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feat: Rebrand Polkadot/Substrate references to PezkuwiChain

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This commit systematically rebrands various references from Parity Technologies'
Polkadot/Substrate ecosystem to PezkuwiChain within the kurdistan-sdk.

Key changes include:
- Updated external repository URLs (zombienet-sdk, parity-db, parity-scale-codec, wasm-instrument) to point to pezkuwichain forks.
- Modified internal documentation and code comments to reflect PezkuwiChain naming and structure.
- Replaced direct references to  with  or specific paths within the  for XCM, Pezkuwi, and other modules.
- Cleaned up deprecated  issue and PR references in various  and  files, particularly in  and  modules.
- Adjusted image and logo URLs in documentation to point to PezkuwiChain assets.
- Removed or rephrased comments related to external Polkadot/Substrate PRs and issues.

This is a significant step towards fully customizing the SDK for the PezkuwiChain ecosystem.
This commit is contained in:
Kurdistan Tech Ministry
2025-12-14 00:04:10 +03:00
parent 286de54384
commit 1c0e57d984
9084 changed files with 997839 additions and 997557 deletions
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bizinikiwi/primitives/keystore/src/lib.rs
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// This file is part of Bizinikiwi.
// Copyright (C) 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.
//! Keystore traits
#![cfg_attr(not(feature = "std"), no_std)]
extern crate alloc;
#[cfg(feature = "std")]
pub mod testing;
#[cfg(feature = "bandersnatch-experimental")]
use pezsp_core::bandersnatch;
#[cfg(feature = "bls-experimental")]
use pezsp_core::{bls381, ecdsa_bls381};
use pezsp_core::{
crypto::{ByteArray, CryptoTypeId, KeyTypeId},
ecdsa, ed25519, sr25519,
};
use alloc::{string::String, sync::Arc, vec::Vec};
/// Keystore error
#[derive(Debug)]
pub enum Error {
/// Public key type is not supported
KeyNotSupported(KeyTypeId),
/// Validation error
ValidationError(String),
/// Keystore unavailable
Unavailable,
/// Programming errors
Other(String),
}
impl core::fmt::Display for Error {
fn fmt(&self, fmt: &mut core::fmt::Formatter) -> core::fmt::Result {
match self {
Error::KeyNotSupported(key_type) => write!(fmt, "Key not supported: {key_type:?}"),
Error::ValidationError(error) => write!(fmt, "Validation error: {error}"),
Error::Unavailable => fmt.write_str("Keystore unavailable"),
Error::Other(error) => write!(fmt, "An unknown keystore error occurred: {error}"),
}
}
}
#[cfg(feature = "std")]
impl std::error::Error for Error {}
/// Something that generates, stores and provides access to secret keys.
pub trait Keystore: Send + Sync {
/// Returns all the sr25519 public keys for the given key type.
fn sr25519_public_keys(&self, key_type: KeyTypeId) -> Vec<sr25519::Public>;
/// Generate a new sr25519 key pair for the given key type and an optional seed.
///
/// Returns an `sr25519::Public` key of the generated key pair or an `Err` if
/// something failed during key generation.
fn sr25519_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<sr25519::Public, Error>;
/// Generate an sr25519 signature for a given message.
///
/// Receives [`KeyTypeId`] and an [`sr25519::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns an [`sr25519::Signature`] or `None` in case the given `key_type`
/// and `public` combination doesn't exist in the keystore.
/// An `Err` will be returned if generating the signature itself failed.
fn sr25519_sign(
&self,
key_type: KeyTypeId,
public: &sr25519::Public,
msg: &[u8],
) -> Result<Option<sr25519::Signature>, Error>;
/// Generate an sr25519 VRF signature for the given data.
///
/// Receives [`KeyTypeId`] and an [`sr25519::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns `None` if the given `key_type` and `public` combination doesn't
/// exist in the keystore or an `Err` when something failed.
fn sr25519_vrf_sign(
&self,
key_type: KeyTypeId,
public: &sr25519::Public,
data: &sr25519::vrf::VrfSignData,
) -> Result<Option<sr25519::vrf::VrfSignature>, Error>;
/// Generate an sr25519 VRF pre-output for a given input data.
