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blockchain.rs
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blockchain.rs
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// Copyright 2015-2018 Parity Technologies (UK) Ltd.
// This file is part of Parity.
// Parity 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.
// Parity 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 Parity. If not, see <http://www.gnu.org/licenses/>.
//! Blockchain database.
use std::collections::{HashMap, HashSet};
use std::{mem, io};
use std::path::Path;
use std::sync::Arc;
use ansi_term::Colour;
use blockchain::{CacheSize, ImportRoute, Config};
use blockchain::best_block::{BestBlock, BestAncientBlock};
use blockchain::block_info::{BlockInfo, BlockLocation, BranchBecomingCanonChainData};
use blockchain::extras::{BlockReceipts, BlockDetails, TransactionAddress, EPOCH_KEY_PREFIX, EpochTransitions};
use blockchain::update::{ExtrasUpdate, ExtrasInsert};
use blooms_db;
use bytes::Bytes;
use cache_manager::CacheManager;
use db::{self, Writable, Readable, CacheUpdatePolicy};
use encoded;
use engines::epoch::{Transition as EpochTransition, PendingTransition as PendingEpochTransition};
use engines::ForkChoice;
use ethereum_types::{H256, Bloom, BloomRef, U256};
use header::*;
use heapsize::HeapSizeOf;
use itertools::Itertools;
use kvdb::{DBTransaction, KeyValueDB};
use log_entry::{LogEntry, LocalizedLogEntry};
use parking_lot::{Mutex, RwLock};
use rayon::prelude::*;
use receipt::Receipt;
use rlp_compress::{compress, decompress, blocks_swapper};
use rlp::RlpStream;
use transaction::*;
use types::blockchain_info::BlockChainInfo;
use types::tree_route::TreeRoute;
use views::{BlockView, HeaderView};
/// Database backing `BlockChain`.
pub trait BlockChainDB: Send + Sync {
/// Generic key value store.
fn key_value(&self) -> &Arc<KeyValueDB>;
/// Header blooms database.
fn blooms(&self) -> &blooms_db::Database;
/// Trace blooms database.
fn trace_blooms(&self) -> &blooms_db::Database;
}
/// Generic database handler. This trait contains one function `open`. When called, it opens database with a
/// predefined config.
pub trait BlockChainDBHandler: Send + Sync {
/// Open the predefined key-value database.
fn open(&self, path: &Path) -> io::Result<Arc<BlockChainDB>>;
}
/// Interface for querying blocks by hash and by number.
pub trait BlockProvider {
/// Returns true if the given block is known
/// (though not necessarily a part of the canon chain).
fn is_known(&self, hash: &H256) -> bool;
/// Returns true if the given block is known and in the canon chain.
fn is_canon(&self, hash: &H256) -> bool {
let is_canon = || Some(hash == &self.block_hash(self.block_number(hash)?)?);
is_canon().unwrap_or(false)
}
/// Get the first block of the best part of the chain.
/// Return `None` if there is no gap and the first block is the genesis.
/// Any queries of blocks which precede this one are not guaranteed to
/// succeed.
fn first_block(&self) -> Option<H256>;
/// Get the number of the first block.
fn first_block_number(&self) -> Option<BlockNumber> {
self.first_block().map(|b| self.block_number(&b).expect("First block is always set to an existing block or `None`. Existing block always has a number; qed"))
}
/// Get the best block of an first block sequence if there is a gap.
fn best_ancient_block(&self) -> Option<H256>;
/// Get the number of the first block.
fn best_ancient_number(&self) -> Option<BlockNumber> {
self.best_ancient_block().map(|h| self.block_number(&h).expect("Ancient block is always set to an existing block or `None`. Existing block always has a number; qed"))
}
/// Get raw block data
fn block(&self, hash: &H256) -> Option<encoded::Block>;
/// Get the familial details concerning a block.
fn block_details(&self, hash: &H256) -> Option<BlockDetails>;
/// Get the hash of given block's number.
fn block_hash(&self, index: BlockNumber) -> Option<H256>;
/// Get the address of transaction with given hash.
fn transaction_address(&self, hash: &H256) -> Option<TransactionAddress>;
/// Get receipts of block with given hash.
fn block_receipts(&self, hash: &H256) -> Option<BlockReceipts>;
/// Get the header RLP of a block.
fn block_header_data(&self, hash: &H256) -> Option<encoded::Header>;
/// Get the block body (uncles and transactions).
fn block_body(&self, hash: &H256) -> Option<encoded::Body>;
/// Get a list of uncles for a given block.
