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// This file is part of Substrate. // Copyright (C) 2017-2020 Parity Technologies (UK) Ltd. // SPDX-License-Identifier: Apache-2.0 // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // tag::description[] //! Proc macro of Support code for the runtime. // end::description[] #![recursion_limit="512"] mod storage; mod construct_runtime; use proc_macro::TokenStream; /// Declares strongly-typed wrappers around codec-compatible types in storage. /// /// ## Example /// /// ```nocompile /// decl_storage! { /// trait Store for Module<T: Trait> as Example { /// Foo get(fn foo) config(): u32=12; /// Bar: map hasher(identity) u32 => u32; /// pub Zed build(|config| vec![(0, 0)]): map hasher(identity) u32 => u32; /// } /// } /// ``` /// /// Declaration is set with the header `(pub) trait Store for Module<T: Trait> as Example`, /// with `Store` a (pub) trait generated associating each storage item to the `Module` and /// `as Example` setting the prefix used for storage items of this module. `Example` must be unique: /// another module with the same name and the same inner storage item name will conflict. /// `Example` is called the module prefix. /// /// note: For instantiable modules the module prefix is prepended with instance /// prefix. Instance prefix is "" for default instance and "Instance$n" for instance number $n. /// Thus, instance 3 of module Example has a module prefix of `Instance3Example` /// /// Basic storage consists of a name and a type; supported types are: /// /// * Value: `Foo: type`: Implements the /// [`StorageValue`](../frame_support/storage/trait.StorageValue.html) trait using the /// [`StorageValue generator`](../frame_support/storage/generator/trait.StorageValue.html). /// /// The generator is implemented with: /// * `module_prefix`: module_prefix /// * `storage_prefix`: storage_name /// /// Thus the storage value is finally stored at: /// ```nocompile /// Twox128(module_prefix) ++ Twox128(storage_prefix) /// ``` /// /// * Map: `Foo: map hasher($hash) type => type`: Implements the /// [`StorageMap`](../frame_support/storage/trait.StorageMap.html) trait using the /// [`StorageMap generator`](../frame_support/storage/generator/trait.StorageMap.html). /// And [`StoragePrefixedMap`](../frame_support/storage/trait.StoragePrefixedMap.html). /// /// `$hash` representing a choice of hashing algorithms available in the /// [`Hashable`](../frame_support/trait.Hashable.html) trait. You will generally want to use one /// of three hashers: /// * `blake2_128_concat`: The default, safe choice. Use if you are unsure or don't care. It is /// secure against user-tainted keys, fairly fast and memory-efficient and supports /// iteration over its keys and values. This must be used if the keys of your map can be /// selected *en masse* by untrusted users. /// * `twox_64_concat`: This is an insecure hasher and can only be used safely if you know that /// the preimages cannot be chosen at will by untrusted users. It is memory-efficient, extremely /// performant and supports iteration over its keys and values. You can safely use this is the /// key is: /// - A (slowly) incrementing index. /// - Known to be the result of a cryptographic hash (though `identity` is a better choice here). /// - Known to be the public key of a cryptographic key pair in existence. /// * `identity`: This is not a hasher at all, and just uses the key material directly. Since it /// does no hashing or appending, it's the fastest possible hasher, however, it's also the least /// secure. It can be used only if you know that the key will be cryptographically/securely /// randomly distributed over the binary encoding space. In most cases this will not be true. /// One case where it is true, however, if where the key is itself the result of a cryptographic /// hash of some existent data. /// /// Other hashers will tend to be "opaque" and not support iteration over the keys in the /// map. It is not recommended to use these. /// /// The generator is implemented with: /// * `module_prefix`: $module_prefix /// * `storage_prefix`: storage_name /// * `Hasher`: $hash /// /// Thus the keys are stored at: /// ```nocompile /// twox128(module_prefix) ++ twox128(storage_prefix) ++ hasher(encode(key)) /// ``` /// /// * Double map: `Foo: double_map hasher($hash1) u32, hasher($hash2) u32 => u32`: Implements the /// [`StorageDoubleMap`](../frame_support/storage/trait.StorageDoubleMap.html) trait using the /// [`StorageDoubleMap generator`](../frame_support/storage/generator/trait.StorageDoubleMap.html). /// And [`StoragePrefixedMap`](../frame_support/storage/trait.StoragePrefixedMap.html). /// /// `$hash1` and `$hash2` representing choices of hashing algorithms available in the /// [`Hashable`](../frame_support/trait.Hashable.html) trait. They must be chosen with care, see /// generator documentation. /// /// The generator is implemented with: /// * `module_prefix`: $module_prefix /// * `storage_prefix`: storage_name /// * `Hasher1`: $hash1 /// * `Hasher2`: $hash2 /// /// Thus keys are stored at: /// ```nocompile /// Twox128(module_prefix) ++ Twox128(storage_prefix) ++ Hasher1(encode(key1)) ++ Hasher2(encode(key2)) /// ``` /// /// Supported hashers (ordered from least to best security): /// /// * `identity` - Just the unrefined key material. Use only when it is known to be a secure hash /// already. The most efficient and iterable over keys. /// * `twox_64_concat` - TwoX with 64bit + key concatenated. Use only when an untrusted source /// cannot select and insert key values. Very efficient and iterable over keys. /// * `blake2_128_concat` - Blake2 with 128bit + key concatenated. Slower but safe to use in all /// circumstances. Iterable