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pezkuwi-subxt/substrate/primitives/core/src/traits.rs
T
Rakan Alhneiti e17a23e907 Introduce sign_with method in keystore (#4925)
* Add KEY_KIND_ID to the public trait

This change is being introduced for the purpose of identifying a public
key with it's identifier and algorithm "kind".

* Use `sign_with` as implemented in BareCryptoStore

* Implement `sign_with` in sc_keystore

* Fix inconsistencies, use *_KIND_ID in sp_core testing

* Rename KeyKindId to CryptoTypeId

* Remove pair-returning functions from BareCryptoStore trait

* Define CryptoTypeId in app-crypto macros

* Add functions to get keys supported by keystore

* Fix sign_with signature to include CryptoTypePublicPair

* Add `sign_with_any` and `sign_with_all`

* Use keystore.sign_with in auth_discovery

* Rename get_supported_keys -> supported_keys

* Added headers to function docstrings

* Use chain instead of extending a temp vector

* Fixed some code formatting

* Restrict size of CryptoTypeId

This is to be able to use Encode/Decode derives and the overcome having
the size being unknown at compile-time.

* Implement sign_with in the trait itself

* Remove whitespace

* Use key_type also as a CryptoTypeId in app_crypto macros

* Rename `get_keys` to `keys` in BareCryptoStore

* Remove usage of key_pair funcs in tests

* Adjust docstring for *_CYPTO_ID constants

* Fix failures

* Simplify mapping on keys

* Remove one let

* Fixed typo

* PR feedback

* remove whitespace

* Zip keys and signatures

* Use into_iter & remove cloned

* Pass index to MissingSignature

* Use typed errors instead of strings for BareCryptoStore

* Implement Debug for trait error

* Use hashsets for better performance for supported_keys

* Make sure keys are inserted into the keystore

* Make sign_with_all return type consistent with `sign_with`

* Rename Error to BareCryptoStoreError

* Rename CRYPT_TYPE_ID -> CRYPTO_ID

* Remove unnecessary CRYPTO_ID declaration in Public trait

* Convert pub key to CryptoTypePublicPair

* Fix use

* Fix code style

* Implement From on CryptoTypePublicPair in app_crypto macros

* Change CryptoTypePublicPair to a struct

* Implement Display on CryptoTypePublicPair

* Pass CryptoTypePublicPair to MissingSignature error

* Adjust docs according to function signature

* Unify keys implementation

* Fix RPC author tests

* Fix stackoverflow

* Tabify spaces

* Pass KeyTypeId to error for easier debugging

* Fix asserts

* Use ToHex to format public key

* Use constants from sp_core

* Rename testing KeyTypeId constants

* Please compiler

* Restore KeyTypeId names

apparently, they're not only used in tests

* Use BareCryptoStoreError instead of String

* Document return value

* Fix borrow check

* Convert to hashset internally

* WIP - iter_keys

* Return raw_public_keys

* Address PR feedback

* Address PR Feedback

* Fix hexdisplay import error

* Update primitives/core/src/traits.rs

Co-authored-by: Bastian Köcher <bkchr@users.noreply.github.com>
2020-03-30 13:18:59 +02:00

