mirror of
https://github.com/pezkuwichain/pezkuwi-subxt.git
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50eb12cf2f
Moved from: https://github.com/paritytech/polkadot/pull/6951 closes https://github.com/paritytech/polkadot-sdk/issues/490 - [x] update cumulus --- This PR introduces transactional processing of certain xcm instructions. For the list of instructions checkout https://github.com/paritytech/polkadot-sdk/issues/490. The transactional processing is implemented as an xcm-executor config item. The two implementations in this PR are `FrameTransactionalProcessor` and `()`. The `()` implementation does no transactional processing. Each implementation of the `ProcessTransaction` trait has an `IS_TRANSACTIONAL` const that tells the XCVM if transactional processing is actually implemented. If Transactional processing is implemented, changes to touched registers should also be rolled back to prevent inconsistencies. Note for reviewers: Check out the following safety assumption: https://github.com/paritytech/polkadot-sdk/pull/1222/files#diff-4effad7d8c1c9de19fd27e18661cbf2128c8718f3b2420a27d2f816e0749ea53R30 --------- Co-authored-by: Keith Yeung <kungfukeith11@gmail.com> Co-authored-by: Francisco Aguirre <franciscoaguirreperez@gmail.com> Co-authored-by: command-bot <>
554 lines
19 KiB
Rust
554 lines
19 KiB
Rust
// Copyright (C) Parity Technologies (UK) Ltd.
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// This file is part of Polkadot.
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// Substrate is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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// Substrate is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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// You should have received a copy of the GNU General Public License
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// along with Polkadot. If not, see <http://www.gnu.org/licenses/>.
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//! Cross-Consensus Message format data structures.
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use crate::v2::Error as OldError;
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use core::result;
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use parity_scale_codec::{Decode, Encode, MaxEncodedLen};
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use scale_info::TypeInfo;
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pub use sp_weights::Weight;
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use super::*;
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/// Error codes used in XCM. The first errors codes have explicit indices and are part of the XCM
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/// format. Those trailing are merely part of the XCM implementation; there is no expectation that
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/// they will retain the same index over time.
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#[derive(Copy, Clone, Encode, Decode, Eq, PartialEq, Debug, TypeInfo)]
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#[scale_info(replace_segment("staging_xcm", "xcm"))]
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#[cfg_attr(feature = "json-schema", derive(schemars::JsonSchema))]
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pub enum Error {
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// Errors that happen due to instructions being executed. These alone are defined in the
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// XCM specification.
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/// An arithmetic overflow happened.
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#[codec(index = 0)]
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Overflow,
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/// The instruction is intentionally unsupported.
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#[codec(index = 1)]
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Unimplemented,
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/// Origin Register does not contain a value value for a reserve transfer notification.
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#[codec(index = 2)]
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UntrustedReserveLocation,
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/// Origin Register does not contain a value value for a teleport notification.
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#[codec(index = 3)]
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UntrustedTeleportLocation,
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/// `MultiLocation` value too large to descend further.
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#[codec(index = 4)]
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LocationFull,
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/// `MultiLocation` value ascend more parents than known ancestors of local location.
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#[codec(index = 5)]
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LocationNotInvertible,
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/// The Origin Register does not contain a valid value for instruction.
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#[codec(index = 6)]
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BadOrigin,
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/// The location parameter is not a valid value for the instruction.
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#[codec(index = 7)]
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InvalidLocation,
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/// The given asset is not handled.
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#[codec(index = 8)]
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AssetNotFound,
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/// An asset transaction (like withdraw or deposit) failed (typically due to type conversions).
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#[codec(index = 9)]
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FailedToTransactAsset(#[codec(skip)] &'static str),
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/// An asset cannot be withdrawn, potentially due to lack of ownership, availability or rights.
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#[codec(index = 10)]
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NotWithdrawable,
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/// An asset cannot be deposited under the ownership of a particular location.
