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transact_asset.rs
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transact_asset.rs
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// 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/>.
use crate::AssetsInHolding;
use sp_std::result::Result;
use xcm::latest::{Asset, Error as XcmError, Location, Result as XcmResult, XcmContext};
/// Facility for asset transacting.
///
/// This should work with as many asset/location combinations as possible. Locations to support may
/// include non-account locations such as a `[Junction::Parachain]`. Different
/// chains may handle them in different ways.
///
/// Can be amalgamated as a tuple of items that implement this trait. In such executions, if any of
/// the transactors returns `Ok(())`, then it will short circuit. Else, execution is passed to the
/// next transactor.
pub trait TransactAsset {
/// Ensure that `check_in` will do as expected.
///
/// When composed as a tuple, all type-items are called and at least one must result in `Ok`.
fn can_check_in(_origin: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
Err(XcmError::Unimplemented)
}
/// An asset has been teleported in from the given origin. This should do whatever housekeeping
/// is needed.
///
/// NOTE: This will make only a best-effort at bookkeeping. The caller should ensure that
/// `can_check_in` has returned with `Ok` in order to guarantee that this operation proceeds
/// properly.
///
/// Implementation note: In general this will do one of two things: On chains where the asset is
/// native, it will reduce the assets from a special "teleported" account so that a)
/// total-issuance is preserved; and b) to ensure that no more assets can be teleported in than
/// were teleported out overall (this should not be needed if the teleporting chains are to be
/// trusted, but better to be safe than sorry). On chains where the asset is not native then it
/// will generally just be a no-op.
///
/// When composed as a tuple, all type-items are called. It is up to the implementer that there
/// exists no value for `_what` which can cause side-effects for more than one of the
/// type-items.
fn check_in(_origin: &Location, _what: &Asset, _context: &XcmContext) {}
/// Ensure that `check_out` will do as expected.
///
/// When composed as a tuple, all type-items are called and at least one must result in `Ok`.
fn can_check_out(_dest: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
Err(XcmError::Unimplemented)
}
/// An asset has been teleported out to the given destination. This should do whatever
/// housekeeping is needed.
///
/// Implementation note: In general this will do one of two things: On chains where the asset is
/// native, it will increase the assets in a special "teleported" account so that a)
/// total-issuance is preserved; and b) to ensure that no more assets can be teleported in than
/// were teleported out overall (this should not be needed if the teleporting chains are to be
/// trusted, but better to be safe than sorry). On chains where the asset is not native then it
/// will generally just be a no-op.
///
/// When composed as a tuple, all type-items are called. It is up to the implementer that there
/// exists no value for `_what` which can cause side-effects for more than one of the
/// type-items.
fn check_out(_dest: &Location, _what: &Asset, _context: &XcmContext) {}
/// Deposit the `what` asset into the account of `who`.
///
/// Implementations should return `XcmError::FailedToTransactAsset` if deposit failed.
fn deposit_asset(_what: &Asset, _who: &Location, _context: Option<&XcmContext>) -> XcmResult {
Err(XcmError::Unimplemented)
}
/// Withdraw the given asset from the consensus system. Return the actual asset(s) withdrawn,
/// which should always be equal to `_what`.
///
/// The XCM `_maybe_context` parameter may be `None` when the caller of `withdraw_asset` is
/// outside of the context of a currently-executing XCM. An example will be the `charge_fees`
/// method in the XCM executor.
///
/// Implementations should return `XcmError::FailedToTransactAsset` if withdraw failed.
fn withdraw_asset(
_what: &Asset,
_who: &Location,
_maybe_context: Option<&XcmContext>,
) -> Result<AssetsInHolding, XcmError> {
Err(XcmError::Unimplemented)
}
/// Move an `asset` `from` one location in `to` another location.
///
/// Returns `XcmError::FailedToTransactAsset` if transfer failed.
///
/// ## Notes
/// This function is meant to only be implemented by the type implementing `TransactAsset`, and
/// not be called directly. Most common API usages will instead call `transfer_asset`, which in
/// turn has a default implementation that calls `internal_transfer_asset`. As such, **please
/// do not call this method directly unless you know what you're doing**.
fn internal_transfer_asset(
_asset: &Asset,
_from: &Location,
_to: &Location,
_context: &XcmContext,
) -> Result<AssetsInHolding, XcmError> {
Err(XcmError::Unimplemented)
}
/// Move an `asset` `from` one location in `to` another location.
