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// Copyright 2016 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 storage
import (
"bytes"
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"crypto/rand"
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"encoding/binary"
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"errors"
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"fmt"
"io"
"sync"
"testing"
"time"
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"github.com/ethereum/go-ethereum/crypto/sha3"
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)
/ *
Tests TreeChunker by splitting and joining a random byte slice
* /
type test interface {
Fatalf ( string , ... interface { } )
Logf ( string , ... interface { } )
}
type chunkerTester struct {
inputs map [ uint64 ] [ ] byte
chunks map [ string ] * Chunk
t test
}
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func ( self * chunkerTester ) Split ( chunker Splitter , data io . Reader , size int64 , chunkC chan * Chunk , swg * sync . WaitGroup , expectedError error ) ( key Key , err error ) {
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// reset
self . chunks = make ( map [ string ] * Chunk )
if self . inputs == nil {
self . inputs = make ( map [ uint64 ] [ ] byte )
}
quitC := make ( chan bool )
timeout := time . After ( 600 * time . Second )
if chunkC != nil {
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go func ( ) error {
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for {
select {
case <- timeout :
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return errors . New ( ( "Split timeout error" ) )
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case <- quitC :
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return nil
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case chunk := <- chunkC :
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// self.chunks = append(self.chunks, chunk)
self . chunks [ chunk . Key . String ( ) ] = chunk
if chunk . wg != nil {
chunk . wg . Done ( )
}
}
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}
} ( )
}
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key , err = chunker . Split ( data , size , chunkC , swg , nil )
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if err != nil && expectedError == nil {
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err = fmt . Errorf ( "Split error: %v" , err )
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}
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if chunkC != nil {
if swg != nil {
swg . Wait ( )
}
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close ( quitC )
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}
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return key , err
}
func ( self * chunkerTester ) Append ( chunker Splitter , rootKey Key , data io . Reader , chunkC chan * Chunk , swg * sync . WaitGroup , expectedError error ) ( key Key , err error ) {
quitC := make ( chan bool )
timeout := time . After ( 60 * time . Second )
if chunkC != nil {
go func ( ) error {
for {
select {
case <- timeout :
return errors . New ( ( "Append timeout error" ) )
case <- quitC :
return nil
case chunk := <- chunkC :
if chunk != nil {
stored , success := self . chunks [ chunk . Key . String ( ) ]
if ! success {
// Requesting data
self . chunks [ chunk . Key . String ( ) ] = chunk
if chunk . wg != nil {
chunk . wg . Done ( )
}
} else {
// getting data
chunk . SData = stored . SData
chunk . Size = int64 ( binary . LittleEndian . Uint64 ( chunk . SData [ 0 : 8 ] ) )
close ( chunk . C )
}
}
}
}
} ( )
}
key , err = chunker . Append ( rootKey , data , chunkC , swg , nil )
if err != nil && expectedError == nil {
