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// Copyright 2014 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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// Package core implements the Ethereum consensus protocol.
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package core
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import (
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"errors"
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"fmt"
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"io"
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"math/big"
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mrand "math/rand"
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"sync"
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"sync/atomic"
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"time"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/mclock"
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"github.com/ethereum/go-ethereum/common/prque"
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"github.com/ethereum/go-ethereum/consensus"
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"github.com/ethereum/go-ethereum/core/rawdb"
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"github.com/ethereum/go-ethereum/core/state"
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"github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/core/vm"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/event"
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"github.com/ethereum/go-ethereum/log"
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"github.com/ethereum/go-ethereum/metrics"
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"github.com/ethereum/go-ethereum/params"
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"github.com/ethereum/go-ethereum/rlp"
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"github.com/ethereum/go-ethereum/trie"
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"github.com/hashicorp/golang-lru"
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)
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var (
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blockInsertTimer = metrics . NewRegisteredTimer ( "chain/inserts" , nil )
blockValidationTimer = metrics . NewRegisteredTimer ( "chain/validation" , nil )
blockExecutionTimer = metrics . NewRegisteredTimer ( "chain/execution" , nil )
blockWriteTimer = metrics . NewRegisteredTimer ( "chain/write" , nil )
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ErrNoGenesis = errors . New ( "Genesis not found in chain" )
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)
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const (
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bodyCacheLimit = 256
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blockCacheLimit = 256
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receiptsCacheLimit = 32
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maxFutureBlocks = 256
maxTimeFutureBlocks = 30
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badBlockLimit = 10
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triesInMemory = 128
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// BlockChainVersion ensures that an incompatible database forces a resync from scratch.
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BlockChainVersion = 3
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)
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// CacheConfig contains the configuration values for the trie caching/pruning
// that's resident in a blockchain.
type CacheConfig struct {
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Disabled bool // Whether to disable trie write caching (archive node)
TrieCleanLimit int // Memory allowance (MB) to use for caching trie nodes in memory
TrieDirtyLimit int // Memory limit (MB) at which to start flushing dirty trie nodes to disk
TrieTimeLimit time . Duration // Time limit after which to flush the current in-memory trie to disk
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}
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// BlockChain represents the canonical chain given a database with a genesis
// block. The Blockchain manages chain imports, reverts, chain reorganisations.
//
// Importing blocks in to the block chain happens according to the set of rules
// defined by the two stage Validator. Processing of blocks is done using the
// Processor which processes the included transaction. The validation of the state
// is done in the second part of the Validator. Failing results in aborting of
// the import.
//
// The BlockChain also helps in returning blocks from **any** chain included
// in the database as well as blocks that represents the canonical chain. It's
// important to note that GetBlock can return any block and does not need to be
// included in the canonical one where as GetBlockByNumber always represents the
// canonical chain.
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type BlockChain struct {
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chainConfig * params . ChainConfig // Chain & network configuration
cacheConfig * CacheConfig // Cache configuration for pruning
db ethdb . Database // Low level persistent database to store final content in
triegc * prque . Prque // Priority queue mapping block numbers to tries to gc
gcproc time . Duration // Accumulates canonical block processing for trie dumping
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hc * HeaderChain
rmLogsFeed event . Feed
chainFeed event . Feed
chainSideFeed event . Feed
chainHeadFeed event . Feed
logsFeed event . Feed
scope event . SubscriptionScope
genesisBlock * types . Block
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mu sync . RWMutex // global mutex for locking chain operations
chainmu sync . RWMutex // blockchain insertion lock
procmu sync . RWMutex // block processor lock
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checkpoint int // checkpoint counts towards the new checkpoint
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currentBlock atomic . Value // Current head of the block chain
currentFastBlock atomic . Value // Current head of the fast-sync chain (may be above the block chain!)
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stateCache state . Database // State database to reuse between imports (contains state cache)
bodyCache * lru . Cache // Cache for the most recent block bodies
bodyRLPCache * lru . Cache // Cache for the most recent block bodies in RLP encoded format
receiptsCache * lru . Cache // Cache for the most recent receipts per block
blockCache * lru . Cache // Cache for the most recent entire blocks
futureBlocks * lru . Cache // future blocks are blocks added for later processing
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quit chan struct { } // blockchain quit channel
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running int32 // running must be called atomically
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// procInterrupt must be atomically called
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procInterrupt int32 // interrupt signaler for block processing
wg sync . WaitGroup // chain processing wait group for shutting down
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engine consensus . Engine
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processor Processor // block processor interface
validator Validator // block and state validator interface
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vmConfig vm . Config
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badBlocks * lru . Cache // Bad block cache
shouldPreserve func ( * types . Block ) bool // Function used to determine whether should preserve the given block.
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}
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// NewBlockChain returns a fully initialised block chain using information
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// available in the database. It initialises the default Ethereum Validator and
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// Processor.
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func NewBlockChain ( db ethdb . Database , cacheConfig * CacheConfig , chainConfig * params . ChainConfig , engine consensus . Engine , vmConfig vm . Config , shouldPreserve func ( block * types . Block ) bool ) ( * BlockChain , error ) {
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if cacheConfig == nil {
cacheConfig = & CacheConfig {
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TrieCleanLimit : 256 ,
TrieDirtyLimit : 256 ,
TrieTimeLimit : 5 * time . Minute ,
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}
}
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bodyCache , _ := lru . New ( bodyCacheLimit )
bodyRLPCache , _ := lru . New ( bodyCacheLimit )
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receiptsCache , _ := lru . New ( receiptsCacheLimit )
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blockCache , _ := lru . New ( blockCacheLimit )
futureBlocks , _ := lru . New ( maxFutureBlocks )
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badBlocks , _ := lru . New ( badBlockLimit )
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bc := & BlockChain {
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chainConfig : chainConfig ,
cacheConfig : cacheConfig ,
db : db ,
triegc : prque . New ( nil ) ,
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stateCache : state . NewDatabaseWithCache ( db , cacheConfig . TrieCleanLimit ) ,
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quit : make ( chan struct { } ) ,
shouldPreserve : shouldPreserve ,
bodyCache : bodyCache ,
bodyRLPCache : bodyRLPCache ,
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receiptsCache : receiptsCache ,
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blockCache : blockCache ,
futureBlocks : futureBlocks ,
engine : engine ,
vmConfig : vmConfig ,
badBlocks : badBlocks ,
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}
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bc . SetValidator ( NewBlockValidator ( chainConfig , bc , engine ) )
bc . SetProcessor ( NewStateProcessor ( chainConfig , bc , engine ) )
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var err error
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bc . hc , err = NewHeaderChain ( db , chainConfig , engine , bc . getProcInterrupt )
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if err != nil {
return nil , err
}
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bc . genesisBlock = bc . GetBlockByNumber ( 0 )
if bc . genesisBlock == nil {
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return nil , ErrNoGenesis
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}
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if err := bc . loadLastState ( ) ; err != nil {
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return nil , err
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}
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// Check the current state of the block hashes and make sure that we do not have any of the bad blocks in our chain
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for hash := range BadHashes {
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if header := bc . GetHeaderByHash ( hash ) ; header != nil {
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// get the canonical block corresponding to the offending header's number
headerByNumber := bc . GetHeaderByNumber ( header . Number . Uint64 ( ) )
// make sure the headerByNumber (if present) is in our current canonical chain
if headerByNumber != nil && headerByNumber . Hash ( ) == header . Hash ( ) {
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log . Error ( "Found bad hash, rewinding chain" , "number" , header . Number , "hash" , header . ParentHash )
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bc . SetHead ( header . Number . Uint64 ( ) - 1 )
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log . Error ( "Chain rewind was successful, resuming normal operation" )
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}
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}
}
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// Take ownership of this particular state
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go bc . update ( )
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return bc , nil
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}
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func ( bc * BlockChain ) getProcInterrupt ( ) bool {
return atomic . LoadInt32 ( & bc . procInterrupt ) == 1
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}
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// loadLastState loads the last known chain state from the database. This method
// assumes that the chain manager mutex is held.
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func ( bc * BlockChain ) loadLastState ( ) error {
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// Restore the last known head block
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head := rawdb . ReadHeadBlockHash ( bc . db )
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if head == ( common . Hash { } ) {
// Corrupt or empty database, init from scratch
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log . Warn ( "Empty database, resetting chain" )
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return bc . Reset ( )
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}
// Make sure the entire head block is available
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currentBlock := bc . GetBlockByHash ( head )
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if currentBlock == nil {
// Corrupt or empty database, init from scratch
log . Warn ( "Head block missing, resetting chain" , "hash" , head )
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return bc . Reset ( )
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}
// Make sure the state associated with the block is available
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if _ , err := state . New ( currentBlock . Root ( ) , bc . stateCache ) ; err != nil {
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// Dangling block without a state associated, init from scratch
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log . Warn ( "Head state missing, repairing chain" , "number" , currentBlock . Number ( ) , "hash" , currentBlock . Hash ( ) )
if err := bc . repair ( & currentBlock ) ; err != nil {
return err
}
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}
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// Everything seems to be fine, set as the head block
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bc . currentBlock . Store ( currentBlock )
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// Restore the last known head header
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currentHeader := currentBlock . Header ( )
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if head := rawdb . ReadHeadHeaderHash ( bc . db ) ; head != ( common . Hash { } ) {
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if header := bc . GetHeaderByHash ( head ) ; header != nil {
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currentHeader = header
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}
}
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bc . hc . SetCurrentHeader ( currentHeader )
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// Restore the last known head fast block
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bc . currentFastBlock . Store ( currentBlock )
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if head := rawdb . ReadHeadFastBlockHash ( bc . db ) ; head != ( common . Hash { } ) {
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if block := bc . GetBlockByHash ( head ) ; block != nil {
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bc . currentFastBlock . Store ( block )
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}
}
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// Issue a status log for the user
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currentFastBlock := bc . CurrentFastBlock ( )
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headerTd := bc . GetTd ( currentHeader . Hash ( ) , currentHeader . Number . Uint64 ( ) )
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blockTd := bc . GetTd ( currentBlock . Hash ( ) , currentBlock . NumberU64 ( ) )
fastTd := bc . GetTd ( currentFastBlock . Hash ( ) , currentFastBlock . NumberU64 ( ) )
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log . Info ( "Loaded most recent local header" , "number" , currentHeader . Number , "hash" , currentHeader . Hash ( ) , "td" , headerTd , "age" , common . PrettyAge ( time . Unix ( currentHeader . Time . Int64 ( ) , 0 ) ) )
log . Info ( "Loaded most recent local full block" , "number" , currentBlock . Number ( ) , "hash" , currentBlock . Hash ( ) , "td" , blockTd , "age" , common . PrettyAge ( time . Unix ( currentBlock . Time ( ) . Int64 ( ) , 0 ) ) )
log . Info ( "Loaded most recent local fast block" , "number" , currentFastBlock . Number ( ) , "hash" , currentFastBlock . Hash ( ) , "td" , fastTd , "age" , common . PrettyAge ( time . Unix ( currentFastBlock . Time ( ) . Int64 ( ) , 0 ) ) )
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return nil
}
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// SetHead rewinds the local chain to a new head. In the case of headers, everything
// above the new head will be deleted and the new one set. In the case of blocks
// though, the head may be further rewound if block bodies are missing (non-archive
// nodes after a fast sync).
