Struct pallet_restricted_xtokens::pallet::Pallet

pub struct Pallet<T>(/* private fields */);

The Pallet struct, the main type that implements traits and standalone functions within the pallet.

Implementations

impl<T: Config> Pallet<T>

pub fn transfer( origin: OriginFor<T>, currency_id: T::CurrencyId, amount: T::Balance, dest: Box<VersionedLocation>, dest_weight_limit: WeightLimit ) -> DispatchResult

Transfer native currencies.

dest_weight_limit is the weight for XCM execution on the dest chain, and it would be charged from the transferred assets. If set below requirements, the execution may fail and assets wouldn’t be received.

It’s a no-op if any error on local XCM execution or message sending. Note sending assets out per se doesn’t guarantee they would be received. Receiving depends on if the XCM message could be delivered by the network, and if the receiving chain would handle messages correctly.

pub fn transfer_multiasset( origin: OriginFor<T>, asset: Box<VersionedAsset>, dest: Box<VersionedLocation>, dest_weight_limit: WeightLimit ) -> DispatchResult

Transfer Asset.

dest_weight_limit is the weight for XCM execution on the dest chain, and it would be charged from the transferred assets. If set below requirements, the execution may fail and assets wouldn’t be received.

It’s a no-op if any error on local XCM execution or message sending. Note sending assets out per se doesn’t guarantee they would be received. Receiving depends on if the XCM message could be delivered by the network, and if the receiving chain would handle messages correctly.

pub fn transfer_with_fee( origin: OriginFor<T>, currency_id: T::CurrencyId, amount: T::Balance, fee: T::Balance, dest: Box<VersionedLocation>, dest_weight_limit: WeightLimit ) -> DispatchResult

Transfer native currencies specifying the fee and amount as separate.

dest_weight_limit is the weight for XCM execution on the dest chain, and it would be charged from the transferred assets. If set below requirements, the execution may fail and assets wouldn’t be received.

fee is the amount to be spent to pay for execution in destination chain. Both fee and amount will be subtracted form the callers balance.

If fee is not high enough to cover for the execution costs in the destination chain, then the assets will be trapped in the destination chain

It’s a no-op if any error on local XCM execution or message sending. Note sending assets out per se doesn’t guarantee they would be received. Receiving depends on if the XCM message could be delivered by the network, and if the receiving chain would handle messages correctly.

pub fn transfer_multiasset_with_fee( origin: OriginFor<T>, asset: Box<VersionedAsset>, fee: Box<VersionedAsset>, dest: Box<VersionedLocation>, dest_weight_limit: WeightLimit ) -> DispatchResult

Transfer Asset specifying the fee and amount as separate.

dest_weight_limit is the weight for XCM execution on the dest chain, and it would be charged from the transferred assets. If set below requirements, the execution may fail and assets wouldn’t be received.

fee is the multiasset to be spent to pay for execution in destination chain. Both fee and amount will be subtracted form the callers balance For now we only accept fee and asset having the same Location id.

If fee is not high enough to cover for the execution costs in the destination chain, then the assets will be trapped in the destination chain

It’s a no-op if any error on local XCM execution or message sending. Note sending assets out per se doesn’t guarantee they would be received. Receiving depends on if the XCM message could be delivered by the network, and if the receiving chain would handle messages correctly.

pub fn transfer_multicurrencies( origin: OriginFor<T>, currencies: Vec<(T::CurrencyId, T::Balance)>, fee_item: u32, dest: Box<VersionedLocation>, dest_weight_limit: WeightLimit ) -> DispatchResult

Transfer several currencies specifying the item to be used as fee

dest_weight_limit is the weight for XCM execution on the dest chain, and it would be charged from the transferred assets. If set below requirements, the execution may fail and assets wouldn’t be received.

fee_item is index of the currencies tuple that we want to use for payment

It’s a no-op if any error on local XCM execution or message sending. Note sending assets out per se doesn’t guarantee they would be received. Receiving depends on if the XCM message could be delivered by the network, and if the receiving chain would handle messages correctly.

pub fn transfer_multiassets( origin: OriginFor<T>, assets: Box<VersionedAssets>, fee_item: u32, dest: Box<VersionedLocation>, dest_weight_limit: WeightLimit ) -> DispatchResult

Transfer several Asset specifying the item to be used as fee

dest_weight_limit is the weight for XCM execution on the dest chain, and it would be charged from the transferred assets. If set below requirements, the execution may fail and assets wouldn’t be received.

fee_item is index of the Assets that we want to use for payment

It’s a no-op if any error on local XCM execution or message sending. Note sending assets out per se doesn’t guarantee they would be received. Receiving depends on if the XCM message could be delivered by the network, and if the receiving chain would handle messages correctly.