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err = fmt . Errorf ( "Append error: %v" , err )
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}
if chunkC != nil {
if swg != nil {
swg . Wait ( )
}
close ( quitC )
}
return key , err
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}
func ( self * chunkerTester ) Join ( chunker Chunker , key Key , c int , chunkC chan * Chunk , quitC chan bool ) LazySectionReader {
// reset but not the chunks
reader := chunker . Join ( key , chunkC )
timeout := time . After ( 600 * time . Second )
i := 0
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go func ( ) error {
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for {
select {
case <- timeout :
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return errors . New ( ( "Join timeout error" ) )
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case chunk , ok := <- chunkC :
if ! ok {
close ( quitC )
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return nil
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}
// this just mocks the behaviour of a chunk store retrieval
stored , success := self . chunks [ chunk . Key . String ( ) ]
if ! success {
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return errors . New ( ( "Not found" ) )
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}
chunk . SData = stored . SData
chunk . Size = int64 ( binary . LittleEndian . Uint64 ( chunk . SData [ 0 : 8 ] ) )
close ( chunk . C )
i ++
}
}
} ( )
return reader
}
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func testRandomBrokenData ( splitter Splitter , n int , tester * chunkerTester ) {
data := io . LimitReader ( rand . Reader , int64 ( n ) )
brokendata := brokenLimitReader ( data , n , n / 2 )
buf := make ( [ ] byte , n )
_ , err := brokendata . Read ( buf )
if err == nil || err . Error ( ) != "Broken reader" {
tester . t . Fatalf ( "Broken reader is not broken, hence broken. Returns: %v" , err )
}
data = io . LimitReader ( rand . Reader , int64 ( n ) )
brokendata = brokenLimitReader ( data , n , n / 2 )
chunkC := make ( chan * Chunk , 1000 )
swg := & sync . WaitGroup { }
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expectedError := fmt . Errorf ( "Broken reader" )
key , err := tester . Split ( splitter , brokendata , int64 ( n ) , chunkC , swg , expectedError )
if err == nil || err . Error ( ) != expectedError . Error ( ) {
tester . t . Fatalf ( "Not receiving the correct error! Expected %v, received %v" , expectedError , err )
}
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tester . t . Logf ( " Key = %v\n" , key )
}
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func testRandomData ( splitter Splitter , n int , tester * chunkerTester ) Key {
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if tester . inputs == nil {
tester . inputs = make ( map [ uint64 ] [ ] byte )
}
input , found := tester . inputs [ uint64 ( n ) ]
var data io . Reader
if ! found {
data , input = testDataReaderAndSlice ( n )
tester . inputs [ uint64 ( n ) ] = input
} else {
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data = io . LimitReader ( bytes . NewReader ( input ) , int64 ( n ) )
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}
chunkC := make ( chan * Chunk , 1000 )
swg := & sync . WaitGroup { }
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key , err := tester . Split ( splitter , data , int64 ( n ) , chunkC , swg , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
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tester . t . Logf ( " Key = %v\n" , key )
chunkC = make ( chan * Chunk , 1000 )
quitC := make ( chan bool )
chunker := NewTreeChunker ( NewChunkerParams ( ) )
reader := tester . Join ( chunker , key , 0 , chunkC , quitC )
output := make ( [ ] byte , n )