/// Returns None if block does not exist.
fn uncles(&self, hash: &H256) -> Option<Vec<Header>> {
self.block_body(hash).map(|body| body.uncles())
}
/// Get a list of uncle hashes for a given block.
/// Returns None if block does not exist.
fn uncle_hashes(&self, hash: &H256) -> Option<Vec<H256>> {
self.block_body(hash).map(|body| body.uncle_hashes())
}
/// Get the number of given block's hash.
fn block_number(&self, hash: &H256) -> Option<BlockNumber> {
self.block_header_data(hash).map(|header| header.number())
}
/// Get transaction with given transaction hash.
fn transaction(&self, address: &TransactionAddress) -> Option<LocalizedTransaction> {
self.block_body(&address.block_hash)
.and_then(|body| self.block_number(&address.block_hash)
.and_then(|n| body.view().localized_transaction_at(&address.block_hash, n, address.index)))
}
/// Get transaction receipt.
fn transaction_receipt(&self, address: &TransactionAddress) -> Option<Receipt> {
self.block_receipts(&address.block_hash).and_then(|br| br.receipts.into_iter().nth(address.index))
}
/// Get a list of transactions for a given block.
/// Returns None if block does not exist.
fn transactions(&self, hash: &H256) -> Option<Vec<LocalizedTransaction>> {
self.block_body(hash)
.and_then(|body| self.block_number(hash)
.map(|n| body.view().localized_transactions(hash, n)))
}
/// Returns reference to genesis hash.
fn genesis_hash(&self) -> H256 {
self.block_hash(0).expect("Genesis hash should always exist")
}
/// Returns the header of the genesis block.
fn genesis_header(&self) -> encoded::Header {
self.block_header_data(&self.genesis_hash())
.expect("Genesis header always stored; qed")
}
/// Returns numbers of blocks containing given bloom.
fn blocks_with_bloom<'a, B, I, II>(&self, blooms: II, from_block: BlockNumber, to_block: BlockNumber) -> Vec<BlockNumber>
where
BloomRef<'a>: From<B>,
II: IntoIterator<Item = B, IntoIter = I> + Copy,
I: Iterator<Item = B>,
Self: Sized;
/// Returns logs matching given filter.
fn logs<F>(&self, blocks: Vec<H256>, matches: F, limit: Option<usize>) -> Vec<LocalizedLogEntry>
where F: Fn(&LogEntry) -> bool + Send + Sync, Self: Sized;
}
#[derive(Debug, Hash, Eq, PartialEq, Clone)]
enum CacheId {
BlockHeader(H256),
BlockBody(H256),
BlockDetails(H256),
BlockHashes(BlockNumber),
TransactionAddresses(H256),
BlockReceipts(H256),
}
/// Structure providing fast access to blockchain data.
///
/// **Does not do input data verification.**
pub struct BlockChain {
// All locks must be captured in the order declared here.
best_block: RwLock<BestBlock>,
// Stores best block of the first uninterrupted sequence of blocks. `None` if there are no gaps.
// Only updated with `insert_unordered_block`.
best_ancient_block: RwLock<Option<BestAncientBlock>>,
// Stores the last block of the last sequence of blocks. `None` if there are no gaps.
// This is calculated on start and does not get updated.
first_block: Option<H256>,
// block cache
block_headers: RwLock<HashMap<H256, encoded::Header>>,
block_bodies: RwLock<HashMap<H256, encoded::Body>>,
// extra caches
block_details: RwLock<HashMap<H256, BlockDetails>>,
block_hashes: RwLock<HashMap<BlockNumber, H256>>,
transaction_addresses: RwLock<HashMap<H256, TransactionAddress>>,
block_receipts: RwLock<HashMap<H256, BlockReceipts>>,
db: Arc<BlockChainDB>,
cache_man: Mutex<CacheManager<CacheId>>,
pending_best_block: RwLock<Option<BestBlock>>,
pending_block_hashes: RwLock<HashMap<BlockNumber, H256>>,
pending_block_details: RwLock<HashMap<H256, BlockDetails>>,
pending_transaction_addresses: RwLock<HashMap<H256, Option<TransactionAddress>>>,
}
impl BlockProvider for BlockChain {
/// Returns true if the given block is known
/// (though not necessarily a part of the canon chain).
