Files
pezkuwi-subxt/substrate/client/consensus/pow/src/lib.rs
T
Bastian Köcher 2675741a09 Rework inherent data client side (#8526)
* Lol

* Yeah

* Moare

* adaasda

* Convert AURA to new pallet macro

* AURA: Switch to `CurrentSlot` instead of `LastTimestamp`

This switches AURA to use `CurrentSlot` instead of `LastTimestamp`.

* Add missing file

* Update frame/aura/src/migrations.rs

Co-authored-by: André Silva <123550+andresilva@users.noreply.github.com>

* Remove the runtime side provide inherent code

* Use correct weight

* Add TODO

* Remove the Inherent from AURA

* 🤦

* Remove unused stuff

* Update primitives authorship

* Fix babe inherent data provider

* Fix consensus-uncles

* Fix BABE

* Do some further changes to authorship primitives... :D

* More work

* Make it compile the happy path

* Make it async!

* Take hash

* More stuff

* Hacks

* Revert "Hacks"

This reverts commit cfffad88668cfdebf632a59c4fbfada001ef8251.

* Fix

* Make `execute_block` return the final block header

* Move Aura digest stuff

* Make it possible to disable equivocation checking

* Fix fix fix

* Some refactorings

* Comment

* Fixes fixes fixes

* More cleanups

* Some love

* Better love

* Make slot duration being exposed as `Duration` to the outside

* Some slot info love

* Add `build_aura_worker` utility function

* Copy copy copy

* Some stuff

* Start fixing pow

* Fix pow

* Remove some bounds

* More work

* Make grandpa work

* Make slots use `async_trait`

* Introduce `SharedData`

* Add test and fix bugs

* Switch to `SharedData`

* Make grandpa tests working

* More Babe work

* Make grandpa work

* Introduce `SharedData`

* Add test and fix bugs

* Switch to `SharedData`

* Make grandpa tests working

* More Babe work

* Make it async

* Fix fix

* Use `async_trait` in sc-consensus-slots

This makes the code a little bit easier to read and also expresses that
there can always only be one call at a time to `on_slot`.

* Make grandpa tests compile

* More Babe tests work

* Fix network test

* Start fixing service test

* Finish service-test

* Fix sc-consensus-aura

* Fix fix fix

* More fixes

* Make everything compile *yeah*

* Make manual-seal compile

* More fixes

* Start fixing Aura

* Fix Aura tests

* Fix Babe tests

* Make everything compile

* Move code around and switch to async_trait

* Fix Babe

* Docs docs docs

* Move to FRAME

* Fix fix fix

* Make everything compile

* Last cleanups

* Fix integration test

* Change slot usage of the timestamp

* We really need to switch to `impl-trait-for-tuples`

* Update primitives/inherents/src/lib.rs

Co-authored-by: André Silva <123550+andresilva@users.noreply.github.com>

* Update primitives/inherents/src/lib.rs

Co-authored-by: André Silva <123550+andresilva@users.noreply.github.com>

* Update primitives/inherents/src/lib.rs

Co-authored-by: André Silva <123550+andresilva@users.noreply.github.com>

* Some extra logging

* Remove dbg!

* Update primitives/consensus/common/src/import_queue/basic_queue.rs

Co-authored-by: André Silva <123550+andresilva@users.noreply.github.com>

Co-authored-by: André Silva <123550+andresilva@users.noreply.github.com>
2021-05-03 14:39:25 +00:00

