forked from cerc-io/plugeth
b628d72766
This changes the CI / release builds to use the latest Go version. It also upgrades golangci-lint to a newer version compatible with Go 1.19. In Go 1.19, godoc has gained official support for links and lists. The syntax for code blocks in doc comments has changed and now requires a leading tab character. gofmt adapts comments to the new syntax automatically, so there are a lot of comment re-formatting changes in this PR. We need to apply the new format in order to pass the CI lint stage with Go 1.19. With the linter upgrade, I have decided to disable 'gosec' - it produces too many false-positive warnings. The 'deadcode' and 'varcheck' linters have also been removed because golangci-lint warns about them being unmaintained. 'unused' provides similar coverage and we already have it enabled, so we don't lose much with this change.
210 lines
5.8 KiB
Go
210 lines
5.8 KiB
Go
// Copyright 2020 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
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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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.
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//
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// 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 stacktrie
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import (
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"bytes"
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"encoding/binary"
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"errors"
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"fmt"
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"hash"
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"io"
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"sort"
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"github.com/ethereum/go-ethereum/ethdb"
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"github.com/ethereum/go-ethereum/trie"
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"golang.org/x/crypto/sha3"
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)
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type fuzzer struct {
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input io.Reader
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exhausted bool
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debugging bool
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}
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func (f *fuzzer) read(size int) []byte {
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out := make([]byte, size)
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if _, err := f.input.Read(out); err != nil {
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f.exhausted = true
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}
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return out
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}
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func (f *fuzzer) readSlice(min, max int) []byte {
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var a uint16
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binary.Read(f.input, binary.LittleEndian, &a)
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size := min + int(a)%(max-min)
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out := make([]byte, size)
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if _, err := f.input.Read(out); err != nil {
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f.exhausted = true
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}
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return out
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}
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// spongeDb is a dummy db backend which accumulates writes in a sponge
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type spongeDb struct {
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sponge hash.Hash
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debug bool
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}
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func (s *spongeDb) Has(key []byte) (bool, error) { panic("implement me") }
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func (s *spongeDb) Get(key []byte) ([]byte, error) { return nil, errors.New("no such elem") }
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func (s *spongeDb) Delete(key []byte) error { panic("implement me") }
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func (s *spongeDb) NewBatch() ethdb.Batch { return &spongeBatch{s} }
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func (s *spongeDb) NewBatchWithSize(size int) ethdb.Batch { return &spongeBatch{s} }
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func (s *spongeDb) NewSnapshot() (ethdb.Snapshot, error) { panic("implement me") }
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func (s *spongeDb) Stat(property string) (string, error) { panic("implement me") }
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func (s *spongeDb) Compact(start []byte, limit []byte) error { panic("implement me") }
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func (s *spongeDb) Close() error { return nil }
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func (s *spongeDb) Put(key []byte, value []byte) error {
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if s.debug {
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fmt.Printf("db.Put %x : %x\n", key, value)
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}
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s.sponge.Write(key)
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s.sponge.Write(value)
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return nil
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}
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func (s *spongeDb) NewIterator(prefix []byte, start []byte) ethdb.Iterator { panic("implement me") }
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// spongeBatch is a dummy batch which immediately writes to the underlying spongedb
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type spongeBatch struct {
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db *spongeDb
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}
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func (b *spongeBatch) Put(key, value []byte) error {
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b.db.Put(key, value)
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return nil
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}
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func (b *spongeBatch) Delete(key []byte) error { panic("implement me") }
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func (b *spongeBatch) ValueSize() int { return 100 }
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func (b *spongeBatch) Write() error { return nil }
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func (b *spongeBatch) Reset() {}
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func (b *spongeBatch) Replay(w ethdb.KeyValueWriter) error { return nil }
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type kv struct {
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k, v []byte
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}
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type kvs []kv
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func (k kvs) Len() int {
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return len(k)
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}
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func (k kvs) Less(i, j int) bool {
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return bytes.Compare(k[i].k, k[j].k) < 0
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}
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func (k kvs) Swap(i, j int) {
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k[j], k[i] = k[i], k[j]
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}
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// The function must return
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//
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// - 1 if the fuzzer should increase priority of the
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// given input during subsequent fuzzing (for example, the input is lexically
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// correct and was parsed successfully);
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// - -1 if the input must not be added to corpus even if gives new coverage; and
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// - 0 otherwise
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//
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// other values are reserved for future use.
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func Fuzz(data []byte) int {
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f := fuzzer{
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input: bytes.NewReader(data),
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exhausted: false,
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}
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return f.fuzz()
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}
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func Debug(data []byte) int {
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f := fuzzer{
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input: bytes.NewReader(data),
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exhausted: false,
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debugging: true,
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}
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return f.fuzz()
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}
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func (f *fuzzer) fuzz() int {
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// This spongeDb is used to check the sequence of disk-db-writes
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var (
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spongeA = &spongeDb{sponge: sha3.NewLegacyKeccak256()}
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dbA = trie.NewDatabase(spongeA)
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trieA = trie.NewEmpty(dbA)
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spongeB = &spongeDb{sponge: sha3.NewLegacyKeccak256()}
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trieB = trie.NewStackTrie(spongeB)
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vals kvs
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useful bool
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maxElements = 10000
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// operate on unique keys only
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keys = make(map[string]struct{})
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)
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// Fill the trie with elements
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for i := 0; !f.exhausted && i < maxElements; i++ {
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k := f.read(32)
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v := f.readSlice(1, 500)
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if f.exhausted {
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// If it was exhausted while reading, the value may be all zeroes,
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// thus 'deletion' which is not supported on stacktrie
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break
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}
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if _, present := keys[string(k)]; present {
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// This key is a duplicate, ignore it
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continue
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}
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keys[string(k)] = struct{}{}
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vals = append(vals, kv{k: k, v: v})
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trieA.Update(k, v)
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useful = true
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}
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if !useful {
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return 0
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}
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// Flush trie -> database
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rootA, nodes, err := trieA.Commit(false)
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if err != nil {
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panic(err)
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}
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if nodes != nil {
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dbA.Update(trie.NewWithNodeSet(nodes))
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}
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// Flush memdb -> disk (sponge)
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dbA.Commit(rootA, false, nil)
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// Stacktrie requires sorted insertion
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sort.Sort(vals)
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for _, kv := range vals {
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if f.debugging {
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fmt.Printf("{\"%#x\" , \"%#x\"} // stacktrie.Update\n", kv.k, kv.v)
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}
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trieB.Update(kv.k, kv.v)
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}
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rootB := trieB.Hash()
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if _, err := trieB.Commit(); err != nil {
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panic(err)
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}
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if rootA != rootB {
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panic(fmt.Sprintf("roots differ: (trie) %x != %x (stacktrie)", rootA, rootB))
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}
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sumA := spongeA.sponge.Sum(nil)
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sumB := spongeB.sponge.Sum(nil)
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if !bytes.Equal(sumA, sumB) {
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panic(fmt.Sprintf("sequence differ: (trie) %x != %x (stacktrie)", sumA, sumB))
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}
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return 1
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}
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