315 lines
9.5 KiB
Rust

// Copyright 2019-2020 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Substrate is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Substrate. If not, see <http://www.gnu.org/licenses/>.
//! Shareable Substrate traits.
use crate::{
crypto::{KeyTypeId, CryptoTypePublicPair},
ed25519, sr25519,
};
use std::{
borrow::Cow,
fmt::{Debug, Display},
panic::UnwindSafe,
sync::Arc,
};
pub use sp_externalities::{Externalities, ExternalitiesExt};
/// BareCryptoStore error
#[derive(Debug)]
pub enum BareCryptoStoreError {
/// Public key type is not supported
KeyNotSupported(KeyTypeId),
/// Pair not found for public key and KeyTypeId
PairNotFound(String),
/// Validation error
ValidationError(String),
/// Keystore unavailable
Unavailable,
/// Programming errors
Other(String)
}
/// Something that generates, stores and provides access to keys.
pub trait BareCryptoStore: Send + Sync {
/// Returns all sr25519 public keys for the given key type.
fn sr25519_public_keys(&self, id: KeyTypeId) -> Vec<sr25519::Public>;
/// Generate a new sr25519 key pair for the given key type and an optional seed.
///
/// If the given seed is `Some(_)`, the key pair will only be stored in memory.
///
/// Returns the public key of the generated key pair.
fn sr25519_generate_new(
&mut self,
id: KeyTypeId,
seed: Option<&str>,
) -> Result<sr25519::Public, BareCryptoStoreError>;
/// Returns all ed25519 public keys for the given key type.
fn ed25519_public_keys(&self, id: KeyTypeId) -> Vec<ed25519::Public>;
/// Generate a new ed25519 key pair for the given key type and an optional seed.
///
/// If the given seed is `Some(_)`, the key pair will only be stored in memory.
///
/// Returns the public key of the generated key pair.
fn ed25519_generate_new(
&mut self,
id: KeyTypeId,
seed: Option<&str>,
) -> Result<ed25519::Public, BareCryptoStoreError>;
/// Insert a new key. This doesn't require any known of the crypto; but a public key must be
/// manually provided.
///
/// Places it into the file system store.
///
/// `Err` if there's some sort of weird filesystem error, but should generally be `Ok`.
fn insert_unknown(&mut self, _key_type: KeyTypeId, _suri: &str, _public: &[u8]) -> Result<(), ()>;
/// Get the password for this store.
fn password(&self) -> Option<&str>;
/// Find intersection between provided keys and supported keys
///
/// Provided a list of (CryptoTypeId,[u8]) pairs, this would return
/// a filtered set of public keys which are supported by the keystore.
fn supported_keys(
&self,
id: KeyTypeId,
keys: Vec<CryptoTypePublicPair>
) -> Result<Vec<CryptoTypePublicPair>, BareCryptoStoreError>;
/// List all supported keys
///
/// Returns a set of public keys the signer supports.
fn keys(&self, id: KeyTypeId) -> Result<Vec<CryptoTypePublicPair>, BareCryptoStoreError>;
/// 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;
/// Sign with key
///
/// Signs a message with the private key that matches
/// the public key passed.
///
/// Returns the SCALE encoded signature if key is found & supported,
/// an error otherwise.
fn sign_with(
&self,
id: KeyTypeId,
key: &CryptoTypePublicPair,
msg: &[u8],
) -> Result<Vec<u8>, BareCryptoStoreError>;
/// Sign with any key
///
/// Given a list of public keys, find the first supported key and
/// sign the provided message with that key.
///
/// Returns a tuple of the used key and the signature
fn sign_with_any(
&self,
id: KeyTypeId,
keys: Vec<CryptoTypePublicPair>,
msg: &[u8]
) -> Result<(CryptoTypePublicPair, Vec<u8>), BareCryptoStoreError> {
if keys.len() == 1 {
return self.sign_with(id, &keys[0], msg).map(|s| (keys[0].clone(), s));
} else {
for k in self.supported_keys(id, keys)? {
if let Ok(sign) = self.sign_with(id, &k, msg) {
return Ok((k, sign));
}
}
}
Err(BareCryptoStoreError::KeyNotSupported(id))
}
/// Sign with all keys
///
/// Provided a list of public keys, sign a message with
/// each key given that the key is supported.
///
/// Returns a list of `Result`s each representing the signature of each key or
/// a BareCryptoStoreError for non-supported keys.
fn sign_with_all(
&self,
id: KeyTypeId,
keys: Vec<CryptoTypePublicPair>,
msg: &[u8],
) -> Result<Vec<Result<Vec<u8>, BareCryptoStoreError>>, ()>{
Ok(keys.iter().map(|k| self.sign_with(id, k, msg)).collect())
}
}
/// A pointer to the key store.
pub type BareCryptoStorePtr = Arc<parking_lot::RwLock<dyn BareCryptoStore>>;