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func ( bc * BlockChain ) SetHead ( head uint64 ) error {
log . Warn ( "Rewinding blockchain" , "target" , head )
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bc . mu . Lock ( )
defer bc . mu . Unlock ( )
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// Rewind the header chain, deleting all block bodies until then
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delFn := func ( db rawdb . DatabaseDeleter , hash common . Hash , num uint64 ) {
rawdb . DeleteBody ( db , hash , num )
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}
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bc . hc . SetHead ( head , delFn )
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currentHeader := bc . hc . CurrentHeader ( )
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// Clear out any stale content from the caches
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bc . bodyCache . Purge ( )
bc . bodyRLPCache . Purge ( )
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bc . receiptsCache . Purge ( )
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bc . blockCache . Purge ( )
bc . futureBlocks . Purge ( )
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// Rewind the block chain, ensuring we don't end up with a stateless head block
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if currentBlock := bc . CurrentBlock ( ) ; currentBlock != nil && currentHeader . Number . Uint64 ( ) < currentBlock . NumberU64 ( ) {
bc . currentBlock . Store ( bc . GetBlock ( currentHeader . Hash ( ) , currentHeader . Number . Uint64 ( ) ) )
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}
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if currentBlock := bc . CurrentBlock ( ) ; currentBlock != nil {
if _ , err := state . New ( currentBlock . Root ( ) , bc . stateCache ) ; err != nil {
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// Rewound state missing, rolled back to before pivot, reset to genesis
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bc . currentBlock . Store ( bc . genesisBlock )
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}
}
// Rewind the fast block in a simpleton way to the target head
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if currentFastBlock := bc . CurrentFastBlock ( ) ; currentFastBlock != nil && currentHeader . Number . Uint64 ( ) < currentFastBlock . NumberU64 ( ) {
bc . currentFastBlock . Store ( bc . GetBlock ( currentHeader . Hash ( ) , currentHeader . Number . Uint64 ( ) ) )
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}
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// If either blocks reached nil, reset to the genesis state
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if currentBlock := bc . CurrentBlock ( ) ; currentBlock == nil {
bc . currentBlock . Store ( bc . genesisBlock )
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}
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if currentFastBlock := bc . CurrentFastBlock ( ) ; currentFastBlock == nil {
bc . currentFastBlock . Store ( bc . genesisBlock )
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}
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currentBlock := bc . CurrentBlock ( )
currentFastBlock := bc . CurrentFastBlock ( )
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rawdb . WriteHeadBlockHash ( bc . db , currentBlock . Hash ( ) )
rawdb . WriteHeadFastBlockHash ( bc . db , currentFastBlock . Hash ( ) )
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return bc . loadLastState ( )
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}
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// FastSyncCommitHead sets the current head block to the one defined by the hash
// irrelevant what the chain contents were prior.
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func ( bc * BlockChain ) FastSyncCommitHead ( hash common . Hash ) error {
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// Make sure that both the block as well at its state trie exists
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block := bc . GetBlockByHash ( hash )
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if block == nil {
return fmt . Errorf ( "non existent block [%x…]" , hash [ : 4 ] )
}
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if _ , err := trie . NewSecure ( block . Root ( ) , bc . stateCache . TrieDB ( ) , 0 ) ; err != nil {
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return err
}
// If all checks out, manually set the head block
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bc . mu . Lock ( )
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bc . currentBlock . Store ( block )
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bc . mu . Unlock ( )
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log . Info ( "Committed new head block" , "number" , block . Number ( ) , "hash" , hash )
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return nil
}
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// GasLimit returns the gas limit of the current HEAD block.
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func ( bc * BlockChain ) GasLimit ( ) uint64 {
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return bc . CurrentBlock ( ) . GasLimit ( )
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}
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// CurrentBlock retrieves the current head block of the canonical chain. The
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// block is retrieved from the blockchain's internal cache.
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func ( bc * BlockChain ) CurrentBlock ( ) * types . Block {
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return bc . currentBlock . Load ( ) . ( * types . Block )
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}
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// CurrentFastBlock retrieves the current fast-sync head block of the canonical
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// chain. The block is retrieved from the blockchain's internal cache.
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func ( bc * BlockChain ) CurrentFastBlock ( ) * types . Block {
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return bc . currentFastBlock . Load ( ) . ( * types . Block )
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}
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// SetProcessor sets the processor required for making state modifications.
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func ( bc * BlockChain ) SetProcessor ( processor Processor ) {
bc . procmu . Lock ( )
defer bc . procmu . Unlock ( )
bc . processor = processor
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}
// SetValidator sets the validator which is used to validate incoming blocks.
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func ( bc * BlockChain ) SetValidator ( validator Validator ) {
bc . procmu . Lock ( )
defer bc . procmu . Unlock ( )
bc . validator = validator
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}
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// Validator returns the current validator.
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func ( bc * BlockChain ) Validator ( ) Validator {
bc . procmu . RLock ( )
defer bc . procmu . RUnlock ( )
return bc . validator
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}
// Processor returns the current processor.
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func ( bc * BlockChain ) Processor ( ) Processor {
bc . procmu . RLock ( )
defer bc . procmu . RUnlock ( )
return bc . processor
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}
// State returns a new mutable state based on the current HEAD block.
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func ( bc * BlockChain ) State ( ) ( * state . StateDB , error ) {
return bc . StateAt ( bc . CurrentBlock ( ) . Root ( ) )
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}
// StateAt returns a new mutable state based on a particular point in time.
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func ( bc * BlockChain ) StateAt ( root common . Hash ) ( * state . StateDB , error ) {
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return state . New ( root , bc . stateCache )
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}
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// StateCache returns the caching database underpinning the blockchain instance.
func ( bc * BlockChain ) StateCache ( ) state . Database {
return bc . stateCache
}
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// Reset purges the entire blockchain, restoring it to its genesis state.
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func ( bc * BlockChain ) Reset ( ) error {
return bc . ResetWithGenesisBlock ( bc . genesisBlock )
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}
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// ResetWithGenesisBlock purges the entire blockchain, restoring it to the
// specified genesis state.
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func ( bc * BlockChain ) ResetWithGenesisBlock ( genesis * types . Block ) error {
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// Dump the entire block chain and purge the caches
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if err := bc . SetHead ( 0 ) ; err != nil {
return err
}
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bc . mu . Lock ( )
defer bc . mu . Unlock ( )
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// Prepare the genesis block and reinitialise the chain
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if err := bc . hc . WriteTd ( genesis . Hash ( ) , genesis . NumberU64 ( ) , genesis . Difficulty ( ) ) ; err != nil {
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log . Crit ( "Failed to write genesis block TD" , "err" , err )
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}
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rawdb . WriteBlock ( bc . db , genesis )
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bc . genesisBlock = genesis
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bc . insert ( bc . genesisBlock )
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bc . currentBlock . Store ( bc . genesisBlock )
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bc . hc . SetGenesis ( bc . genesisBlock . Header ( ) )
bc . hc . SetCurrentHeader ( bc . genesisBlock . Header ( ) )
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bc . currentFastBlock . Store ( bc . genesisBlock )
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return nil
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}
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// repair tries to repair the current blockchain by rolling back the current block
// until one with associated state is found. This is needed to fix incomplete db
// writes caused either by crashes/power outages, or simply non-committed tries.
//
// This method only rolls back the current block. The current header and current
// fast block are left intact.
func ( bc * BlockChain ) repair ( head * * types . Block ) error {
for {
// Abort if we've rewound to a head block that does have associated state
if _ , err := state . New ( ( * head ) . Root ( ) , bc . stateCache ) ; err == nil {
log . Info ( "Rewound blockchain to past state" , "number" , ( * head ) . Number ( ) , "hash" , ( * head ) . Hash ( ) )
return nil
}
// Otherwise rewind one block and recheck state availability there
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block := bc . GetBlock ( ( * head ) . ParentHash ( ) , ( * head ) . NumberU64 ( ) - 1 )
if block == nil {
return fmt . Errorf ( "missing block %d [%x]" , ( * head ) . NumberU64 ( ) - 1 , ( * head ) . ParentHash ( ) )
}
( * head ) = block
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}
}
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// Export writes the active chain to the given writer.
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func ( bc * BlockChain ) Export ( w io . Writer ) error {
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return bc . ExportN ( w , uint64 ( 0 ) , bc . CurrentBlock ( ) . NumberU64 ( ) )
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}
// ExportN writes a subset of the active chain to the given writer.
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func ( bc * BlockChain ) ExportN ( w io . Writer , first uint64 , last uint64 ) error {
bc . mu . RLock ( )
defer bc . mu . RUnlock ( )
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if first > last {
return fmt . Errorf ( "export failed: first (%d) is greater than last (%d)" , first , last )
}
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log . Info ( "Exporting batch of blocks" , "count" , last - first + 1 )
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start , reported := time . Now ( ) , time . Now ( )
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for nr := first ; nr <= last ; nr ++ {
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block := bc . GetBlockByNumber ( nr )
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if block == nil {
return fmt . Errorf ( "export failed on #%d: not found" , nr )
}
if err := block . EncodeRLP ( w ) ; err != nil {
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return err
}
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if time . Since ( reported ) >= statsReportLimit {
log . Info ( "Exporting blocks" , "exported" , block . NumberU64 ( ) - first , "elapsed" , common . PrettyDuration ( time . Since ( start ) ) )
reported = time . Now ( )
}
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}
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return nil
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}
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// insert injects a new head block into the current block chain. This method
// assumes that the block is indeed a true head. It will also reset the head
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// header and the head fast sync block to this very same block if they are older
// or if they are on a different side chain.
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//
// Note, this function assumes that the `mu` mutex is held!
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func ( bc * BlockChain ) insert ( block * types . Block ) {
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// If the block is on a side chain or an unknown one, force other heads onto it too
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updateHeads := rawdb . ReadCanonicalHash ( bc . db , block . NumberU64 ( ) ) != block . Hash ( )
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// Add the block to the canonical chain number scheme and mark as the head
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rawdb . WriteCanonicalHash ( bc . db , block . Hash ( ) , block . NumberU64 ( ) )
rawdb . WriteHeadBlockHash ( bc . db , block . Hash ( ) )
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bc . currentBlock . Store ( block )
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// If the block is better than our head or is on a different chain, force update heads
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if updateHeads {
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bc . hc . SetCurrentHeader ( block . Header ( ) )
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rawdb . WriteHeadFastBlockHash ( bc . db , block . Hash ( ) )
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bc . currentFastBlock . Store ( block )
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}
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}
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// Genesis retrieves the chain's genesis block.
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func ( bc * BlockChain ) Genesis ( ) * types . Block {
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return bc . genesisBlock
}
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// GetBody retrieves a block body (transactions and uncles) from the database by
// hash, caching it if found.
