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// Copyright 2022 The go-ethereum Authors
// This file is part of the go-ethereum library.
//
// The go-ethereum library is free software: you can redistribute it and/or modify
// 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.
//
// The go-ethereum library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>
package pathdb
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
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"slices"
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"time"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/core/rawdb"
"github.com/ethereum/go-ethereum/ethdb"
"github.com/ethereum/go-ethereum/log"
"github.com/ethereum/go-ethereum/trie/triestate"
)
// State history records the state changes involved in executing a block. The
// state can be reverted to the previous version by applying the associated
// history object (state reverse diff). State history objects are kept to
// guarantee that the system can perform state rollbacks in case of deep reorg.
//
// Each state transition will generate a state history object. Note that not
// every block has a corresponding state history object. If a block performs
// no state changes whatsoever, no state is created for it. Each state history
// will have a sequentially increasing number acting as its unique identifier.
//
// The state history is written to disk (ancient store) when the corresponding
// diff layer is merged into the disk layer. At the same time, system can prune
// the oldest histories according to config.
//
// Disk State
// ^
// |
// +------------+ +---------+ +---------+ +---------+
// | Init State |---->| State 1 |---->| ... |---->| State n |
// +------------+ +---------+ +---------+ +---------+
//
// +-----------+ +------+ +-----------+
// | History 1 |----> | ... |---->| History n |
// +-----------+ +------+ +-----------+
//
// # Rollback
//
// If the system wants to roll back to a previous state n, it needs to ensure
// all history objects from n+1 up to the current disk layer are existent. The
// history objects are applied to the state in reverse order, starting from the
// current disk layer.
const (
accountIndexSize = common . AddressLength + 13 // The length of encoded account index
slotIndexSize = common . HashLength + 5 // The length of encoded slot index
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historyMetaSize = 9 + 2 * common . HashLength // The length of encoded history meta
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stateHistoryVersion = uint8 ( 0 ) // initial version of state history structure.
)
// Each state history entry is consisted of five elements:
//
// # metadata
// This object contains a few meta fields, such as the associated state root,
// block number, version tag and so on. This object may contain an extra
// accountHash list which means the storage changes belong to these accounts
// are not complete due to large contract destruction. The incomplete history
// can not be used for rollback and serving archive state request.
//
// # account index
// This object contains some index information of account. For example, offset
// and length indicate the location of the data belonging to the account. Besides,
// storageOffset and storageSlots indicate the storage modification location
// belonging to the account.
//
// The size of each account index is *fixed*, and all indexes are sorted
// lexicographically. Thus binary search can be performed to quickly locate a
// specific account.
//
// # account data
// Account data is a concatenated byte stream composed of all account data.
// The account data can be solved by the offset and length info indicated
// by corresponding account index.
//
// fixed size
// ^ ^
// / \
// +-----------------+-----------------+----------------+-----------------+
// | Account index 1 | Account index 2 | ... | Account index N |
// +-----------------+-----------------+----------------+-----------------+
// |
// | length
// offset |----------------+
// v v
// +----------------+----------------+----------------+----------------+
// | Account data 1 | Account data 2 | ... | Account data N |
// +----------------+----------------+----------------+----------------+
//
// # storage index
// This object is similar with account index. It's also fixed size and contains
// the location info of storage slot data.
//
// # storage data
// Storage data is a concatenated byte stream composed of all storage slot data.
// The storage slot data can be solved by the location info indicated by
// corresponding account index and storage slot index.
//
// fixed size
// ^ ^
// / \
// +-----------------+-----------------+----------------+-----------------+
// | Account index 1 | Account index 2 | ... | Account index N |
// +-----------------+-----------------+----------------+-----------------+
// |
// | storage slots
// storage offset |-----------------------------------------------------+
// v v
// +-----------------+-----------------+-----------------+
// | storage index 1 | storage index 2 | storage index 3 |
// +-----------------+-----------------+-----------------+
// | length
// offset |-------------+
// v v
// +-------------+
// | slot data 1 |
// +-------------+
// accountIndex describes the metadata belonging to an account.
type accountIndex struct {
address common . Address // The address of account
length uint8 // The length of account data, size limited by 255
offset uint32 // The offset of item in account data table
storageOffset uint32 // The offset of storage index in storage index table
storageSlots uint32 // The number of mutated storage slots belonging to the account
}
// encode packs account index into byte stream.