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#[codec(index = 11)]
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LocationCannotHold,
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/// Attempt to send a message greater than the maximum supported by the transport protocol.
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#[codec(index = 12)]
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ExceedsMaxMessageSize,
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/// The given message cannot be translated into a format supported by the destination.
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#[codec(index = 13)]
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DestinationUnsupported,
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/// Destination is routable, but there is some issue with the transport mechanism.
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#[codec(index = 14)]
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Transport(#[codec(skip)] &'static str),
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/// Destination is known to be unroutable.
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#[codec(index = 15)]
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Unroutable,
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/// Used by `ClaimAsset` when the given claim could not be recognized/found.
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#[codec(index = 16)]
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UnknownClaim,
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/// Used by `Transact` when the functor cannot be decoded.
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#[codec(index = 17)]
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FailedToDecode,
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/// Used by `Transact` to indicate that the given weight limit could be breached by the
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/// functor.
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#[codec(index = 18)]
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MaxWeightInvalid,
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/// Used by `BuyExecution` when the Holding Register does not contain payable fees.
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#[codec(index = 19)]
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NotHoldingFees,
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/// Used by `BuyExecution` when the fees declared to purchase weight are insufficient.
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#[codec(index = 20)]
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TooExpensive,
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/// Used by the `Trap` instruction to force an error intentionally. Its code is included.
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#[codec(index = 21)]
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Trap(u64),
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/// Used by `ExpectAsset`, `ExpectError` and `ExpectOrigin` when the expectation was not true.
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#[codec(index = 22)]
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ExpectationFalse,
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/// The provided pallet index was not found.
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#[codec(index = 23)]
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PalletNotFound,
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/// The given pallet's name is different to that expected.
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#[codec(index = 24)]
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NameMismatch,
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/// The given pallet's version has an incompatible version to that expected.
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#[codec(index = 25)]
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VersionIncompatible,
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/// The given operation would lead to an overflow of the Holding Register.
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#[codec(index = 26)]
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HoldingWouldOverflow,
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/// The message was unable to be exported.
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#[codec(index = 27)]
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ExportError,
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/// `MultiLocation` value failed to be reanchored.
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#[codec(index = 28)]
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ReanchorFailed,
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/// No deal is possible under the given constraints.
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#[codec(index = 29)]
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NoDeal,
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/// Fees were required which the origin could not pay.
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#[codec(index = 30)]
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FeesNotMet,
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/// Some other error with locking.
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#[codec(index = 31)]
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LockError,
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/// The state was not in a condition where the operation was valid to make.
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#[codec(index = 32)]
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NoPermission,
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/// The universal location of the local consensus is improper.
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#[codec(index = 33)]
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Unanchored,
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/// An asset cannot be deposited, probably because (too much of) it already exists.
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#[codec(index = 34)]
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NotDepositable,
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// Errors that happen prior to instructions being executed. These fall outside of the XCM
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// spec.
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/// XCM version not able to be handled.
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UnhandledXcmVersion,
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/// Execution of the XCM would potentially result in a greater weight used than weight limit.
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WeightLimitReached(Weight),
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/// The XCM did not pass the barrier condition for execution.
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///
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/// The barrier condition differs on different chains and in different circumstances, but
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/// generally it means that the conditions surrounding the message were not such that the chain
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/// considers the message worth spending time executing. Since most chains lift the barrier to
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/// execution on appropriate payment, presentation of an NFT voucher, or based on the message
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/// origin, it means that none of those were the case.
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Barrier,
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/// The weight of an XCM message is not computable ahead of execution.
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WeightNotComputable,
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/// Recursion stack limit reached
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ExceedsStackLimit,
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}
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impl MaxEncodedLen for Error {
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fn max_encoded_len() -> usize {
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// TODO: max_encoded_len doesn't quite work here as it tries to take notice of the fields
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// marked `codec(skip)`. We can hard-code it with the right answer for now.