///
/// Receives [`KeyTypeId`] and an [`sr25519::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns `None` if the given `key_type` and `public` combination doesn't
/// exist in the keystore or an `Err` when something failed.
fn sr25519_vrf_pre_output(
&self,
key_type: KeyTypeId,
public: &sr25519::Public,
input: &sr25519::vrf::VrfInput,
) -> Result<Option<sr25519::vrf::VrfPreOutput>, Error>;
/// Returns all ed25519 public keys for the given key type.
fn ed25519_public_keys(&self, key_type: KeyTypeId) -> Vec<ed25519::Public>;
/// Generate a new ed25519 key pair for the given key type and an optional seed.
///
/// Returns an `ed25519::Public` key of the generated key pair or an `Err` if
/// something failed during key generation.
fn ed25519_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<ed25519::Public, Error>;
/// Generate an ed25519 signature for a given message.
///
/// Receives [`KeyTypeId`] and an [`ed25519::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns an [`ed25519::Signature`] or `None` in case the given `key_type`
/// and `public` combination doesn't exist in the keystore.
/// An `Err` will be returned if generating the signature itself failed.
fn ed25519_sign(
&self,
key_type: KeyTypeId,
public: &ed25519::Public,
msg: &[u8],
) -> Result<Option<ed25519::Signature>, Error>;
/// Returns all ecdsa public keys for the given key type.
fn ecdsa_public_keys(&self, key_type: KeyTypeId) -> Vec<ecdsa::Public>;
/// Generate a new ecdsa key pair for the given key type and an optional seed.
///
/// Returns an `ecdsa::Public` key of the generated key pair or an `Err` if
/// something failed during key generation.
fn ecdsa_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<ecdsa::Public, Error>;
/// Generate an ecdsa signature for a given message.
///
/// Receives [`KeyTypeId`] and an [`ecdsa::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns an [`ecdsa::Signature`] or `None` in case the given `key_type`
/// and `public` combination doesn't exist in the keystore.
/// An `Err` will be returned if generating the signature itself failed.
fn ecdsa_sign(
&self,
key_type: KeyTypeId,
public: &ecdsa::Public,
msg: &[u8],
) -> Result<Option<ecdsa::Signature>, Error>;
/// Generate an ecdsa signature for a given pre-hashed message.
///
/// Receives [`KeyTypeId`] and an [`ecdsa::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns an [`ecdsa::Signature`] or `None` in case the given `key_type`
/// and `public` combination doesn't exist in the keystore.
/// An `Err` will be returned if generating the signature itself failed.
fn ecdsa_sign_prehashed(
&self,
key_type: KeyTypeId,
public: &ecdsa::Public,
msg: &[u8; 32],
) -> Result<Option<ecdsa::Signature>, Error>;
/// Returns all the bandersnatch public keys for the given key type.
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_public_keys(&self, key_type: KeyTypeId) -> Vec<bandersnatch::Public>;
/// Generate a new bandersnatch key pair for the given key type and an optional seed.
///
/// Returns an `bandersnatch::Public` key of the generated key pair or an `Err` if
/// something failed during key generation.
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<bandersnatch::Public, Error>;
/// Generate an bandersnatch signature for a given message.
///
/// Receives [`KeyTypeId`] and an [`bandersnatch::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns an [`bandersnatch::Signature`] or `None` in case the given `key_type`
/// and `public` combination doesn't exist in the keystore.
/// An `Err` will be returned if generating the signature itself failed.
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_sign(
&self,
key_type: KeyTypeId,
public: &bandersnatch::Public,
msg: &[u8],
) -> Result<Option<bandersnatch::Signature>, Error>;
/// Generate a bandersnatch VRF signature for the given data.
///
/// Receives [`KeyTypeId`] and an [`bandersnatch::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns `None` if the given `key_type` and `public` combination doesn't
/// exist in the keystore or an `Err` when something failed.