731 lines
21 KiB
Rust

// This file is part of Substrate.
// Copyright (C) 2017-2021 Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: GPL-3.0-or-later WITH Classpath-exception-2.0
// This program 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.
// This program 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 this program. If not, see <https://www.gnu.org/licenses/>.
//! Proof of work consensus for Substrate.
//!
//! To use this engine, you can need to have a struct that implements
//! `PowAlgorithm`. After that, pass an instance of the struct, along
//! with other necessary client references to `import_queue` to setup
//! the queue. Use the `start_mine` function for basic CPU mining.
//!
//! The auxiliary storage for PoW engine only stores the total difficulty.
//! For other storage requirements for particular PoW algorithm (such as
//! the actual difficulty for each particular blocks), you can take a client
//! reference in your `PowAlgorithm` implementation, and use a separate prefix
//! for the auxiliary storage. It is also possible to just use the runtime
//! as the storage, but it is not recommended as it won't work well with light
//! clients.
mod worker;
pub use crate::worker::{MiningWorker, MiningMetadata, MiningBuild};
use std::{
sync::Arc, borrow::Cow, collections::HashMap, marker::PhantomData,
cmp::Ordering, time::Duration,
};
use futures::{Future, StreamExt};
use parking_lot::Mutex;
use sc_client_api::{BlockOf, backend::AuxStore, BlockchainEvents};
use sp_blockchain::{HeaderBackend, ProvideCache, well_known_cache_keys::Id as CacheKeyId};
use sp_block_builder::BlockBuilder as BlockBuilderApi;
use sp_runtime::{Justifications, RuntimeString};
use sp_runtime::generic::{BlockId, Digest, DigestItem};
use sp_runtime::traits::{Block as BlockT, Header as HeaderT};
use sp_api::ProvideRuntimeApi;
use sp_consensus_pow::{Seal, TotalDifficulty, POW_ENGINE_ID};
use sp_inherents::{CreateInherentDataProviders, InherentDataProvider};
use sp_consensus::{
BlockImportParams, BlockOrigin, ForkChoiceStrategy, SyncOracle, Environment, Proposer,
SelectChain, Error as ConsensusError, CanAuthorWith, BlockImport, BlockCheckParams, ImportResult,
};
use sp_consensus::import_queue::{
BoxBlockImport, BasicQueue, Verifier, BoxJustificationImport,
};
use codec::{Encode, Decode};
use prometheus_endpoint::Registry;
use sc_client_api;
use log::*;
use crate::worker::UntilImportedOrTimeout;
#[derive(derive_more::Display, Debug)]
pub enum Error<B: BlockT> {
#[display(fmt = "Header uses the wrong engine {:?}", _0)]
WrongEngine([u8; 4]),
#[display(fmt = "Header {:?} is unsealed", _0)]
HeaderUnsealed(B::Hash),
#[display(fmt = "PoW validation error: invalid seal")]
InvalidSeal,
#[display(fmt = "PoW validation error: preliminary verification failed")]
FailedPreliminaryVerify,
#[display(fmt = "Rejecting block too far in future")]
TooFarInFuture,
#[display(fmt = "Fetching best header failed using select chain: {:?}", _0)]
BestHeaderSelectChain(ConsensusError),
#[display(fmt = "Fetching best header failed: {:?}", _0)]
BestHeader(sp_blockchain::Error),
#[display(fmt = "Best header does not exist")]
NoBestHeader,
#[display(fmt = "Block proposing error: {:?}", _0)]
BlockProposingError(String),
#[display(fmt = "Fetch best hash failed via select chain: {:?}", _0)]
BestHashSelectChain(ConsensusError),