func ( i * accountIndex ) encode ( ) [ ] byte {
var buf [ accountIndexSize ] byte
copy ( buf [ : ] , i . address . Bytes ( ) )
buf [ common . AddressLength ] = i . length
binary . BigEndian . PutUint32 ( buf [ common . AddressLength + 1 : ] , i . offset )
binary . BigEndian . PutUint32 ( buf [ common . AddressLength + 5 : ] , i . storageOffset )
binary . BigEndian . PutUint32 ( buf [ common . AddressLength + 9 : ] , i . storageSlots )
return buf [ : ]
}
// decode unpacks account index from byte stream.
func ( i * accountIndex ) decode ( blob [ ] byte ) {
i . address = common . BytesToAddress ( blob [ : common . AddressLength ] )
i . length = blob [ common . AddressLength ]
i . offset = binary . BigEndian . Uint32 ( blob [ common . AddressLength + 1 : ] )
i . storageOffset = binary . BigEndian . Uint32 ( blob [ common . AddressLength + 5 : ] )
i . storageSlots = binary . BigEndian . Uint32 ( blob [ common . AddressLength + 9 : ] )
}
// slotIndex describes the metadata belonging to a storage slot.
type slotIndex struct {
hash common . Hash // The hash of slot key
length uint8 // The length of storage slot, up to 32 bytes defined in protocol
offset uint32 // The offset of item in storage slot data table
}
// encode packs slot index into byte stream.
func ( i * slotIndex ) encode ( ) [ ] byte {
var buf [ slotIndexSize ] byte
copy ( buf [ : common . HashLength ] , i . hash . Bytes ( ) )
buf [ common . HashLength ] = i . length
binary . BigEndian . PutUint32 ( buf [ common . HashLength + 1 : ] , i . offset )
return buf [ : ]
}
// decode unpack slot index from the byte stream.
func ( i * slotIndex ) decode ( blob [ ] byte ) {
i . hash = common . BytesToHash ( blob [ : common . HashLength ] )
i . length = blob [ common . HashLength ]
i . offset = binary . BigEndian . Uint32 ( blob [ common . HashLength + 1 : ] )
}
// meta describes the meta data of state history object.
type meta struct {
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version uint8 // version tag of history object
parent common . Hash // prev-state root before the state transition
root common . Hash // post-state root after the state transition
block uint64 // associated block number
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}
// encode packs the meta object into byte stream.
func ( m * meta ) encode ( ) [ ] byte {
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buf := make ( [ ] byte , historyMetaSize )
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buf [ 0 ] = m . version
copy ( buf [ 1 : 1 + common . HashLength ] , m . parent . Bytes ( ) )
copy ( buf [ 1 + common . HashLength : 1 + 2 * common . HashLength ] , m . root . Bytes ( ) )
binary . BigEndian . PutUint64 ( buf [ 1 + 2 * common . HashLength : historyMetaSize ] , m . block )
return buf [ : ]
}
// decode unpacks the meta object from byte stream.
func ( m * meta ) decode ( blob [ ] byte ) error {
if len ( blob ) < 1 {
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return errors . New ( "no version tag" )
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}
switch blob [ 0 ] {
case stateHistoryVersion :
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if len ( blob ) != historyMetaSize {
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return fmt . Errorf ( "invalid state history meta, len: %d" , len ( blob ) )
}
m . version = blob [ 0 ]
m . parent = common . BytesToHash ( blob [ 1 : 1 + common . HashLength ] )
m . root = common . BytesToHash ( blob [ 1 + common . HashLength : 1 + 2 * common . HashLength ] )
m . block = binary . BigEndian . Uint64 ( blob [ 1 + 2 * common . HashLength : historyMetaSize ] )
return nil
default :
return fmt . Errorf ( "unknown version %d" , blob [ 0 ] )
}
}
// history represents a set of state changes belong to a block along with
// the metadata including the state roots involved in the state transition.
// State history objects in disk are linked with each other by a unique id
// (8-bytes integer), the oldest state history object can be pruned on demand
// in order to control the storage size.
type history struct {
meta * meta // Meta data of history
accounts map [ common . Address ] [ ] byte // Account data keyed by its address hash
accountList [ ] common . Address // Sorted account hash list
storages map [ common . Address ] map [ common . Hash ] [ ] byte // Storage data keyed by its address hash and slot hash
storageList map [ common . Address ] [ ] common . Hash // Sorted slot hash list
}
// newHistory constructs the state history object with provided state change set.