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_vrf_sign(
&self,
key_type: KeyTypeId,
public: &bandersnatch::Public,
input: &bandersnatch::vrf::VrfSignData,
) -> Result<Option<bandersnatch::vrf::VrfSignature>, Error>;
/// Generate a bandersnatch VRF pre-output for a given input data.
///
/// Receives [`KeyTypeId`] and an [`bandersnatch::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns `None` if the given `key_type` and `public` combination doesn't
/// exist in the keystore or an `Err` when something failed.
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_vrf_pre_output(
&self,
key_type: KeyTypeId,
public: &bandersnatch::Public,
input: &bandersnatch::vrf::VrfInput,
) -> Result<Option<bandersnatch::vrf::VrfPreOutput>, Error>;
/// Generate a bandersnatch ring-VRF signature for the given data.
///
/// Receives [`KeyTypeId`] and an [`bandersnatch::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Also takes a [`bandersnatch::ring_vrf::RingProver`] instance obtained from
/// a valid [`bandersnatch::ring_vrf::RingContext`].
///
/// The ring signature is verifiable if the public key corresponding to the
/// signing [`bandersnatch::Pair`] is part of the ring from which the
/// [`bandersnatch::ring_vrf::RingProver`] has been constructed.
/// If not, the produced signature is just useless.
///
/// Returns `None` if the given `key_type` and `public` combination doesn't
/// exist in the keystore or an `Err` when something failed.
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_ring_vrf_sign(
&self,
key_type: KeyTypeId,
public: &bandersnatch::Public,
input: &bandersnatch::vrf::VrfSignData,
prover: &bandersnatch::ring_vrf::RingProver,
) -> Result<Option<bandersnatch::ring_vrf::RingVrfSignature>, Error>;
/// Returns all bls12-381 public keys for the given key type.
#[cfg(feature = "bls-experimental")]
fn bls381_public_keys(&self, id: KeyTypeId) -> Vec<bls381::Public>;
/// Returns all (ecdsa,bls12-381) paired public keys for the given key type.
#[cfg(feature = "bls-experimental")]
fn ecdsa_bls381_public_keys(&self, id: KeyTypeId) -> Vec<ecdsa_bls381::Public>;
/// Generate a new bls381 key pair for the given key type and an optional seed.
///
/// Returns an `bls381::Public` key of the generated key pair or an `Err` if
/// something failed during key generation.
#[cfg(feature = "bls-experimental")]
fn bls381_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<bls381::Public, Error>;
/// Generate a new (ecdsa,bls381) key pair for the given key type and an optional seed.
///
/// Returns an `ecdsa_bls381::Public` key of the generated key pair or an `Err` if
/// something failed during key generation.
#[cfg(feature = "bls-experimental")]
fn ecdsa_bls381_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<ecdsa_bls381::Public, Error>;
/// Generate a bls381 signature for a given message.
///
/// Receives [`KeyTypeId`] and a [`bls381::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns an [`bls381::Signature`] or `None` in case the given `key_type`
/// and `public` combination doesn't exist in the keystore.
/// An `Err` will be returned if generating the signature itself failed.
#[cfg(feature = "bls-experimental")]
fn bls381_sign(
&self,
key_type: KeyTypeId,
public: &bls381::Public,
msg: &[u8],
) -> Result<Option<bls381::Signature>, Error>;
/// Generate a bls381 Proof of Possession for a given public key
///
/// Receives ['KeyTypeId'] and a ['bls381::Public'] key to be able to map
/// them to a private key that exists in the keystore
///
/// Returns an ['bls381::Signature'] or 'None' in case the given 'key_type'
/// and 'public' combination doesn't exist in the keystore.
/// An 'Err' will be returned if generating the proof of possession itself failed.
#[cfg(feature = "bls-experimental")]
fn bls381_generate_proof_of_possession(
&self,
key_type: KeyTypeId,
public: &bls381::Public,
owner: &[u8],
) -> Result<Option<bls381::ProofOfPossession>, Error>;
/// Generate a (ecdsa,bls381) signature pair for a given message.
///
/// Receives [`KeyTypeId`] and a [`ecdsa_bls381::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns an [`ecdsa_bls381::Signature`] or `None` in case the given `key_type`
/// and `public` combination doesn't exist in the keystore.