#[display(fmt = "Error with block built on {:?}: {:?}", _0, _1)]
BlockBuiltError(B::Hash, ConsensusError),
#[display(fmt = "Creating inherents failed: {}", _0)]
CreateInherents(sp_inherents::Error),
#[display(fmt = "Checking inherents failed: {}", _0)]
CheckInherents(sp_inherents::Error),
#[display(
fmt = "Checking inherents unknown error for identifier: {:?}",
"String::from_utf8_lossy(_0)",
)]
CheckInherentsUnknownError(sp_inherents::InherentIdentifier),
#[display(fmt = "Multiple pre-runtime digests")]
MultiplePreRuntimeDigests,
Client(sp_blockchain::Error),
Codec(codec::Error),
Environment(String),
Runtime(RuntimeString),
Other(String),
}
impl<B: BlockT> std::convert::From<Error<B>> for String {
fn from(error: Error<B>) -> String {
error.to_string()
}
}
impl<B: BlockT> std::convert::From<Error<B>> for ConsensusError {
fn from(error: Error<B>) -> ConsensusError {
ConsensusError::ClientImport(error.to_string())
}
}
/// Auxiliary storage prefix for PoW engine.
pub const POW_AUX_PREFIX: [u8; 4] = *b"PoW:";
/// Get the auxiliary storage key used by engine to store total difficulty.
fn aux_key<T: AsRef<[u8]>>(hash: &T) -> Vec<u8> {
POW_AUX_PREFIX.iter().chain(hash.as_ref()).copied().collect()
}
/// Intermediate value passed to block importer.
#[derive(Encode, Decode, Clone, Debug, Default)]
pub struct PowIntermediate<Difficulty> {
/// Difficulty of the block, if known.
pub difficulty: Option<Difficulty>,
}
/// Intermediate key for PoW engine.
pub static INTERMEDIATE_KEY: &[u8] = b"pow1";
/// Auxiliary storage data for PoW.
#[derive(Encode, Decode, Clone, Debug, Default)]
pub struct PowAux<Difficulty> {
/// Difficulty of the current block.
pub difficulty: Difficulty,
/// Total difficulty up to current block.
pub total_difficulty: Difficulty,
}
impl<Difficulty> PowAux<Difficulty> where
Difficulty: Decode + Default,
{
/// Read the auxiliary from client.
pub fn read<C: AuxStore, B: BlockT>(client: &C, hash: &B::Hash) -> Result<Self, Error<B>> {
let key = aux_key(&hash);
match client.get_aux(&key).map_err(Error::Client)? {
Some(bytes) => Self::decode(&mut &bytes[..]).map_err(Error::Codec),
None => Ok(Self::default()),
}
}
}
/// Algorithm used for proof of work.
pub trait PowAlgorithm<B: BlockT> {
/// Difficulty for the algorithm.
type Difficulty: TotalDifficulty + Default + Encode + Decode + Ord + Clone + Copy;
/// Get the next block's difficulty.
///
/// This function will be called twice during the import process, so the implementation
/// should be properly cached.
fn difficulty(&self, parent: B::Hash) -> Result<Self::Difficulty, Error<B>>;
/// Verify that the seal is valid against given pre hash when parent block is not yet imported.
///
/// None means that preliminary verify is not available for this algorithm.
fn preliminary_verify(
&self,
_pre_hash: &B::Hash,
_seal: &Seal,
) -> Result<Option<bool>, Error<B>> {
Ok(None)
}
/// Break a fork choice tie.
///
/// By default this chooses the earliest block seen. Using uniform tie
/// breaking algorithms will help to protect against selfish mining.
///
/// Returns if the new seal should be considered best block.
fn break_tie(
&self,
_own_seal: &Seal,
_new_seal: &Seal,
) -> bool {
false
}
/// Verify that the difficulty is valid against given seal.
fn verify(
&self,
parent: &BlockId<B>,
pre_hash: &B::Hash,
pre_digest: Option<&[u8]>,
seal: &Seal,
