//! # Template Pallet //! //! A pallet with minimal functionality to help developers understand the essential components of //! writing a FRAME pallet. It is typically used in beginner tutorials or in Substrate template //! nodes as a starting point for creating a new pallet and **not meant to be used in production**. //! //! ## Overview //! //! This template pallet contains basic examples of: //! - declaring a storage item that stores a single `u32` value //! - declaring and using events //! - declaring and using errors //! - a dispatchable function that allows a user to set a new value to storage and emits an event //! upon success //! - another dispatchable function that causes a custom error to be thrown //! //! Each pallet section is annotated with an attribute using the `#[pallet::...]` procedural macro. //! This macro generates the necessary code for a pallet to be aggregated into a FRAME runtime. //! //! Learn more about FRAME macros [here](https://docs.substrate.io/reference/frame-macros/). //! //! ### Pallet Sections //! //! The pallet sections in this template are: //! //! - A **configuration trait** that defines the types and parameters which the pallet depends on //! (denoted by the `#[pallet::config]` attribute). See: [`Config`]. //! - A **means to store pallet-specific data** (denoted by the `#[pallet::storage]` attribute). //! See: [`storage_types`]. //! - A **declaration of the events** this pallet emits (denoted by the `#[pallet::event]` //! attribute). See: [`Event`]. //! - A **declaration of the errors** that this pallet can throw (denoted by the `#[pallet::error]` //! attribute). See: [`Error`]. //! - A **set of dispatchable functions** that define the pallet's functionality (denoted by the //! `#[pallet::call]` attribute). See: [`dispatchables`]. //! //! Run `cargo doc --package pallet-template --open` to view this pallet's documentation. // We make sure this pallet uses `no_std` for compiling to Wasm. #![cfg_attr(not(feature = "std"), no_std)] // Re-export pallet items so that they can be accessed from the crate namespace. pub use pallet::*; // FRAME pallets require their own "mock runtimes" to be able to run unit tests. This module // contains a mock runtime specific for testing this pallet's functionality. #[cfg(test)] mod mock; // This module contains the unit tests for this pallet. // Learn about pallet unit testing here: https://docs.substrate.io/test/unit-testing/ #[cfg(test)] mod tests; // Every callable function or "dispatchable" a pallet exposes must have weight values that correctly // estimate a dispatchable's execution time. The benchmarking module is used to calculate weights // for each dispatchable and generates this pallet's weight.rs file. Learn more about benchmarking here: https://docs.substrate.io/test/benchmark/ #[cfg(feature = "runtime-benchmarks")] mod benchmarking; pub mod weights; pub use weights::*; // All pallet logic is defined in its own module and must be annotated by the `pallet` attribute. #[frame_support::pallet] pub mod pallet { // Import various useful types required by all FRAME pallets. use super::*; use frame_support::pallet_prelude::*; use frame_system::pallet_prelude::*; // The `Pallet` struct serves as a placeholder to implement traits, methods and dispatchables // (`Call`s) in this pallet. #[pallet::pallet] pub struct Pallet(_); /// The pallet's configuration trait. /// /// All our types and constants a pallet depends on must be declared here. /// These types are defined generically and made concrete when the pallet is declared in the /// `runtime/src/lib.rs` file of your chain. #[pallet::config] pub trait Config: frame_system::Config { /// The overarching runtime event type. #[allow(deprecated)] type RuntimeEvent: From> + IsType<::RuntimeEvent>; /// A type representing the weights required by the dispatchables of this pallet. type WeightInfo: WeightInfo; } /// A storage item for this pallet. /// /// In this template, we are declaring a storage item called `Something` that stores a single /// `u32` value. Learn more about runtime storage here: #[pallet::storage] pub type Something = StorageValue<_, u32>; /// Events that functions in this pallet can emit. /// /// Events are a simple means of indicating to the outside world (such as dApps, chain explorers /// or other users) that some notable update in the runtime has occurred. In a FRAME pallet, the /// documentation for each event field and its parameters is added to a node's metadata so it /// can be used by external interfaces or tools. /// /// The `generate_deposit` macro generates a function on `Pallet` called `deposit_event` which /// will convert the event type of your pallet into `RuntimeEvent` (declared in the pallet's /// [`Config`] trait) and deposit it using [`frame_system::Pallet::deposit_event`]. #[pallet::event] #[pallet::generate_deposit(pub(super) fn deposit_event)] pub enum Event { /// A user has successfully set a new value. SomethingStored { /// The new value set. something: u32, /// The account who set the new value. who: T::AccountId, }, } /// Errors that can be returned by this pallet. /// /// Errors tell users that something went wrong so it's important that their naming is /// informative. Similar to events, error documentation is added to a node's metadata so it's /// equally important that they have helpful documentation associated with them. /// /// This type of runtime error can be up to 4 bytes in size should you want to return additional /// information. #[pallet::error] pub enum Error { /// The value retrieved was `None` as no value was previously set. NoneValue, /// There was an attempt to increment the value in storage over `u32::MAX`. StorageOverflow, } /// The pallet's dispatchable functions ([`Call`]s). /// /// Dispatchable functions allows users to interact with the pallet and invoke state changes. /// These functions materialize as "extrinsics", which are often compared to transactions. /// They must always return a `DispatchResult` and be annotated with a weight and call index. /// /// The [`call_index`] macro is used to explicitly /// define an index for calls in the [`Call`] enum. This is useful for pallets that may /// introduce new dispatchables over time. If the order of a dispatchable changes, its index /// will also change which will break backwards compatibility. /// /// The [`weight`] macro is used to assign a weight to each call. #[pallet::call] impl Pallet { /// An example dispatchable that takes a single u32 value as a parameter, writes the value /// to storage and emits an event. /// /// It checks that the _origin_ for this call is _Signed_ and returns a dispatch /// error if it isn't. Learn more about origins here: #[pallet::call_index(0)] #[pallet::weight(T::WeightInfo::do_something())] pub fn do_something(origin: OriginFor, something: u32) -> DispatchResult { // Check that the extrinsic was signed and get the signer. let who = ensure_signed(origin)?; // Update storage. Something::::put(something); // Emit an event. Self::deposit_event(Event::SomethingStored { something, who }); // Return a successful `DispatchResult` Ok(()) } /// An example dispatchable that may throw a custom error. /// /// It checks that the caller is a signed origin and reads the current value from the /// `Something` storage item. If a current value exists, it is incremented by 1 and then /// written back to storage. /// /// ## Errors /// /// The function will return an error under the following conditions: /// /// - If no value has been set ([`Error::NoneValue`]) /// - If incrementing the value in storage causes an arithmetic overflow /// ([`Error::StorageOverflow`]) #[pallet::call_index(1)] #[pallet::weight(T::WeightInfo::cause_error())] pub fn cause_error(origin: OriginFor) -> DispatchResult { let _who = ensure_signed(origin)?; // Read a value from storage. match Something::::get() { // Return an error if the value has not been set. None => Err(Error::::NoneValue.into()), Some(old) => { // Increment the value read from storage. This will cause an error in the event // of overflow. let new = old.checked_add(1).ok_or(Error::::StorageOverflow)?; // Update the value in storage with the incremented result. Something::::put(new); Ok(()) }, } } } }