// This file is part of Substrate. // Copyright (C) 2019-2021 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. //! Traits and macros for constructing application specific strongly typed crypto wrappers. #![warn(missing_docs)] #![cfg_attr(not(feature = "std"), no_std)] #[doc(hidden)] pub use sp_core::{self, crypto::{CryptoType, CryptoTypePublicPair, Public, Derive, IsWrappedBy, Wraps}, RuntimeDebug}; #[doc(hidden)] #[cfg(feature = "full_crypto")] pub use sp_core::crypto::{SecretStringError, DeriveJunction, Ss58Codec, Pair}; pub use sp_core::crypto::{KeyTypeId, CryptoTypeId, key_types}; #[doc(hidden)] pub use codec; #[doc(hidden)] #[cfg(feature = "std")] pub use serde; #[doc(hidden)] pub use sp_std::{ convert::TryFrom, ops::Deref, vec::Vec, }; pub mod ed25519; pub mod sr25519; pub mod ecdsa; mod traits; pub use traits::*; /// Declares Public, Pair, Signature types which are functionally equivalent to `$pair`, but are new /// Application-specific types whose identifier is `$key_type`. /// /// ```rust ///# use sp_application_crypto::{app_crypto, wrap, ed25519, KeyTypeId}; /// // Declare a new set of crypto types using Ed25519 logic that identifies as `KeyTypeId` /// // of value `b"fuba"`. /// app_crypto!(ed25519, KeyTypeId(*b"_uba")); /// ``` #[cfg(feature = "full_crypto")] #[macro_export] macro_rules! app_crypto { ($module:ident, $key_type:expr) => { $crate::app_crypto_public_full_crypto!($module::Public, $key_type, $module::CRYPTO_ID); $crate::app_crypto_public_common!($module::Public, $module::Signature, $key_type, $module::CRYPTO_ID); $crate::app_crypto_signature_full_crypto!($module::Signature, $key_type, $module::CRYPTO_ID); $crate::app_crypto_signature_common!($module::Signature, $key_type); $crate::app_crypto_pair!($module::Pair, $key_type, $module::CRYPTO_ID); }; } /// Declares Public, Pair, Signature types which are functionally equivalent to `$pair`, but are new /// Application-specific types whose identifier is `$key_type`. /// /// ```rust ///# use sp_application_crypto::{app_crypto, wrap, ed25519, KeyTypeId}; /// // Declare a new set of crypto types using Ed25519 logic that identifies as `KeyTypeId` /// // of value `b"fuba"`. /// app_crypto!(ed25519, KeyTypeId(*b"_uba")); /// ``` #[cfg(not(feature = "full_crypto"))] #[macro_export] macro_rules! app_crypto { ($module:ident, $key_type:expr) => { $crate::app_crypto_public_not_full_crypto!($module::Public, $key_type, $module::CRYPTO_ID); $crate::app_crypto_public_common!($module::Public, $module::Signature, $key_type, $module::CRYPTO_ID); $crate::app_crypto_signature_not_full_crypto!($module::Signature, $key_type, $module::CRYPTO_ID); $crate::app_crypto_signature_common!($module::Signature, $key_type); }; } /// Declares Pair type which is functionally equivalent to `$pair`, but is new /// Application-specific type whose identifier is `$key_type`. #[macro_export] macro_rules! app_crypto_pair { ($pair:ty, $key_type:expr, $crypto_type:expr) => { $crate::wrap!{ /// A generic `AppPublic` wrapper type over $pair crypto; this has no specific App. #[derive(Clone)] pub struct Pair($pair); } impl $crate::CryptoType for Pair { type Pair = Pair; } impl $crate::Pair for Pair { type Public = Public; type Seed = <$pair as $crate::Pair>::Seed; type Signature = Signature; type DeriveError = <$pair as $crate::Pair>::DeriveError; $crate::app_crypto_pair_functions_if_std!