func newHistory ( root common . Hash , parent common . Hash , block uint64 , states * triestate . Set ) * history {
var (
accountList [ ] common . Address
storageList = make ( map [ common . Address ] [ ] common . Hash )
)
for addr := range states . Accounts {
accountList = append ( accountList , addr )
}
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slices . SortFunc ( accountList , common . Address . Cmp )
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for addr , slots := range states . Storages {
slist := make ( [ ] common . Hash , 0 , len ( slots ) )
for slotHash := range slots {
slist = append ( slist , slotHash )
}
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slices . SortFunc ( slist , common . Hash . Cmp )
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storageList [ addr ] = slist
}
return & history {
meta : & meta {
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version : stateHistoryVersion ,
parent : parent ,
root : root ,
block : block ,
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} ,
accounts : states . Accounts ,
accountList : accountList ,
storages : states . Storages ,
storageList : storageList ,
}
}
// encode serializes the state history and returns four byte streams represent
// concatenated account/storage data, account/storage indexes respectively.
func ( h * history ) encode ( ) ( [ ] byte , [ ] byte , [ ] byte , [ ] byte ) {
var (
slotNumber uint32 // the number of processed slots
accountData [ ] byte // the buffer for concatenated account data
storageData [ ] byte // the buffer for concatenated storage data
accountIndexes [ ] byte // the buffer for concatenated account index
storageIndexes [ ] byte // the buffer for concatenated storage index
)
for _ , addr := range h . accountList {
accIndex := accountIndex {
address : addr ,
length : uint8 ( len ( h . accounts [ addr ] ) ) ,
offset : uint32 ( len ( accountData ) ) ,
}
slots , exist := h . storages [ addr ]
if exist {
// Encode storage slots in order
for _ , slotHash := range h . storageList [ addr ] {
sIndex := slotIndex {
hash : slotHash ,
length : uint8 ( len ( slots [ slotHash ] ) ) ,
offset : uint32 ( len ( storageData ) ) ,
}
storageData = append ( storageData , slots [ slotHash ] ... )
storageIndexes = append ( storageIndexes , sIndex . encode ( ) ... )
}
// Fill up the storage meta in account index
accIndex . storageOffset = slotNumber
accIndex . storageSlots = uint32 ( len ( slots ) )
slotNumber += uint32 ( len ( slots ) )
}
accountData = append ( accountData , h . accounts [ addr ] ... )
accountIndexes = append ( accountIndexes , accIndex . encode ( ) ... )
}
return accountData , storageData , accountIndexes , storageIndexes
}
// decoder wraps the byte streams for decoding with extra meta fields.
type decoder struct {
accountData [ ] byte // the buffer for concatenated account data
storageData [ ] byte // the buffer for concatenated storage data
accountIndexes [ ] byte // the buffer for concatenated account index
storageIndexes [ ] byte // the buffer for concatenated storage index
lastAccount * common . Address // the address of last resolved account
lastAccountRead uint32 // the read-cursor position of account data
lastSlotIndexRead uint32 // the read-cursor position of storage slot index
lastSlotDataRead uint32 // the read-cursor position of storage slot data
}
// verify validates the provided byte streams for decoding state history. A few
// checks will be performed to quickly detect data corruption. The byte stream
// is regarded as corrupted if:
//
// - account indexes buffer is empty(empty state set is invalid)
// - account indexes/storage indexer buffer is not aligned
//
// note, these situations are allowed:
//
// - empty account data: all accounts were not present
// - empty storage set: no slots are modified
func ( r * decoder ) verify ( ) error {
if len ( r . accountIndexes ) % accountIndexSize != 0 || len ( r . accountIndexes ) == 0 {
return fmt . Errorf ( "invalid account index, len: %d" , len ( r . accountIndexes ) )
}
if len ( r . storageIndexes ) % slotIndexSize != 0 {
return fmt . Errorf ( "invalid storage index, len: %d" , len ( r . storageIndexes ) )
}
return nil
}
// readAccount parses the account from the byte stream with specified position.
func ( r * decoder ) readAccount ( pos int ) ( accountIndex , [ ] byte , error ) {
// Decode account index from the index byte stream.
var index accountIndex
if ( pos + 1 ) * accountIndexSize > len ( r . accountIndexes ) {
return accountIndex { } , nil , errors . New ( "account data buffer is corrupted" )
}
index . decode ( r . accountIndexes [ pos * accountIndexSize : ( pos + 1 ) * accountIndexSize ] )
// Perform validation before parsing account data, ensure
// - account is sorted in order in byte stream
// - account data is strictly encoded with no gap inside
// - account data is not out-of-slice
if r . lastAccount != nil { // zero address is possible
if bytes . Compare ( r . lastAccount . Bytes ( ) , index . address . Bytes ( ) ) >= 0 {
return accountIndex { } , nil , errors . New ( "account is not in order" )
}
}
if index . offset != r . lastAccountRead {
return accountIndex { } , nil , errors . New ( "account data buffer is gaped" )
}
last := index . offset + uint32 ( index . length )
if uint32 ( len ( r . accountData ) ) < last {
return accountIndex { } , nil , errors . New ( "account data buffer is corrupted" )
}
data := r . accountData [ index . offset : last ]
r . lastAccount = & index . address
r . lastAccountRead = last
return index , data , nil
}
// readStorage parses the storage slots from the byte stream with specified account.