over keys. /// /// Deprecated hashers, which do not support iteration over keys include: /// * `twox_128` - TwoX with 128bit. /// * `twox_256` - TwoX with with 256bit. /// * `blake2_128` - Blake2 with 128bit. /// * `blake2_256` - Blake2 with 256bit. /// /// Basic storage can be extended as such: /// /// `#vis #name get(fn #getter) config(#field_name) build(#closure): #type = #default;` /// /// * `#vis`: Set the visibility of the structure. `pub` or nothing. /// * `#name`: Name of the storage item, used as a prefix in storage. /// * \[optional\] `get(fn #getter)`: Implements the function #getter to `Module`. /// * \[optional\] `config(#field_name)`: `field_name` is optional if get is set. /// Will include the item in `GenesisConfig`. /// * \[optional\] `build(#closure)`: Closure called with storage overlays. /// * `#type`: Storage type. /// * \[optional\] `#default`: Value returned when none. /// /// Storage items are accessible in multiple ways: /// /// * The structure: `Foo` or `Foo::<T>` depending if the value type is generic or not. /// * The `Store` trait structure: `<Module<T> as Store>::Foo` /// * The getter on the module that calls get on the structure: `Module::<T>::foo()` /// /// ## GenesisConfig /// /// An optional `GenesisConfig` struct for storage initialization can be defined, either /// when at least one storage field requires default initialization /// (both `get` and `config` or `build`), or specifically as in: /// /// ```nocompile /// decl_storage! { /// trait Store for Module<T: Trait> as Example { /// /// // Your storage items /// } /// add_extra_genesis { /// config(genesis_field): GenesisFieldType; /// config(genesis_field2): GenesisFieldType; /// ... /// build(|_: &Self| { /// // Modification of storage /// }) /// } /// } /// ``` /// /// This struct can be exposed as `ExampleConfig` by the `construct_runtime!` macro like follows: /// /// ```nocompile /// construct_runtime!( /// pub enum Runtime with ... { /// ..., /// Example: example::{Module, Storage, ..., Config<T>}, /// ..., /// } /// ); /// ``` /// /// ### Module with Instances /// /// The `decl_storage!` macro supports building modules with instances with the following syntax /// (`DefaultInstance` type is optional): /// /// ```nocompile /// trait Store for Module<T: Trait<I>, I: Instance=DefaultInstance> as Example {} /// ``` /// /// Accessing the structure no requires the instance as generic parameter: /// * `Foo::<I>` if the value type is not generic /// * `Foo::<T, I>` if the value type is generic /// /// ## Where clause /// /// This macro supports a where clause which will be replicated to all generated types. /// /// ```nocompile /// trait Store for Module<T: Trait> as Example where T::AccountId: std::fmt::Display {} /// ``` /// /// ## Limitations /// /// # Instancing and generic `GenesisConfig` /// /// If your module supports instancing and you see an error like `parameter `I` is never used` for /// your `decl_storage!`, you are hitting a limitation of the current implementation. You probably /// try to use an associated type of a non-instantiable trait. To solve this, add the following to /// your macro call: /// /// ```nocompile /// add_extra_genesis { /// config(phantom): std::marker::PhantomData<I>, /// } /// ... /// /// This adds a field to your `GenesisConfig` with the name `phantom` that you can initialize with /// `Default::default()`. /// #[proc_macro] pub fn decl_storage(input: TokenStream) -> TokenStream { storage::decl_storage_impl(input) } /// Construct a runtime, with the given name and the given modules. /// /// The parameters here are specific types for `Block`, `NodeBlock`, and `UncheckedExtrinsic` /// and the modules that are used by the runtime. /// `Block` is the block type that is used in the runtime and `NodeBlock` is the block type /// that is used in the node. For instance they can differ in the extrinsics type. /// /// # Example: /// /// ```nocompile /// construct_runtime!( /// pub enum Runtime where /// Block = Block, /// NodeBlock = runtime::Block, /// UncheckedExtrinsic = UncheckedExtrinsic /// { /// System: system::{Module, Call, Event<T>, Config<T>}, /// Test: test::{Module, Call}, /// Test2: test_with_long_module::{Module}, /// /// // Module with instances /// Test3_Instance1: test3::<Instance1>::{Module, Call, Storage, Event<T, I>, Config<T, I>, Origin<T, I>}, /// Test3_DefaultInstance: test3::{Module, Call, Storage, Event<T>, Config<T>, Origin<T>}, /// } /// ) /// ``` /// /// The identifier `System` is the name of the pallet and the lower case identifier `system` is the /// name of the Rust module/crate for this Substrate module. The identifiers between the braces are /// the module parts provided by the pallet. It is important to list these parts here to export /// them correctly in the metadata or to make the pallet usable in the runtime. /// /// We provide support for the following module parts in a pallet: /// /// - `Module` /// - `Call` /// - `Storage` /// - `Event` or `Event<T>` (if the event is generic) /// - `Origin` or `Origin<T>` (if the origin is generic) /// - `Config` or `Config<T>` (if the config is generic) /// - `Inherent ( $(CALL),* )` - If the module provides/can check inherents. The optional parameter /// is for modules that use a `Call` from a different module as /// inherent. /// - `ValidateUnsigned` - If the module validates unsigned extrinsics. /// /// # Note /// /// The population of the genesis storage depends on the order of modules. So, if one of your /// modules depends on another module, the module that is depended upon needs to come before /// the module depending on it. #[proc_macro] pub fn construct_runtime(input: TokenStream) -> TokenStream { construct_runtime::construct_runtime(input) }