r , err := reader . Read ( output )
if r != n || err != io . EOF {
tester . t . Fatalf ( "read error read: %v n = %v err = %v\n" , r , n , err )
}
if input != nil {
if ! bytes . Equal ( output , input ) {
tester . t . Fatalf ( "input and output mismatch\n IN: %v\nOUT: %v\n" , input , output )
}
}
close ( chunkC )
<- quitC
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return key
}
func testRandomDataAppend ( splitter Splitter , n , m int , tester * chunkerTester ) {
if tester . inputs == nil {
tester . inputs = make ( map [ uint64 ] [ ] byte )
}
input , found := tester . inputs [ uint64 ( n ) ]
var data io . Reader
if ! found {
data , input = testDataReaderAndSlice ( n )
tester . inputs [ uint64 ( n ) ] = input
} else {
data = io . LimitReader ( bytes . NewReader ( input ) , int64 ( n ) )
}
chunkC := make ( chan * Chunk , 1000 )
swg := & sync . WaitGroup { }
key , err := tester . Split ( splitter , data , int64 ( n ) , chunkC , swg , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
tester . t . Logf ( " Key = %v\n" , key )
//create a append data stream
appendInput , found := tester . inputs [ uint64 ( m ) ]
var appendData io . Reader
if ! found {
appendData , appendInput = testDataReaderAndSlice ( m )
tester . inputs [ uint64 ( m ) ] = appendInput
} else {
appendData = io . LimitReader ( bytes . NewReader ( appendInput ) , int64 ( m ) )
}
chunkC = make ( chan * Chunk , 1000 )
swg = & sync . WaitGroup { }
newKey , err := tester . Append ( splitter , key , appendData , chunkC , swg , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
tester . t . Logf ( " NewKey = %v\n" , newKey )
chunkC = make ( chan * Chunk , 1000 )
quitC := make ( chan bool )
chunker := NewTreeChunker ( NewChunkerParams ( ) )
reader := tester . Join ( chunker , newKey , 0 , chunkC , quitC )
newOutput := make ( [ ] byte , n + m )
r , err := reader . Read ( newOutput )
if r != ( n + m ) {
tester . t . Fatalf ( "read error read: %v n = %v err = %v\n" , r , n , err )
}
newInput := append ( input , appendInput ... )
if ! bytes . Equal ( newOutput , newInput ) {
tester . t . Fatalf ( "input and output mismatch\n IN: %v\nOUT: %v\n" , newInput , newOutput )
}
close ( chunkC )
}
func TestSha3ForCorrectness ( t * testing . T ) {
tester := & chunkerTester { t : t }
size := 4096
input := make ( [ ] byte , size + 8 )
binary . LittleEndian . PutUint64 ( input [ : 8 ] , uint64 ( size ) )
io . LimitReader ( bytes . NewReader ( input [ 8 : ] ) , int64 ( size ) )
rawSha3 := sha3 . NewKeccak256 ( )
rawSha3 . Reset ( )
rawSha3 . Write ( input )
rawSha3Output := rawSha3 . Sum ( nil )
sha3FromMakeFunc := MakeHashFunc ( SHA3Hash ) ( )
sha3FromMakeFunc . ResetWithLength ( input [ : 8 ] )
sha3FromMakeFunc . Write ( input [ 8 : ] )
sha3FromMakeFuncOutput := sha3FromMakeFunc . Sum ( nil )
if len ( rawSha3Output ) != len ( sha3FromMakeFuncOutput ) {
tester . t . Fatalf ( "Original SHA3 and abstracted Sha3 has different length %v:%v\n" , len ( rawSha3Output ) , len ( sha3FromMakeFuncOutput ) )
}
if ! bytes . Equal ( rawSha3Output , sha3FromMakeFuncOutput ) {
tester . t . Fatalf ( "Original SHA3 and abstracted Sha3 mismatch %v:%v\n" , rawSha3Output , sha3FromMakeFuncOutput )
}
}
func TestDataAppend ( t * testing . T ) {
sizes := [ ] int { 1 , 1 , 1 , 4095 , 4096 , 4097 , 1 , 1 , 1 , 123456 , 2345678 , 2345678 }
appendSizes := [ ] int { 4095 , 4096 , 4097 , 1 , 1 , 1 , 8191 , 8192 , 8193 , 9000 , 3000 , 5000 }
tester := & chunkerTester { t : t }
chunker := NewPyramidChunker ( NewChunkerParams ( ) )
for i , s := range sizes {
testRandomDataAppend ( chunker , s , appendSizes [ i ] , tester )
}
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}
func TestRandomData ( t * testing . T ) {