fn is_known(&self, hash: &H256) -> bool {
self.db.key_value().exists_with_cache(db::COL_EXTRA, &self.block_details, hash)
}
fn first_block(&self) -> Option<H256> {
self.first_block.clone()
}
fn best_ancient_block(&self) -> Option<H256> {
self.best_ancient_block.read().as_ref().map(|b| b.hash)
}
fn best_ancient_number(&self) -> Option<BlockNumber> {
self.best_ancient_block.read().as_ref().map(|b| b.number)
}
/// Get raw block data
fn block(&self, hash: &H256) -> Option<encoded::Block> {
let header = self.block_header_data(hash)?;
let body = self.block_body(hash)?;
Some(encoded::Block::new_from_header_and_body(&header.view(), &body.view()))
}
/// Get block header data
fn block_header_data(&self, hash: &H256) -> Option<encoded::Header> {
// Check cache first
{
let read = self.block_headers.read();
if let Some(v) = read.get(hash) {
return Some(v.clone());
}
}
// Check if it's the best block
{
let best_block = self.best_block.read();
if &best_block.header.hash() == hash {
return Some(best_block.header.encoded())
}
}
// Read from DB and populate cache
let b = self.db.key_value().get(db::COL_HEADERS, hash)
.expect("Low level database error. Some issue with disk?")?;
let header = encoded::Header::new(decompress(&b, blocks_swapper()).into_vec());
let mut write = self.block_headers.write();
write.insert(*hash, header.clone());
self.cache_man.lock().note_used(CacheId::BlockHeader(*hash));
Some(header)
}
/// Get block body data
fn block_body(&self, hash: &H256) -> Option<encoded::Body> {
// Check cache first
{
let read = self.block_bodies.read();
if let Some(v) = read.get(hash) {
return Some(v.clone());
}
}
// Check if it's the best block
{
let best_block = self.best_block.read();
if &best_block.header.hash() == hash {
return Some(encoded::Body::new(Self::block_to_body(best_block.block.rlp().as_raw())));
}
}
// Read from DB and populate cache
let b = self.db.key_value().get(db::COL_BODIES, hash)
.expect("Low level database error. Some issue with disk?")?;
let body = encoded::Body::new(decompress(&b, blocks_swapper()).into_vec());
let mut write = self.block_bodies.write();
write.insert(*hash, body.clone());
self.cache_man.lock().note_used(CacheId::BlockBody(*hash));
Some(body)
}
/// Get the familial details concerning a block.
fn block_details(&self, hash: &H256) -> Option<BlockDetails> {
let result = self.db.key_value().read_with_cache(db::COL_EXTRA, &self.block_details, hash)?;
self.cache_man.lock().note_used(CacheId::BlockDetails(*hash));
Some(result)
}
/// Get the hash of given block's number.
fn block_hash(&self, index: BlockNumber) -> Option<H256> {
let result = self.db.key_value().read_with_cache(db::COL_EXTRA, &self.block_hashes, &index)?;
self.cache_man.lock().note_used(CacheId::BlockHashes(index));
Some(result)
}
/// Get the address of transaction with given hash.
fn transaction_address(&self, hash: &H256) -> Option<TransactionAddress> {
let result = self.db.key_value().read_with_cache(db::COL_EXTRA, &self.transaction_addresses, hash)?;
self.cache_man.lock().note_used(CacheId::TransactionAddresses(*hash));
Some(result)
}
/// Get receipts of block with given hash.
fn block_receipts(&self, hash: &H256) -> Option<BlockReceipts> {
let result = self.db.key_value().read_with_cache(db::COL_EXTRA, &self.block_receipts, hash)?;
self.cache_man.lock().note_used(CacheId::BlockReceipts(*hash));
Some(result)
}
/// Returns numbers of blocks containing given bloom.
fn blocks_with_bloom<'a, B, I, II>(&self, blooms: II, from_block: BlockNumber, to_block: BlockNumber) -> Vec<BlockNumber>
where
BloomRef<'a>: From<B>,
II: IntoIterator<Item = B, IntoIter = I> + Copy,
I: Iterator<Item = B> {
self.db.blooms()
.filter(from_block, to_block, blooms)
.expect("Low level database error. Some issue with disk?")