sp_externalities::decl_extension! {
/// The keystore extension to register/retrieve from the externalities.
pub struct KeystoreExt(BareCryptoStorePtr);
}
/// Code execution engine.
pub trait CodeExecutor: Sized + Send + Sync + CallInWasm + Clone + 'static {
/// Externalities error type.
type Error: Display + Debug + Send + 'static;
/// Call a given method in the runtime. Returns a tuple of the result (either the output data
/// or an execution error) together with a `bool`, which is true if native execution was used.
fn call<
R: codec::Codec + PartialEq,
NC: FnOnce() -> Result<R, String> + UnwindSafe,
>(
&self,
ext: &mut dyn Externalities,
runtime_code: &RuntimeCode,
method: &str,
data: &[u8],
use_native: bool,
native_call: Option<NC>,
) -> (Result<crate::NativeOrEncoded<R>, Self::Error>, bool);
}
/// Something that can fetch the runtime `:code`.
pub trait FetchRuntimeCode {
/// Fetch the runtime `:code`.
///
/// If the `:code` could not be found/not available, `None` should be returned.
fn fetch_runtime_code<'a>(&'a self) -> Option<Cow<'a, [u8]>>;
}
/// Wrapper to use a `u8` slice or `Vec` as [`FetchRuntimeCode`].
pub struct WrappedRuntimeCode<'a>(pub std::borrow::Cow<'a, [u8]>);
impl<'a> FetchRuntimeCode for WrappedRuntimeCode<'a> {
fn fetch_runtime_code<'b>(&'b self) -> Option<Cow<'b, [u8]>> {
Some(self.0.as_ref().into())
}
}
/// Type that implements [`FetchRuntimeCode`] and always returns `None`.
pub struct NoneFetchRuntimeCode;
impl FetchRuntimeCode for NoneFetchRuntimeCode {
fn fetch_runtime_code<'a>(&'a self) -> Option<Cow<'a, [u8]>> {
None
}
}
/// The Wasm code of a Substrate runtime.
#[derive(Clone)]
pub struct RuntimeCode<'a> {
/// The code fetcher that can be used to lazily fetch the code.
pub code_fetcher: &'a dyn FetchRuntimeCode,
/// The optional heap pages this `code` should be executed with.
///
/// If `None` are given, the default value of the executor will be used.
pub heap_pages: Option<u64>,
/// The SCALE encoded hash of `code`.
///
/// The hashing algorithm isn't that important, as long as all runtime
/// code instances use the same.
pub hash: Vec<u8>,
}
impl<'a> PartialEq for RuntimeCode<'a> {
fn eq(&self, other: &Self) -> bool {
self.hash == other.hash
}
}
impl<'a> RuntimeCode<'a> {
/// Create an empty instance.
///
/// This is only useful for tests that don't want to execute any code.
pub fn empty() -> Self {
Self {
code_fetcher: &NoneFetchRuntimeCode,
hash: Vec::new(),
heap_pages: None,
}
}
}
impl<'a> FetchRuntimeCode for RuntimeCode<'a> {
fn fetch_runtime_code<'b>(&'b self) -> Option<Cow<'b, [u8]>> {
self.code_fetcher.fetch_runtime_code()
}
}
/// Could not find the `:code` in the externalities while initializing the [`RuntimeCode`].
#[derive(Debug)]
pub struct CodeNotFound;
impl std::fmt::Display for CodeNotFound {
fn fmt(&self, f: &mut std::fmt::Formatter) -> Result<(), std::fmt::Error> {
write!(f, "the storage entry `:code` doesn't have any code")
}
}
/// Something that can call a method in a WASM blob.
pub trait CallInWasm: Send + Sync {
/// Call the given `method` in the given `wasm_blob` using `call_data` (SCALE encoded arguments)
/// to decode the arguments for the method.
///
/// Returns the SCALE encoded return value of the method.
///
/// # Note
///
/// If `code_hash` is `Some(_)` the `wasm_code` module and instance will be cached internally,
/// otherwise it is thrown away after the call.
fn call_in_wasm(
&self,
wasm_code: &[u8],
code_hash: Option<Vec<u8>>,
method: &str,
call_data: &[u8],
ext: &mut dyn Externalities,
) -> Result<Vec<u8>, String>;
}
sp_externalities::decl_extension! {
/// The call-in-wasm extension to register/retrieve from the externalities.
pub struct CallInWasmExt(Box<dyn CallInWasm>);
}
impl CallInWasmExt {
/// Creates a new instance of `Self`.
pub fn new<T: CallInWasm + 'static>(inner: T) -> Self {
Self(Box::new(inner))
}
}
/// Something that can spawn tasks and also can be cloned.
pub trait CloneableSpawn: futures::task::Spawn + Send + Sync {
/// Clone as heap-allocated handle.
fn clone(&self) -> Box<dyn CloneableSpawn>;
}
sp_externalities::decl_extension! {
/// Task executor extension.
pub struct TaskExecutorExt(Box<dyn CloneableSpawn>);
}
impl TaskExecutorExt {
/// New instance of task executor extension.
pub fn new(spawn_handle: Box<dyn CloneableSpawn>) -> Self {
Self(spawn_handle)
}
}