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1
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}
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}
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impl TryFrom<OldError> for Error {
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type Error = ();
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fn try_from(old_error: OldError) -> result::Result<Error, ()> {
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use OldError::*;
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Ok(match old_error {
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Overflow => Self::Overflow,
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Unimplemented => Self::Unimplemented,
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UntrustedReserveLocation => Self::UntrustedReserveLocation,
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UntrustedTeleportLocation => Self::UntrustedTeleportLocation,
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MultiLocationFull => Self::LocationFull,
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MultiLocationNotInvertible => Self::LocationNotInvertible,
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BadOrigin => Self::BadOrigin,
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InvalidLocation => Self::InvalidLocation,
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AssetNotFound => Self::AssetNotFound,
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FailedToTransactAsset(s) => Self::FailedToTransactAsset(s),
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NotWithdrawable => Self::NotWithdrawable,
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LocationCannotHold => Self::LocationCannotHold,
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ExceedsMaxMessageSize => Self::ExceedsMaxMessageSize,
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DestinationUnsupported => Self::DestinationUnsupported,
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Transport(s) => Self::Transport(s),
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Unroutable => Self::Unroutable,
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UnknownClaim => Self::UnknownClaim,
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FailedToDecode => Self::FailedToDecode,
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MaxWeightInvalid => Self::MaxWeightInvalid,
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NotHoldingFees => Self::NotHoldingFees,
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TooExpensive => Self::TooExpensive,
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Trap(i) => Self::Trap(i),
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_ => return Err(()),
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})
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}
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}
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impl From<SendError> for Error {
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fn from(e: SendError) -> Self {
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match e {
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SendError::NotApplicable | SendError::Unroutable | SendError::MissingArgument =>
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Error::Unroutable,
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SendError::Transport(s) => Error::Transport(s),
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SendError::DestinationUnsupported => Error::DestinationUnsupported,
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SendError::ExceedsMaxMessageSize => Error::ExceedsMaxMessageSize,
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SendError::Fees => Error::FeesNotMet,
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}
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}
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}
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pub type Result = result::Result<(), Error>;
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/// Outcome of an XCM execution.
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#[derive(Clone, Encode, Decode, Eq, PartialEq, Debug, TypeInfo)]
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#[scale_info(replace_segment("staging_xcm", "xcm"))]
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pub enum Outcome {
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/// Execution completed successfully; given weight was used.
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Complete(Weight),
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/// Execution started, but did not complete successfully due to the given error; given weight
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/// was used.
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Incomplete(Weight, Error),
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/// Execution did not start due to the given error.
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Error(Error),
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}
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impl Outcome {
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pub fn ensure_complete(self) -> result::Result<Weight, Error> {
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match self {
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Outcome::Complete(weight) => Ok(weight),
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Outcome::Incomplete(_, e) => Err(e),
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Outcome::Error(e) => Err(e),
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}
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}
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pub fn ensure_execution(self) -> result::Result<Weight, Error> {
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match self {
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Outcome::Complete(w) => Ok(w),
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Outcome::Incomplete(w, _) => Ok(w),
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Outcome::Error(e) => Err(e),
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}
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}
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/// How much weight was used by the XCM execution attempt.
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pub fn weight_used(&self) -> Weight {
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match self {
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Outcome::Complete(w) => *w,
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Outcome::Incomplete(w, _) => *w,
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Outcome::Error(_) => Weight::zero(),
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}
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}
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}
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pub trait PreparedMessage {
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fn weight_of(&self) -> Weight;
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}
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/// Type of XCM message executor.
