lbcd/blockchain/indexers/addrindex_test.go
Roy Lee 6f5311d7c6 [lbry] rename btcd to lbcd
Co-authored-by: Brannon King <countprimes@gmail.com>
2021-10-19 21:42:12 -07:00

276 lines
7.6 KiB
Go

// Copyright (c) 2016 The btcsuite developers
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package indexers
import (
"bytes"
"fmt"
"testing"
"github.com/lbryio/lbcd/wire"
)
// addrIndexBucket provides a mock address index database bucket by implementing
// the internalBucket interface.
type addrIndexBucket struct {
levels map[[levelKeySize]byte][]byte
}
// Clone returns a deep copy of the mock address index bucket.
func (b *addrIndexBucket) Clone() *addrIndexBucket {
levels := make(map[[levelKeySize]byte][]byte)
for k, v := range b.levels {
vCopy := make([]byte, len(v))
copy(vCopy, v)
levels[k] = vCopy
}
return &addrIndexBucket{levels: levels}
}
// Get returns the value associated with the key from the mock address index
// bucket.
//
// This is part of the internalBucket interface.
func (b *addrIndexBucket) Get(key []byte) []byte {
var levelKey [levelKeySize]byte
copy(levelKey[:], key)
return b.levels[levelKey]
}
// Put stores the provided key/value pair to the mock address index bucket.
//
// This is part of the internalBucket interface.
func (b *addrIndexBucket) Put(key []byte, value []byte) error {
var levelKey [levelKeySize]byte
copy(levelKey[:], key)
b.levels[levelKey] = value
return nil
}
// Delete removes the provided key from the mock address index bucket.
//
// This is part of the internalBucket interface.
func (b *addrIndexBucket) Delete(key []byte) error {
var levelKey [levelKeySize]byte
copy(levelKey[:], key)
delete(b.levels, levelKey)
return nil
}
// printLevels returns a string with a visual representation of the provided
// address key taking into account the max size of each level. It is useful
// when creating and debugging test cases.
func (b *addrIndexBucket) printLevels(addrKey [addrKeySize]byte) string {
highestLevel := uint8(0)
for k := range b.levels {
if !bytes.Equal(k[:levelOffset], addrKey[:]) {
continue
}
level := k[levelOffset]
if level > highestLevel {
highestLevel = level
}
}
var levelBuf bytes.Buffer
_, _ = levelBuf.WriteString("\n")
maxEntries := level0MaxEntries
for level := uint8(0); level <= highestLevel; level++ {
data := b.levels[keyForLevel(addrKey, level)]
numEntries := len(data) / txEntrySize
for i := 0; i < numEntries; i++ {
start := i * txEntrySize
num := byteOrder.Uint32(data[start:])
_, _ = levelBuf.WriteString(fmt.Sprintf("%02d ", num))
}
for i := numEntries; i < maxEntries; i++ {
_, _ = levelBuf.WriteString("_ ")
}
_, _ = levelBuf.WriteString("\n")
maxEntries *= 2
}
return levelBuf.String()
}
// sanityCheck ensures that all data stored in the bucket for the given address
// adheres to the level-based rules described by the address index
// documentation.
func (b *addrIndexBucket) sanityCheck(addrKey [addrKeySize]byte, expectedTotal int) error {
// Find the highest level for the key.
highestLevel := uint8(0)
for k := range b.levels {
if !bytes.Equal(k[:levelOffset], addrKey[:]) {
continue
}
level := k[levelOffset]
if level > highestLevel {
highestLevel = level
}
}
// Ensure the expected total number of entries are present and that
// all levels adhere to the rules described in the address index
// documentation.
var totalEntries int
maxEntries := level0MaxEntries
for level := uint8(0); level <= highestLevel; level++ {
// Level 0 can'have more entries than the max allowed if the
// levels after it have data and it can't be empty. All other
// levels must either be half full or full.