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func ( bc * BlockChain ) GetBody ( hash common . Hash ) * types . Body {
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// Short circuit if the body's already in the cache, retrieve otherwise
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if cached , ok := bc . bodyCache . Get ( hash ) ; ok {
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body := cached . ( * types . Body )
return body
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}
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number := bc . hc . GetBlockNumber ( hash )
if number == nil {
return nil
}
body := rawdb . ReadBody ( bc . db , hash , * number )
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if body == nil {
return nil
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}
// Cache the found body for next time and return
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bc . bodyCache . Add ( hash , body )
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return body
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}
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// GetBodyRLP retrieves a block body in RLP encoding from the database by hash,
// caching it if found.
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func ( bc * BlockChain ) GetBodyRLP ( hash common . Hash ) rlp . RawValue {
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// Short circuit if the body's already in the cache, retrieve otherwise
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if cached , ok := bc . bodyRLPCache . Get ( hash ) ; ok {
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return cached . ( rlp . RawValue )
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}
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number := bc . hc . GetBlockNumber ( hash )
if number == nil {
return nil
}
body := rawdb . ReadBodyRLP ( bc . db , hash , * number )
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if len ( body ) == 0 {
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return nil
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}
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// Cache the found body for next time and return
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bc . bodyRLPCache . Add ( hash , body )
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return body
}
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// HasBlock checks if a block is fully present in the database or not.
func ( bc * BlockChain ) HasBlock ( hash common . Hash , number uint64 ) bool {
if bc . blockCache . Contains ( hash ) {
return true
}
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return rawdb . HasBody ( bc . db , hash , number )
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}
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// HasFastBlock checks if a fast block is fully present in the database or not.
func ( bc * BlockChain ) HasFastBlock ( hash common . Hash , number uint64 ) bool {
if ! bc . HasBlock ( hash , number ) {
return false
}
if bc . receiptsCache . Contains ( hash ) {
return true
}
return rawdb . HasReceipts ( bc . db , hash , number )
}
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// HasState checks if state trie is fully present in the database or not.
func ( bc * BlockChain ) HasState ( hash common . Hash ) bool {
_ , err := bc . stateCache . OpenTrie ( hash )
return err == nil
}
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// HasBlockAndState checks if a block and associated state trie is fully present
// in the database or not, caching it if present.
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func ( bc * BlockChain ) HasBlockAndState ( hash common . Hash , number uint64 ) bool {
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// Check first that the block itself is known
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block := bc . GetBlock ( hash , number )
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if block == nil {
return false
}
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return bc . HasState ( block . Root ( ) )
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}
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// GetBlock retrieves a block from the database by hash and number,
// caching it if found.
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func ( bc * BlockChain ) GetBlock ( hash common . Hash , number uint64 ) * types . Block {
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// Short circuit if the block's already in the cache, retrieve otherwise
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if block , ok := bc . blockCache . Get ( hash ) ; ok {
2015-06-19 09:21:20 -05:00
return block . ( * types . Block )
}
2018-05-07 06:35:06 -05:00
block := rawdb . ReadBlock ( bc . db , hash , number )
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if block == nil {
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return nil
}
2015-08-31 12:21:02 -05:00
// Cache the found block for next time and return
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bc . blockCache . Add ( block . Hash ( ) , block )
2015-08-31 12:21:02 -05:00
return block
2014-02-14 16:56:09 -06:00
}
2016-04-05 08:22:04 -05:00
// GetBlockByHash retrieves a block from the database by hash, caching it if found.
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func ( bc * BlockChain ) GetBlockByHash ( hash common . Hash ) * types . Block {
2018-05-07 06:35:06 -05:00
number := bc . hc . GetBlockNumber ( hash )
if number == nil {
return nil
}
return bc . GetBlock ( hash , * number )
2016-04-05 08:22:04 -05:00
}
2015-08-31 12:21:02 -05:00
// GetBlockByNumber retrieves a block from the database by number, caching it
// (associated with its hash) if found.
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func ( bc * BlockChain ) GetBlockByNumber ( number uint64 ) * types . Block {
2018-05-07 06:35:06 -05:00
hash := rawdb . ReadCanonicalHash ( bc . db , number )
2015-08-31 12:21:02 -05:00
if hash == ( common . Hash { } ) {
return nil
}
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return bc . GetBlock ( hash , number )
2015-08-31 12:21:02 -05:00
}
2015-04-18 14:23:42 -05:00
2018-02-05 10:40:32 -06:00
// GetReceiptsByHash retrieves the receipts for all transactions in a given block.
func ( bc * BlockChain ) GetReceiptsByHash ( hash common . Hash ) types . Receipts {
2018-09-29 15:53:31 -05:00
if receipts , ok := bc . receiptsCache . Get ( hash ) ; ok {
return receipts . ( types . Receipts )
}
2018-05-07 06:35:06 -05:00
number := rawdb . ReadHeaderNumber ( bc . db , hash )
if number == nil {
return nil
}
2018-09-29 15:53:31 -05:00
receipts := rawdb . ReadReceipts ( bc . db , hash , * number )
bc . receiptsCache . Add ( hash , receipts )
return receipts
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}
2015-06-16 05:41:50 -05:00
// GetBlocksFromHash returns the block corresponding to hash and up to n-1 ancestors.
2017-05-10 20:55:48 -05:00
// [deprecated by eth/62]
func ( bc * BlockChain ) GetBlocksFromHash ( hash common . Hash , n int ) ( blocks [ ] * types . Block ) {
number := bc . hc . GetBlockNumber ( hash )
2018-05-07 06:35:06 -05:00
if number == nil {
return nil
}
2015-06-16 05:41:50 -05:00
for i := 0 ; i < n ; i ++ {
2018-05-07 06:35:06 -05:00
block := bc . GetBlock ( hash , * number )
2015-06-16 05:41:50 -05:00
if block == nil {
break
}
blocks = append ( blocks , block )
hash = block . ParentHash ( )
2018-05-07 06:35:06 -05:00
* number --
2015-06-16 05:41:50 -05:00
}
return
}
2015-09-21 07:36:29 -05:00
// GetUnclesInChain retrieves all the uncles from a given block backwards until
// a specific distance is reached.
2017-05-10 20:55:48 -05:00
func ( bc * BlockChain ) GetUnclesInChain ( block * types . Block , length int ) [ ] * types . Header {
2015-09-21 07:36:29 -05:00
uncles := [ ] * types . Header { }
2015-01-09 10:38:35 -06:00
for i := 0 ; block != nil && i < length ; i ++ {
uncles = append ( uncles , block . Uncles ( ) ... )
2017-05-10 20:55:48 -05:00
block = bc . GetBlock ( block . ParentHash ( ) , block . NumberU64 ( ) - 1 )
2015-01-09 10:38:35 -06:00
}
2015-09-21 07:36:29 -05:00
return uncles
2014-11-17 05:12:55 -06:00
}
2014-09-26 06:32:54 -05:00
2018-02-05 10:40:32 -06:00
// TrieNode retrieves a blob of data associated with a trie node (or code hash)
// either from ephemeral in-memory cache, or from persistent storage.
func ( bc * BlockChain ) TrieNode ( hash common . Hash ) ( [ ] byte , error ) {
return bc . stateCache . TrieDB ( ) . Node ( hash )
}
2015-10-19 09:08:17 -05:00
// Stop stops the blockchain service. If any imports are currently in progress
// it will abort them using the procInterrupt.
2015-08-31 10:09:50 -05:00
func ( bc * BlockChain ) Stop ( ) {
2015-08-01 05:32:28 -05:00
if ! atomic . CompareAndSwapInt32 ( & bc . running , 0 , 1 ) {
return
}
2017-08-18 05:58:36 -05:00
// Unsubscribe all subscriptions registered from blockchain
bc . scope . Close ( )
2015-03-06 08:50:44 -06:00
close ( bc . quit )
2015-06-12 09:45:53 -05:00
atomic . StoreInt32 ( & bc . procInterrupt , 1 )
2015-04-30 10:50:23 -05:00
bc . wg . Wait ( )
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// Ensure the state of a recent block is also stored to disk before exiting.
2018-02-23 06:02:33 -06:00
// We're writing three different states to catch different restart scenarios:
// - HEAD: So we don't need to reprocess any blocks in the general case
// - HEAD-1: So we don't do large reorgs if our HEAD becomes an uncle
// - HEAD-127: So we have a hard limit on the number of blocks reexecuted
2018-02-05 10:40:32 -06:00
if ! bc . cacheConfig . Disabled {
triedb := bc . stateCache . TrieDB ( )
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for _ , offset := range [ ] uint64 { 0 , 1 , triesInMemory - 1 } {
if number := bc . CurrentBlock ( ) . NumberU64 ( ) ; number > offset {
recent := bc . GetBlockByNumber ( number - offset )
log . Info ( "Writing cached state to disk" , "block" , recent . Number ( ) , "hash" , recent . Hash ( ) , "root" , recent . Root ( ) )
if err := triedb . Commit ( recent . Root ( ) , true ) ; err != nil {
log . Error ( "Failed to commit recent state trie" , "err" , err )
}
2018-02-05 10:40:32 -06:00
}
}
for ! bc . triegc . Empty ( ) {
2018-06-21 04:28:05 -05:00
triedb . Dereference ( bc . triegc . PopItem ( ) . ( common . Hash ) )
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}
2018-06-04 02:47:43 -05:00
if size , _ := triedb . Size ( ) ; size != 0 {
2018-02-05 10:40:32 -06:00
log . Error ( "Dangling trie nodes after full cleanup" )
}
}
2017-02-28 05:35:17 -06:00
log . Info ( "Blockchain manager stopped" )
2015-03-06 08:50:44 -06:00
}
2017-05-10 20:55:48 -05:00
func ( bc * BlockChain ) procFutureBlocks ( ) {
blocks := make ( [ ] * types . Block , 0 , bc . futureBlocks . Len ( ) )
for _ , hash := range bc . futureBlocks . Keys ( ) {
if block , exist := bc . futureBlocks . Peek ( hash ) ; exist {
2016-03-08 08:55:27 -06:00
blocks = append ( blocks , block . ( * types . Block ) )
}
2015-06-29 15:42:13 -05:00
}
2015-05-29 11:55:42 -05:00
if len ( blocks ) > 0 {
types . BlockBy ( types . Number ) . Sort ( blocks )
2016-12-13 08:14:33 -06:00
// Insert one by one as chain insertion needs contiguous ancestry between blocks
for i := range blocks {
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bc . InsertChain ( blocks [ i : i + 1 ] )
2016-12-13 08:14:33 -06:00
}
2015-05-29 11:55:42 -05:00
}
2015-04-04 09:35:23 -05:00
}
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// WriteStatus status of write
2015-12-15 21:26:23 -06:00
type WriteStatus byte
2015-06-29 05:12:30 -05:00
const (
2015-12-15 21:26:23 -06:00
NonStatTy WriteStatus = iota
2015-07-03 04:24:42 -05:00
CanonStatTy
SideStatTy
2015-06-29 05:12:30 -05:00
)
2015-10-09 08:21:47 -05:00
// Rollback is designed to remove a chain of links from the database that aren't
// certain enough to be valid.
