NetworkId) -> Self {
Self::GlobalConsensus(n)
}
}
impl From<[u8; 32]> for Junction {
fn from(id: [u8; 32]) -> Self {
Self::AccountId32 { network: None, id }
}
}
impl From<BoundedVec<u8, ConstU32<32>>> for Junction {
fn from(key: BoundedVec<u8, ConstU32<32>>) -> Self {
key.as_bounded_slice().into()
}
}
impl<'a> From<BoundedSlice<'a, u8, ConstU32<32>>> for Junction {
fn from(key: BoundedSlice<'a, u8, ConstU32<32>>) -> Self {
let mut data = [0u8; 32];
data[..key.len()].copy_from_slice(&key[..]);
Self::GeneralKey { length: key.len() as u8, data }
}
}
impl<'a> TryFrom<&'a Junction> for BoundedSlice<'a, u8, ConstU32<32>> {
type Error = ();
fn try_from(key: &'a Junction) -> Result<Self, ()> {
match key {
Junction::GeneralKey { length, data } =>
BoundedSlice::try_from(&data[..data.len().min(*length as usize)]).map_err(|_| ()),
_ => Err(()),
}
}
}
impl From<[u8; 20]> for Junction {
fn from(key: [u8; 20]) -> Self {
Self::AccountKey20 { network: None, key }
}
}
impl From<u64> for Junction {
fn from(index: u64) -> Self {
Self::AccountIndex64 { network: None, index }
}
}
impl From<u128> for Junction {
fn from(id: u128) -> Self {
Self::GeneralIndex(id)
}
}
impl TryFrom<OldJunction> for Junction {
type Error = ();
fn try_from(value: OldJunction) -> Result<Self, ()> {
use OldJunction::*;
Ok(match value {
Parachain(id) => Self::Parachain(id),
AccountId32 { network, id } => Self::AccountId32 { network: network.into(), id },
AccountIndex64 { network, index } =>
Self::AccountIndex64 { network: network.into(), index },
AccountKey20 { network, key } => Self::AccountKey20 { network: network.into(), key },
PalletInstance(index) => Self::PalletInstance(index),
GeneralIndex(id) => Self::GeneralIndex(id),
GeneralKey(key) => match key.len() {
len @ 0..=32 => Self::GeneralKey {
length: len as u8,
data: {
let mut data = [0u8; 32];
data[..len].copy_from_slice(&key[..]);
data
},
},
_ => return Err(()),
},
OnlyChild => Self::OnlyChild,
Plurality { id, part } =>
Self::Plurality { id: id.try_into()?, part: part.try_into()? },
})
}
}
impl TryFrom<NewJunction> for Junction {
type Error = ();
fn try_from(value: NewJunction) -> Result<Self, Self::Error> {
use NewJunction::*;
Ok(match value {
Parachain(id) => Self::Parachain(id),
AccountId32 { network: maybe_network, id } =>
Self::AccountId32 { network: maybe_network.map(|network| network.into()), id },
AccountIndex64 { network: maybe_network, index } =>
Self::AccountIndex64 { network: maybe_network.map(|network| network.into()), index },
AccountKey20 { network: maybe_network, key } =>
Self::AccountKey20 { network: maybe_network.map(|network| network.into()), key },
PalletInstance(index) => Self::PalletInstance(index),
GeneralIndex(id) => Self::GeneralIndex(id),
GeneralKey { length, data } => Self::GeneralKey { length, data },
OnlyChild => Self::OnlyChild,
Plurality { id, part } => Self::Plurality { id, part },
GlobalConsensus(network) => Self::GlobalConsensus(network.into()),
})
}
}
impl Junction {
/// Convert `self` into a `MultiLocation` containing 0 parents.
///
/// Similar to `Into::into`, except that this method can be used in a const evaluation context.
pub const fn into_location(self) -> MultiLocation {
MultiLocation { parents: 0, interior: Junctions::X1(self) }
}
/// Convert `self` into a `MultiLocation` containing `n` parents.
///
/// Similar to `Self::into_location`, with the added ability to specify the number of parent
/// junctions.
pub const fn into_exterior(self, n: u8) -> MultiLocation {
MultiLocation { parents: n, interior: Junctions::X1(self) }
}
/// Convert `self` into a `VersionedLocation` containing 0 parents.
///
/// Similar to `Into::into`, except that this method can be used in a const evaluation context.
pub const fn into_versioned(self) -> VersionedLocation {
self.into_location().into_versioned()
}
/// Remove the `NetworkId` value.
pub fn remove_network_id(&mut self) {
use Junction::*;
match self {
AccountId32 { ref mut network, .. } |
AccountIndex64 { ref mut network, .. } |
AccountKey20 { ref mut network, .. } => *network = None,
_ => {},
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use alloc::vec;
#[test]
fn junction_round_trip_works() {
let j = Junction::GeneralKey { length: 32, data: [1u8; 32] };
let k = Junction::try_from(OldJunction::try_from(j).unwrap()).unwrap();
assert_eq!(j, k);
let j = OldJunction::GeneralKey(vec![1u8; 32].try_into().unwrap());
let k = OldJunction::try_from(Junction::try_from(j.clone()).unwrap()).unwrap();
assert_eq!(j, k);
let j = Junction::from(BoundedVec::try_from(vec![1u8, 2, 3, 4]).unwrap());
let k = Junction::try_from(OldJunction::try_from(j).unwrap()).unwrap();
assert_eq!(j, k);
let s: BoundedSlice<_, _> = (&k).try_into().unwrap();
assert_eq!(s, &[1u8, 2, 3, 4][..]);
let j = OldJunction::GeneralKey(vec![1u8, 2, 3, 4].try_into().unwrap());
let k = OldJunction::try_from(Junction::try_from(j.clone()).unwrap()).unwrap();
assert_eq!(j, k);
}
}