data := b.levels[keyForLevel(addrKey, level)]
numEntries := len(data) / txEntrySize
totalEntries += numEntries
if level == 0 {
if (highestLevel != 0 && numEntries == 0) ||
numEntries > maxEntries {
return fmt.Errorf("level %d has %d entries",
level, numEntries)
}
} else if numEntries != maxEntries && numEntries != maxEntries/2 {
return fmt.Errorf("level %d has %d entries", level,
numEntries)
}
maxEntries *= 2
}
if totalEntries != expectedTotal {
return fmt.Errorf("expected %d entries - got %d", expectedTotal,
totalEntries)
}
// Ensure all of the numbers are in order starting from the highest
// level moving to the lowest level.
expectedNum := uint32(0)
for level := highestLevel + 1; level > 0; level-- {
data := b.levels[keyForLevel(addrKey, level)]
numEntries := len(data) / txEntrySize
for i := 0; i < numEntries; i++ {
start := i * txEntrySize
num := byteOrder.Uint32(data[start:])
if num != expectedNum {
return fmt.Errorf("level %d offset %d does "+
"not contain the expected number of "+
"%d - got %d", level, i, num,
expectedNum)
}
expectedNum++
}
}
return nil
}
// TestAddrIndexLevels ensures that adding and deleting entries to the address
// index creates multiple levels as described by the address index
// documentation.
func TestAddrIndexLevels(t *testing.T) {
t.Parallel()
tests := []struct {
name string
key [addrKeySize]byte
numInsert int
printLevels bool // Set to help debug a specific test.
}{
{
name: "level 0 not full",
numInsert: level0MaxEntries - 1,
},
{
name: "level 1 half",
numInsert: level0MaxEntries + 1,
},
{
name: "level 1 full",
numInsert: level0MaxEntries*2 + 1,
},
{
name: "level 2 half, level 1 half",
numInsert: level0MaxEntries*3 + 1,
},
{
name: "level 2 half, level 1 full",
numInsert: level0MaxEntries*4 + 1,
},
{
name: "level 2 full, level 1 half",
numInsert: level0MaxEntries*5 + 1,
},
{
name: "level 2 full, level 1 full",
numInsert: level0MaxEntries*6 + 1,
},
{
name: "level 3 half, level 2 half, level 1 half",
numInsert: level0MaxEntries*7 + 1,
},
{
name: "level 3 full, level 2 half, level 1 full",
numInsert: level0MaxEntries*12 + 1,
},
}
nextTest:
for testNum, test := range tests {
// Insert entries in order.
populatedBucket := &addrIndexBucket{
levels: make(map[[levelKeySize]byte][]byte),
}
for i := 0; i < test.numInsert; i++ {
txLoc := wire.TxLoc{TxStart: i * 2}
err := dbPutAddrIndexEntry(populatedBucket, test.key,
uint32(i), txLoc)
if err != nil {
t.Errorf("dbPutAddrIndexEntry #%d (%s) - "+
"unexpected error: %v", testNum,
test.name, err)
continue nextTest
}
}
if test.printLevels {
t.Log(populatedBucket.printLevels(test.key))
}
// Delete entries from the populated bucket until all entries
// have been deleted. The bucket is reset to the fully
// populated bucket on each iteration so every combination is
// tested. Notice the upper limit purposes exceeds the number
// of entries to ensure attempting to delete more entries than
// there are works correctly.
for numDelete := 0; numDelete <= test.numInsert+1; numDelete++ {
// Clone populated bucket to run each delete against.
bucket := populatedBucket.Clone()
// Remove the number of entries for this iteration.
err := dbRemoveAddrIndexEntries(bucket, test.key,
numDelete)
if err != nil {
if numDelete <= test.numInsert {
t.Errorf("dbRemoveAddrIndexEntries (%s) "+
" delete %d - unexpected error: "+
"%v", test.name, numDelete, err)
continue nextTest
}
}
if test.printLevels {
t.Log(bucket.printLevels(test.key))
}
// Sanity check the levels to ensure the adhere to all
// rules.
numExpected := test.numInsert
if numDelete <= test.numInsert {
numExpected -= numDelete
}
err = bucket.sanityCheck(test.key, numExpected)
if err != nil {
t.Errorf("sanity check fail (%s) delete %d: %v",
test.name, numDelete, err)
continue nextTest
}
}
}
}