2017-05-10 20:55:48 -05:00
func ( bc * BlockChain ) Rollback ( chain [ ] common . Hash ) {
bc . mu . Lock ( )
defer bc . mu . Unlock ( )
2015-10-13 04:04:25 -05:00
2015-10-09 08:21:47 -05:00
for i := len ( chain ) - 1 ; i >= 0 ; i -- {
hash := chain [ i ]
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currentHeader := bc . hc . CurrentHeader ( )
2016-04-05 08:22:04 -05:00
if currentHeader . Hash ( ) == hash {
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bc . hc . SetCurrentHeader ( bc . GetHeader ( currentHeader . ParentHash , currentHeader . Number . Uint64 ( ) - 1 ) )
2015-10-09 08:21:47 -05:00
}
2018-02-26 03:53:10 -06:00
if currentFastBlock := bc . CurrentFastBlock ( ) ; currentFastBlock . Hash ( ) == hash {
newFastBlock := bc . GetBlock ( currentFastBlock . ParentHash ( ) , currentFastBlock . NumberU64 ( ) - 1 )
bc . currentFastBlock . Store ( newFastBlock )
2018-05-07 06:35:06 -05:00
rawdb . WriteHeadFastBlockHash ( bc . db , newFastBlock . Hash ( ) )
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}
2018-02-26 03:53:10 -06:00
if currentBlock := bc . CurrentBlock ( ) ; currentBlock . Hash ( ) == hash {
newBlock := bc . GetBlock ( currentBlock . ParentHash ( ) , currentBlock . NumberU64 ( ) - 1 )
bc . currentBlock . Store ( newBlock )
2018-05-07 06:35:06 -05:00
rawdb . WriteHeadBlockHash ( bc . db , newBlock . Hash ( ) )
2015-10-09 08:21:47 -05:00
}
}
}
2016-10-13 22:47:09 -05:00
// SetReceiptsData computes all the non-consensus fields of the receipts
2018-03-07 04:05:14 -06:00
func SetReceiptsData ( config * params . ChainConfig , block * types . Block , receipts types . Receipts ) error {
2016-11-02 07:44:13 -05:00
signer := types . MakeSigner ( config , block . Number ( ) )
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transactions , logIndex := block . Transactions ( ) , uint ( 0 )
2018-03-07 04:05:14 -06:00
if len ( transactions ) != len ( receipts ) {
return errors . New ( "transaction and receipt count mismatch" )
}
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for j := 0 ; j < len ( receipts ) ; j ++ {
// The transaction hash can be retrieved from the transaction itself
receipts [ j ] . TxHash = transactions [ j ] . Hash ( )
// The contract address can be derived from the transaction itself
2017-05-08 04:09:35 -05:00
if transactions [ j ] . To ( ) == nil {
// Deriving the signer is expensive, only do if it's actually needed
from , _ := types . Sender ( signer , transactions [ j ] )
receipts [ j ] . ContractAddress = crypto . CreateAddress ( from , transactions [ j ] . Nonce ( ) )
2016-10-13 22:47:09 -05:00
}
// The used gas can be calculated based on previous receipts
if j == 0 {
2017-11-13 05:47:27 -06:00
receipts [ j ] . GasUsed = receipts [ j ] . CumulativeGasUsed
2016-10-13 22:47:09 -05:00
} else {
2017-11-13 05:47:27 -06:00
receipts [ j ] . GasUsed = receipts [ j ] . CumulativeGasUsed - receipts [ j - 1 ] . CumulativeGasUsed
2016-10-13 22:47:09 -05:00
}
// The derived log fields can simply be set from the block and transaction
for k := 0 ; k < len ( receipts [ j ] . Logs ) ; k ++ {
receipts [ j ] . Logs [ k ] . BlockNumber = block . NumberU64 ( )
receipts [ j ] . Logs [ k ] . BlockHash = block . Hash ( )
receipts [ j ] . Logs [ k ] . TxHash = receipts [ j ] . TxHash
receipts [ j ] . Logs [ k ] . TxIndex = uint ( j )
receipts [ j ] . Logs [ k ] . Index = logIndex
logIndex ++
}
}
2018-03-07 04:05:14 -06:00
return nil
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}
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// InsertReceiptChain attempts to complete an already existing header chain with
// transaction and receipt data.
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func ( bc * BlockChain ) InsertReceiptChain ( blockChain types . Blocks , receiptChain [ ] types . Receipts ) ( int , error ) {
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bc . wg . Add ( 1 )
defer bc . wg . Done ( )
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// Do a sanity check that the provided chain is actually ordered and linked
for i := 1 ; i < len ( blockChain ) ; i ++ {
if blockChain [ i ] . NumberU64 ( ) != blockChain [ i - 1 ] . NumberU64 ( ) + 1 || blockChain [ i ] . ParentHash ( ) != blockChain [ i - 1 ] . Hash ( ) {
2017-02-28 05:35:17 -06:00
log . Error ( "Non contiguous receipt insert" , "number" , blockChain [ i ] . Number ( ) , "hash" , blockChain [ i ] . Hash ( ) , "parent" , blockChain [ i ] . ParentHash ( ) ,
"prevnumber" , blockChain [ i - 1 ] . Number ( ) , "prevhash" , blockChain [ i - 1 ] . Hash ( ) )
return 0 , fmt . Errorf ( "non contiguous insert: item %d is #%d [%x…], item %d is #%d [%x…] (parent [%x…])" , i - 1 , blockChain [ i - 1 ] . NumberU64 ( ) ,
blockChain [ i - 1 ] . Hash ( ) . Bytes ( ) [ : 4 ] , i , blockChain [ i ] . NumberU64 ( ) , blockChain [ i ] . Hash ( ) . Bytes ( ) [ : 4 ] , blockChain [ i ] . ParentHash ( ) . Bytes ( ) [ : 4 ] )
2016-12-13 08:14:33 -06:00
}
}
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2017-09-09 11:03:07 -05:00
var (
stats = struct { processed , ignored int32 } { }
start = time . Now ( )
bytes = 0
2018-02-05 10:40:32 -06:00
batch = bc . db . NewBatch ( )
2017-09-09 11:03:07 -05:00
)
for i , block := range blockChain {
receipts := receiptChain [ i ]
// Short circuit insertion if shutting down or processing failed
if atomic . LoadInt32 ( & bc . procInterrupt ) == 1 {
return 0 , nil
}
// Short circuit if the owner header is unknown
if ! bc . HasHeader ( block . Hash ( ) , block . NumberU64 ( ) ) {
return i , fmt . Errorf ( "containing header #%d [%x…] unknown" , block . Number ( ) , block . Hash ( ) . Bytes ( ) [ : 4 ] )
}
// Skip if the entire data is already known
if bc . HasBlock ( block . Hash ( ) , block . NumberU64 ( ) ) {
stats . ignored ++
continue
}
// Compute all the non-consensus fields of the receipts
2018-03-07 04:05:14 -06:00
if err := SetReceiptsData ( bc . chainConfig , block , receipts ) ; err != nil {
return i , fmt . Errorf ( "failed to set receipts data: %v" , err )
}
2017-09-09 11:03:07 -05:00
// Write all the data out into the database
2018-05-07 06:35:06 -05:00
rawdb . WriteBody ( batch , block . Hash ( ) , block . NumberU64 ( ) , block . Body ( ) )
rawdb . WriteReceipts ( batch , block . Hash ( ) , block . NumberU64 ( ) , receipts )
rawdb . WriteTxLookupEntries ( batch , block )
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stats . processed ++
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2017-09-09 11:03:07 -05:00
if batch . ValueSize ( ) >= ethdb . IdealBatchSize {
if err := batch . Write ( ) ; err != nil {
return 0 , err
2015-10-07 04:14:30 -05:00
}
2017-09-09 11:03:07 -05:00
bytes += batch . ValueSize ( )
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batch . Reset ( )
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}
2015-10-07 04:14:30 -05:00
}
2017-09-09 11:03:07 -05:00
if batch . ValueSize ( ) > 0 {
bytes += batch . ValueSize ( )
if err := batch . Write ( ) ; err != nil {
return 0 , err
2015-09-30 11:23:31 -05:00
}
}
2017-09-09 11:03:07 -05:00
2015-10-07 04:14:30 -05:00
// Update the head fast sync block if better
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bc . mu . Lock ( )
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head := blockChain [ len ( blockChain ) - 1 ]
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if td := bc . GetTd ( head . Hash ( ) , head . NumberU64 ( ) ) ; td != nil { // Rewind may have occurred, skip in that case
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currentFastBlock := bc . CurrentFastBlock ( )
if bc . GetTd ( currentFastBlock . Hash ( ) , currentFastBlock . NumberU64 ( ) ) . Cmp ( td ) < 0 {
2018-05-07 06:35:06 -05:00
rawdb . WriteHeadFastBlockHash ( bc . db , head . Hash ( ) )
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bc . currentFastBlock . Store ( head )
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}
}
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bc . mu . Unlock ( )
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context := [ ] interface { } {
"count" , stats . processed , "elapsed" , common . PrettyDuration ( time . Since ( start ) ) ,
"number" , head . Number ( ) , "hash" , head . Hash ( ) , "age" , common . PrettyAge ( time . Unix ( head . Time ( ) . Int64 ( ) , 0 ) ) ,
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"size" , common . StorageSize ( bytes ) ,
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}
if stats . ignored > 0 {
context = append ( context , [ ] interface { } { "ignored" , stats . ignored } ... )
}
log . Info ( "Imported new block receipts" , context ... )
2015-09-30 11:23:31 -05:00
return 0 , nil
}
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var lastWrite uint64
// WriteBlockWithoutState writes only the block and its metadata to the database,
// but does not write any state. This is used to construct competing side forks
// up to the point where they exceed the canonical total difficulty.
func ( bc * BlockChain ) WriteBlockWithoutState ( block * types . Block , td * big . Int ) ( err error ) {
bc . wg . Add ( 1 )
defer bc . wg . Done ( )
if err := bc . hc . WriteTd ( block . Hash ( ) , block . NumberU64 ( ) , td ) ; err != nil {
return err
}
2018-05-07 06:35:06 -05:00
rawdb . WriteBlock ( bc . db , block )
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return nil
}
// WriteBlockWithState writes the block and all associated state to the database.