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pub trait ExecuteXcm<Call> {
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type Prepared: PreparedMessage;
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fn prepare(message: Xcm<Call>) -> result::Result<Self::Prepared, Xcm<Call>>;
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fn execute(
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origin: impl Into<MultiLocation>,
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pre: Self::Prepared,
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id: &mut XcmHash,
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weight_credit: Weight,
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) -> Outcome;
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fn prepare_and_execute(
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origin: impl Into<MultiLocation>,
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message: Xcm<Call>,
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id: &mut XcmHash,
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weight_limit: Weight,
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weight_credit: Weight,
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) -> Outcome {
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let pre = match Self::prepare(message) {
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Ok(x) => x,
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Err(_) => return Outcome::Error(Error::WeightNotComputable),
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};
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let xcm_weight = pre.weight_of();
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if xcm_weight.any_gt(weight_limit) {
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return Outcome::Error(Error::WeightLimitReached(xcm_weight))
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}
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Self::execute(origin, pre, id, weight_credit)
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}
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/// Execute some XCM `message` with the message `hash` from `origin` using no more than
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/// `weight_limit` weight.
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///
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/// The weight limit is a basic hard-limit and the implementation may place further
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/// restrictions or requirements on weight and other aspects.
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fn execute_xcm(
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origin: impl Into<MultiLocation>,
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message: Xcm<Call>,
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hash: XcmHash,
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weight_limit: Weight,
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) -> Outcome {
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let origin = origin.into();
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log::debug!(
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target: "xcm::execute_xcm",
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"origin: {:?}, message: {:?}, weight_limit: {:?}",
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origin,
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message,
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weight_limit,
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);
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Self::execute_xcm_in_credit(origin, message, hash, weight_limit, Weight::zero())
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}
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/// Execute some XCM `message` with the message `hash` from `origin` using no more than
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/// `weight_limit` weight.
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///
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/// Some amount of `weight_credit` may be provided which, depending on the implementation, may
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/// allow execution without associated payment.
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fn execute_xcm_in_credit(
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origin: impl Into<MultiLocation>,
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message: Xcm<Call>,
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mut hash: XcmHash,
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weight_limit: Weight,
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weight_credit: Weight,
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) -> Outcome {
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let pre = match Self::prepare(message) {
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Ok(x) => x,
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Err(_) => return Outcome::Error(Error::WeightNotComputable),
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};
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let xcm_weight = pre.weight_of();
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if xcm_weight.any_gt(weight_limit) {
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return Outcome::Error(Error::WeightLimitReached(xcm_weight))
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}
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Self::execute(origin, pre, &mut hash, weight_credit)
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}
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/// Deduct some `fees` to the sovereign account of the given `location` and place them as per
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/// the convention for fees.
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fn charge_fees(location: impl Into<MultiLocation>, fees: MultiAssets) -> Result;
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}
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pub enum Weightless {}
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impl PreparedMessage for Weightless {
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fn weight_of(&self) -> Weight {
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unreachable!()
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}
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}
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impl<C> ExecuteXcm<C> for () {
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type Prepared = Weightless;
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fn prepare(message: Xcm<C>) -> result::Result<Self::Prepared, Xcm<C>> {
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Err(message)
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}
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fn execute(
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_: impl Into<MultiLocation>,
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_: Self::Prepared,
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_: &mut XcmHash,
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_: Weight,
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) -> Outcome {
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unreachable!()
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}
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fn charge_fees(_location: impl Into<MultiLocation>, _fees: MultiAssets) -> Result {
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Err(Error::Unimplemented)
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}
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}
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/// Error result value when attempting to send an XCM message.
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#[derive(Clone, Encode, Decode, Eq, PartialEq, Debug, scale_info::TypeInfo)]
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#[scale_info(replace_segment("staging_xcm", "xcm"))]
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pub enum SendError {
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/// The message and destination combination was not recognized as being reachable.
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///
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/// This is not considered fatal: if there are alternative transport routes available, then
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/// they may be attempted.
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NotApplicable,
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/// Destination is routable, but there is some issue with the transport mechanism. This is
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/// considered fatal.
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/// A human-readable explanation of the specific issue is provided.
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Transport(#[codec(skip)] &'static str),
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/// Destination is known to be unroutable. This is considered fatal.
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Unroutable,
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/// The given message cannot be translated into a format that the destination can be expected
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/// to interpret.
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DestinationUnsupported,
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/// Message could not be sent due to its size exceeding the maximum allowed by the transport
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/// layer.
