mirror of
https://gitlab.com/pulsechaincom/erigon-pulse.git
synced 2024-12-24 20:47:16 +00:00
244d70fb9c
* Further fixes * Repace 1000 with a symbol
374 lines
11 KiB
Go
374 lines
11 KiB
Go
package trie
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import (
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"bytes"
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"fmt"
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"math/big"
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"runtime/debug"
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"sort"
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"strings"
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"github.com/ledgerwatch/turbo-geth/common"
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"github.com/ledgerwatch/turbo-geth/common/dbutils"
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"github.com/ledgerwatch/turbo-geth/core/types/accounts"
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"github.com/ledgerwatch/turbo-geth/ethdb"
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"github.com/ledgerwatch/turbo-geth/log"
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)
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var emptyHash [32]byte
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func (t *Trie) Rebuild(db ethdb.Database, blockNr uint64) error {
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if t.root == nil {
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return nil
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}
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n, ok := t.root.(hashNode)
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if !ok {
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return fmt.Errorf("Rebuild: Expected hashNode, got %T", t.root)
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}
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if err := t.rebuildHashes(db, nil, 0, blockNr, true, n); err != nil {
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return err
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}
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log.Info("Rebuilt top of account trie and verified", "root hash", n)
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return nil
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}
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// OneBytesTape implements BytesTape and can only contain one binary string at the time
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type OneBytesTape struct {
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bytes.Buffer
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}
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// Next belongs to the BytesTape interface, and for this type it always returns the
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// content of the buffer
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func (obt *OneBytesTape) Next() ([]byte, error) {
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return obt.Bytes(), nil
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}
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// OneUint64Tape implements Uint64Tape and can only contain one number at a time
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type OneUint64Tape uint64
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// Next belongs to the Uint64Tape interface, and for this type it always returns
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// the currently set nonce
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func (out *OneUint64Tape) Next() (uint64, error) {
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return uint64(*out), nil
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}
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// OneBalanceTape implements BigIntTape and can only contain one balance at a time
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type OneBalanceTape big.Int
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// Next belongs to the BigIntTape interface, and for this type it always returns
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// the currently set balance
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func (obt *OneBalanceTape) Next() (*big.Int, error) {
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return (*big.Int)(obt), nil
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}
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// TwoHashTape implements HashTape and can only contain two hashes at a time
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type TwoHashTape struct {
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hashes [2]common.Hash
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idx int
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}
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// Next belongs to the HashTape interface, and for this type it returns
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// the first hash on the first invocation, and the second hash on all
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// subsequent invocations
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func (tht *TwoHashTape) Next() (common.Hash, error) {
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h := tht.hashes[tht.idx]
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if tht.idx == 0 {
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tht.idx = 1
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}
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return h, nil
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}
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// Resolver looks up (resolves) some keys and corresponding values from a database.
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// One resolver per trie (prefix).
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// See also ResolveRequest in trie.go
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type Resolver struct {
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accounts bool // Is this a resolver for accounts or for storage
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topLevels int // How many top levels of the trie to keep (not roll into hashes)
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requests []*ResolveRequest
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reqIndices []int // Indices pointing back to request slice from slices returned by PrepareResolveParams
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keyIdx int
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currentReq *ResolveRequest // Request currently being handled
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currentRs *ResolveSet // ResolveSet currently being used
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historical bool
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blockNr uint64
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hb *HashBuilder
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fieldSet uint32 // fieldSet for the next invocation of genStructStep
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rss []*ResolveSet
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curr OneBytesTape // Current key for the structure generation algorithm, as well as the input tape for the hash builder
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succ bytes.Buffer
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value OneBytesTape // Current value to be used as the value tape for the hash builder
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hashes TwoHashTape // Current code hash and storage hash as the hash tape for the hash builder
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groups []uint16
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a accounts.Account
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}
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func NewResolver(topLevels int, forAccounts bool, blockNr uint64) *Resolver {
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tr := Resolver{
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accounts: forAccounts,
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topLevels: topLevels,
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requests: []*ResolveRequest{},
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reqIndices: []int{},
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blockNr: blockNr,
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hb: NewHashBuilder(false),
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}
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tr.hb.SetKeyTape(&tr.curr)
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tr.hb.SetValueTape(NewRlpSerializableBytesTape(&tr.value))
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tr.hb.SetNonceTape((*OneUint64Tape)(&tr.a.Nonce))
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tr.hb.SetBalanceTape((*OneBalanceTape)(&tr.a.Balance))
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tr.hb.SetHashTape(&tr.hashes)
