// This file is part of Substrate. // Copyright (C) 2017-2021 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. //! Substrate blockchain trait use log::warn; use parking_lot::RwLock; use sp_runtime::{ generic::BlockId, traits::{Block as BlockT, Header as HeaderT, NumberFor}, Justifications, }; use crate::header_metadata::HeaderMetadata; use crate::error::{Error, Result}; /// Blockchain database header backend. Does not perform any validation. pub trait HeaderBackend: Send + Sync { /// Get block header. Returns `None` if block is not found. fn header(&self, id: BlockId) -> Result>; /// Get blockchain info. fn info(&self) -> Info; /// Get block status. fn status(&self, id: BlockId) -> Result; /// Get block number by hash. Returns `None` if the header is not in the chain. fn number( &self, hash: Block::Hash, ) -> Result::Header as HeaderT>::Number>>; /// Get block hash by number. Returns `None` if the header is not in the chain. fn hash(&self, number: NumberFor) -> Result>; /// Convert an arbitrary block ID into a block hash. fn block_hash_from_id(&self, id: &BlockId) -> Result> { match *id { BlockId::Hash(h) => Ok(Some(h)), BlockId::Number(n) => self.hash(n), } } /// Convert an arbitrary block ID into a block hash. fn block_number_from_id(&self, id: &BlockId) -> Result>> { match *id { BlockId::Hash(h) => self.number(h), BlockId::Number(n) => Ok(Some(n)), } } /// Get block header. Returns `UnknownBlock` error if block is not found. fn expect_header(&self, id: BlockId) -> Result { self.header(id)? .ok_or_else(|| Error::UnknownBlock(format!("Expect header: {}", id))) } /// Convert an arbitrary block ID into a block number. Returns `UnknownBlock` error if block is /// not found. fn expect_block_number_from_id(&self, id: &BlockId) -> Result> { self.block_number_from_id(id).and_then(|n| { n.ok_or_else(|| Error::UnknownBlock(format!("Expect block number from id: {}", id))) }) } /// Convert an arbitrary block ID into a block hash. Returns `UnknownBlock` error if block is /// not found. fn expect_block_hash_from_id(&self, id: &BlockId) -> Result { self.block_hash_from_id(id).and_then(|n| { n.ok_or_else(|| Error::UnknownBlock(format!("Expect block hash from id: {}", id))) }) } } /// Blockchain database backend. Does not perform any validation. pub trait Backend: HeaderBackend + HeaderMetadata { /// Get block body. Returns `None` if block is not found. fn body(&self, id: BlockId) -> Result::Extrinsic>>>; /// Get block justifications. Returns `None` if no justification exists. fn justifications(&self, id: BlockId) -> Result>; /// Get last finalized block hash. fn last_finalized(&self) -> Result; /// Returns hashes of all blocks that are leaves of the block tree. /// in other words, that have no children, are chain heads. /// Results must be ordered best (longest, highest) chain first. fn leaves(&self) -> Result>; /// Return hashes of all blocks that are children of the block with `parent_hash`. fn children(&self, parent_hash: Block::Hash) -> Result>; /// Get the most recent block hash of the best (longest) chains /// that contain block with the given `target_hash`. /// /// The search space is always limited to blocks which are in the finalized /// chain or descendents of it. /// /// If `maybe_max_block_number` is `Some(max_block_number)` /// the search is limited to block `numbers <= max_block_number`. /// in other words as if there were no blocks greater `max_block_number`. /// Returns `Ok(None)` if `target_hash` is not found in search space. /// TODO: document time complexity of this, see [#1444](https://github.com/paritytech/substrate/issues/1444) fn best_containing( &self, target_hash: Block::Hash, maybe_max_number: Option>, import_lock: &RwLock<()>, ) -> Result> { let target_header = { match self.header(BlockId::Hash(target_hash))? { Some(x) => x, // target not in blockchain None => return Ok(None), } }; if let Some(max_number) = maybe_max_number { // target outside search range if target_header.number() > &max_number { return