func ( bc * BlockChain ) WriteBlockWithState ( block * types . Block , receipts [ ] * types . Receipt , state * state . StateDB ) ( status WriteStatus , err error ) {
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bc . wg . Add ( 1 )
defer bc . wg . Done ( )
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2015-09-07 12:43:01 -05:00
// Calculate the total difficulty of the block
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ptd := bc . GetTd ( block . ParentHash ( ) , block . NumberU64 ( ) - 1 )
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if ptd == nil {
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return NonStatTy , consensus . ErrUnknownAncestor
2015-09-07 12:43:01 -05:00
}
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// Make sure no inconsistent state is leaked during insertion
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bc . mu . Lock ( )
defer bc . mu . Unlock ( )
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2018-02-26 03:53:10 -06:00
currentBlock := bc . CurrentBlock ( )
localTd := bc . GetTd ( currentBlock . Hash ( ) , currentBlock . NumberU64 ( ) )
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externTd := new ( big . Int ) . Add ( block . Difficulty ( ) , ptd )
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// Irrelevant of the canonical status, write the block itself to the database
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if err := bc . hc . WriteTd ( block . Hash ( ) , block . NumberU64 ( ) , externTd ) ; err != nil {
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return NonStatTy , err
2016-07-26 09:37:04 -05:00
}
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rawdb . WriteBlock ( bc . db , block )
2018-05-07 06:35:06 -05:00
2018-02-05 10:40:32 -06:00
root , err := state . Commit ( bc . chainConfig . IsEIP158 ( block . Number ( ) ) )
if err != nil {
2017-09-09 11:03:07 -05:00
return NonStatTy , err
}
2018-02-05 10:40:32 -06:00
triedb := bc . stateCache . TrieDB ( )
// If we're running an archive node, always flush
if bc . cacheConfig . Disabled {
if err := triedb . Commit ( root , false ) ; err != nil {
return NonStatTy , err
}
} else {
// Full but not archive node, do proper garbage collection
triedb . Reference ( root , common . Hash { } ) // metadata reference to keep trie alive
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bc . triegc . Push ( root , - int64 ( block . NumberU64 ( ) ) )
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if current := block . NumberU64 ( ) ; current > triesInMemory {
2018-06-04 02:47:43 -05:00
// If we exceeded our memory allowance, flush matured singleton nodes to disk
var (
nodes , imgs = triedb . Size ( )
2018-11-12 10:47:34 -06:00
limit = common . StorageSize ( bc . cacheConfig . TrieDirtyLimit ) * 1024 * 1024
2018-06-04 02:47:43 -05:00
)
if nodes > limit || imgs > 4 * 1024 * 1024 {
triedb . Cap ( limit - ethdb . IdealBatchSize )
}
2018-02-05 10:40:32 -06:00
// Find the next state trie we need to commit
header := bc . GetHeaderByNumber ( current - triesInMemory )
chosen := header . Number . Uint64 ( )
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// If we exceeded out time allowance, flush an entire trie to disk
if bc . gcproc > bc . cacheConfig . TrieTimeLimit {
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// If we're exceeding limits but haven't reached a large enough memory gap,
// warn the user that the system is becoming unstable.
2018-06-04 02:47:43 -05:00
if chosen < lastWrite + triesInMemory && bc . gcproc >= 2 * bc . cacheConfig . TrieTimeLimit {
log . Info ( "State in memory for too long, committing" , "time" , bc . gcproc , "allowance" , bc . cacheConfig . TrieTimeLimit , "optimum" , float64 ( chosen - lastWrite ) / triesInMemory )
2018-02-05 10:40:32 -06:00
}
2018-06-04 02:47:43 -05:00
// Flush an entire trie and restart the counters
triedb . Commit ( header . Root , true )
lastWrite = chosen
bc . gcproc = 0
2018-02-05 10:40:32 -06:00
}
// Garbage collect anything below our required write retention
for ! bc . triegc . Empty ( ) {
root , number := bc . triegc . Pop ( )
if uint64 ( - number ) > chosen {
bc . triegc . Push ( root , number )
break
}
2018-06-21 04:28:05 -05:00
triedb . Dereference ( root . ( common . Hash ) )
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}
}
}
2018-08-14 10:34:33 -05:00
// Write other block data using a batch.
batch := bc . db . NewBatch ( )
2018-05-07 06:35:06 -05:00
rawdb . WriteReceipts ( batch , block . Hash ( ) , block . NumberU64 ( ) , receipts )
2015-09-29 06:24:28 -05:00
// If the total difficulty is higher than our known, add it to the canonical chain
2016-01-12 04:54:29 -06:00
// Second clause in the if statement reduces the vulnerability to selfish mining.
// Please refer to http://www.cs.cornell.edu/~ie53/publications/btcProcFC.pdf
2017-11-13 09:07:05 -06:00
reorg := externTd . Cmp ( localTd ) > 0
2018-02-26 03:53:10 -06:00
currentBlock = bc . CurrentBlock ( )
2017-11-13 09:07:05 -06:00
if ! reorg && externTd . Cmp ( localTd ) == 0 {
2018-09-20 07:09:30 -05:00
// Split same-difficulty blocks by number, then preferentially select
// the block generated by the local miner as the canonical block.
if block . NumberU64 ( ) < currentBlock . NumberU64 ( ) {
reorg = true
} else if block . NumberU64 ( ) == currentBlock . NumberU64 ( ) {
2018-09-20 12:02:15 -05:00
var currentPreserve , blockPreserve bool
if bc . shouldPreserve != nil {
currentPreserve , blockPreserve = bc . shouldPreserve ( currentBlock ) , bc . shouldPreserve ( block )
2018-09-20 07:09:30 -05:00
}
2018-09-20 12:02:15 -05:00
reorg = ! currentPreserve && ( blockPreserve || mrand . Float64 ( ) < 0.5 )
2018-09-20 07:09:30 -05:00
}
2017-11-13 09:07:05 -06:00
}
if reorg {
2016-03-15 13:55:39 -05:00
// Reorganise the chain if the parent is not the head block
2018-02-26 03:53:10 -06:00
if block . ParentHash ( ) != currentBlock . Hash ( ) {
if err := bc . reorg ( currentBlock , block ) ; err != nil {
2015-07-03 04:24:42 -05:00
return NonStatTy , err
2015-06-29 05:12:30 -05:00
}
}
2018-05-07 06:35:06 -05:00
// Write the positional metadata for transaction/receipt lookups and preimages
rawdb . WriteTxLookupEntries ( batch , block )
2018-11-09 04:51:07 -06:00
rawdb . WritePreimages ( batch , state . Preimages ( ) )
2018-05-07 06:35:06 -05:00
2015-09-29 06:24:28 -05:00
status = CanonStatTy
2015-06-29 05:12:30 -05:00
} else {
2015-07-03 04:24:42 -05:00
status = SideStatTy
2015-06-29 05:12:30 -05:00
}
2017-09-09 11:03:07 -05:00
if err := batch . Write ( ) ; err != nil {
return NonStatTy , err
}
2016-03-08 08:55:27 -06:00
2017-09-09 11:03:07 -05:00
// Set new head.
if status == CanonStatTy {
bc . insert ( block )
}
2017-05-10 20:55:48 -05:00
bc . futureBlocks . Remove ( block . Hash ( ) )
2017-09-09 11:03:07 -05:00
return status , nil
2015-06-29 05:12:30 -05:00
}
2018-11-20 06:15:26 -06:00
// addFutureBlock checks if the block is within the max allowed window to get
// accepted for future processing, and returns an error if the block is too far
// ahead and was not added.
2018-10-20 03:43:59 -05:00
func ( bc * BlockChain ) addFutureBlock ( block * types . Block ) error {
max := big . NewInt ( time . Now ( ) . Unix ( ) + maxTimeFutureBlocks )
if block . Time ( ) . Cmp ( max ) > 0 {
2018-11-20 06:15:26 -06:00
return fmt . Errorf ( "future block timestamp %v > allowed %v" , block . Time ( ) , max )
2018-10-20 03:43:59 -05:00
}
bc . futureBlocks . Add ( block . Hash ( ) , block )
return nil
}
2017-09-11 05:13:05 -05:00
// InsertChain attempts to insert the given batch of blocks in to the canonical
// chain or, otherwise, create a fork. If an error is returned it will return
// the index number of the failing block as well an error describing what went
// wrong.
//
// After insertion is done, all accumulated events will be fired.
2017-05-10 20:55:48 -05:00
func ( bc * BlockChain ) InsertChain ( chain types . Blocks ) ( int , error ) {
2018-06-04 06:09:16 -05:00
// Sanity check that we have something meaningful to import
if len ( chain ) == 0 {
2018-11-20 06:15:26 -06:00
return 0 , nil
2018-06-04 06:09:16 -05:00
}
2016-12-13 08:14:33 -06:00
// Do a sanity check that the provided chain is actually ordered and linked
for i := 1 ; i < len ( chain ) ; i ++ {
if chain [ i ] . NumberU64 ( ) != chain [ i - 1 ] . NumberU64 ( ) + 1 || chain [ i ] . ParentHash ( ) != chain [ i - 1 ] . Hash ( ) {
2018-07-30 06:10:48 -05:00
// Chain broke ancestry, log a message (programming error) and skip insertion
2017-02-28 05:35:17 -06:00
log . Error ( "Non contiguous block insert" , "number" , chain [ i ] . Number ( ) , "hash" , chain [ i ] . Hash ( ) ,
"parent" , chain [ i ] . ParentHash ( ) , "prevnumber" , chain [ i - 1 ] . Number ( ) , "prevhash" , chain [ i - 1 ] . Hash ( ) )
2016-12-13 08:14:33 -06:00
2018-11-20 06:15:26 -06:00
return 0 , fmt . Errorf ( "non contiguous insert: item %d is #%d [%x…], item %d is #%d [%x…] (parent [%x…])" , i - 1 , chain [ i - 1 ] . NumberU64 ( ) ,
2017-02-28 05:35:17 -06:00
chain [ i - 1 ] . Hash ( ) . Bytes ( ) [ : 4 ] , i , chain [ i ] . NumberU64 ( ) , chain [ i ] . Hash ( ) . Bytes ( ) [ : 4 ] , chain [ i ] . ParentHash ( ) . Bytes ( ) [ : 4 ] )
2016-12-13 08:14:33 -06:00
}
}
// Pre-checks passed, start the full block imports
2017-05-10 20:55:48 -05:00
bc . wg . Add ( 1 )
bc . chainmu . Lock ( )
2018-11-20 06:15:26 -06:00
n , events , logs , err := bc . insertChain ( chain , true )
bc . chainmu . Unlock ( )
bc . wg . Done ( )
2018-10-20 03:43:59 -05:00
2018-11-20 06:15:26 -06:00
bc . PostChainEvents ( events , logs )
return n , err
}
2018-10-20 03:43:59 -05:00
2018-11-20 06:15:26 -06:00
// insertChain is the internal implementation of insertChain, which assumes that
// 1) chains are contiguous, and 2) The chain mutex is held.
//
// This method is split out so that import batches that require re-injecting
// historical blocks can do so without releasing the lock, which could lead to
// racey behaviour. If a sidechain import is in progress, and the historic state
// is imported, but then new canon-head is added before the actual sidechain
// completes, then the historic state could be pruned again
func ( bc * BlockChain ) insertChain ( chain types . Blocks , verifySeals bool ) ( int , [ ] interface { } , [ ] * types . Log , error ) {
// If the chain is terminating, don't even bother starting u
if atomic . LoadInt32 ( & bc . procInterrupt ) == 1 {
return 0 , nil , nil , nil
}
2018-10-20 03:43:59 -05:00
// Start a parallel signature recovery (signer will fluke on fork transition, minimal perf loss)
senderCacher . recoverFromBlocks ( types . MakeSigner ( bc . chainConfig , chain [ 0 ] . Number ( ) ) , chain )
2015-05-16 17:55:02 -05:00
2015-05-29 11:07:23 -05:00
// A queued approach to delivering events. This is generally
// faster than direct delivery and requires much less mutex
// acquiring.