difficulty: Self::Difficulty,
) -> Result<bool, Error<B>>;
}
/// A block importer for PoW.
pub struct PowBlockImport<B: BlockT, I, C, S, Algorithm, CAW, CIDP> {
algorithm: Algorithm,
inner: I,
select_chain: S,
client: Arc<C>,
create_inherent_data_providers: Arc<CIDP>,
check_inherents_after: <<B as BlockT>::Header as HeaderT>::Number,
can_author_with: CAW,
}
impl<B: BlockT, I: Clone, C, S: Clone, Algorithm: Clone, CAW: Clone, CIDP> Clone
for PowBlockImport<B, I, C, S, Algorithm, CAW, CIDP>
{
fn clone(&self) -> Self {
Self {
algorithm: self.algorithm.clone(),
inner: self.inner.clone(),
select_chain: self.select_chain.clone(),
client: self.client.clone(),
create_inherent_data_providers: self.create_inherent_data_providers.clone(),
check_inherents_after: self.check_inherents_after.clone(),
can_author_with: self.can_author_with.clone(),
}
}
}
impl<B, I, C, S, Algorithm, CAW, CIDP> PowBlockImport<B, I, C, S, Algorithm, CAW, CIDP> where
B: BlockT,
I: BlockImport<B, Transaction = sp_api::TransactionFor<C, B>> + Send + Sync,
I::Error: Into<ConsensusError>,
C: ProvideRuntimeApi<B> + Send + Sync + HeaderBackend<B> + AuxStore + ProvideCache<B> + BlockOf,
C::Api: BlockBuilderApi<B>,
Algorithm: PowAlgorithm<B>,
CAW: CanAuthorWith<B>,
CIDP: CreateInherentDataProviders<B, ()>,
{
/// Create a new block import suitable to be used in PoW
pub fn new(
inner: I,
client: Arc<C>,
algorithm: Algorithm,
check_inherents_after: <<B as BlockT>::Header as HeaderT>::Number,
select_chain: S,
create_inherent_data_providers: CIDP,
can_author_with: CAW,
) -> Self {
Self {
inner,
client,
algorithm,
check_inherents_after,
select_chain,
create_inherent_data_providers: Arc::new(create_inherent_data_providers),
can_author_with,
}
}
async fn check_inherents(
&self,
block: B,
block_id: BlockId<B>,
inherent_data_providers: CIDP::InherentDataProviders,
) -> Result<(), Error<B>> {
if *block.header().number() < self.check_inherents_after {
return Ok(())
}
if let Err(e) = self.can_author_with.can_author_with(&block_id) {
debug!(
target: "pow",
"Skipping `check_inherents` as authoring version is not compatible: {}",
e,
);
return Ok(())
}
let inherent_data = inherent_data_providers.create_inherent_data()
.map_err(|e| Error::CreateInherents(e))?;
let inherent_res = self.client.runtime_api().check_inherents(
&block_id,
block,
inherent_data,
).map_err(|e| Error::Client(e.into()))?;
if !inherent_res.ok() {
for (identifier, error) in inherent_res.into_errors() {
match inherent_data_providers.try_handle_error(&identifier, &error).await {
Some(res) => res.map_err(Error::CheckInherents)?,
None => return Err(Error::CheckInherentsUnknownError(identifier)),
}
}
}
Ok(())
}
}
#[async_trait::async_trait]
impl<B, I, C, S, Algorithm, CAW, CIDP> BlockImport<B>
for PowBlockImport<B, I, C, S, Algorithm, CAW, CIDP>
where
B: BlockT,
I: BlockImport<B, Transaction = sp_api::TransactionFor<C, B>> + Send + Sync,
I::Error: Into<ConsensusError>,
S: SelectChain<B>,
C: ProvideRuntimeApi<B> + Send + Sync + HeaderBackend<B> + AuxStore + ProvideCache<B> + BlockOf,
C::Api: BlockBuilderApi<B>,
Algorithm: PowAlgorithm<B> + Send + Sync,
Algorithm::Difficulty: 'static + Send,
CAW: CanAuthorWith<B> + Send + Sync,
CIDP: CreateInherentDataProviders<B, ()> + Send + Sync,
{
type Error = ConsensusError;
type Transaction = sp_api::TransactionFor<C, B>;
async fn check_block(