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ExceedsMaxMessageSize,
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/// A needed argument is `None` when it should be `Some`.
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MissingArgument,
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/// Fees needed to be paid in order to send the message and they were unavailable.
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Fees,
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}
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/// A hash type for identifying messages.
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pub type XcmHash = [u8; 32];
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/// Result value when attempting to send an XCM message.
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pub type SendResult<T> = result::Result<(T, MultiAssets), SendError>;
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/// Utility for sending an XCM message to a given location.
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///
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/// These can be amalgamated in tuples to form sophisticated routing systems. In tuple format, each
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/// router might return `NotApplicable` to pass the execution to the next sender item. Note that
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/// each `NotApplicable` might alter the destination and the XCM message for to the next router.
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///
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/// # Example
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/// ```rust
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/// # use parity_scale_codec::Encode;
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/// # use staging_xcm::v3::{prelude::*, Weight};
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/// # use staging_xcm::VersionedXcm;
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/// # use std::convert::Infallible;
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///
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/// /// A sender that only passes the message through and does nothing.
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/// struct Sender1;
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/// impl SendXcm for Sender1 {
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/// type Ticket = Infallible;
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/// fn validate(_: &mut Option<MultiLocation>, _: &mut Option<Xcm<()>>) -> SendResult<Infallible> {
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/// Err(SendError::NotApplicable)
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/// }
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/// fn deliver(_: Infallible) -> Result<XcmHash, SendError> {
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/// unreachable!()
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/// }
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/// }
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///
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/// /// A sender that accepts a message that has an X2 junction, otherwise stops the routing.
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/// struct Sender2;
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/// impl SendXcm for Sender2 {
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/// type Ticket = ();
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/// fn validate(destination: &mut Option<MultiLocation>, message: &mut Option<Xcm<()>>) -> SendResult<()> {
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/// match destination.as_ref().ok_or(SendError::MissingArgument)? {
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/// MultiLocation { parents: 0, interior: X2(j1, j2) } => Ok(((), MultiAssets::new())),
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/// _ => Err(SendError::Unroutable),
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/// }
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/// }
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/// fn deliver(_: ()) -> Result<XcmHash, SendError> {
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/// Ok([0; 32])
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/// }
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/// }
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///
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/// /// A sender that accepts a message from a parent, passing through otherwise.
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/// struct Sender3;
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/// impl SendXcm for Sender3 {
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/// type Ticket = ();
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/// fn validate(destination: &mut Option<MultiLocation>, message: &mut Option<Xcm<()>>) -> SendResult<()> {
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/// match destination.as_ref().ok_or(SendError::MissingArgument)? {
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/// MultiLocation { parents: 1, interior: Here } => Ok(((), MultiAssets::new())),
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/// _ => Err(SendError::NotApplicable),
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/// }
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/// }
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/// fn deliver(_: ()) -> Result<XcmHash, SendError> {
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/// Ok([0; 32])
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/// }
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/// }
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///
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/// // A call to send via XCM. We don't really care about this.
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/// # fn main() {
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/// let call: Vec<u8> = ().encode();
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/// let message = Xcm(vec![Instruction::Transact {
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/// origin_kind: OriginKind::Superuser,
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/// require_weight_at_most: Weight::zero(),
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/// call: call.into(),
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/// }]);
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/// let message_hash = message.using_encoded(sp_io::hashing::blake2_256);
|
|
///
|
|
/// // Sender2 will block this.
|
|
/// assert!(send_xcm::<(Sender1, Sender2, Sender3)>(Parent.into(), message.clone()).is_err());
|
|
///
|
|
/// // Sender3 will catch this.
|
|
/// assert!(send_xcm::<(Sender1, Sender3)>(Parent.into(), message.clone()).is_ok());
|
|
/// # }
|
|
/// ```
|
|
pub trait SendXcm {
|
|
/// Intermediate value which connects the two phases of the send operation.