2015-04-04 16:04:19 -05:00
var (
2017-01-10 15:55:54 -06:00
stats = insertStats { startTime : mclock . Now ( ) }
2015-10-19 09:08:17 -05:00
events = make ( [ ] interface { } , 0 , len ( chain ) )
2017-09-11 05:13:05 -05:00
lastCanon * types . Block
2017-01-05 07:03:50 -06:00
coalescedLogs [ ] * types . Log
2015-04-04 16:04:19 -05:00
)
2017-04-04 17:16:29 -05:00
// Start the parallel header verifier
headers := make ( [ ] * types . Header , len ( chain ) )
seals := make ( [ ] bool , len ( chain ) )
2015-05-16 18:42:30 -05:00
2017-04-04 17:16:29 -05:00
for i , block := range chain {
headers [ i ] = block . Header ( )
2018-10-20 03:43:59 -05:00
seals [ i ] = verifySeals
2017-04-04 17:16:29 -05:00
}
2017-05-10 20:55:48 -05:00
abort , results := bc . engine . VerifyHeaders ( bc , headers , seals )
2017-04-04 17:16:29 -05:00
defer close ( abort )
2015-06-19 09:21:20 -05:00
2018-11-20 06:15:26 -06:00
// Peek the error for the first block to decide the directing import logic
it := newInsertIterator ( chain , results , bc . Validator ( ) )
2018-06-04 06:09:16 -05:00
2018-11-20 06:15:26 -06:00
block , err := it . next ( )
switch {
// First block is pruned, insert as sidechain and reorg only if TD grows enough
case err == consensus . ErrPrunedAncestor :
return bc . insertSidechain ( it )
// First block is future, shove it (and all children) to the future queue (unknown ancestor)
case err == consensus . ErrFutureBlock || ( err == consensus . ErrUnknownAncestor && bc . futureBlocks . Contains ( it . first ( ) . ParentHash ( ) ) ) :
for block != nil && ( it . index == 0 || err == consensus . ErrUnknownAncestor ) {
if err := bc . addFutureBlock ( block ) ; err != nil {
return it . index , events , coalescedLogs , err
2018-10-20 03:43:59 -05:00
}
2018-11-20 06:15:26 -06:00
block , err = it . next ( )
}
stats . queued += it . processed ( )
stats . ignored += it . remaining ( )
// If there are any still remaining, mark as ignored
return it . index , events , coalescedLogs , err
// First block (and state) is known
// 1. We did a roll-back, and should now do a re-import
// 2. The block is stored as a sidechain, and is lying about it's stateroot, and passes a stateroot
// from the canonical chain, which has not been verified.
case err == ErrKnownBlock :
// Skip all known blocks that behind us
current := bc . CurrentBlock ( ) . NumberU64 ( )
for block != nil && err == ErrKnownBlock && current >= block . NumberU64 ( ) {
stats . ignored ++
block , err = it . next ( )
2018-10-20 03:43:59 -05:00
}
2018-11-20 06:15:26 -06:00
// Falls through to the block import
// Some other error occurred, abort
case err != nil :
stats . ignored += len ( it . chain )
bc . reportBlock ( block , nil , err )
return it . index , events , coalescedLogs , err
2018-10-20 03:43:59 -05:00
}
2018-11-20 06:15:26 -06:00
// No validation errors for the first block (or chain prefix skipped)
for ; block != nil && err == nil ; block , err = it . next ( ) {
2017-04-04 17:16:29 -05:00
// If the chain is terminating, stop processing blocks
2017-05-10 20:55:48 -05:00
if atomic . LoadInt32 ( & bc . procInterrupt ) == 1 {
2017-02-28 05:35:17 -06:00
log . Debug ( "Premature abort during blocks processing" )
2015-06-12 09:45:53 -05:00
break
}
2017-04-04 17:16:29 -05:00
// If the header is a banned one, straight out abort
2015-06-12 09:45:53 -05:00
if BadHashes [ block . Hash ( ) ] {
2017-05-10 20:55:48 -05:00
bc . reportBlock ( block , nil , ErrBlacklistedHash )
2018-11-20 06:15:26 -06:00
return it . index , events , coalescedLogs , ErrBlacklistedHash
2015-06-12 09:45:53 -05:00
}
2018-11-20 06:15:26 -06:00
// Retrieve the parent block and it's state to execute on top
start := time . Now ( )
2015-04-04 16:04:19 -05:00
2018-11-20 06:15:26 -06:00
parent := it . previous ( )
2018-10-20 03:43:59 -05:00
if parent == nil {
2017-06-27 08:57:06 -05:00
parent = bc . GetBlock ( block . ParentHash ( ) , block . NumberU64 ( ) - 1 )
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}
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state , err := state . New ( parent . Root ( ) , bc . stateCache )
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if err != nil {
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return it . index , events , coalescedLogs , err
2015-06-12 09:45:53 -05:00
}
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// Process block using the parent state as reference point.
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t0 := time . Now ( )
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receipts , logs , usedGas , err := bc . processor . Process ( block , state , bc . vmConfig )
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t1 := time . Now ( )
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if err != nil {
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bc . reportBlock ( block , receipts , err )
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return it . index , events , coalescedLogs , err
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}
// Validate the state using the default validator
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if err := bc . Validator ( ) . ValidateState ( block , parent , state , receipts , usedGas ) ; err != nil {
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bc . reportBlock ( block , receipts , err )
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return it . index , events , coalescedLogs , err
2015-10-19 09:08:17 -05:00
}
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t2 := time . Now ( )
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proctime := time . Since ( start )
2018-02-05 10:40:32 -06:00
2017-09-09 11:03:07 -05:00
// Write the block to the chain and get the status.
2018-02-05 10:40:32 -06:00
status , err := bc . WriteBlockWithState ( block , receipts , state )
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t3 := time . Now ( )
2015-06-29 05:12:30 -05:00
if err != nil {
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return it . index , events , coalescedLogs , err
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}
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blockInsertTimer . UpdateSince ( start )
blockExecutionTimer . Update ( t1 . Sub ( t0 ) )
blockValidationTimer . Update ( t2 . Sub ( t1 ) )
blockWriteTimer . Update ( t3 . Sub ( t2 ) )
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switch status {
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case CanonStatTy :
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log . Debug ( "Inserted new block" , "number" , block . Number ( ) , "hash" , block . Hash ( ) ,
"uncles" , len ( block . Uncles ( ) ) , "txs" , len ( block . Transactions ( ) ) , "gas" , block . GasUsed ( ) ,
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"elapsed" , common . PrettyDuration ( time . Since ( start ) ) ,
"root" , block . Root ( ) )
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2017-09-09 11:03:07 -05:00
coalescedLogs = append ( coalescedLogs , logs ... )
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events = append ( events , ChainEvent { block , block . Hash ( ) , logs } )
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lastCanon = block
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// Only count canonical blocks for GC processing time
bc . gcproc += proctime
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case SideStatTy :
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log . Debug ( "Inserted forked block" , "number" , block . Number ( ) , "hash" , block . Hash ( ) ,
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"diff" , block . Difficulty ( ) , "elapsed" , common . PrettyDuration ( time . Since ( start ) ) ,
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"txs" , len ( block . Transactions ( ) ) , "gas" , block . GasUsed ( ) , "uncles" , len ( block . Uncles ( ) ) ,
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"root" , block . Root ( ) )
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events = append ( events , ChainSideEvent { block } )
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}
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blockInsertTimer . UpdateSince ( start )
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stats . processed ++
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stats . usedGas += usedGas
2018-06-04 02:47:43 -05:00
cache , _ := bc . stateCache . TrieDB ( ) . Size ( )
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stats . report ( chain , it . index , cache )
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}
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// Any blocks remaining here? The only ones we care about are the future ones
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if block != nil && err == consensus . ErrFutureBlock {
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if err := bc . addFutureBlock ( block ) ; err != nil {
return it . index , events , coalescedLogs , err
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}
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block , err = it . next ( )
for ; block != nil && err == consensus . ErrUnknownAncestor ; block , err = it . next ( ) {
if err := bc . addFutureBlock ( block ) ; err != nil {
return it . index , events , coalescedLogs , err
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}
stats . queued ++
}
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}
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stats . ignored += it . remaining ( )
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// Append a single chain head event if we've progressed the chain
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if lastCanon != nil && bc . CurrentBlock ( ) . Hash ( ) == lastCanon . Hash ( ) {
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events = append ( events , ChainHeadEvent { lastCanon } )
}
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return it . index , events , coalescedLogs , err
2014-11-17 05:12:55 -06:00
}
2015-01-02 05:07:54 -06:00
2018-11-20 06:15:26 -06:00
// insertSidechain is called when an import batch hits upon a pruned ancestor
// error, which happens when a sidechain with a sufficiently old fork-block is
// found.
//
// The method writes all (header-and-body-valid) blocks to disk, then tries to
// switch over to the new chain if the TD exceeded the current chain.
func ( bc * BlockChain ) insertSidechain ( it * insertIterator ) ( int , [ ] interface { } , [ ] * types . Log , error ) {
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var (
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externTd * big . Int
current = bc . CurrentBlock ( ) . NumberU64 ( )
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)
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// The first sidechain block error is already verified to be ErrPrunedAncestor.
// Since we don't import them here, we expect ErrUnknownAncestor for the remaining
// ones. Any other errors means that the block is invalid, and should not be written
// to disk.
block , err := it . current ( ) , consensus . ErrPrunedAncestor
for ; block != nil && ( err == consensus . ErrPrunedAncestor ) ; block , err = it . next ( ) {
// Check the canonical state root for that number
if number := block . NumberU64 ( ) ; current >= number {
if canonical := bc . GetBlockByNumber ( number ) ; canonical != nil && canonical . Root ( ) == block . Root ( ) {
// This is most likely a shadow-state attack. When a fork is imported into the
// database, and it eventually reaches a block height which is not pruned, we
// just found that the state already exist! This means that the sidechain block
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// refers to a state which already exists in our canon chain.
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//
// If left unchecked, we would now proceed importing the blocks, without actually
// having verified the state of the previous blocks.
log . Warn ( "Sidechain ghost-state attack detected" , "number" , block . NumberU64 ( ) , "sideroot" , block . Root ( ) , "canonroot" , canonical . Root ( ) )
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// If someone legitimately side-mines blocks, they would still be imported as usual. However,
// we cannot risk writing unverified blocks to disk when they obviously target the pruning
// mechanism.
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return it . index , nil , nil , errors . New ( "sidechain ghost-state attack" )
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}
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}
2018-10-20 03:43:59 -05:00
if externTd == nil {
externTd = bc . GetTd ( block . ParentHash ( ) , block . NumberU64 ( ) - 1 )
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}
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externTd = new ( big . Int ) . Add ( externTd , block . Difficulty ( ) )
2018-09-20 03:41:59 -05:00
2018-10-20 03:43:59 -05:00
if ! bc . HasBlock ( block . Hash ( ) , block . NumberU64 ( ) ) {
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start := time . Now ( )
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if err := bc . WriteBlockWithoutState ( block , externTd ) ; err != nil {
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return it . index , nil , nil , err
2018-10-20 03:43:59 -05:00
}
2018-11-20 06:15:26 -06:00
log . Debug ( "Inserted sidechain block" , "number" , block . Number ( ) , "hash" , block . Hash ( ) ,
"diff" , block . Difficulty ( ) , "elapsed" , common . PrettyDuration ( time . Since ( start ) ) ,
"txs" , len ( block . Transactions ( ) ) , "gas" , block . GasUsed ( ) , "uncles" , len ( block . Uncles ( ) ) ,
"root" , block . Root ( ) )
2017-02-28 05:35:17 -06:00
}
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}
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// At this point, we've written all sidechain blocks to database. Loop ended
// either on some other error or all were processed. If there was some other
// error, we can ignore the rest of those blocks.