Ok(None) } } let leaves = { // ensure no blocks are imported during this code block. // an import could trigger a reorg which could change the canonical chain. // we depend on the canonical chain staying the same during this code block. let _import_guard = import_lock.read(); let info = self.info(); // this can be `None` if the best chain is shorter than the target header. let maybe_canon_hash = self.hash(*target_header.number())?; if maybe_canon_hash.as_ref() == Some(&target_hash) { // if a `max_number` is given we try to fetch the block at the // given depth, if it doesn't exist or `max_number` is not // provided, we continue to search from all leaves below. if let Some(max_number) = maybe_max_number { if let Some(header) = self.hash(max_number)? { return Ok(Some(header)) } } } else if info.finalized_number >= *target_header.number() { // header is on a dead fork. return Ok(None) } self.leaves()? }; // for each chain. longest chain first. shortest last for leaf_hash in leaves { // start at the leaf let mut current_hash = leaf_hash; // if search is not restricted then the leaf is the best let mut best_hash = leaf_hash; // go backwards entering the search space // waiting until we are <= max_number if let Some(max_number) = maybe_max_number { loop { let current_header = self .header(BlockId::Hash(current_hash.clone()))? .ok_or_else(|| Error::MissingHeader(current_hash.to_string()))?; if current_header.number() <= &max_number { best_hash = current_header.hash(); break } current_hash = *current_header.parent_hash(); } } // go backwards through the chain (via parent links) loop { // until we find target if current_hash == target_hash { return Ok(Some(best_hash)) } let current_header = self .header(BlockId::Hash(current_hash.clone()))? .ok_or_else(|| Error::MissingHeader(current_hash.to_string()))?; // stop search in this chain once we go below the target's block number if current_header.number() < target_header.number() { break } current_hash = *current_header.parent_hash(); } } // header may be on a dead fork -- the only leaves that are considered are // those which can still be finalized. // // FIXME #1558 only issue this warning when not on a dead fork warn!( "Block {:?} exists in chain but not found when following all \ leaves backwards. Number limit = {:?}", target_hash, maybe_max_number, ); Ok(None) } /// Get single indexed transaction by content hash. Note that this will only fetch transactions /// that are indexed by the runtime with `storage_index_transaction`. fn indexed_transaction(&self, hash: &Block::Hash) -> Result>>; /// Check if indexed transaction exists. fn has_indexed_transaction(&self, hash: &Block::Hash) -> Result { Ok(self.indexed_transaction(hash)?.is_some()) } fn block_indexed_body(&self, id: BlockId) -> Result>>>; } /// Blockchain info #[derive(Debug, Eq, PartialEq)] pub struct Info { /// Best block hash. pub best_hash: Block::Hash, /// Best block number. pub best_number: <::Header as HeaderT>::Number, /// Genesis block hash. pub genesis_hash: Block::Hash, /// The head of the finalized chain. pub finalized_hash: Block::Hash, /// Last finalized block number. pub finalized_number: <::Header as HeaderT>::Number, /// Last finalized state. pub finalized_state: Option<(Block::Hash, <::Header as HeaderT>::Number)>, /// Number of concurrent leave forks. pub number_leaves: usize, /// Missing blocks after warp sync. (start, end). pub block_gap: Option<(NumberFor, NumberFor)>, } /// Block status. #[derive(Debug, Clone, Copy, PartialEq, Eq)] pub enum BlockStatus { /// Already in the blockchain. InChain, /// Not in the queue or the blockchain. Unknown, } /// A list of all well known keys in the blockchain cache. pub mod well_known_cache_keys { /// The type representing cache keys. pub type Id = sp_consensus::CacheKeyId; /// A list of authorities. pub const AUTHORITIES: Id = *b"auth"; /// Current Epoch data. pub const EPOCH: Id = *b"epch"; /// Changes trie configuration. pub const CHANGES_TRIE_CONFIG: Id = *b"chtr"; }