///
/// Attempts to use `internal_transfer_asset` and if not available then falls back to using a
/// two-part withdraw/deposit.
fn transfer_asset(
asset: &Asset,
from: &Location,
to: &Location,
context: &XcmContext,
) -> Result<AssetsInHolding, XcmError> {
match Self::internal_transfer_asset(asset, from, to, context) {
Err(XcmError::AssetNotFound | XcmError::Unimplemented) => {
let assets = Self::withdraw_asset(asset, from, Some(context))?;
// Not a very forgiving attitude; once we implement roll-backs then it'll be nicer.
Self::deposit_asset(asset, to, Some(context))?;
Ok(assets)
},
result => result,
}
}
}
#[impl_trait_for_tuples::impl_for_tuples(30)]
impl TransactAsset for Tuple {
fn can_check_in(origin: &Location, what: &Asset, context: &XcmContext) -> XcmResult {
for_tuples!( #(
match Tuple::can_check_in(origin, what, context) {
Err(XcmError::AssetNotFound) | Err(XcmError::Unimplemented) => (),
r => return r,
}
)* );
log::trace!(
target: "xcm::TransactAsset::can_check_in",
"asset not found: what: {:?}, origin: {:?}, context: {:?}",
what,
origin,
context,
);
Err(XcmError::AssetNotFound)
}
fn check_in(origin: &Location, what: &Asset, context: &XcmContext) {
for_tuples!( #(
Tuple::check_in(origin, what, context);
)* );
}
fn can_check_out(dest: &Location, what: &Asset, context: &XcmContext) -> XcmResult {
for_tuples!( #(
match Tuple::can_check_out(dest, what, context) {
Err(XcmError::AssetNotFound) | Err(XcmError::Unimplemented) => (),
r => return r,
}
)* );
log::trace!(
target: "xcm::TransactAsset::can_check_out",
"asset not found: what: {:?}, dest: {:?}, context: {:?}",
what,
dest,
context,
);
Err(XcmError::AssetNotFound)
}
fn check_out(dest: &Location, what: &Asset, context: &XcmContext) {
for_tuples!( #(
Tuple::check_out(dest, what, context);
)* );
}
fn deposit_asset(what: &Asset, who: &Location, context: Option<&XcmContext>) -> XcmResult {
for_tuples!( #(
match Tuple::deposit_asset(what, who, context) {
Err(XcmError::AssetNotFound) | Err(XcmError::Unimplemented) => (),
r => return r,
}
)* );
log::trace!(
target: "xcm::TransactAsset::deposit_asset",
"did not deposit asset: what: {:?}, who: {:?}, context: {:?}",
what,
who,
context,
);
Err(XcmError::AssetNotFound)
}
fn withdraw_asset(
what: &Asset,
who: &Location,
maybe_context: Option<&XcmContext>,
) -> Result<AssetsInHolding, XcmError> {
for_tuples!( #(
match Tuple::withdraw_asset(what, who, maybe_context) {
Err(XcmError::AssetNotFound) | Err(XcmError::Unimplemented) => (),
r => return r,
}
)* );
log::trace!(
target: "xcm::TransactAsset::withdraw_asset",
"did not withdraw asset: what: {:?}, who: {:?}, maybe_context: {:?}",
what,
who,
maybe_context,
);
Err(XcmError::AssetNotFound)
}
fn internal_transfer_asset(
what: &Asset,
from: &Location,
to: &Location,
context: &XcmContext,
) -> Result<AssetsInHolding, XcmError> {
for_tuples!( #(
match Tuple::internal_transfer_asset(what, from, to, context) {
Err(XcmError::AssetNotFound) | Err(XcmError::Unimplemented) => (),
r => return r,
}
)* );
log::trace!(
target: "xcm::TransactAsset::internal_transfer_asset",
"did not transfer asset: what: {:?}, from: {:?}, to: {:?}, context: {:?}",
what,
from,
to,
context,
);
Err(XcmError::AssetNotFound)
}
}
#[cfg(test)]
mod tests {
use super::*;
use xcm::latest::Junctions::Here;
pub struct UnimplementedTransactor;