2018-10-20 03:43:59 -05:00
//
// If the externTd was larger than our local TD, we now need to reimport the previous
// blocks to regenerate the required state
2018-11-20 06:15:26 -06:00
localTd := bc . GetTd ( bc . CurrentBlock ( ) . Hash ( ) , current )
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if localTd . Cmp ( externTd ) > 0 {
2018-11-20 06:15:26 -06:00
log . Info ( "Sidechain written to disk" , "start" , it . first ( ) . NumberU64 ( ) , "end" , it . previous ( ) . NumberU64 ( ) , "sidetd" , externTd , "localtd" , localTd )
return it . index , nil , nil , err
2018-10-20 03:43:59 -05:00
}
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// Gather all the sidechain hashes (full blocks may be memory heavy)
var (
hashes [ ] common . Hash
numbers [ ] uint64
)
parent := bc . GetHeader ( it . previous ( ) . Hash ( ) , it . previous ( ) . NumberU64 ( ) )
for parent != nil && ! bc . HasState ( parent . Root ) {
hashes = append ( hashes , parent . Hash ( ) )
numbers = append ( numbers , parent . Number . Uint64 ( ) )
2016-10-18 03:18:07 -05:00
2018-11-20 06:15:26 -06:00
parent = bc . GetHeader ( parent . ParentHash , parent . Number . Uint64 ( ) - 1 )
2016-10-07 07:25:01 -05:00
}
2018-11-20 06:15:26 -06:00
if parent == nil {
return it . index , nil , nil , errors . New ( "missing parent" )
2018-10-20 03:43:59 -05:00
}
// Import all the pruned blocks to make the state available
2016-10-18 03:18:07 -05:00
var (
2018-11-20 06:15:26 -06:00
blocks [ ] * types . Block
memory common . StorageSize
2016-10-18 03:18:07 -05:00
)
2018-11-20 06:15:26 -06:00
for i := len ( hashes ) - 1 ; i >= 0 ; i -- {
// Append the next block to our batch
block := bc . GetBlock ( hashes [ i ] , numbers [ i ] )
2018-09-20 03:41:59 -05:00
2018-11-20 06:15:26 -06:00
blocks = append ( blocks , block )
memory += block . Size ( )
// If memory use grew too large, import and continue. Sadly we need to discard
// all raised events and logs from notifications since we're too heavy on the
// memory here.
if len ( blocks ) >= 2048 || memory > 64 * 1024 * 1024 {
log . Info ( "Importing heavy sidechain segment" , "blocks" , len ( blocks ) , "start" , blocks [ 0 ] . NumberU64 ( ) , "end" , block . NumberU64 ( ) )
if _ , _ , _ , err := bc . insertChain ( blocks , false ) ; err != nil {
return 0 , nil , nil , err
}
blocks , memory = blocks [ : 0 ] , 0
2016-10-07 07:25:01 -05:00
2018-11-20 06:15:26 -06:00
// If the chain is terminating, stop processing blocks
if atomic . LoadInt32 ( & bc . procInterrupt ) == 1 {
log . Debug ( "Premature abort during blocks processing" )
return 0 , nil , nil , nil
}
}
2016-10-07 07:25:01 -05:00
}
2018-11-20 06:15:26 -06:00
if len ( blocks ) > 0 {
log . Info ( "Importing sidechain segment" , "start" , blocks [ 0 ] . NumberU64 ( ) , "end" , blocks [ len ( blocks ) - 1 ] . NumberU64 ( ) )
return bc . insertChain ( blocks , false )
2016-10-07 07:25:01 -05:00
}
2018-11-20 06:15:26 -06:00
return 0 , nil , nil , nil
2016-10-07 07:25:01 -05:00
}
2015-08-17 07:01:41 -05:00
// reorgs takes two blocks, an old chain and a new chain and will reconstruct the blocks and inserts them
// to be part of the new canonical chain and accumulates potential missing transactions and post an
// event about them
2017-05-10 20:55:48 -05:00
func ( bc * BlockChain ) reorg ( oldBlock , newBlock * types . Block ) error {
2015-05-13 15:27:18 -05:00
var (
2016-12-04 12:07:24 -06:00
newChain types . Blocks
oldChain types . Blocks
commonBlock * types . Block
deletedTxs types . Transactions
2017-01-05 07:03:50 -06:00
deletedLogs [ ] * types . Log
2015-11-30 17:11:24 -06:00
// collectLogs collects the logs that were generated during the
// processing of the block that corresponds with the given hash.
// These logs are later announced as deleted.
2018-05-07 06:35:06 -05:00
collectLogs = func ( hash common . Hash ) {
2016-12-04 12:07:24 -06:00
// Coalesce logs and set 'Removed'.
2018-05-07 06:35:06 -05:00
number := bc . hc . GetBlockNumber ( hash )
if number == nil {
return
}
receipts := rawdb . ReadReceipts ( bc . db , hash , * number )
2015-11-30 17:11:24 -06:00
for _ , receipt := range receipts {
2016-12-04 12:07:24 -06:00
for _ , log := range receipt . Logs {
del := * log
del . Removed = true
deletedLogs = append ( deletedLogs , & del )
}
2015-11-30 17:11:24 -06:00
}
}
2015-05-13 15:27:18 -05:00
)
2015-05-15 08:30:34 -05:00
// first reduce whoever is higher bound
if oldBlock . NumberU64 ( ) > newBlock . NumberU64 ( ) {
// reduce old chain
2017-05-10 20:55:48 -05:00
for ; oldBlock != nil && oldBlock . NumberU64 ( ) != newBlock . NumberU64 ( ) ; oldBlock = bc . GetBlock ( oldBlock . ParentHash ( ) , oldBlock . NumberU64 ( ) - 1 ) {
2016-03-07 11:11:52 -06:00
oldChain = append ( oldChain , oldBlock )
2015-08-17 07:01:41 -05:00
deletedTxs = append ( deletedTxs , oldBlock . Transactions ( ) ... )
2015-11-30 17:11:24 -06:00
collectLogs ( oldBlock . Hash ( ) )
2015-05-15 08:30:34 -05:00
}
} else {
// reduce new chain and append new chain blocks for inserting later on
2017-05-10 20:55:48 -05:00
for ; newBlock != nil && newBlock . NumberU64 ( ) != oldBlock . NumberU64 ( ) ; newBlock = bc . GetBlock ( newBlock . ParentHash ( ) , newBlock . NumberU64 ( ) - 1 ) {
2015-05-15 08:30:34 -05:00
newChain = append ( newChain , newBlock )
}
2015-04-29 05:43:24 -05:00
}
2015-05-28 11:18:23 -05:00
if oldBlock == nil {
2015-08-17 07:01:41 -05:00
return fmt . Errorf ( "Invalid old chain" )
2015-05-28 11:18:23 -05:00
}
if newBlock == nil {
2015-08-17 07:01:41 -05:00
return fmt . Errorf ( "Invalid new chain" )
2015-05-28 11:18:23 -05:00
}
2015-04-29 05:43:24 -05:00
2015-04-13 17:18:38 -05:00
for {
if oldBlock . Hash ( ) == newBlock . Hash ( ) {
2015-05-13 15:27:18 -05:00
commonBlock = oldBlock
2015-04-13 17:18:38 -05:00
break
}
2016-03-07 11:11:52 -06:00
oldChain = append ( oldChain , oldBlock )
2015-04-13 17:18:38 -05:00
newChain = append ( newChain , newBlock )
2015-08-17 07:01:41 -05:00
deletedTxs = append ( deletedTxs , oldBlock . Transactions ( ) ... )
2015-11-30 17:11:24 -06:00
collectLogs ( oldBlock . Hash ( ) )
2015-04-29 05:43:24 -05:00
2017-05-10 20:55:48 -05:00
oldBlock , newBlock = bc . GetBlock ( oldBlock . ParentHash ( ) , oldBlock . NumberU64 ( ) - 1 ) , bc . GetBlock ( newBlock . ParentHash ( ) , newBlock . NumberU64 ( ) - 1 )
2015-05-28 08:35:50 -05:00
if oldBlock == nil {
2015-08-17 07:01:41 -05:00
return fmt . Errorf ( "Invalid old chain" )
2015-05-28 08:35:50 -05:00
}
if newBlock == nil {
2015-08-17 07:01:41 -05:00
return fmt . Errorf ( "Invalid new chain" )
2015-05-28 08:35:50 -05:00
}
2015-04-13 17:18:38 -05:00
}
2017-02-22 06:10:07 -06:00
// Ensure the user sees large reorgs
2017-03-03 01:54:13 -06:00
if len ( oldChain ) > 0 && len ( newChain ) > 0 {
logFn := log . Debug
if len ( oldChain ) > 63 {
logFn = log . Warn
}
logFn ( "Chain split detected" , "number" , commonBlock . Number ( ) , "hash" , commonBlock . Hash ( ) ,
"drop" , len ( oldChain ) , "dropfrom" , oldChain [ 0 ] . Hash ( ) , "add" , len ( newChain ) , "addfrom" , newChain [ 0 ] . Hash ( ) )
} else {
log . Error ( "Impossible reorg, please file an issue" , "oldnum" , oldBlock . Number ( ) , "oldhash" , oldBlock . Hash ( ) , "newnum" , newBlock . Number ( ) , "newhash" , newBlock . Hash ( ) )
2017-02-22 06:10:07 -06:00
}
2018-01-22 06:07:47 -06:00
// Insert the new chain, taking care of the proper incremental order
2015-08-17 07:01:41 -05:00
var addedTxs types . Transactions
2018-01-22 06:07:47 -06:00
for i := len ( newChain ) - 1 ; i >= 0 ; i -- {
2015-07-14 11:18:09 -05:00
// insert the block in the canonical way, re-writing history
2018-01-22 06:07:47 -06:00
bc . insert ( newChain [ i ] )
2017-07-14 11:39:53 -05:00
// write lookup entries for hash based transaction/receipt searches
2018-05-07 06:35:06 -05:00
rawdb . WriteTxLookupEntries ( bc . db , newChain [ i ] )
2018-01-22 06:07:47 -06:00
addedTxs = append ( addedTxs , newChain [ i ] . Transactions ( ) ... )
2015-08-17 07:01:41 -05:00
}
// calculate the difference between deleted and added transactions
diff := types . TxDifference ( deletedTxs , addedTxs )
// When transactions get deleted from the database that means the
// receipts that were created in the fork must also be deleted
2018-07-02 03:16:30 -05:00
batch := bc . db . NewBatch ( )
2015-08-17 07:01:41 -05:00
for _ , tx := range diff {
2018-07-02 03:16:30 -05:00
rawdb . DeleteTxLookupEntry ( batch , tx . Hash ( ) )
2015-04-13 17:18:38 -05:00
}
2018-07-02 03:16:30 -05:00
batch . Write ( )
2015-11-30 17:11:24 -06:00
if len ( deletedLogs ) > 0 {
2017-08-18 05:58:36 -05:00
go bc . rmLogsFeed . Send ( RemovedLogsEvent { deletedLogs } )
2015-11-30 17:11:24 -06:00
}
2016-03-07 11:11:52 -06:00
if len ( oldChain ) > 0 {
go func ( ) {
for _ , block := range oldChain {
2017-08-18 05:58:36 -05:00
bc . chainSideFeed . Send ( ChainSideEvent { Block : block } )
2016-03-07 11:11:52 -06:00
}
} ( )
}
2015-05-28 08:35:50 -05:00
return nil
2015-04-13 17:18:38 -05:00
}
2017-08-18 05:58:36 -05:00
// PostChainEvents iterates over the events generated by a chain insertion and
// posts them into the event feed.