|
|
type Ticket;
|
|
|
|
/// Check whether the given `message` is deliverable to the given `destination` and if so
|
|
/// determine the cost which will be paid by this chain to do so, returning a `Validated` token
|
|
/// which can be used to enact delivery.
|
|
///
|
|
/// The `destination` and `message` must be `Some` (or else an error will be returned) and they
|
|
/// may only be consumed if the `Err` is not `NotApplicable`.
|
|
///
|
|
/// If it is not a destination which can be reached with this type but possibly could by others,
|
|
/// then this *MUST* return `NotApplicable`. Any other error will cause the tuple
|
|
/// implementation to exit early without trying other type fields.
|
|
fn validate(
|
|
destination: &mut Option<MultiLocation>,
|
|
message: &mut Option<Xcm<()>>,
|
|
) -> SendResult<Self::Ticket>;
|
|
|
|
/// Actually carry out the delivery operation for a previously validated message sending.
|
|
fn deliver(ticket: Self::Ticket) -> result::Result<XcmHash, SendError>;
|
|
}
|
|
|
|
#[impl_trait_for_tuples::impl_for_tuples(30)]
|
|
impl SendXcm for Tuple {
|
|
for_tuples! { type Ticket = (#( Option<Tuple::Ticket> ),* ); }
|
|
|
|
fn validate(
|
|
destination: &mut Option<MultiLocation>,
|
|
message: &mut Option<Xcm<()>>,
|
|
) -> SendResult<Self::Ticket> {
|
|
let mut maybe_cost: Option<MultiAssets> = None;
|
|
let one_ticket: Self::Ticket = (for_tuples! { #(
|
|
if maybe_cost.is_some() {
|
|
None
|
|
} else {
|
|
match Tuple::validate(destination, message) {
|
|
Err(SendError::NotApplicable) => None,
|
|
Err(e) => { return Err(e) },
|
|
Ok((v, c)) => {
|
|
maybe_cost = Some(c);
|
|
Some(v)
|
|
},
|
|
}
|
|
}
|
|
),* });
|
|
if let Some(cost) = maybe_cost {
|
|
Ok((one_ticket, cost))
|
|
} else {
|
|
Err(SendError::NotApplicable)
|
|
}
|
|
}
|
|
|
|
fn deliver(one_ticket: Self::Ticket) -> result::Result<XcmHash, SendError> {
|
|
for_tuples!( #(
|
|
if let Some(validated) = one_ticket.Tuple {
|
|
return Tuple::deliver(validated);
|
|
}
|
|
)* );
|
|
Err(SendError::Unroutable)
|
|
}
|
|
}
|
|
|
|
/// Convenience function for using a `SendXcm` implementation. Just interprets the `dest` and wraps
|
|
/// both in `Some` before passing them as as mutable references into `T::send_xcm`.
|
|
pub fn validate_send<T: SendXcm>(dest: MultiLocation, msg: Xcm<()>) -> SendResult<T::Ticket> {
|
|
T::validate(&mut Some(dest), &mut Some(msg))
|
|
}
|
|
|
|
/// Convenience function for using a `SendXcm` implementation. Just interprets the `dest` and wraps
|
|
/// both in `Some` before passing them as as mutable references into `T::send_xcm`.
|
|
///
|
|
/// Returns either `Ok` with the price of the delivery, or `Err` with the reason why the message
|
|
/// could not be sent.
|
|
///
|
|
/// Generally you'll want to validate and get the price first to ensure that the sender can pay it
|
|
/// before actually doing the delivery.
|
|
pub fn send_xcm<T: SendXcm>(
|
|
dest: MultiLocation,
|
|
msg: Xcm<()>,
|
|
) -> result::Result<(XcmHash, MultiAssets), SendError> {
|
|
let (ticket, price) = T::validate(&mut Some(dest), &mut Some(msg))?;
|
|
let hash = T::deliver(ticket)?;
|
|
Ok((hash, price))
|
|
}
|