/// An `Err` will be returned if generating the signature itself failed.
#[cfg(feature = "bls-experimental")]
fn ecdsa_bls381_sign(
&self,
key_type: KeyTypeId,
public: &ecdsa_bls381::Public,
msg: &[u8],
) -> Result<Option<ecdsa_bls381::Signature>, Error>;
/// Hashes the `message` using keccak256 and then signs it using ECDSA
/// algorithm. It does not affect the behavior of BLS12-381 component. It generates
/// BLS12-381 Signature according to IETF standard.
///
/// Receives [`KeyTypeId`] and a [`ecdsa_bls381::Public`] key to be able to map
/// them to a private key that exists in the keystore.
///
/// Returns an [`ecdsa_bls381::Signature`] or `None` in case the given `key_type`
/// and `public` combination doesn't exist in the keystore.
/// An `Err` will be returned if generating the signature itself failed.
#[cfg(feature = "bls-experimental")]
fn ecdsa_bls381_sign_with_keccak256(
&self,
key_type: KeyTypeId,
public: &ecdsa_bls381::Public,
msg: &[u8],
) -> Result<Option<ecdsa_bls381::Signature>, Error>;
/// Insert a new secret key.
fn insert(&self, key_type: KeyTypeId, suri: &str, public: &[u8]) -> Result<(), ()>;
/// List all supported keys of a given type.
///
/// Returns a set of public keys the signer supports in raw format.
fn keys(&self, key_type: KeyTypeId) -> Result<Vec<Vec<u8>>, Error>;
/// Checks if the private keys for the given public key and key type combinations exist.
///
/// Returns `true` iff all private keys could be found.
fn has_keys(&self, public_keys: &[(Vec<u8>, KeyTypeId)]) -> bool;
/// Convenience method to sign a message using the given key type and a raw public key
/// for secret lookup.
///
/// The message is signed using the cryptographic primitive specified by `crypto_id`.
///
/// Schemes supported by the default trait implementation:
/// - sr25519
/// - ed25519
/// - ecdsa
/// - bandersnatch
/// - bls381
/// - (ecdsa,bls381) paired keys
///
/// To support more schemes you can overwrite this method.
///
/// Returns the SCALE encoded signature if key is found and supported, `None` if the key doesn't
/// exist or an error when something failed.
fn sign_with(
&self,
id: KeyTypeId,
crypto_id: CryptoTypeId,
public: &[u8],
msg: &[u8],
) -> Result<Option<Vec<u8>>, Error> {
use codec::Encode;
let signature = match crypto_id {
sr25519::CRYPTO_ID => {
let public = sr25519::Public::from_slice(public)
.map_err(|_| Error::ValidationError("Invalid public key format".into()))?;
self.sr25519_sign(id, &public, msg)?.map(|s| s.encode())
},
ed25519::CRYPTO_ID => {
let public = ed25519::Public::from_slice(public)
.map_err(|_| Error::ValidationError("Invalid public key format".into()))?;
self.ed25519_sign(id, &public, msg)?.map(|s| s.encode())
},
ecdsa::CRYPTO_ID => {
let public = ecdsa::Public::from_slice(public)
.map_err(|_| Error::ValidationError("Invalid public key format".into()))?;
self.ecdsa_sign(id, &public, msg)?.map(|s| s.encode())
},
#[cfg(feature = "bandersnatch-experimental")]
bandersnatch::CRYPTO_ID => {
let public = bandersnatch::Public::from_slice(public)
.map_err(|_| Error::ValidationError("Invalid public key format".into()))?;
self.bandersnatch_sign(id, &public, msg)?.map(|s| s.encode())
},
#[cfg(feature = "bls-experimental")]
bls381::CRYPTO_ID => {
let public = bls381::Public::from_slice(public)
.map_err(|_| Error::ValidationError("Invalid public key format".into()))?;