($pair); fn derive< Iter: Iterator >(&self, path: Iter, seed: Option) -> Result<(Self, Option), Self::DeriveError> { self.0.derive(path, seed).map(|x| (Self(x.0), x.1)) } fn from_seed(seed: &Self::Seed) -> Self { Self(<$pair>::from_seed(seed)) } fn from_seed_slice(seed: &[u8]) -> Result { <$pair>::from_seed_slice(seed).map(Self) } fn sign(&self, msg: &[u8]) -> Self::Signature { Signature(self.0.sign(msg)) } fn verify>( sig: &Self::Signature, message: M, pubkey: &Self::Public, ) -> bool { <$pair>::verify(&sig.0, message, pubkey.as_ref()) } fn verify_weak, M: AsRef<[u8]>>( sig: &[u8], message: M, pubkey: P, ) -> bool { <$pair>::verify_weak(sig, message, pubkey) } fn public(&self) -> Self::Public { Public(self.0.public()) } fn to_raw_vec(&self) -> $crate::Vec { self.0.to_raw_vec() } } impl $crate::AppKey for Pair { type UntypedGeneric = $pair; type Public = Public; type Pair = Pair; type Signature = Signature; const ID: $crate::KeyTypeId = $key_type; const CRYPTO_ID: $crate::CryptoTypeId = $crypto_type; } impl $crate::AppPair for Pair { type Generic = $pair; } }; } /// Implements functions for the `Pair` trait when `feature = "std"` is enabled. #[doc(hidden)] #[cfg(feature = "std")] #[macro_export] macro_rules! app_crypto_pair_functions_if_std { ($pair:ty) => { fn generate_with_phrase(password: Option<&str>) -> (Self, String, Self::Seed) { let r = <$pair>::generate_with_phrase(password); (Self(r.0), r.1, r.2) } fn from_phrase(phrase: &str, password: Option<&str>) -> Result<(Self, Self::Seed), $crate::SecretStringError> { <$pair>::from_phrase(phrase, password).map(|r| (Self(r.0), r.1)) } } } #[doc(hidden)] #[cfg(not(feature = "std"))] #[macro_export] macro_rules! app_crypto_pair_functions_if_std { ($pair:ty) => {} } /// Declares Public type which is functionally equivalent to `$public`, but is new /// Application-specific type whose identifier is `$key_type`. /// can only be used together with `full_crypto` feature /// For full functionality, app_crypto_public_common! must be called too. #[doc(hidden)] #[macro_export] macro_rules! app_crypto_public_full_crypto { ($public:ty, $key_type:expr, $crypto_type:expr) => { $crate::wrap!{ /// A generic `AppPublic` wrapper type over $public crypto; this has no specific App. #[derive( Clone, Default, Eq, PartialEq, Ord, PartialOrd, $crate::codec::Encode, $crate::codec::Decode, $crate::RuntimeDebug, )] #[derive(Hash)] pub struct Public($public); } impl $crate::CryptoType for Public { type Pair = Pair; } impl $crate::AppKey for Public { type UntypedGeneric = $public; type Public = Public; type Pair = Pair; type Signature = Signature; const ID: $crate::KeyTypeId = $key_type; const CRYPTO_ID: $crate::CryptoTypeId = $crypto_type; } } } /// Declares Public type which is functionally equivalent to `$public`, but is new /// Application-specific type whose identifier is `$key_type`. /// can only be used without `full_crypto` feature /// For full functionality, app_crypto_public_common! must be called too. #[doc(hidden)] #[macro_export] macro_rules! app_crypto_public_not_full_crypto { ($public:ty, $key_type:expr, $crypto_type:expr) => { $crate::wrap!{ /// A generic `AppPublic` wrapper type over $public crypto; this has no specific App. #[derive( Clone, Default, Eq, PartialEq, Ord, PartialOrd, $crate::codec::Encode, $crate::codec::Decode, $crate::RuntimeDebug, )] pub struct Public($public); } impl $crate::CryptoType for Public {} impl $crate::AppKey for Public { type UntypedGeneric = $public; type Public = Public; type Signature = Signature; const ID: $crate::KeyTypeId = $key_type; const CRYPTO_ID: $crate::CryptoTypeId = $crypto_type; } } } /// Declares Public type which is functionally equivalent to `$public`, but is new /// Application-specific type whose identifier is `$key_type`. /// For full functionality, app_crypto_public_(not)_full_crypto! must be called too. #[doc(hidden)] #[macro_export] macro_rules! app_crypto_public_common { ($public:ty, $sig:ty, $key_type:expr, $crypto_type:expr) => { $crate::app_crypto_public_common_if_std!