}
/// Returns logs matching given filter. The order of logs returned will be the same as the order of the blocks
/// provided. And it's the callers responsibility to sort blocks provided in advance.
fn logs<F>(&self, mut blocks: Vec<H256>, matches: F, limit: Option<usize>) -> Vec<LocalizedLogEntry>
where F: Fn(&LogEntry) -> bool + Send + Sync, Self: Sized {
// sort in reverse order
blocks.reverse();
let mut logs = blocks
.chunks(128)
.flat_map(move |blocks_chunk| {
blocks_chunk.into_par_iter()
.filter_map(|hash| self.block_number(&hash).map(|r| (r, hash)))
.filter_map(|(number, hash)| self.block_receipts(&hash).map(|r| (number, hash, r.receipts)))
.filter_map(|(number, hash, receipts)| self.block_body(&hash).map(|ref b| (number, hash, receipts, b.transaction_hashes())))
.flat_map(|(number, hash, mut receipts, mut hashes)| {
if receipts.len() != hashes.len() {
warn!("Block {} ({}) has different number of receipts ({}) to transactions ({}). Database corrupt?", number, hash, receipts.len(), hashes.len());
assert!(false);
}
let mut log_index = receipts.iter().fold(0, |sum, receipt| sum + receipt.logs.len());
let receipts_len = receipts.len();
hashes.reverse();
receipts.reverse();
receipts.into_iter()
.map(|receipt| receipt.logs)
.zip(hashes)
.enumerate()
.flat_map(move |(index, (mut logs, tx_hash))| {
let current_log_index = log_index;
let no_of_logs = logs.len();
log_index -= no_of_logs;
logs.reverse();
logs.into_iter()
.enumerate()
.map(move |(i, log)| LocalizedLogEntry {
entry: log,
block_hash: *hash,
block_number: number,
transaction_hash: tx_hash,
// iterating in reverse order
transaction_index: receipts_len - index - 1,
transaction_log_index: no_of_logs - i - 1,
log_index: current_log_index - i - 1,
})
})
.filter(|log_entry| matches(&log_entry.entry))
.take(limit.unwrap_or(::std::usize::MAX))
.collect::<Vec<_>>()
})
.collect::<Vec<_>>()
})
.take(limit.unwrap_or(::std::usize::MAX))
.collect::<Vec<LocalizedLogEntry>>();
logs.reverse();
logs
}
}
/// An iterator which walks the blockchain towards the genesis.
#[derive(Clone)]
pub struct AncestryIter<'a> {
current: H256,
chain: &'a BlockChain,
}
impl<'a> Iterator for AncestryIter<'a> {
type Item = H256;
fn next(&mut self) -> Option<H256> {
if self.current.is_zero() {
None
} else {
self.chain.block_details(&self.current)
.map(|details| mem::replace(&mut self.current, details.parent))
}
}
}
/// An iterator which walks the blockchain towards the genesis, with metadata information.
pub struct AncestryWithMetadataIter<'a> {
current: H256,
chain: &'a BlockChain,
}
impl<'a> Iterator for AncestryWithMetadataIter<'a> {
type Item = ExtendedHeader;
fn next(&mut self) -> Option<ExtendedHeader> {
if self.current.is_zero() {
None
} else {
let details = self.chain.block_details(&self.current);
let header = self.chain.block_header_data(&self.current)
.map(|h| h.decode().expect("Stored block header data is valid RLP; qed"));
match (details, header) {
(Some(details), Some(header)) => {
self.current = details.parent;
Some(ExtendedHeader {
parent_total_difficulty: details.total_difficulty - *header.difficulty(),
is_finalized: details.is_finalized,
header,
})
},
_ => {
self.current = H256::default();
None
},
}
}
}
}
/// An iterator which walks all epoch transitions.
/// Returns epoch transitions.
pub struct EpochTransitionIter<'a> {
chain: &'a BlockChain,
prefix_iter: Box<Iterator<Item=(Box<[u8]>, Box<[u8]>)> + 'a>,
}
impl<'a> Iterator for EpochTransitionIter<'a> {
type Item = (u64, EpochTransition);
fn next(&mut self) -> Option<Self::Item> {
loop {
// some epochs never occurred on the main chain.
let (key, val) = self.prefix_iter.next()?;
// iterator may continue beyond values beginning with this
// prefix.
if !key.starts_with(&EPOCH_KEY_PREFIX[..]) {
return None
}
let transitions: EpochTransitions = ::rlp::decode(&val[..]).expect("decode error: the db is corrupted or the data structure has changed");
// if there are multiple candidates, at most one will be on the
// canon chain.
for transition in transitions.candidates.into_iter() {
let is_in_canon_chain = self.chain.block_hash(transition.block_number)
.map_or(false, |hash| hash == transition.block_hash);
// if the transition is within the block gap, there will only be
// one candidate, and it will be from a snapshot restored from.