&mut self,
block: BlockCheckParams<B>,
) -> Result<ImportResult, Self::Error> {
self.inner.check_block(block).await.map_err(Into::into)
}
async fn import_block(
&mut self,
mut block: BlockImportParams<B, Self::Transaction>,
new_cache: HashMap<CacheKeyId, Vec<u8>>,
) -> Result<ImportResult, Self::Error> {
let best_header = self.select_chain.best_chain()
.map_err(|e| format!("Fetch best chain failed via select chain: {:?}", e))?;
let best_hash = best_header.hash();
let parent_hash = *block.header.parent_hash();
let best_aux = PowAux::read::<_, B>(self.client.as_ref(), &best_hash)?;
let mut aux = PowAux::read::<_, B>(self.client.as_ref(), &parent_hash)?;
if let Some(inner_body) = block.body.take() {
let check_block = B::new(block.header.clone(), inner_body);
self.check_inherents(
check_block.clone(),
BlockId::Hash(parent_hash),
self.create_inherent_data_providers.create_inherent_data_providers(
parent_hash,
(),
).await?,
).await?;
block.body = Some(check_block.deconstruct().1);
}
let inner_seal = fetch_seal::<B>(block.post_digests.last(), block.header.hash())?;
let intermediate = block.take_intermediate::<PowIntermediate::<Algorithm::Difficulty>>(
INTERMEDIATE_KEY
)?;
let difficulty = match intermediate.difficulty {
Some(difficulty) => difficulty,
None => self.algorithm.difficulty(parent_hash)?,
};
let pre_hash = block.header.hash();
let pre_digest = find_pre_digest::<B>(&block.header)?;
if !self.algorithm.verify(
&BlockId::hash(parent_hash),
&pre_hash,
pre_digest.as_ref().map(|v| &v[..]),
&inner_seal,
difficulty,
)? {
return Err(Error::<B>::InvalidSeal.into())
}
aux.difficulty = difficulty;
aux.total_difficulty.increment(difficulty);
let key = aux_key(&block.post_hash());
block.auxiliary.push((key, Some(aux.encode())));
if block.fork_choice.is_none() {
block.fork_choice = Some(ForkChoiceStrategy::Custom(
match aux.total_difficulty.cmp(&best_aux.total_difficulty) {
Ordering::Less => false,
Ordering::Greater => true,
Ordering::Equal => {
let best_inner_seal = fetch_seal::<B>(
best_header.digest().logs.last(),
best_hash,
)?;
self.algorithm.break_tie(&best_inner_seal, &inner_seal)
},
}
));
}
self.inner.import_block(block, new_cache).await.map_err(Into::into)
}
}
/// A verifier for PoW blocks.
pub struct PowVerifier<B: BlockT, Algorithm> {
algorithm: Algorithm,
_marker: PhantomData<B>,
}
impl<B: BlockT, Algorithm> PowVerifier<B, Algorithm> {
pub fn new(
algorithm: Algorithm,
) -> Self {
Self { algorithm, _marker: PhantomData }
}
fn check_header(
&self,
mut header: B::Header,
) -> Result<(B::Header, DigestItem<B::Hash>), Error<B>> where
Algorithm: PowAlgorithm<B>,
{
let hash = header.hash();
let (seal, inner_seal) = match header.digest_mut().pop() {
Some(DigestItem::Seal(id, seal)) => {
if id == POW_ENGINE_ID {
(DigestItem::Seal(id, seal.clone()), seal)
} else {
return Err(Error::WrongEngine(id))
}
},
_ => return Err(Error::HeaderUnsealed(hash)),
};
let pre_hash = header.hash();
if !self.algorithm.preliminary_verify(&pre_hash, &inner_seal)?.unwrap_or(true) {
return Err(Error::FailedPreliminaryVerify);
}
Ok((header, seal))
}
}
#[async_trait::async_trait]
impl<B: BlockT, Algorithm> Verifier<B> for PowVerifier<B, Algorithm> where
Algorithm: PowAlgorithm<B> + Send + Sync,
Algorithm::Difficulty: 'static + Send,
{
async fn verify(
&mut self,
origin: BlockOrigin,
header: B::Header,