// TODO: Should not expose PostChainEvents. The chain events should be posted in WriteBlock.
func ( bc * BlockChain ) PostChainEvents ( events [ ] interface { } , logs [ ] * types . Log ) {
2015-10-19 09:08:17 -05:00
// post event logs for further processing
2017-08-18 05:58:36 -05:00
if logs != nil {
bc . logsFeed . Send ( logs )
}
2015-10-12 07:04:38 -05:00
for _ , event := range events {
2017-08-18 05:58:36 -05:00
switch ev := event . ( type ) {
case ChainEvent :
bc . chainFeed . Send ( ev )
case ChainHeadEvent :
bc . chainHeadFeed . Send ( ev )
case ChainSideEvent :
bc . chainSideFeed . Send ( ev )
2015-10-12 07:04:38 -05:00
}
}
}
2017-05-10 20:55:48 -05:00
func ( bc * BlockChain ) update ( ) {
2018-01-02 05:50:46 -06:00
futureTimer := time . NewTicker ( 5 * time . Second )
defer futureTimer . Stop ( )
2015-03-06 08:50:44 -06:00
for {
select {
2018-01-02 05:50:46 -06:00
case <- futureTimer . C :
2017-05-10 20:55:48 -05:00
bc . procFutureBlocks ( )
case <- bc . quit :
2015-10-12 07:04:38 -05:00
return
2015-03-06 08:50:44 -06:00
}
}
}
2015-05-16 18:42:30 -05:00
2017-02-13 14:44:06 -06:00
// BadBlocks returns a list of the last 'bad blocks' that the client has seen on the network
2018-06-11 03:03:40 -05:00
func ( bc * BlockChain ) BadBlocks ( ) [ ] * types . Block {
blocks := make ( [ ] * types . Block , 0 , bc . badBlocks . Len ( ) )
2017-02-13 14:44:06 -06:00
for _ , hash := range bc . badBlocks . Keys ( ) {
2018-06-11 03:03:40 -05:00
if blk , exist := bc . badBlocks . Peek ( hash ) ; exist {
block := blk . ( * types . Block )
blocks = append ( blocks , block )
2017-02-13 14:44:06 -06:00
}
}
2018-06-11 03:03:40 -05:00
return blocks
2017-02-13 14:44:06 -06:00
}
// addBadBlock adds a bad block to the bad-block LRU cache
func ( bc * BlockChain ) addBadBlock ( block * types . Block ) {
2018-06-11 03:03:40 -05:00
bc . badBlocks . Add ( block . Hash ( ) , block )
2017-02-13 14:44:06 -06:00
}
2016-05-24 11:49:54 -05:00
// reportBlock logs a bad block error.
2016-11-23 06:32:25 -06:00
func ( bc * BlockChain ) reportBlock ( block * types . Block , receipts types . Receipts , err error ) {
2017-02-13 14:44:06 -06:00
bc . addBadBlock ( block )
2017-02-28 05:35:17 -06:00
var receiptString string
2018-11-22 03:00:16 -06:00
for i , receipt := range receipts {
receiptString += fmt . Sprintf ( "\t %d: cumulative: %v gas: %v contract: %v status: %v tx: %v logs: %v bloom: %x state: %x\n" ,
i , receipt . CumulativeGasUsed , receipt . GasUsed , receipt . ContractAddress . Hex ( ) ,
receipt . Status , receipt . TxHash . Hex ( ) , receipt . Logs , receipt . Bloom , receipt . PostState )
2017-02-28 05:35:17 -06:00
}
log . Error ( fmt . Sprintf ( `
2016-11-23 06:32:25 -06:00
# # # # # # # # # # BAD BLOCK # # # # # # # # #
Chain config : % v
Number : % v
Hash : 0 x % x
% v
Error : % v
# # # # # # # # # # # # # # # # # # # # # # # # # # # # # #
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` , bc . chainConfig , block . Number ( ) , block . Hash ( ) , receiptString , err ) )
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}
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// InsertHeaderChain attempts to insert the given header chain in to the local
// chain, possibly creating a reorg. If an error is returned, it will return the
// index number of the failing header as well an error describing what went wrong.
//
// The verify parameter can be used to fine tune whether nonce verification
// should be done or not. The reason behind the optional check is because some
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// of the header retrieval mechanisms already need to verify nonces, as well as
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// because nonces can be verified sparsely, not needing to check each.
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func ( bc * BlockChain ) InsertHeaderChain ( chain [ ] * types . Header , checkFreq int ) ( int , error ) {
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start := time . Now ( )
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if i , err := bc . hc . ValidateHeaderChain ( chain , checkFreq ) ; err != nil {
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return i , err
}
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// Make sure only one thread manipulates the chain at once
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bc . chainmu . Lock ( )
defer bc . chainmu . Unlock ( )
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bc . wg . Add ( 1 )
defer bc . wg . Done ( )
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whFunc := func ( header * types . Header ) error {
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bc . mu . Lock ( )
defer bc . mu . Unlock ( )
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_ , err := bc . hc . WriteHeader ( header )
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return err
}
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return bc . hc . InsertHeaderChain ( chain , whFunc , start )
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}
// writeHeader writes a header into the local chain, given that its parent is
// already known. If the total difficulty of the newly inserted header becomes
// greater than the current known TD, the canonical chain is re-routed.
//
// Note: This method is not concurrent-safe with inserting blocks simultaneously
// into the chain, as side effects caused by reorganisations cannot be emulated
// without the real blocks. Hence, writing headers directly should only be done
// in two scenarios: pure-header mode of operation (light clients), or properly
// separated header/block phases (non-archive clients).
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func ( bc * BlockChain ) writeHeader ( header * types . Header ) error {
bc . wg . Add ( 1 )
defer bc . wg . Done ( )
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bc . mu . Lock ( )
defer bc . mu . Unlock ( )
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_ , err := bc . hc . WriteHeader ( header )
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return err
}
// CurrentHeader retrieves the current head header of the canonical chain. The
// header is retrieved from the HeaderChain's internal cache.
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func ( bc * BlockChain ) CurrentHeader ( ) * types . Header {
return bc . hc . CurrentHeader ( )
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}
// GetTd retrieves a block's total difficulty in the canonical chain from the
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// database by hash and number, caching it if found.
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func ( bc * BlockChain ) GetTd ( hash common . Hash , number uint64 ) * big . Int {
return bc . hc . GetTd ( hash , number )
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}
// GetTdByHash retrieves a block's total difficulty in the canonical chain from the
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// database by hash, caching it if found.
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func ( bc * BlockChain ) GetTdByHash ( hash common . Hash ) * big . Int {
return bc . hc . GetTdByHash ( hash )
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}
// GetHeader retrieves a block header from the database by hash and number,
// caching it if found.
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func ( bc * BlockChain ) GetHeader ( hash common . Hash , number uint64 ) * types . Header {
return bc . hc . GetHeader ( hash , number )
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}
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// GetHeaderByHash retrieves a block header from the database by hash, caching it if
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// found.
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func ( bc * BlockChain ) GetHeaderByHash ( hash common . Hash ) * types . Header {
return bc . hc . GetHeaderByHash ( hash )
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}
// HasHeader checks if a block header is present in the database or not, caching
// it if present.
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func ( bc * BlockChain ) HasHeader ( hash common . Hash , number uint64 ) bool {
return bc . hc . HasHeader ( hash , number )
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}
// GetBlockHashesFromHash retrieves a number of block hashes starting at a given
// hash, fetching towards the genesis block.
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func ( bc * BlockChain ) GetBlockHashesFromHash ( hash common . Hash , max uint64 ) [ ] common . Hash {
return bc . hc . GetBlockHashesFromHash ( hash , max )
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}
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// GetAncestor retrieves the Nth ancestor of a given block. It assumes that either the given block or
// a close ancestor of it is canonical. maxNonCanonical points to a downwards counter limiting the
// number of blocks to be individually checked before we reach the canonical chain.
//
// Note: ancestor == 0 returns the same block, 1 returns its parent and so on.
func ( bc * BlockChain ) GetAncestor ( hash common . Hash , number , ancestor uint64 , maxNonCanonical * uint64 ) ( common . Hash , uint64 ) {
bc . chainmu . Lock ( )
defer bc . chainmu . Unlock ( )
return bc . hc . GetAncestor ( hash , number , ancestor , maxNonCanonical )
}
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// GetHeaderByNumber retrieves a block header from the database by number,
// caching it (associated with its hash) if found.
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func ( bc * BlockChain ) GetHeaderByNumber ( number uint64 ) * types . Header {
return bc . hc . GetHeaderByNumber ( number )
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}
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// Config retrieves the blockchain's chain configuration.
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func ( bc * BlockChain ) Config ( ) * params . ChainConfig { return bc . chainConfig }
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// Engine retrieves the blockchain's consensus engine.
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func ( bc * BlockChain ) Engine ( ) consensus . Engine { return bc . engine }
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// SubscribeRemovedLogsEvent registers a subscription of RemovedLogsEvent.
func ( bc * BlockChain ) SubscribeRemovedLogsEvent ( ch chan <- RemovedLogsEvent ) event . Subscription {
return bc . scope . Track ( bc . rmLogsFeed . Subscribe ( ch ) )
}
// SubscribeChainEvent registers a subscription of ChainEvent.
func ( bc * BlockChain ) SubscribeChainEvent ( ch chan <- ChainEvent ) event . Subscription {
return bc . scope . Track ( bc . chainFeed . Subscribe ( ch ) )
}
// SubscribeChainHeadEvent registers a subscription of ChainHeadEvent.
func ( bc * BlockChain ) SubscribeChainHeadEvent ( ch chan <- ChainHeadEvent ) event . Subscription {
return bc . scope . Track ( bc . chainHeadFeed . Subscribe ( ch ) )
}
// SubscribeChainSideEvent registers a subscription of ChainSideEvent.
func ( bc * BlockChain ) SubscribeChainSideEvent ( ch chan <- ChainSideEvent ) event . Subscription {
return bc . scope . Track ( bc . chainSideFeed . Subscribe ( ch ) )
}
// SubscribeLogsEvent registers a subscription of []*types.Log.
func ( bc * BlockChain ) SubscribeLogsEvent ( ch chan <- [ ] * types . Log ) event . Subscription {
return bc . scope . Track ( bc . logsFeed . Subscribe ( ch ) )
}