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tr.hb.SetSSizeTape((*OneUint64Tape)(&tr.a.StorageSize))
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return &tr
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}
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func (tr *Resolver) SetHistorical(h bool) {
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tr.historical = h
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}
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// Resolver implements sort.Interface
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// and sorts by resolve requests
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// (more general requests come first)
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func (tr *Resolver) Len() int {
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return len(tr.requests)
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}
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func min(a, b int) int {
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if a < b {
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return a
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}
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return b
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}
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func (tr *Resolver) Less(i, j int) bool {
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ci := tr.requests[i]
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cj := tr.requests[j]
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m := min(ci.resolvePos, cj.resolvePos)
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c := bytes.Compare(ci.contract, cj.contract)
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if c != 0 {
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return c < 0
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}
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c = bytes.Compare(ci.resolveHex[:m], cj.resolveHex[:m])
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if c != 0 {
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return c < 0
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}
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return ci.resolvePos < cj.resolvePos
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}
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func (tr *Resolver) Swap(i, j int) {
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tr.requests[i], tr.requests[j] = tr.requests[j], tr.requests[i]
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}
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func (tr *Resolver) AddRequest(req *ResolveRequest) {
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tr.requests = append(tr.requests, req)
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}
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func (tr *Resolver) Print() {
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for _, req := range tr.requests {
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fmt.Printf("%s\n", req.String())
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}
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}
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// PrepareResolveParams prepares information for the MultiWalk
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func (tr *Resolver) PrepareResolveParams() ([][]byte, []uint) {
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// Remove requests strictly contained in the preceding ones
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startkeys := [][]byte{}
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fixedbits := []uint{}
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tr.rss = nil
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if len(tr.requests) == 0 {
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return startkeys, fixedbits
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}
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sort.Stable(tr)
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var prevReq *ResolveRequest
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for i, req := range tr.requests {
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if prevReq == nil ||
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!bytes.Equal(req.contract, prevReq.contract) ||
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!bytes.Equal(req.resolveHex[:req.resolvePos], prevReq.resolveHex[:prevReq.resolvePos]) {
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tr.reqIndices = append(tr.reqIndices, i)
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pLen := len(req.contract)
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key := make([]byte, pLen+32)
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copy(key[:], req.contract)
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decodeNibbles(req.resolveHex[:req.resolvePos], key[pLen:])
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startkeys = append(startkeys, key)
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req.extResolvePos = req.resolvePos + 2*pLen
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fixedbits = append(fixedbits, uint(4*req.extResolvePos))
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prevReq = req
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var minLength int
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if req.resolvePos >= tr.topLevels {
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minLength = 0
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} else {
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minLength = tr.topLevels - req.resolvePos
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}
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rs := NewResolveSet(minLength)
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tr.rss = append(tr.rss, rs)
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rs.AddHex(req.resolveHex[req.resolvePos:])
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} else {
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rs := tr.rss[len(tr.rss)-1]
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rs.AddHex(req.resolveHex[req.resolvePos:])
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}
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}
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tr.currentReq = tr.requests[tr.reqIndices[0]]
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tr.currentRs = tr.rss[0]
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return startkeys, fixedbits
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}
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func (tr *Resolver) finaliseRoot() error {
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tr.curr.Reset()
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tr.curr.Write(tr.succ.Bytes())
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tr.succ.Reset()
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if tr.curr.Len() > 0 {
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var err error
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tr.groups, err = GenStructStep(tr.fieldSet, tr.currentRs.HashOnly, false, false, tr.curr.Bytes(), tr.succ.Bytes(), tr.hb, tr.groups)
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if err != nil {
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return err
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}
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}
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if tr.hb.hasRoot() {
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hbRoot := tr.hb.root()
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hbHash := tr.hb.rootHash()
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if tr.currentReq.RequiresRLP {
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hasher := newHasher(false)
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defer returnHasherToPool(hasher)
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h, err := hasher.hashChildren(hbRoot, 0)
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if err != nil {
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return err
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}
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tr.currentReq.NodeRLP = h
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}
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var hookKey []byte
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if tr.currentReq.contract == nil {
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hookKey = tr.currentReq.resolveHex[:tr.currentReq.resolvePos]
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} else {
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contractHex := keybytesToHex(tr.currentReq.contract)
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contractHex = contractHex[:len(contractHex)-1-16] // Remove terminal nibble and incarnation bytes
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hookKey = append(contractHex, tr.currentReq.resolveHex[:tr.currentReq.resolvePos]...)