justifications: Option<Justifications>,
body: Option<Vec<B::Extrinsic>>,
) -> Result<(BlockImportParams<B, ()>, Option<Vec<(CacheKeyId, Vec<u8>)>>), String> {
let hash = header.hash();
let (checked_header, seal) = self.check_header(header)?;
let intermediate = PowIntermediate::<Algorithm::Difficulty> {
difficulty: None,
};
let mut import_block = BlockImportParams::new(origin, checked_header);
import_block.post_digests.push(seal);
import_block.body = body;
import_block.justifications = justifications;
import_block.intermediates.insert(
Cow::from(INTERMEDIATE_KEY),
Box::new(intermediate) as Box<_>
);
import_block.post_hash = Some(hash);
Ok((import_block, None))
}
}
/// The PoW import queue type.
pub type PowImportQueue<B, Transaction> = BasicQueue<B, Transaction>;
/// Import queue for PoW engine.
pub fn import_queue<B, Transaction, Algorithm>(
block_import: BoxBlockImport<B, Transaction>,
justification_import: Option<BoxJustificationImport<B>>,
algorithm: Algorithm,
spawner: &impl sp_core::traits::SpawnEssentialNamed,
registry: Option<&Registry>,
) -> Result<
PowImportQueue<B, Transaction>,
sp_consensus::Error
> where
B: BlockT,
Transaction: Send + Sync + 'static,
Algorithm: PowAlgorithm<B> + Clone + Send + Sync + 'static,
Algorithm::Difficulty: Send,
{
let verifier = PowVerifier::new(algorithm);
Ok(BasicQueue::new(
verifier,
block_import,
justification_import,
spawner,
registry,
))
}
/// Start the mining worker for PoW. This function provides the necessary helper functions that can
/// be used to implement a miner. However, it does not do the CPU-intensive mining itself.
///
/// Two values are returned -- a worker, which contains functions that allows querying the current
/// mining metadata and submitting mined blocks, and a future, which must be polled to fill in
/// information in the worker.
///
/// `pre_runtime` is a parameter that allows a custom additional pre-runtime digest to be inserted
/// for blocks being built. This can encode authorship information, or just be a graffiti.
pub fn start_mining_worker<Block, C, S, Algorithm, E, SO, CAW, CIDP>(
block_import: BoxBlockImport<Block, sp_api::TransactionFor<C, Block>>,
client: Arc<C>,
select_chain: S,
algorithm: Algorithm,
mut env: E,
mut sync_oracle: SO,
pre_runtime: Option<Vec<u8>>,
create_inherent_data_providers: CIDP,
timeout: Duration,
build_time: Duration,
can_author_with: CAW,
) -> (
Arc<Mutex<MiningWorker<Block, Algorithm, C, <E::Proposer as Proposer<Block>>::Proof>>>,
impl Future<Output = ()>,
) where
Block: BlockT,
C: ProvideRuntimeApi<Block> + BlockchainEvents<Block> + 'static,
S: SelectChain<Block> + 'static,
Algorithm: PowAlgorithm<Block> + Clone,
Algorithm::Difficulty: Send + 'static,
E: Environment<Block> + Send + Sync + 'static,
E::Error: std::fmt::Debug,
E::Proposer: Proposer<Block, Transaction = sp_api::TransactionFor<C, Block>>,
SO: SyncOracle + Clone + Send + Sync + 'static,
CAW: CanAuthorWith<Block> + Clone + Send + 'static,
CIDP: CreateInherentDataProviders<Block, ()>,
{
let mut timer = UntilImportedOrTimeout::new(client.import_notification_stream(), timeout);
let worker = Arc::new(Mutex::new(MiningWorker::<Block, Algorithm, C, _> {
build: None,
algorithm: algorithm.clone(),
block_import,
}));
let worker_ret = worker.clone();
let task = async move {
loop {
if timer.next().await.is_none() {
break;
}
if sync_oracle.is_major_syncing() {