(); impl AsRef<[u8]> for Public { fn as_ref(&self) -> &[u8] { self.0.as_ref() } } impl AsMut<[u8]> for Public { fn as_mut(&mut self) -> &mut [u8] { self.0.as_mut() } } impl $crate::Public for Public { fn from_slice(x: &[u8]) -> Self { Self(<$public>::from_slice(x)) } fn to_public_crypto_pair(&self) -> $crate::CryptoTypePublicPair { $crate::CryptoTypePublicPair($crypto_type, self.to_raw_vec()) } } impl $crate::AppPublic for Public { type Generic = $public; } impl $crate::RuntimeAppPublic for Public where $public: $crate::RuntimePublic { const ID: $crate::KeyTypeId = $key_type; const CRYPTO_ID: $crate::CryptoTypeId = $crypto_type; type Signature = Signature; fn all() -> $crate::Vec { <$public as $crate::RuntimePublic>::all($key_type).into_iter().map(Self).collect() } fn generate_pair(seed: Option<$crate::Vec>) -> Self { Self(<$public as $crate::RuntimePublic>::generate_pair($key_type, seed)) } fn sign>(&self, msg: &M) -> Option { <$public as $crate::RuntimePublic>::sign( self.as_ref(), $key_type, msg, ).map(Signature) } fn verify>(&self, msg: &M, signature: &Self::Signature) -> bool { <$public as $crate::RuntimePublic>::verify(self.as_ref(), msg, &signature.as_ref()) } fn to_raw_vec(&self) -> $crate::Vec { <$public as $crate::RuntimePublic>::to_raw_vec(&self.0) } } impl From for $crate::CryptoTypePublicPair { fn from(key: Public) -> Self { (&key).into() } } impl From<&Public> for $crate::CryptoTypePublicPair { fn from(key: &Public) -> Self { $crate::CryptoTypePublicPair( $crypto_type, $crate::Public::to_raw_vec(key), ) } } impl<'a> $crate::TryFrom<&'a [u8]> for Public { type Error = (); fn try_from(data: &'a [u8]) -> Result { <$public>::try_from(data).map(Into::into) } } } } /// Implements traits for the public key type if `feature = "std"` is enabled. #[cfg(feature = "std")] #[doc(hidden)] #[macro_export] macro_rules! app_crypto_public_common_if_std { () => { impl $crate::Derive for Public { fn derive>(&self, path: Iter ) -> Option { self.0.derive(path).map(Self) } } impl std::fmt::Display for Public { fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result { use $crate::Ss58Codec; write!(f, "{}", self.0.to_ss58check()) } } impl $crate::serde::Serialize for Public { fn serialize(&self, serializer: S) -> std::result::Result where S: $crate::serde::Serializer { use $crate::Ss58Codec; serializer.serialize_str(&self.to_ss58check()) } } impl<'de> $crate::serde::Deserialize<'de> for Public { fn deserialize(deserializer: D) -> std::result::Result where D: $crate::serde::Deserializer<'de> { use $crate::Ss58Codec; Public::from_ss58check(&String::deserialize(deserializer)?) .map_err(|e| $crate::serde::de::Error::custom(format!("{:?}", e))) } } } } #[cfg(not(feature = "std"))] #[doc(hidden)] #[macro_export] macro_rules! app_crypto_public_common_if_std { () => { impl $crate::Derive for Public {} } } /// Declares Signature type which is functionally equivalent to `$sig`, but is new /// Application-specific type whose identifier is `$key_type`. /// can only be used together with `full_crypto` feature /// For full functionality, app_crypto_public_common! must be called too. #[doc(hidden)] #[macro_export] macro_rules! app_crypto_signature_full_crypto { ($sig:ty, $key_type:expr, $crypto_type:expr) => { $crate::wrap! { /// A generic `AppPublic` wrapper type over $public crypto; this