impl TransactAsset for UnimplementedTransactor {}
pub struct NotFoundTransactor;
impl TransactAsset for NotFoundTransactor {
fn can_check_in(_origin: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
Err(XcmError::AssetNotFound)
}
fn can_check_out(_dest: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
Err(XcmError::AssetNotFound)
}
fn deposit_asset(
_what: &Asset,
_who: &Location,
_context: Option<&XcmContext>,
) -> XcmResult {
Err(XcmError::AssetNotFound)
}
fn withdraw_asset(
_what: &Asset,
_who: &Location,
_context: Option<&XcmContext>,
) -> Result<AssetsInHolding, XcmError> {
Err(XcmError::AssetNotFound)
}
fn internal_transfer_asset(
_what: &Asset,
_from: &Location,
_to: &Location,
_context: &XcmContext,
) -> Result<AssetsInHolding, XcmError> {
Err(XcmError::AssetNotFound)
}
}
pub struct OverflowTransactor;
impl TransactAsset for OverflowTransactor {
fn can_check_in(_origin: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
Err(XcmError::Overflow)
}
fn can_check_out(_dest: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
Err(XcmError::Overflow)
}
fn deposit_asset(
_what: &Asset,
_who: &Location,
_context: Option<&XcmContext>,
) -> XcmResult {
Err(XcmError::Overflow)
}
fn withdraw_asset(
_what: &Asset,
_who: &Location,
_context: Option<&XcmContext>,
) -> Result<AssetsInHolding, XcmError> {
Err(XcmError::Overflow)
}
fn internal_transfer_asset(
_what: &Asset,
_from: &Location,
_to: &Location,
_context: &XcmContext,
) -> Result<AssetsInHolding, XcmError> {
Err(XcmError::Overflow)
}
}
pub struct SuccessfulTransactor;
impl TransactAsset for SuccessfulTransactor {
fn can_check_in(_origin: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
Ok(())
}
fn can_check_out(_dest: &Location, _what: &Asset, _context: &XcmContext) -> XcmResult {
Ok(())
}
fn deposit_asset(
_what: &Asset,
_who: &Location,
_context: Option<&XcmContext>,
) -> XcmResult {
Ok(())
}
fn withdraw_asset(
_what: &Asset,
_who: &Location,
_context: Option<&XcmContext>,
) -> Result<AssetsInHolding, XcmError> {
Ok(AssetsInHolding::default())
}
fn internal_transfer_asset(
_what: &Asset,
_from: &Location,
_to: &Location,
_context: &XcmContext,
) -> Result<AssetsInHolding, XcmError> {
Ok(AssetsInHolding::default())
}
}
#[test]
fn defaults_to_asset_not_found() {
type MultiTransactor =
(UnimplementedTransactor, NotFoundTransactor, UnimplementedTransactor);
assert_eq!(
MultiTransactor::deposit_asset(
&(Here, 1u128).into(),
&Here.into(),
Some(&XcmContext::with_message_id([0; 32])),
),
Err(XcmError::AssetNotFound)
);
}
#[test]
fn unimplemented_and_not_found_continue_iteration() {
type MultiTransactor = (UnimplementedTransactor, NotFoundTransactor, SuccessfulTransactor);
assert_eq!(
MultiTransactor::deposit_asset(
&(Here, 1u128).into(),
&Here.into(),
Some(&XcmContext::with_message_id([0; 32])),
),
Ok(())
);
}
#[test]
fn unexpected_error_stops_iteration() {
type MultiTransactor = (OverflowTransactor, SuccessfulTransactor);
assert_eq!(
MultiTransactor::deposit_asset(
&(Here, 1u128).into(),
&Here.into(),
Some(&XcmContext::with_message_id([0; 32])),
),
Err(XcmError::Overflow)
);
}
#[test]
fn success_stops_iteration() {
type MultiTransactor = (SuccessfulTransactor, OverflowTransactor);
assert_eq!(
MultiTransactor::deposit_asset(
&(Here, 1u128).into(),
&Here.into(),
Some(&XcmContext::with_message_id([0; 32])),
),
Ok(()),
);
}
}