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sizes := [ ] int { 1 , 60 , 83 , 179 , 253 , 1024 , 4095 , 4096 , 4097 , 8191 , 8192 , 8193 , 12287 , 12288 , 12289 , 123456 , 2345678 }
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tester := & chunkerTester { t : t }
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chunker := NewTreeChunker ( NewChunkerParams ( ) )
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pyramid := NewPyramidChunker ( NewChunkerParams ( ) )
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for _ , s := range sizes {
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treeChunkerKey := testRandomData ( chunker , s , tester )
pyramidChunkerKey := testRandomData ( pyramid , s , tester )
if treeChunkerKey . String ( ) != pyramidChunkerKey . String ( ) {
tester . t . Fatalf ( "tree chunker and pyramid chunker key mismatch for size %v\n TC: %v\n PC: %v\n" , s , treeChunkerKey . String ( ) , pyramidChunkerKey . String ( ) )
}
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}
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cp := NewChunkerParams ( )
cp . Hash = BMTHash
chunker = NewTreeChunker ( cp )
pyramid = NewPyramidChunker ( cp )
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for _ , s := range sizes {
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treeChunkerKey := testRandomData ( chunker , s , tester )
pyramidChunkerKey := testRandomData ( pyramid , s , tester )
if treeChunkerKey . String ( ) != pyramidChunkerKey . String ( ) {
tester . t . Fatalf ( "tree chunker BMT and pyramid chunker BMT key mismatch for size %v \n TC: %v\n PC: %v\n" , s , treeChunkerKey . String ( ) , pyramidChunkerKey . String ( ) )
}
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}
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}
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func TestRandomBrokenData ( t * testing . T ) {
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sizes := [ ] int { 1 , 60 , 83 , 179 , 253 , 1024 , 4095 , 4096 , 4097 , 8191 , 8192 , 8193 , 12287 , 12288 , 12289 , 123456 , 2345678 }
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tester := & chunkerTester { t : t }
chunker := NewTreeChunker ( NewChunkerParams ( ) )
for _ , s := range sizes {
testRandomBrokenData ( chunker , s , tester )
}
}
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func benchReadAll ( reader LazySectionReader ) {
size , _ := reader . Size ( nil )
output := make ( [ ] byte , 1000 )
for pos := int64 ( 0 ) ; pos < size ; pos += 1000 {
reader . ReadAt ( output , pos )
}
}
func benchmarkJoin ( n int , t * testing . B ) {
t . ReportAllocs ( )
for i := 0 ; i < t . N ; i ++ {
chunker := NewTreeChunker ( NewChunkerParams ( ) )
tester := & chunkerTester { t : t }
data := testDataReader ( n )
chunkC := make ( chan * Chunk , 1000 )
swg := & sync . WaitGroup { }
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key , err := tester . Split ( chunker , data , int64 ( n ) , chunkC , swg , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
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chunkC = make ( chan * Chunk , 1000 )
quitC := make ( chan bool )
reader := tester . Join ( chunker , key , i , chunkC , quitC )
benchReadAll ( reader )
close ( chunkC )
<- quitC
}
}
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func benchmarkSplitTreeSHA3 ( n int , t * testing . B ) {
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t . ReportAllocs ( )
for i := 0 ; i < t . N ; i ++ {
chunker := NewTreeChunker ( NewChunkerParams ( ) )
tester := & chunkerTester { t : t }
data := testDataReader ( n )
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_ , err := tester . Split ( chunker , data , int64 ( n ) , nil , nil , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