func ( r * decoder ) readStorage ( accIndex accountIndex ) ( [ ] common . Hash , map [ common . Hash ] [ ] byte , error ) {
var (
last common . Hash
list [ ] common . Hash
storage = make ( map [ common . Hash ] [ ] byte )
)
for j := 0 ; j < int ( accIndex . storageSlots ) ; j ++ {
var (
index slotIndex
start = ( accIndex . storageOffset + uint32 ( j ) ) * uint32 ( slotIndexSize )
end = ( accIndex . storageOffset + uint32 ( j + 1 ) ) * uint32 ( slotIndexSize )
)
// Perform validation before parsing storage slot data, ensure
// - slot index is not out-of-slice
// - slot data is not out-of-slice
// - slot is sorted in order in byte stream
// - slot indexes is strictly encoded with no gap inside
// - slot data is strictly encoded with no gap inside
if start != r . lastSlotIndexRead {
return nil , nil , errors . New ( "storage index buffer is gapped" )
}
if uint32 ( len ( r . storageIndexes ) ) < end {
return nil , nil , errors . New ( "storage index buffer is corrupted" )
}
index . decode ( r . storageIndexes [ start : end ] )
if bytes . Compare ( last . Bytes ( ) , index . hash . Bytes ( ) ) >= 0 {
return nil , nil , errors . New ( "storage slot is not in order" )
}
if index . offset != r . lastSlotDataRead {
return nil , nil , errors . New ( "storage data buffer is gapped" )
}
sEnd := index . offset + uint32 ( index . length )
if uint32 ( len ( r . storageData ) ) < sEnd {
return nil , nil , errors . New ( "storage data buffer is corrupted" )
}
storage [ index . hash ] = r . storageData [ r . lastSlotDataRead : sEnd ]
list = append ( list , index . hash )
last = index . hash
r . lastSlotIndexRead = end
r . lastSlotDataRead = sEnd
}
return list , storage , nil
}
// decode deserializes the account and storage data from the provided byte stream.
func ( h * history ) decode ( accountData , storageData , accountIndexes , storageIndexes [ ] byte ) error {
var (
accounts = make ( map [ common . Address ] [ ] byte )
storages = make ( map [ common . Address ] map [ common . Hash ] [ ] byte )
accountList [ ] common . Address
storageList = make ( map [ common . Address ] [ ] common . Hash )
r = & decoder {
accountData : accountData ,
storageData : storageData ,
accountIndexes : accountIndexes ,
storageIndexes : storageIndexes ,
}
)
if err := r . verify ( ) ; err != nil {
return err
}
for i := 0 ; i < len ( accountIndexes ) / accountIndexSize ; i ++ {
// Resolve account first
accIndex , accData , err := r . readAccount ( i )
if err != nil {
return err
}
accounts [ accIndex . address ] = accData
accountList = append ( accountList , accIndex . address )
// Resolve storage slots
slotList , slotData , err := r . readStorage ( accIndex )
if err != nil {
return err
}
if len ( slotList ) > 0 {
storageList [ accIndex . address ] = slotList
storages [ accIndex . address ] = slotData
}
}
h . accounts = accounts
h . accountList = accountList
h . storages = storages
h . storageList = storageList
return nil
}
// readHistory reads and decodes the state history object by the given id.
func readHistory ( freezer * rawdb . ResettableFreezer , id uint64 ) ( * history , error ) {
blob := rawdb . ReadStateHistoryMeta ( freezer , id )
if len ( blob ) == 0 {
return nil , fmt . Errorf ( "state history not found %d" , id )
}
var m meta
if err := m . decode ( blob ) ; err != nil {
return nil , err
}
var (
dec = history { meta : & m }
accountData = rawdb . ReadStateAccountHistory ( freezer , id )
storageData = rawdb . ReadStateStorageHistory ( freezer , id )
accountIndexes = rawdb . ReadStateAccountIndex ( freezer , id )
storageIndexes = rawdb . ReadStateStorageIndex ( freezer , id )
)
if err := dec . decode ( accountData , storageData , accountIndexes , storageIndexes ) ; err != nil {
return nil , err
}
return & dec , nil
}
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// writeHistory persists the state history with the provided state set.
func writeHistory ( freezer * rawdb . ResettableFreezer , dl * diffLayer ) error {
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// Short circuit if state set is not available.
if dl . states == nil {
return errors . New ( "state change set is not available" )
}
var (
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start = time . Now ( )
history = newHistory ( dl . rootHash ( ) , dl . parentLayer ( ) . rootHash ( ) , dl . block , dl . states )
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)
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accountData , storageData , accountIndex , storageIndex := history . encode ( )
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dataSize := common . StorageSize ( len ( accountData ) + len ( storageData ) )
indexSize := common . StorageSize ( len ( accountIndex ) + len ( storageIndex ) )
// Write history data into five freezer table respectively.