let is_ancient = self.chain.first_block_number()
.map_or(false, |first| first > transition.block_number);
if is_ancient || is_in_canon_chain {
return Some((transitions.number, transition))
}
}
}
}
}
impl BlockChain {
/// Create new instance of blockchain from given Genesis.
pub fn new(config: Config, genesis: &[u8], db: Arc<BlockChainDB>) -> BlockChain {
// 400 is the average size of the key
let cache_man = CacheManager::new(config.pref_cache_size, config.max_cache_size, 400);
let mut bc = BlockChain {
first_block: None,
best_block: RwLock::new(BestBlock {
// BestBlock will be overwritten anyway.
header: Default::default(),
total_difficulty: Default::default(),
block: encoded::Block::new(genesis.into()),
}),
best_ancient_block: RwLock::new(None),
block_headers: RwLock::new(HashMap::new()),
block_bodies: RwLock::new(HashMap::new()),
block_details: RwLock::new(HashMap::new()),
block_hashes: RwLock::new(HashMap::new()),
transaction_addresses: RwLock::new(HashMap::new()),
block_receipts: RwLock::new(HashMap::new()),
db: db.clone(),
cache_man: Mutex::new(cache_man),
pending_best_block: RwLock::new(None),
pending_block_hashes: RwLock::new(HashMap::new()),
pending_block_details: RwLock::new(HashMap::new()),
pending_transaction_addresses: RwLock::new(HashMap::new()),
};
// load best block
let best_block_hash = match bc.db.key_value().get(db::COL_EXTRA, b"best").unwrap() {
Some(best) => {
H256::from_slice(&best)
}
None => {
// best block does not exist
// we need to insert genesis into the cache
let block = view!(BlockView, genesis);
let header = block.header_view();
let hash = block.hash();
let details = BlockDetails {
number: header.number(),
total_difficulty: header.difficulty(),
parent: header.parent_hash(),
children: vec![],
is_finalized: false,
};
let mut batch = DBTransaction::new();
batch.put(db::COL_HEADERS, &hash, block.header_rlp().as_raw());
batch.put(db::COL_BODIES, &hash, &Self::block_to_body(genesis));
batch.write(db::COL_EXTRA, &hash, &details);
batch.write(db::COL_EXTRA, &header.number(), &hash);
batch.put(db::COL_EXTRA, b"best", &hash);
bc.db.key_value().write(batch).expect("Low level database error. Some issue with disk?");
hash
}
};
{
// Fetch best block details
let best_block_total_difficulty = bc.block_details(&best_block_hash).unwrap().total_difficulty;
let best_block_rlp = bc.block(&best_block_hash).unwrap();
// and write them
let mut best_block = bc.best_block.write();
*best_block = BestBlock {
total_difficulty: best_block_total_difficulty,
header: best_block_rlp.decode_header(),
block: best_block_rlp,
};
}
{
let best_block_number = bc.best_block.read().header.number();
// Fetch first and best ancient block details
let raw_first = bc.db.key_value().get(db::COL_EXTRA, b"first").unwrap().map(|v| v.into_vec());
let mut best_ancient = bc.db.key_value().get(db::COL_EXTRA, b"ancient").unwrap().map(|h| H256::from_slice(&h));
let best_ancient_number;
if best_ancient.is_none() && best_block_number > 1 && bc.block_hash(1).is_none() {
best_ancient = Some(bc.genesis_hash());
best_ancient_number = Some(0);
} else {
best_ancient_number = best_ancient.as_ref().and_then(|h| bc.block_number(h));
}
// binary search for the first block.
match raw_first {
None => {
let (mut f, mut hash) = (best_block_number, best_block_hash);
let mut l = best_ancient_number.unwrap_or(0);
loop {
if l >= f { break; }
let step = (f - l) >> 1;
let m = l + step;
match bc.block_hash(m) {
Some(h) => { f = m; hash = h },
None => { l = m + 1 },
}
}
if hash != bc.genesis_hash() {
trace!("First block calculated: {:?}", hash);
let mut batch = db.key_value().transaction();
batch.put(db::COL_EXTRA, b"first", &hash);
db.key_value().write(batch).expect("Low level database error.");
bc.first_block = Some(hash);
}
},
Some(raw_first) => {
bc.first_block = Some(H256::from_slice(&raw_first));
},
}
// and write them
if let (Some(hash), Some(number)) = (best_ancient, best_ancient_number) {
let mut best_ancient_block = bc.best_ancient_block.write();
*best_ancient_block = Some(BestAncientBlock {
hash: hash,
number: number,
});
}
}
bc
}
/// Returns true if the given parent block has given child
/// (though not necessarily a part of the canon chain).
fn is_known_child(&self, parent: &H256, hash: &H256) -> bool {
self.db.key_value().read_with_cache(db::COL_EXTRA, &self.block_details, parent).map_or(false, |d| d.children.contains(hash))
}
/// Returns a tree route between `from` and `to`, which is a tuple of:
///
/// - a vector of hashes of all blocks, ordered from `from` to `to`.