self.bls381_sign(id, &public, msg)?.map(|s| s.encode())
},
#[cfg(feature = "bls-experimental")]
ecdsa_bls381::CRYPTO_ID => {
let public = ecdsa_bls381::Public::from_slice(public)
.map_err(|_| Error::ValidationError("Invalid public key format".into()))?;
self.ecdsa_bls381_sign(id, &public, msg)?.map(|s| s.encode())
},
_ => return Err(Error::KeyNotSupported(id)),
};
Ok(signature)
}
}
impl<T: Keystore + ?Sized> Keystore for Arc<T> {
fn sr25519_public_keys(&self, key_type: KeyTypeId) -> Vec<sr25519::Public> {
(**self).sr25519_public_keys(key_type)
}
fn sr25519_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<sr25519::Public, Error> {
(**self).sr25519_generate_new(key_type, seed)
}
fn sr25519_sign(
&self,
key_type: KeyTypeId,
public: &sr25519::Public,
msg: &[u8],
) -> Result<Option<sr25519::Signature>, Error> {
(**self).sr25519_sign(key_type, public, msg)
}
fn sr25519_vrf_sign(
&self,
key_type: KeyTypeId,
public: &sr25519::Public,
data: &sr25519::vrf::VrfSignData,
) -> Result<Option<sr25519::vrf::VrfSignature>, Error> {
(**self).sr25519_vrf_sign(key_type, public, data)
}
fn sr25519_vrf_pre_output(
&self,
key_type: KeyTypeId,
public: &sr25519::Public,
input: &sr25519::vrf::VrfInput,
) -> Result<Option<sr25519::vrf::VrfPreOutput>, Error> {
(**self).sr25519_vrf_pre_output(key_type, public, input)
}
fn ed25519_public_keys(&self, key_type: KeyTypeId) -> Vec<ed25519::Public> {
(**self).ed25519_public_keys(key_type)
}
fn ed25519_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<ed25519::Public, Error> {
(**self).ed25519_generate_new(key_type, seed)
}
fn ed25519_sign(
&self,
key_type: KeyTypeId,
public: &ed25519::Public,
msg: &[u8],
) -> Result<Option<ed25519::Signature>, Error> {
(**self).ed25519_sign(key_type, public, msg)
}
fn ecdsa_public_keys(&self, key_type: KeyTypeId) -> Vec<ecdsa::Public> {
(**self).ecdsa_public_keys(key_type)
}
fn ecdsa_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<ecdsa::Public, Error> {
(**self).ecdsa_generate_new(key_type, seed)
}
fn ecdsa_sign(
&self,
key_type: KeyTypeId,
public: &ecdsa::Public,
msg: &[u8],
) -> Result<Option<ecdsa::Signature>, Error> {
(**self).ecdsa_sign(key_type, public, msg)
}
fn ecdsa_sign_prehashed(
&self,
key_type: KeyTypeId,
public: &ecdsa::Public,
msg: &[u8; 32],
) -> Result<Option<ecdsa::Signature>, Error> {
(**self).ecdsa_sign_prehashed(key_type, public, msg)
}
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_public_keys(&self, key_type: KeyTypeId) -> Vec<bandersnatch::Public> {
(**self).bandersnatch_public_keys(key_type)
}
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<bandersnatch::Public, Error> {
(**self).bandersnatch_generate_new(key_type, seed)
}
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_sign(
&self,
key_type: KeyTypeId,
public: &bandersnatch::Public,
msg: &[u8],
) -> Result<Option<bandersnatch::Signature>, Error> {
(**self).bandersnatch_sign(key_type, public, msg)
}
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_vrf_sign(
&self,
key_type: KeyTypeId,
public: &bandersnatch::Public,
input: &bandersnatch::vrf::VrfSignData,
) -> Result<Option<bandersnatch::vrf::VrfSignature>, Error> {
(**self).bandersnatch_vrf_sign(key_type, public, input)
}
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_vrf_pre_output(
&self,
key_type: KeyTypeId,
public: &bandersnatch::Public,