has no specific App. #[derive(Clone, Default, Eq, PartialEq, $crate::codec::Encode, $crate::codec::Decode, $crate::RuntimeDebug, )] #[derive(Hash)] pub struct Signature($sig); } impl $crate::CryptoType for Signature { type Pair = Pair; } impl $crate::AppKey for Signature { type UntypedGeneric = $sig; type Public = Public; type Pair = Pair; type Signature = Signature; const ID: $crate::KeyTypeId = $key_type; const CRYPTO_ID: $crate::CryptoTypeId = $crypto_type; } } } /// Declares Signature type which is functionally equivalent to `$sig`, but is new /// Application-specific type whose identifier is `$key_type`. /// can only be used without `full_crypto` feature /// For full functionality, app_crypto_public_common! must be called too. #[doc(hidden)] #[macro_export] macro_rules! app_crypto_signature_not_full_crypto { ($sig:ty, $key_type:expr, $crypto_type:expr) => { $crate::wrap! { /// A generic `AppPublic` wrapper type over $public crypto; this has no specific App. #[derive(Clone, Default, Eq, PartialEq, $crate::codec::Encode, $crate::codec::Decode, $crate::RuntimeDebug, )] pub struct Signature($sig); } impl $crate::CryptoType for Signature {} impl $crate::AppKey for Signature { type UntypedGeneric = $sig; type Public = Public; type Signature = Signature; const ID: $crate::KeyTypeId = $key_type; const CRYPTO_ID: $crate::CryptoTypeId = $crypto_type; } } } /// Declares Signature type which is functionally equivalent to `$sig`, but is new /// Application-specific type whose identifier is `$key_type`. /// For full functionality, app_crypto_public_(not)_full_crypto! must be called too. #[doc(hidden)] #[macro_export] macro_rules! app_crypto_signature_common { ($sig:ty, $key_type:expr) => { impl $crate::Deref for Signature { type Target = [u8]; fn deref(&self) -> &Self::Target { self.0.as_ref() } } impl AsRef<[u8]> for Signature { fn as_ref(&self) -> &[u8] { self.0.as_ref() } } impl $crate::AppSignature for Signature { type Generic = $sig; } impl $crate::TryFrom<$crate::Vec> for Signature { type Error = (); fn try_from(data: $crate::Vec) -> Result { Ok(<$sig>::try_from(data.as_slice())?.into()) } } } } /// Implement bidirectional `From` and on-way `AsRef`/`AsMut` for two types, `$inner` and `$outer`. /// /// ```rust /// sp_application_crypto::wrap! { /// pub struct Wrapper(u32); /// } /// ``` #[macro_export] macro_rules! wrap { ($( #[ $attr:meta ] )* struct $outer:ident($inner:ty);) => { $( #[ $attr ] )* struct $outer( $inner ); $crate::wrap!($inner, $outer); }; ($( #[ $attr:meta ] )* pub struct $outer:ident($inner:ty);) => { $( #[ $attr ] )* pub struct $outer( $inner ); $crate::wrap!($inner, $outer); }; ($inner:ty, $outer:ty) => { impl $crate::Wraps for $outer { type Inner = $inner; } impl From<$inner> for $outer { fn from(inner: $inner) -> Self { Self(inner) } } impl From<$outer> for $inner { fn from(outer: $outer) -> Self { outer.0 } } impl AsRef<$inner> for $outer { fn as_ref(&self) -> &$inner { &self.0 } } impl AsMut<$inner> for $outer { fn as_mut(&mut self) -> &mut $inner { &mut self.0 } } } } /// Generate the given code if the pair type is available. /// /// The pair type is available when `feature = "std"` || `feature = "full_crypto"`. /// /// # Example /// /// ``` /// sp_application_crypto::with_pair! { /// pub type Pair = (); /// } /// ``` #[macro_export] #[cfg(any(feature = "std", feature = "full_crypto"))] macro_rules! with_pair { ( $( $def:tt )* ) => { $( $def )* } } #[doc(hidden)] #[macro_export] #[cfg(all(not(feature = "std"), not(feature = "full_crypto")))] macro_rules! with_pair { ( $( $def:tt )* ) => {} }