///
/// - common ancestor of these blocks.
///
/// - an index where best common ancestor would be
///
/// 1.) from newer to older
///
/// - bc: `A1 -> A2 -> A3 -> A4 -> A5`
/// - from: A5, to: A4
/// - route:
///
/// ```json
/// { blocks: [A5], ancestor: A4, index: 1 }
/// ```
///
/// 2.) from older to newer
///
/// - bc: `A1 -> A2 -> A3 -> A4 -> A5`
/// - from: A3, to: A4
/// - route:
///
/// ```json
/// { blocks: [A4], ancestor: A3, index: 0 }
/// ```
///
/// 3.) fork:
///
/// - bc:
///
/// ```text
/// A1 -> A2 -> A3 -> A4
/// -> B3 -> B4
/// ```
/// - from: B4, to: A4
/// - route:
///
/// ```json
/// { blocks: [B4, B3, A3, A4], ancestor: A2, index: 2 }
/// ```
///
/// If the tree route verges into pruned or unknown blocks,
/// `None` is returned.
pub fn tree_route(&self, from: H256, to: H256) -> Option<TreeRoute> {
let mut from_branch = vec![];
let mut is_from_route_finalized = false;
let mut to_branch = vec![];
let mut from_details = self.block_details(&from)?;
let mut to_details = self.block_details(&to)?;
let mut current_from = from;
let mut current_to = to;
// reset from && to to the same level
while from_details.number > to_details.number {
from_branch.push(current_from);
current_from = from_details.parent.clone();
from_details = self.block_details(&from_details.parent)?;
is_from_route_finalized = is_from_route_finalized || from_details.is_finalized;
}
while to_details.number > from_details.number {
to_branch.push(current_to);
current_to = to_details.parent.clone();
to_details = self.block_details(&to_details.parent)?;
}
assert_eq!(from_details.number, to_details.number);
// move to shared parent
while current_from != current_to {
from_branch.push(current_from);
current_from = from_details.parent.clone();
from_details = self.block_details(&from_details.parent)?;
is_from_route_finalized = is_from_route_finalized || from_details.is_finalized;
to_branch.push(current_to);
current_to = to_details.parent.clone();
to_details = self.block_details(&to_details.parent)?;
}
let index = from_branch.len();
from_branch.extend(to_branch.into_iter().rev());
Some(TreeRoute {
blocks: from_branch,
ancestor: current_from,
index: index,
is_from_route_finalized: is_from_route_finalized,
})
}
/// Inserts a verified, known block from the canonical chain.
///
/// Can be performed out-of-order, but care must be taken that the final chain is in a correct state.
/// This is used by snapshot restoration and when downloading missing blocks for the chain gap.
/// `is_best` forces the best block to be updated to this block.
/// `is_ancient` forces the best block of the first block sequence to be updated to this block.
/// `parent_td` is a parent total diffuculty
/// Supply a dummy parent total difficulty when the parent block may not be in the chain.
/// Returns true if the block is disconnected.
pub fn insert_unordered_block(&self, batch: &mut DBTransaction, block: encoded::Block, receipts: Vec<Receipt>, parent_td: Option<U256>, is_best: bool, is_ancient: bool) -> bool {
let block_number = block.header_view().number();
let block_parent_hash = block.header_view().parent_hash();
let block_difficulty = block.header_view().difficulty();
let hash = block.header_view().hash();
if self.is_known(&hash) {
return false;
}
assert!(self.pending_best_block.read().is_none());
let compressed_header = compress(block.header_view().rlp().as_raw(), blocks_swapper());
let compressed_body = compress(&Self::block_to_body(block.raw()), blocks_swapper());
// store block in db
batch.put(db::COL_HEADERS, &hash, &compressed_header);
batch.put(db::COL_BODIES, &hash, &compressed_body);
let maybe_parent = self.block_details(&block_parent_hash);
if let Some(parent_details) = maybe_parent {
// parent known to be in chain.
