#[cfg(test)]
mod tests;
use jsonrpsee::core::RpcResult;
use sc_client_api::{BlockBackend, HeaderBackend};
use sc_rpc_api::{dev::error::Error, DenyUnsafe};
use sp_api::{ApiExt, Core, ProvideRuntimeApi};
use sp_core::Encode;
use sp_runtime::{
generic::DigestItem,
traits::{Block as BlockT, Header},
};
use std::{
marker::{PhantomData, Send, Sync},
sync::Arc,
};
pub use sc_rpc_api::dev::{BlockStats, DevApiServer};
type HasherOf<Block> = <<Block as BlockT>::Header as Header>::Hashing;
pub struct Dev<Block: BlockT, Client> {
client: Arc<Client>,
deny_unsafe: DenyUnsafe,
_phantom: PhantomData<Block>,
}
impl<Block: BlockT, Client> Dev<Block, Client> {
pub fn new(client: Arc<Client>, deny_unsafe: DenyUnsafe) -> Self {
Self { client, deny_unsafe, _phantom: PhantomData::default() }
}
}
impl<Block, Client> DevApiServer<Block::Hash> for Dev<Block, Client>
where
Block: BlockT + 'static,
Client: BlockBackend<Block>
+ HeaderBackend<Block>
+ ProvideRuntimeApi<Block>
+ Send
+ Sync
+ 'static,
Client::Api: Core<Block>,
{
fn block_stats(&self, hash: Block::Hash) -> RpcResult<Option<BlockStats>> {
self.deny_unsafe.check_if_safe()?;
let block = {
let block = self.client.block(hash).map_err(|e| Error::BlockQueryError(Box::new(e)))?;
if let Some(block) = block {
let (mut header, body) = block.block.deconstruct();
header.digest_mut().logs.retain(|item| !matches!(item, DigestItem::Seal(_, _)));
Block::new(header, body)
} else {
return Ok(None)
}
};
let parent_header = {
let parent_hash = *block.header().parent_hash();
let parent_header = self
.client
.header(parent_hash)
.map_err(|e| Error::BlockQueryError(Box::new(e)))?;
if let Some(header) = parent_header {
header
} else {
return Ok(None)
}
};
let block_len = block.encoded_size() as u64;
let num_extrinsics = block.extrinsics().len() as u64;
let pre_root = *parent_header.state_root();
let mut runtime_api = self.client.runtime_api();
runtime_api.record_proof();
runtime_api
.execute_block(parent_header.hash(), block)
.map_err(|_| Error::BlockExecutionFailed)?;
let witness = runtime_api
.extract_proof()
.expect("We enabled proof recording. A proof must be available; qed");
let witness_len = witness.encoded_size() as u64;
let witness_compact_len = witness
.into_compact_proof::<HasherOf<Block>>(pre_root)
.map_err(|_| Error::WitnessCompactionFailed)?
.encoded_size() as u64;
Ok(Some(BlockStats { witness_len, witness_compact_len, block_len, num_extrinsics }))
}
}