0g-storage-node/node/miner/src/sealer.rs
peilun-conflux 4eb2a50b0e
Use inner lock in storage and use async lock. (#92)
* Use inner lock in storage.

* Remove mut.

* Remove async lock for storage.

* Fix tests and warnings.

* Use spawn_blocking for storage task.

* Fix clippy.

* Finalize the new tx at last.

* Revert "Finalize the new tx at last."

This reverts commit b56ad5582d.

* Wait for old same-root txs to finalize.

* Use async storage in miner.

* Update rust version to 1.79.0.

* Use Vec to avoid stack overflow.

* Fix unused warning.

* Fix clippy.

* Fix test warning.

* Fix test.

* fmt.

* Use async storage in pruner.

* nit.
2024-06-29 17:08:02 +08:00

205 lines
6.8 KiB
Rust

use std::{collections::BTreeMap, sync::Arc};
use ethereum_types::H256;
use tokio::time::{sleep, Duration, Instant};
use contract_interface::{EpochRangeWithContextDigest, ZgsFlow};
use storage::{
error::Result,
log_store::{SealAnswer, SealTask},
};
use storage_async::Store;
use task_executor::TaskExecutor;
use zgs_spec::SECTORS_PER_SEAL;
use crate::config::{MineServiceMiddleware, MinerConfig};
const DB_QUERY_PERIOD_ON_NO_TASK: u64 = 1;
const DB_QUERY_PERIOD_ON_ERROR: u64 = 5;
const CHAIN_STATUS_QUERY_PERIOD: u64 = 5;
pub struct Sealer {
flow_contract: ZgsFlow<MineServiceMiddleware>,
store: Arc<Store>,
context_cache: BTreeMap<u128, EpochRangeWithContextDigest>,
last_context_flow_length: u64,
miner_id: H256,
}
impl Sealer {
pub fn spawn(
executor: TaskExecutor,
provider: Arc<MineServiceMiddleware>,
store: Arc<Store>,
config: &MinerConfig,
miner_id: H256,
) {
let flow_contract = ZgsFlow::new(config.flow_address, provider);
let sealer = Sealer {
flow_contract,
store,
context_cache: Default::default(),
last_context_flow_length: 0,
miner_id,
};
executor.spawn(async move { Box::pin(sealer.start()).await }, "data_sealer");
}
async fn start(mut self) {
let db_checker_throttle = sleep(Duration::from_secs(0));
tokio::pin!(db_checker_throttle);
let contract_checker_throttle = sleep(Duration::from_secs(0));
tokio::pin!(contract_checker_throttle);
loop {
tokio::select! {
biased;
() = &mut contract_checker_throttle, if !contract_checker_throttle.is_elapsed() => {
}
() = &mut db_checker_throttle, if !db_checker_throttle.is_elapsed() => {
}
_ = async {}, if contract_checker_throttle.is_elapsed() => {
if let Err(err) = self.update_flow_length().await{
warn!("Fetch onchain context failed {:?}", err);
}
contract_checker_throttle.as_mut().reset(Instant::now() + Duration::from_secs(CHAIN_STATUS_QUERY_PERIOD));
}
_ = async {}, if db_checker_throttle.is_elapsed() => {
match self.seal_iteration().await {
Ok(true) => {},
Ok(false) => {db_checker_throttle.as_mut().reset(Instant::now() + Duration::from_secs(DB_QUERY_PERIOD_ON_NO_TASK));}
Err(err) => {
warn!("Seal iteration failed {:?}", err);
db_checker_throttle.as_mut().reset(Instant::now() + Duration::from_secs(DB_QUERY_PERIOD_ON_ERROR));
}
}
}
}
}
}
async fn update_flow_length(&mut self) -> Result<()> {
let recent_context = self.flow_contract.make_context_with_result().call().await?;
debug!(target: "seal", "Recent context is {:?}", recent_context);
let recent_flow_length = recent_context.flow_length.as_u64();
if self.last_context_flow_length < recent_flow_length {
let epoch_range = self
.flow_contract
.get_epoch_range(recent_context.digest)
.call()
.await?;
self.context_cache.insert(
epoch_range.start,
EpochRangeWithContextDigest {
start: epoch_range.start,
end: epoch_range.end,
digest: recent_context.digest,
},
);
self.last_context_flow_length = recent_flow_length;
info!(target: "seal", "Update sealable flow length: {}", recent_flow_length)
}
Ok(())
}
async fn fetch_context(&mut self, seal_index: u64) -> Result<Option<(H256, u64)>> {
let last_entry = ((seal_index as usize + 1) * SECTORS_PER_SEAL - 1) as u128;
if self.last_context_flow_length <= last_entry as u64 {
return Ok(None);
}
if let Some((_, context)) = self.context_cache.range(..=last_entry).next_back() {
if context.start <= last_entry && context.end > last_entry {
return Ok(Some((
H256(context.digest),
context.end as u64 / SECTORS_PER_SEAL as u64,
)));
}
}
let context = match self
.flow_contract
.query_context_at_position(last_entry)
.call()
.await
{
Ok(context) => context,
Err(err) => {
info!("Error when fetch entries {:?}", err);
return Ok(None);
}
};
info!(
target:"seal", "Fetch new context: range {} -> {}",
context.start, context.end
);
self.context_cache.insert(context.start, context.clone());
Ok(Some((
H256(context.digest),
context.end as u64 / SECTORS_PER_SEAL as u64,
)))
}
async fn fetch_task(&self) -> Result<Option<Vec<SealTask>>> {
let seal_index_max = self.last_context_flow_length as usize / SECTORS_PER_SEAL;
self.store.pull_seal_chunk(seal_index_max).await
}
async fn submit_answer(&self, answers: Vec<SealAnswer>) -> Result<()> {
self.store.submit_seal_result(answers).await
}
async fn seal_iteration(&mut self) -> Result<bool> {
let tasks = match self.fetch_task().await? {
Some(tasks) if !tasks.is_empty() => tasks,
_ => {
return Ok(false);
}
};
debug!(
"Get seal tasks at seal index {:?}",
tasks.iter().map(|x| x.seal_index).collect::<Vec<u64>>()
);
let mut answers = Vec::with_capacity(tasks.len());
for task in tasks {
let (context_digest, end_seal) =
if let Some(context) = self.fetch_context(task.seal_index).await? {
context
} else {
trace!(target: "seal", "Index {} is not ready for seal", task.seal_index);
continue;
};
let mut data = task.non_sealed_data;
zgs_seal::seal(
&mut data,
&self.miner_id,
&context_digest,
task.seal_index * SECTORS_PER_SEAL as u64,
);
answers.push(SealAnswer {
seal_index: task.seal_index,
version: task.version,
sealed_data: data,
miner_id: self.miner_id,
seal_context: context_digest,
context_end_seal: end_seal,
});
}
self.submit_answer(answers).await?;
Ok(true)
}
}