let info = BlockInfo {
hash: hash,
number: block_number,
total_difficulty: parent_details.total_difficulty + block_difficulty,
location: BlockLocation::CanonChain,
};
self.prepare_update(batch, ExtrasUpdate {
block_hashes: self.prepare_block_hashes_update(&info),
block_details: self.prepare_block_details_update(block_parent_hash, &info, false),
block_receipts: self.prepare_block_receipts_update(receipts, &info),
blocks_blooms: self.prepare_block_blooms_update(block.header_view().log_bloom(), &info),
transactions_addresses: self.prepare_transaction_addresses_update(block.view().transaction_hashes(), &info),
info: info,
block,
}, is_best);
if is_ancient {
let mut best_ancient_block = self.best_ancient_block.write();
let ancient_number = best_ancient_block.as_ref().map_or(0, |b| b.number);
if self.block_hash(block_number + 1).is_some() {
batch.delete(db::COL_EXTRA, b"ancient");
*best_ancient_block = None;
} else if block_number > ancient_number {
batch.put(db::COL_EXTRA, b"ancient", &hash);
*best_ancient_block = Some(BestAncientBlock {
hash: hash,
number: block_number,
});
}
}
false
} else {
// parent not in the chain yet. we need the parent difficulty to proceed.
let d = parent_td
.expect("parent total difficulty always supplied for first block in chunk. only first block can have missing parent; qed");
let info = BlockInfo {
hash: hash,
number: block_number,
total_difficulty: d + block_difficulty,
location: BlockLocation::CanonChain,
};
// TODO [sorpaas] support warp sync insertion of finalization and metadata.
let block_details = BlockDetails {
number: block_number,
total_difficulty: info.total_difficulty,
parent: block_parent_hash,
children: Vec::new(),
is_finalized: false,
};
let mut update = HashMap::new();
update.insert(hash, block_details);
self.prepare_update(batch, ExtrasUpdate {
block_hashes: self.prepare_block_hashes_update(&info),
block_details: update,
block_receipts: self.prepare_block_receipts_update(receipts, &info),
blocks_blooms: self.prepare_block_blooms_update(block.header_view().log_bloom(), &info),
transactions_addresses: self.prepare_transaction_addresses_update(block.view().transaction_hashes(), &info),
info: info,
block,
}, is_best);
true
}
}
/// Insert an epoch transition. Provide an epoch number being transitioned to
/// and epoch transition object.
///
/// The block the transition occurred at should have already been inserted into the chain.
pub fn insert_epoch_transition(&self, batch: &mut DBTransaction, epoch_num: u64, transition: EpochTransition) {
let mut transitions = match self.db.key_value().read(db::COL_EXTRA, &epoch_num) {
Some(existing) => existing,
None => EpochTransitions {
number: epoch_num,
candidates: Vec::with_capacity(1),
}
};
// ensure we don't write any duplicates.
if transitions.candidates.iter().find(|c| c.block_hash == transition.block_hash).is_none() {
transitions.candidates.push(transition);
batch.write(db::COL_EXTRA, &epoch_num, &transitions);
}
}
/// Iterate over all epoch transitions.
/// This will only return transitions within the canonical chain.
pub fn epoch_transitions(&self) -> EpochTransitionIter {
let iter = self.db.key_value().iter_from_prefix(db::COL_EXTRA, &EPOCH_KEY_PREFIX[..]);
EpochTransitionIter {
chain: self,
prefix_iter: iter,
}
}
/// Get a specific epoch transition by block number and provided block hash.
pub fn epoch_transition(&self, block_num: u64, block_hash: H256) -> Option<EpochTransition> {
trace!(target: "blockchain", "Loading epoch transition at block {}, {}",
block_num, block_hash);
self.db.key_value().read(db::COL_EXTRA, &block_num).and_then(|transitions: EpochTransitions| {
transitions.candidates.into_iter().find(|c| c.block_hash == block_hash)
})
}
/// Get the transition to the epoch the given parent hash is part of
/// or transitions to.
/// This will give the epoch that any children of this parent belong to.
///
/// The block corresponding the the parent hash must be stored already.
pub fn epoch_transition_for(&self, parent_hash: H256) -> Option<EpochTransition> {
// slow path: loop back block by block
for hash in self.ancestry_iter(parent_hash)? {
let details = self.block_details(&hash)?;
// look for transition in database.
if let Some(transition) = self.epoch_transition(details.number, hash) {
return Some(transition)
}
// canonical hash -> fast breakout:
// get the last epoch transition up to this block.