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}
}
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func benchmarkSplitTreeBMT ( n int , t * testing . B ) {
t . ReportAllocs ( )
for i := 0 ; i < t . N ; i ++ {
cp := NewChunkerParams ( )
cp . Hash = BMTHash
chunker := NewTreeChunker ( cp )
tester := & chunkerTester { t : t }
data := testDataReader ( n )
_ , err := tester . Split ( chunker , data , int64 ( n ) , nil , nil , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
}
}
func benchmarkSplitPyramidSHA3 ( n int , t * testing . B ) {
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t . ReportAllocs ( )
for i := 0 ; i < t . N ; i ++ {
splitter := NewPyramidChunker ( NewChunkerParams ( ) )
tester := & chunkerTester { t : t }
data := testDataReader ( n )
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_ , err := tester . Split ( splitter , data , int64 ( n ) , nil , nil , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
}
}
func benchmarkSplitPyramidBMT ( n int , t * testing . B ) {
t . ReportAllocs ( )
for i := 0 ; i < t . N ; i ++ {
cp := NewChunkerParams ( )
cp . Hash = BMTHash
splitter := NewPyramidChunker ( cp )
tester := & chunkerTester { t : t }
data := testDataReader ( n )
_ , err := tester . Split ( splitter , data , int64 ( n ) , nil , nil , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
}
}
func benchmarkAppendPyramid ( n , m int , t * testing . B ) {
t . ReportAllocs ( )
for i := 0 ; i < t . N ; i ++ {
chunker := NewPyramidChunker ( NewChunkerParams ( ) )
tester := & chunkerTester { t : t }
data := testDataReader ( n )
data1 := testDataReader ( m )
chunkC := make ( chan * Chunk , 1000 )
swg := & sync . WaitGroup { }
key , err := tester . Split ( chunker , data , int64 ( n ) , chunkC , swg , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
chunkC = make ( chan * Chunk , 1000 )
swg = & sync . WaitGroup { }
_ , err = tester . Append ( chunker , key , data1 , chunkC , swg , nil )
if err != nil {
tester . t . Fatalf ( err . Error ( ) )
}
close ( chunkC )
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}
}
func BenchmarkJoin_2 ( t * testing . B ) { benchmarkJoin ( 100 , t ) }
func BenchmarkJoin_3 ( t * testing . B ) { benchmarkJoin ( 1000 , t ) }
func BenchmarkJoin_4 ( t * testing . B ) { benchmarkJoin ( 10000 , t ) }
func BenchmarkJoin_5 ( t * testing . B ) { benchmarkJoin ( 100000 , t ) }
func BenchmarkJoin_6 ( t * testing . B ) { benchmarkJoin ( 1000000 , t ) }
func BenchmarkJoin_7 ( t * testing . B ) { benchmarkJoin ( 10000000 , t ) }
func BenchmarkJoin_8 ( t * testing . B ) { benchmarkJoin ( 100000000 , t ) }
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func BenchmarkSplitTreeSHA3_2 ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 100 , t ) }
func BenchmarkSplitTreeSHA3_2h ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 500 , t ) }
func BenchmarkSplitTreeSHA3_3 ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 1000 , t ) }
func BenchmarkSplitTreeSHA3_3h ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 5000 , t ) }
func BenchmarkSplitTreeSHA3_4 ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 10000 , t ) }
func BenchmarkSplitTreeSHA3_4h ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 50000 , t ) }
func BenchmarkSplitTreeSHA3_5 ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 100000 , t ) }
func BenchmarkSplitTreeSHA3_6 ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 1000000 , t ) }
func BenchmarkSplitTreeSHA3_7 ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 10000000 , t ) }
func BenchmarkSplitTreeSHA3_8 ( t * testing . B ) { benchmarkSplitTreeSHA3 ( 100000000 , t ) }
func BenchmarkSplitTreeBMT_2 ( t * testing . B ) { benchmarkSplitTreeBMT ( 100 , t ) }
func BenchmarkSplitTreeBMT_2h ( t * testing . B ) { benchmarkSplitTreeBMT ( 500 , t ) }