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}
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//fmt.Printf("hookKey: %x, %s\n", hookKey, hbRoot.fstring(""))
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tr.currentReq.t.hook(hookKey, hbRoot)
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if len(tr.currentReq.resolveHash) > 0 && !bytes.Equal(tr.currentReq.resolveHash, hbHash[:]) {
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return fmt.Errorf("mismatching hash: %s %x for prefix %x, resolveHex %x, resolvePos %d",
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tr.currentReq.resolveHash, hbHash, tr.currentReq.contract, tr.currentReq.resolveHex, tr.currentReq.resolvePos)
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}
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}
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return nil
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}
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// Various values of the account field set
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const (
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AccountFieldNonceOnly uint32 = 0x01
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AccountFieldBalanceOnly uint32 = 0x02
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AccountFieldRootOnly uint32 = 0x04
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AccountFieldCodeHashOnly uint32 = 0x08
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AccountFieldSSizeOnly uint32 = 0x10
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AccountFieldSetNotAccount uint32 = 0x00
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AccountFieldSetNotContract uint32 = 0x03 // Bit 0 is set for nonce, bit 1 is set for balance
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AccountFieldSetContract uint32 = 0x0f // Bits 0-3 are set for nonce, balance, storageRoot and codeHash
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AccountFieldSetContractWithSize uint32 = 0x1f // Bits 0-4 are set for nonce, balance, storageRoot, codeHash and storageSize
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)
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// Walker - k, v - shouldn't be reused in the caller's code
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func (tr *Resolver) Walker(keyIdx int, k []byte, v []byte) error {
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//fmt.Printf("keyIdx: %d key:%x value:%x, accounts: %t\n", keyIdx, k, v, tr.accounts)
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if keyIdx != tr.keyIdx {
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if err := tr.finaliseRoot(); err != nil {
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return err
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}
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tr.hb.Reset()
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tr.groups = nil
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tr.keyIdx = keyIdx
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tr.currentReq = tr.requests[tr.reqIndices[keyIdx]]
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tr.currentRs = tr.rss[keyIdx]
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tr.curr.Reset()
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}
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if len(v) > 0 {
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tr.curr.Reset()
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tr.curr.Write(tr.succ.Bytes())
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tr.succ.Reset()
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skip := tr.currentReq.extResolvePos // how many first nibbles to skip
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i := 0
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for _, b := range k {
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if i >= skip {
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tr.succ.WriteByte(b / 16)
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}
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i++
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if i >= skip {
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tr.succ.WriteByte(b % 16)
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}
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i++
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}
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tr.succ.WriteByte(16)
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if tr.curr.Len() > 0 {
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var err error
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tr.groups, err = GenStructStep(tr.fieldSet, tr.currentRs.HashOnly, false, false, tr.curr.Bytes(), tr.succ.Bytes(), tr.hb, tr.groups)
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if err != nil {
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return err
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}
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}
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// Remember the current key and value
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if tr.accounts {
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if err := tr.a.DecodeForStorage(v); err != nil {
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return err
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}
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if tr.a.IsEmptyCodeHash() && tr.a.IsEmptyRoot() {
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tr.fieldSet = AccountFieldSetNotContract
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} else {
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if tr.a.HasStorageSize {
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tr.fieldSet = AccountFieldSetContractWithSize
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} else {
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tr.fieldSet = AccountFieldSetContract
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}
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// Load hashes onto the stack of the hashbuilder
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tr.hashes.hashes[0] = tr.a.CodeHash // this will be just beneath the top of the stack
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tr.hashes.hashes[1] = tr.a.Root // this will end up on top of the stack
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tr.hashes.idx = 0 // Reset the counter
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// the first item ends up deepest on the stack, the seccond item - on the top
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if err := tr.hb.hash(2); err != nil {
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return err
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}
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}
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} else {
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tr.value.Buffer.Reset()
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tr.value.Buffer.Write(v)
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tr.fieldSet = AccountFieldSetNotAccount
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}
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}
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return nil
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}
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func (tr *Resolver) ResolveWithDb(db ethdb.Database, blockNr uint64) error {
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startkeys, fixedbits := tr.PrepareResolveParams()
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var err error
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if db == nil {
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var b strings.Builder
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fmt.Fprintf(&b, "ResolveWithDb(db=nil), tr.accounts: %t\n", tr.accounts)
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for i, sk := range startkeys {
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fmt.Fprintf(&b, "sk %x, bits: %d\n", sk, fixedbits[i])
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}
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return fmt.Errorf("Unexpected resolution: %s at %s", b.String(), debug.Stack())
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}
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if tr.accounts {
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if tr.historical {
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err = db.MultiWalkAsOf(dbutils.AccountsBucket, dbutils.AccountsHistoryBucket, startkeys, fixedbits, blockNr+1, tr.Walker)
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} else {
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err = db.MultiWalk(dbutils.AccountsBucket, startkeys, fixedbits, tr.Walker)
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}
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} else {
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if tr.historical {
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err = db.MultiWalkAsOf(dbutils.StorageBucket, dbutils.StorageHistoryBucket, startkeys, fixedbits, blockNr+1, tr.Walker)
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} else {
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err = db.MultiWalk(dbutils.StorageBucket, startkeys, fixedbits, tr.Walker)
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}
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}
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if err != nil {
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return err
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}
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return tr.finaliseRoot()
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}
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func (t *Trie) rebuildHashes(db ethdb.Database, key []byte, pos int, blockNr uint64, accounts bool, expected hashNode) error {
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req := t.NewResolveRequest(nil, key, pos, expected)
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r := NewResolver(5, accounts, blockNr)
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r.AddRequest(req)
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return r.ResolveWithDb(db, blockNr)
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}
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