debug!(target: "pow", "Skipping proposal due to sync.");
worker.lock().on_major_syncing();
return;
}
let best_header = match select_chain.best_chain() {
Ok(x) => x,
Err(err) => {
warn!(
target: "pow",
"Unable to pull new block for authoring. \
Select best chain error: {:?}",
err
);
return;
},
};
let best_hash = best_header.hash();
if let Err(err) = can_author_with.can_author_with(&BlockId::Hash(best_hash)) {
warn!(
target: "pow",
"Skipping proposal `can_author_with` returned: {} \
Probably a node update is required!",
err,
);
return;
}
if worker.lock().best_hash() == Some(best_hash) {
return;
}
// The worker is locked for the duration of the whole proposing period. Within this period,
// the mining target is outdated and useless anyway.
let difficulty = match algorithm.difficulty(best_hash) {
Ok(x) => x,
Err(err) => {
warn!(
target: "pow",
"Unable to propose new block for authoring. \
Fetch difficulty failed: {:?}",
err,
);
return;
},
};
let inherent_data_providers =
match create_inherent_data_providers.create_inherent_data_providers(best_hash, ()).await {
Ok(x) => x,
Err(err) => {
warn!(
target: "pow",
"Unable to propose new block for authoring. \
Creating inherent data providers failed: {:?}",
err,
);
return;
},
};
let inherent_data = match inherent_data_providers.create_inherent_data() {
Ok(r) => r,
Err(e) => {
warn!(
target: "pow",
"Unable to propose new block for authoring. \
Creating inherent data failed: {:?}",
e,
);
return;
},
};
let mut inherent_digest = Digest::<Block::Hash>::default();
if let Some(pre_runtime) = &pre_runtime {
inherent_digest.push(DigestItem::PreRuntime(POW_ENGINE_ID, pre_runtime.to_vec()));
}
let pre_runtime = pre_runtime.clone();
let proposer = match env.init(&best_header).await {
Ok(x) => x,
Err(err) => {
warn!(
target: "pow",
"Unable to propose new block for authoring. \
Creating proposer failed: {:?}",
err,
);
return
},
};
let proposal = match proposer.propose(
inherent_data,
inherent_digest,
build_time.clone(),
None,
).await {
Ok(x) => x,
Err(err) => {
warn!(
target: "pow",
"Unable to propose new block for authoring. \
Creating proposal failed: {:?}",
err,
);
return
},
};
let build = MiningBuild::<Block, Algorithm, C, _> {
metadata: MiningMetadata {
best_hash,
pre_hash: proposal.block.header().hash(),
pre_runtime: pre_runtime.clone(),
difficulty,
},
proposal,
};
worker.lock().on_build(build);
}
};
(worker_ret, task)
}
/// Find PoW pre-runtime.
fn find_pre_digest<B: BlockT>(header: &B::Header) -> Result<Option<Vec<u8>>, Error<B>> {
let mut pre_digest: Option<_> = None;
for log in header.digest().logs() {
trace!(target: "pow", "Checking log {:?}, looking for pre runtime digest", log);
match (log, pre_digest.is_some()) {
(DigestItem::PreRuntime(POW_ENGINE_ID, _), true) => {
return Err(Error::MultiplePreRuntimeDigests)
},
(DigestItem::PreRuntime(POW_ENGINE_ID, v), false) => {
pre_digest = Some(v.clone());
},
(_, _) => trace!(target: "pow", "Ignoring digest not meant for us"),
}
}
Ok(pre_digest)
}
/// Fetch PoW seal.
fn fetch_seal<B: BlockT>(
digest: Option<&DigestItem<B::Hash>>,
hash: B::Hash,
) -> Result<Vec<u8>, Error<B>> {
match digest {
Some(DigestItem::Seal(id, seal)) => {
if id == &POW_ENGINE_ID {
Ok(seal.clone())
} else {
return Err(Error::<B>::WrongEngine(*id).into())
}
},
_ => return Err(Error::<B>::HeaderUnsealed(hash).into()),
}
}