Trait Implementations

impl<T: Config> BeforeAllRuntimeMigrations for Pallet<T>

fn before_all_runtime_migrations() -> Weight

Something that should happen before runtime migrations are executed.

impl<T: Config> Callable<T> for Pallet<T>

type RuntimeCall = Call<T>

impl<T> Clone for Pallet<T>

fn clone(&self) -> Self

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl<T> Debug for Pallet<T>

fn fmt(&self, fmt: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl<T: Config> GetStorageVersion for Pallet<T>

type CurrentStorageVersion = NoStorageVersionSet

This will be filled out by the pallet macro.

fn current_storage_version() -> Self::CurrentStorageVersion

Returns the current storage version as supported by the pallet.

fn on_chain_storage_version() -> StorageVersion

Returns the on-chain storage version of the pallet as stored in the storage.

impl<T: Config> Hooks<<<<T as Config>::Block as HeaderProvider>::HeaderT as Header>::Number> for Pallet<T>

fn on_initialize(_n: BlockNumber) -> Weight

Block initialization hook. This is called at the very beginning of block execution.

fn on_finalize(_n: BlockNumber)

Block finalization hook. This is called at the very end of block execution.

fn on_idle(_n: BlockNumber, _remaining_weight: Weight) -> Weight

Hook to consume a block’s idle time. This will run when the block is being finalized (before [Hooks::on_finalize]).

fn on_runtime_upgrade() -> Weight

Hook executed when a code change (aka. a “runtime upgrade”) is detected by FRAME.

fn offchain_worker(_n: BlockNumber)

Implementing this function on a pallet allows you to perform long-running tasks that are dispatched as separate threads, and entirely independent of the main wasm runtime.

fn integrity_test()

Check the integrity of this pallet’s configuration.

impl<T: Config> IntegrityTest for Pallet<T>

fn integrity_test()

See [Hooks::integrity_test].

impl<T: Config> OffchainWorker<<<<T as Config>::Block as HeaderProvider>::HeaderT as Header>::Number> for Pallet<T>

fn offchain_worker(n: BlockNumberFor<T>)

This function is being called after every block import (when fully synced).

impl<T: Config> OnFinalize<<<<T as Config>::Block as HeaderProvider>::HeaderT as Header>::Number> for Pallet<T>

fn on_finalize(n: BlockNumberFor<T>)

See [Hooks::on_finalize].

impl<T: Config> OnGenesis for Pallet<T>

fn on_genesis()

Something that should happen at genesis.

impl<T: Config> OnIdle<<<<T as Config>::Block as HeaderProvider>::HeaderT as Header>::Number> for Pallet<T>

fn on_idle(n: BlockNumberFor<T>, remaining_weight: Weight) -> Weight

See [Hooks::on_idle].

impl<T: Config> OnInitialize<<<<T as Config>::Block as HeaderProvider>::HeaderT as Header>::Number> for Pallet<T>

fn on_initialize(n: BlockNumberFor<T>) -> Weight

See [Hooks::on_initialize].

impl<T: Config> OnRuntimeUpgrade for Pallet<T>

fn on_runtime_upgrade() -> Weight

See [Hooks::on_runtime_upgrade].

impl<T: Config> PalletInfoAccess for Pallet<T>

fn index() -> usize

Index of the pallet as configured in the runtime.

fn name() -> &'static str

Name of the pallet as configured in the runtime.

fn name_hash() -> [u8; 16]

Two128 hash of name.

fn module_name() -> &'static str

Name of the Rust module containing the pallet.

fn crate_version() -> CrateVersion

Version of the crate containing the pallet.

impl<T: Config> PalletsInfoAccess for Pallet<T>

fn count() -> usize

The number of pallets’ information that this type represents.

fn infos() -> Vec<PalletInfoData>

All of the pallets’ information that this type represents.

impl<T> PartialEq for Pallet<T>

fn eq(&self, other: &Self) -> bool

This method tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl<T: Config> StorageInfoTrait for Pallet<T>

fn storage_info() -> Vec<StorageInfo>

impl<T: Config> WhitelistedStorageKeys for Pallet<T>

fn whitelisted_storage_keys() -> Vec<TrackedStorageKey>

Returns a Vec<TrackedStorageKey> indicating the storage keys that should be whitelisted during benchmarking. This means that those keys will be excluded from the benchmarking performance calculation.

impl<T> Eq for Pallet<T>