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rawdb . WriteStateHistory ( freezer , dl . stateID ( ) , history . meta . encode ( ) , accountIndex , storageIndex , accountData , storageData )
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historyDataBytesMeter . Mark ( int64 ( dataSize ) )
historyIndexBytesMeter . Mark ( int64 ( indexSize ) )
historyBuildTimeMeter . UpdateSince ( start )
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log . Debug ( "Stored state history" , "id" , dl . stateID ( ) , "block" , dl . block , "data" , dataSize , "index" , indexSize , "elapsed" , common . PrettyDuration ( time . Since ( start ) ) )
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return nil
}
// checkHistories retrieves a batch of meta objects with the specified range
// and performs the callback on each item.
func checkHistories ( freezer * rawdb . ResettableFreezer , start , count uint64 , check func ( * meta ) error ) error {
for count > 0 {
number := count
if number > 10000 {
number = 10000 // split the big read into small chunks
}
blobs , err := rawdb . ReadStateHistoryMetaList ( freezer , start , number )
if err != nil {
return err
}
for _ , blob := range blobs {
var dec meta
if err := dec . decode ( blob ) ; err != nil {
return err
}
if err := check ( & dec ) ; err != nil {
return err
}
}
count -= uint64 ( len ( blobs ) )
start += uint64 ( len ( blobs ) )
}
return nil
}
// truncateFromHead removes the extra state histories from the head with the given
// parameters. It returns the number of items removed from the head.
func truncateFromHead ( db ethdb . Batcher , freezer * rawdb . ResettableFreezer , nhead uint64 ) ( int , error ) {
ohead , err := freezer . Ancients ( )
if err != nil {
return 0 , err
}
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otail , err := freezer . Tail ( )
if err != nil {
return 0 , err
}
// Ensure that the truncation target falls within the specified range.
if ohead < nhead || nhead < otail {
return 0 , fmt . Errorf ( "out of range, tail: %d, head: %d, target: %d" , otail , ohead , nhead )
}
// Short circuit if nothing to truncate.
if ohead == nhead {
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return 0 , nil
}
// Load the meta objects in range [nhead+1, ohead]
blobs , err := rawdb . ReadStateHistoryMetaList ( freezer , nhead + 1 , ohead - nhead )
if err != nil {
return 0 , err
}
batch := db . NewBatch ( )
for _ , blob := range blobs {
var m meta
if err := m . decode ( blob ) ; err != nil {
return 0 , err
}
rawdb . DeleteStateID ( batch , m . root )
}
if err := batch . Write ( ) ; err != nil {
return 0 , err
}
ohead , err = freezer . TruncateHead ( nhead )
if err != nil {
return 0 , err
}
return int ( ohead - nhead ) , nil
}
// truncateFromTail removes the extra state histories from the tail with the given
// parameters. It returns the number of items removed from the tail.
func truncateFromTail ( db ethdb . Batcher , freezer * rawdb . ResettableFreezer , ntail uint64 ) ( int , error ) {
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ohead , err := freezer . Ancients ( )
if err != nil {
return 0 , err
}
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otail , err := freezer . Tail ( )
if err != nil {
return 0 , err
}
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// Ensure that the truncation target falls within the specified range.
if otail > ntail || ntail > ohead {
return 0 , fmt . Errorf ( "out of range, tail: %d, head: %d, target: %d" , otail , ohead , ntail )
}
// Short circuit if nothing to truncate.
if otail == ntail {
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return 0 , nil
}
// Load the meta objects in range [otail+1, ntail]
blobs , err := rawdb . ReadStateHistoryMetaList ( freezer , otail + 1 , ntail - otail )
if err != nil {
return 0 , err
}
batch := db . NewBatch ( )
for _ , blob := range blobs {
var m meta
if err := m . decode ( blob ) ; err != nil {
return 0 , err
}
rawdb . DeleteStateID ( batch , m . root )
}
if err := batch . Write ( ) ; err != nil {
return 0 , err
}
otail , err = freezer . TruncateTail ( ntail )
if err != nil {
return 0 , err
}
return int ( ntail - otail ) , nil
}