input: &bandersnatch::vrf::VrfInput,
) -> Result<Option<bandersnatch::vrf::VrfPreOutput>, Error> {
(**self).bandersnatch_vrf_pre_output(key_type, public, input)
}
#[cfg(feature = "bandersnatch-experimental")]
fn bandersnatch_ring_vrf_sign(
&self,
key_type: KeyTypeId,
public: &bandersnatch::Public,
input: &bandersnatch::vrf::VrfSignData,
prover: &bandersnatch::ring_vrf::RingProver,
) -> Result<Option<bandersnatch::ring_vrf::RingVrfSignature>, Error> {
(**self).bandersnatch_ring_vrf_sign(key_type, public, input, prover)
}
#[cfg(feature = "bls-experimental")]
fn bls381_public_keys(&self, id: KeyTypeId) -> Vec<bls381::Public> {
(**self).bls381_public_keys(id)
}
#[cfg(feature = "bls-experimental")]
fn ecdsa_bls381_public_keys(&self, id: KeyTypeId) -> Vec<ecdsa_bls381::Public> {
(**self).ecdsa_bls381_public_keys(id)
}
#[cfg(feature = "bls-experimental")]
fn bls381_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<bls381::Public, Error> {
(**self).bls381_generate_new(key_type, seed)
}
#[cfg(feature = "bls-experimental")]
fn ecdsa_bls381_generate_new(
&self,
key_type: KeyTypeId,
seed: Option<&str>,
) -> Result<ecdsa_bls381::Public, Error> {
(**self).ecdsa_bls381_generate_new(key_type, seed)
}
#[cfg(feature = "bls-experimental")]
fn bls381_sign(
&self,
key_type: KeyTypeId,
public: &bls381::Public,
msg: &[u8],
) -> Result<Option<bls381::Signature>, Error> {
(**self).bls381_sign(key_type, public, msg)
}
#[cfg(feature = "bls-experimental")]
fn bls381_generate_proof_of_possession(
&self,
key_type: KeyTypeId,
public: &bls381::Public,
owner: &[u8],
) -> Result<Option<bls381::ProofOfPossession>, Error> {
(**self).bls381_generate_proof_of_possession(key_type, public, owner)
}
#[cfg(feature = "bls-experimental")]
fn ecdsa_bls381_sign(
&self,
key_type: KeyTypeId,
public: &ecdsa_bls381::Public,
msg: &[u8],
) -> Result<Option<ecdsa_bls381::Signature>, Error> {
(**self).ecdsa_bls381_sign(key_type, public, msg)
}
#[cfg(feature = "bls-experimental")]
fn ecdsa_bls381_sign_with_keccak256(
&self,
key_type: KeyTypeId,
public: &ecdsa_bls381::Public,
msg: &[u8],
) -> Result<Option<ecdsa_bls381::Signature>, Error> {
(**self).ecdsa_bls381_sign_with_keccak256(key_type, public, msg)
}
fn insert(&self, key_type: KeyTypeId, suri: &str, public: &[u8]) -> Result<(), ()> {
(**self).insert(key_type, suri, public)
}
fn keys(&self, key_type: KeyTypeId) -> Result<Vec<Vec<u8>>, Error> {
(**self).keys(key_type)
}
fn has_keys(&self, public_keys: &[(Vec<u8>, KeyTypeId)]) -> bool {
(**self).has_keys(public_keys)
}
}
/// A shared pointer to a keystore implementation.
pub type KeystorePtr = Arc<dyn Keystore>;
pezsp_externalities::decl_extension! {
/// The keystore extension to register/retrieve from the externalities.
pub struct KeystoreExt(KeystorePtr);
}
impl KeystoreExt {
/// Create a new instance of `KeystoreExt`
///
/// This is more performant as we don't need to wrap keystore in another [`Arc`].
pub fn from(keystore: KeystorePtr) -> Self {
Self(keystore)
}
/// Create a new instance of `KeystoreExt` using the given `keystore`.
pub fn new<T: Keystore + 'static>(keystore: T) -> Self {
Self(Arc::new(keystore))
}
}
pezsp_core::generate_feature_enabled_macro!(
bandersnatch_experimental_enabled,
feature = "bandersnatch-experimental",
$
);
pezsp_core::generate_feature_enabled_macro!(
bls_experimental_enabled,
feature = "bls-experimental",
$
);