//
// if `block_hash` is canonical it will only return transitions up to
// the parent.
if self.block_hash(details.number)? == hash {
return self.epoch_transitions()
.map(|(_, t)| t)
.take_while(|t| t.block_number <= details.number)
.last()
}
}
// should never happen as the loop will encounter genesis before concluding.
None
}
/// Write a pending epoch transition by block hash.
pub fn insert_pending_transition(&self, batch: &mut DBTransaction, hash: H256, t: PendingEpochTransition) {
batch.write(db::COL_EXTRA, &hash, &t);
}
/// Get a pending epoch transition by block hash.
// TODO: implement removal safely: this can only be done upon finality of a block
// that _uses_ the pending transition.
pub fn get_pending_transition(&self, hash: H256) -> Option<PendingEpochTransition> {
self.db.key_value().read(db::COL_EXTRA, &hash)
}
/// Add a child to a given block. Assumes that the block hash is in
/// the chain and the child's parent is this block.
///
/// Used in snapshots to glue the chunks together at the end.
pub fn add_child(&self, batch: &mut DBTransaction, block_hash: H256, child_hash: H256) {
let mut parent_details = self.block_details(&block_hash)
.unwrap_or_else(|| panic!("Invalid block hash: {:?}", block_hash));
parent_details.children.push(child_hash);
let mut update = HashMap::new();
update.insert(block_hash, parent_details);
let mut write_details = self.block_details.write();
batch.extend_with_cache(db::COL_EXTRA, &mut *write_details, update, CacheUpdatePolicy::Overwrite);
self.cache_man.lock().note_used(CacheId::BlockDetails(block_hash));
}
/// Inserts the block into backing cache database.
/// Expects the block to be valid and already verified.
/// If the block is already known, does nothing.
pub fn insert_block(&self, batch: &mut DBTransaction, block: encoded::Block, receipts: Vec<Receipt>, extras: ExtrasInsert) -> ImportRoute {
let parent_hash = block.header_view().parent_hash();
let best_hash = self.best_block_hash();
let route = self.tree_route(best_hash, parent_hash).expect("forks are only kept when it has common ancestors; tree route from best to prospective's parent always exists; qed");
self.insert_block_with_route(batch, block, receipts, route, extras)
}
/// Inserts the block into backing cache database with already generated route information.
/// Expects the block to be valid and already verified and route is tree route information from current best block to new block's parent.
/// If the block is already known, does nothing.
pub fn insert_block_with_route(&self, batch: &mut DBTransaction, block: encoded::Block, receipts: Vec<Receipt>, route: TreeRoute, extras: ExtrasInsert) -> ImportRoute {
let hash = block.header_view().hash();
let parent_hash = block.header_view().parent_hash();
if self.is_known_child(&parent_hash, &hash) {
return ImportRoute::none();
}
assert!(self.pending_best_block.read().is_none());
let compressed_header = compress(block.header_view().rlp().as_raw(), blocks_swapper());
let compressed_body = compress(&Self::block_to_body(block.raw()), blocks_swapper());
// store block in db
batch.put(db::COL_HEADERS, &hash, &compressed_header);
batch.put(db::COL_BODIES, &hash, &compressed_body);
let info = self.block_info(&block.header_view(), route, &extras);
if let BlockLocation::BranchBecomingCanonChain(ref d) = info.location {
info!(target: "reorg", "Reorg to {} ({} {} {})",
Colour::Yellow.bold().paint(format!("#{} {}", info.number, info.hash)),
Colour::Red.paint(d.retracted.iter().join(" ")),
Colour::White.paint(format!("#{} {}", self.block_details(&d.ancestor).expect("`ancestor` is in the route; qed").number, d.ancestor)),
Colour::Green.paint(d.enacted.iter().join(" "))
);
}
self.prepare_update(batch, ExtrasUpdate {
block_hashes: self.prepare_block_hashes_update(&info),
block_details: self.prepare_block_details_update(parent_hash, &info, extras.is_finalized),
block_receipts: self.prepare_block_receipts_update(receipts, &info),
blocks_blooms: self.prepare_block_blooms_update(block.header_view().log_bloom(), &info),
transactions_addresses: self.prepare_transaction_addresses_update(block.view().transaction_hashes(), &info),
info: info.clone(),
block,
}, true);
ImportRoute::from(info)
}