func BenchmarkSplitTreeBMT_3 ( t * testing . B ) { benchmarkSplitTreeBMT ( 1000 , t ) }
func BenchmarkSplitTreeBMT_3h ( t * testing . B ) { benchmarkSplitTreeBMT ( 5000 , t ) }
func BenchmarkSplitTreeBMT_4 ( t * testing . B ) { benchmarkSplitTreeBMT ( 10000 , t ) }
func BenchmarkSplitTreeBMT_4h ( t * testing . B ) { benchmarkSplitTreeBMT ( 50000 , t ) }
func BenchmarkSplitTreeBMT_5 ( t * testing . B ) { benchmarkSplitTreeBMT ( 100000 , t ) }
func BenchmarkSplitTreeBMT_6 ( t * testing . B ) { benchmarkSplitTreeBMT ( 1000000 , t ) }
func BenchmarkSplitTreeBMT_7 ( t * testing . B ) { benchmarkSplitTreeBMT ( 10000000 , t ) }
func BenchmarkSplitTreeBMT_8 ( t * testing . B ) { benchmarkSplitTreeBMT ( 100000000 , t ) }
func BenchmarkSplitPyramidSHA3_2 ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 100 , t ) }
func BenchmarkSplitPyramidSHA3_2h ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 500 , t ) }
func BenchmarkSplitPyramidSHA3_3 ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 1000 , t ) }
func BenchmarkSplitPyramidSHA3_3h ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 5000 , t ) }
func BenchmarkSplitPyramidSHA3_4 ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 10000 , t ) }
func BenchmarkSplitPyramidSHA3_4h ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 50000 , t ) }
func BenchmarkSplitPyramidSHA3_5 ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 100000 , t ) }
func BenchmarkSplitPyramidSHA3_6 ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 1000000 , t ) }
func BenchmarkSplitPyramidSHA3_7 ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 10000000 , t ) }
func BenchmarkSplitPyramidSHA3_8 ( t * testing . B ) { benchmarkSplitPyramidSHA3 ( 100000000 , t ) }
func BenchmarkSplitPyramidBMT_2 ( t * testing . B ) { benchmarkSplitPyramidBMT ( 100 , t ) }
func BenchmarkSplitPyramidBMT_2h ( t * testing . B ) { benchmarkSplitPyramidBMT ( 500 , t ) }
func BenchmarkSplitPyramidBMT_3 ( t * testing . B ) { benchmarkSplitPyramidBMT ( 1000 , t ) }
func BenchmarkSplitPyramidBMT_3h ( t * testing . B ) { benchmarkSplitPyramidBMT ( 5000 , t ) }
func BenchmarkSplitPyramidBMT_4 ( t * testing . B ) { benchmarkSplitPyramidBMT ( 10000 , t ) }
func BenchmarkSplitPyramidBMT_4h ( t * testing . B ) { benchmarkSplitPyramidBMT ( 50000 , t ) }
func BenchmarkSplitPyramidBMT_5 ( t * testing . B ) { benchmarkSplitPyramidBMT ( 100000 , t ) }
func BenchmarkSplitPyramidBMT_6 ( t * testing . B ) { benchmarkSplitPyramidBMT ( 1000000 , t ) }
func BenchmarkSplitPyramidBMT_7 ( t * testing . B ) { benchmarkSplitPyramidBMT ( 10000000 , t ) }
func BenchmarkSplitPyramidBMT_8 ( t * testing . B ) { benchmarkSplitPyramidBMT ( 100000000 , t ) }
func BenchmarkAppendPyramid_2 ( t * testing . B ) { benchmarkAppendPyramid ( 100 , 1000 , t ) }
func BenchmarkAppendPyramid_2h ( t * testing . B ) { benchmarkAppendPyramid ( 500 , 1000 , t ) }
func BenchmarkAppendPyramid_3 ( t * testing . B ) { benchmarkAppendPyramid ( 1000 , 1000 , t ) }
func BenchmarkAppendPyramid_4 ( t * testing . B ) { benchmarkAppendPyramid ( 10000 , 1000 , t ) }
func BenchmarkAppendPyramid_4h ( t * testing . B ) { benchmarkAppendPyramid ( 50000 , 1000 , t ) }
func BenchmarkAppendPyramid_5 ( t * testing . B ) { benchmarkAppendPyramid ( 1000000 , 1000 , t ) }
func BenchmarkAppendPyramid_6 ( t * testing . B ) { benchmarkAppendPyramid ( 1000000 , 1000 , t ) }
func BenchmarkAppendPyramid_7 ( t * testing . B ) { benchmarkAppendPyramid ( 10000000 , 1000 , t ) }
func BenchmarkAppendPyramid_8 ( t * testing . B ) { benchmarkAppendPyramid ( 100000000 , 1000 , t ) }
// go test -timeout 20m -cpu 4 -bench=./swarm/storage -run no
// If you dont add the timeout argument above .. the benchmark will timeout and dump