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5.9 KiB

package merkle
import (
"bytes"
"crypto/sha256"
"fmt"
. "github.com/tendermint/tendermint/binary"
. "github.com/tendermint/tendermint/common"
"github.com/tendermint/tendermint/db"
"runtime"
"testing"
)
func init() {
// TODO: seed rand?
}
func randstr(length int) String {
return String(RandStr(length))
}
func TestUnit(t *testing.T) {
// Convenience for a new node
N := func(l, r interface{}) *IAVLNode {
var left, right *IAVLNode
if _, ok := l.(*IAVLNode); ok {
left = l.(*IAVLNode)
} else {
left = NewIAVLNode(Int32(l.(int)), nil)
}
if _, ok := r.(*IAVLNode); ok {
right = r.(*IAVLNode)
} else {
right = NewIAVLNode(Int32(r.(int)), nil)
}
n := &IAVLNode{
key: right.lmd(nil).key,
left: left,
right: right,
}
n.calcHeightAndSize(nil)
n.Hash()
return n
}
// Convenience for simple printing of keys & tree structure
var P func(*IAVLNode) string
P = func(n *IAVLNode) string {
if n.height == 0 {
return fmt.Sprintf("%v", n.key)
} else {
return fmt.Sprintf("(%v %v)", P(n.left), P(n.right))
}
}
expectHash := func(n2 *IAVLNode, hashCount uint64) {
// ensure number of new hash calculations is as expected.
hash, count := n2.Hash()
if count != hashCount {
t.Fatalf("Expected %v new hashes, got %v", hashCount, count)
}
// nuke hashes and reconstruct hash, ensure it's the same.
(&IAVLTree{root: n2}).Traverse(func(node Node) bool {
node.(*IAVLNode).hash = nil
return false
})
// ensure that the new hash after nuking is the same as the old.
newHash, _ := n2.Hash()
if bytes.Compare(hash, newHash) != 0 {
t.Fatalf("Expected hash %v but got %v after nuking", hash, newHash)
}
}
expectPut := func(n *IAVLNode, i int, repr string, hashCount uint64) {
n2, updated := n.put(nil, Int32(i), nil)
// ensure node was added & structure is as expected.
if updated == true || P(n2) != repr {
t.Fatalf("Adding %v to %v:\nExpected %v\nUnexpectedly got %v updated:%v",
i, P(n), repr, P(n2), updated)
}
// ensure hash calculation requirements
expectHash(n2, hashCount)
}
expectRemove := func(n *IAVLNode, i int, repr string, hashCount uint64) {
n2, _, value, err := n.remove(nil, Int32(i))
// ensure node was added & structure is as expected.
if value != nil || err != nil || P(n2) != repr {
t.Fatalf("Removing %v from %v:\nExpected %v\nUnexpectedly got %v value:%v err:%v",
i, P(n), repr, P(n2), value, err)
}
// ensure hash calculation requirements
expectHash(n2, hashCount)
}
//////// Test Put cases:
// Case 1:
n1 := N(4, 20)
expectPut(n1, 8, "((4 8) 20)", 3)
expectPut(n1, 25, "(4 (20 25))", 3)
n2 := N(4, N(20, 25))
expectPut(n2, 8, "((4 8) (20 25))", 3)
expectPut(n2, 30, "((4 20) (25 30))", 4)
n3 := N(N(1, 2), 6)
expectPut(n3, 4, "((1 2) (4 6))", 4)
expectPut(n3, 8, "((1 2) (6 8))", 3)
n4 := N(N(1, 2), N(N(5, 6), N(7, 9)))
expectPut(n4, 8, "(((1 2) (5 6)) ((7 8) 9))", 5)
expectPut(n4, 10, "(((1 2) (5 6)) (7 (9 10)))", 5)
//////// Test Remove cases:
n10 := N(N(1, 2), 3)
expectRemove(n10, 2, "(1 3)", 1)
expectRemove(n10, 3, "(1 2)", 0)
n11 := N(N(N(1, 2), 3), N(4, 5))
expectRemove(n11, 4, "((1 2) (3 5))", 2)
expectRemove(n11, 3, "((1 2) (4 5))", 1)
}
func TestIntegration(t *testing.T) {
type record struct {
key String
value String
}
records := make([]*record, 400)
var tree *IAVLTree = NewIAVLTree(nil)
var err error
var val Value
var updated bool
randomRecord := func() *record {
return &record{randstr(20), randstr(20)}
}
for i := range records {
r := randomRecord()
records[i] = r
//t.Log("New record", r)
//PrintIAVLNode(tree.root)
updated = tree.Put(r.key, String(""))
if updated {
t.Error("should have not been updated")
}
updated = tree.Put(r.key, r.value)
if !updated {
t.Error("should have been updated")
}
if tree.Size() != uint64(i+1) {
t.Error("size was wrong", tree.Size(), i+1)
}
}
for _, r := range records {
if has := tree.Has(r.key); !has {
t.Error("Missing key", r.key)
}
if has := tree.Has(randstr(12)); has {
t.Error("Table has extra key")
}
if val := tree.Get(r.key); !(val.(String)).Equals(r.value) {
t.Error("wrong value")
}
}
for i, x := range records {
if val, err = tree.Remove(x.key); err != nil {
t.Error(err)
} else if !(val.(String)).Equals(x.value) {
t.Error("wrong value")
}
for _, r := range records[i+1:] {
if has := tree.Has(r.key); !has {
t.Error("Missing key", r.key)
}
if has := tree.Has(randstr(12)); has {
t.Error("Table has extra key")
}
if val := tree.Get(r.key); !(val.(String)).Equals(r.value) {
t.Error("wrong value")
}
}
if tree.Size() != uint64(len(records)-(i+1)) {
t.Error("size was wrong", tree.Size(), (len(records) - (i + 1)))
}
}
}
func TestPersistence(t *testing.T) {
db := db.NewMemDB()
// Create some random key value pairs
records := make(map[String]String)
for i := 0; i < 10000; i++ {
records[String(randstr(20))] = String(randstr(20))
}
// Construct some tree and save it
t1 := NewIAVLTree(db)
for key, value := range records {
t1.Put(key, value)
}
t1.Save()
hash, _ := t1.Hash()
// Load a tree
t2 := NewIAVLTreeFromHash(db, hash)
for key, value := range records {
t2value := t2.Get(key)
if !BinaryEqual(t2value, value) {
t.Fatalf("Invalid value. Expected %v, got %v", value, t2value)
}
}
}
func BenchmarkHash(b *testing.B) {
b.StopTimer()
s := randstr(128)
b.StartTimer()
for i := 0; i < b.N; i++ {
hasher := sha256.New()
hasher.Write([]byte(s))
hasher.Sum(nil)
}
}
func BenchmarkImmutableAvlTree(b *testing.B) {
b.StopTimer()
type record struct {
key String
value String
}
randomRecord := func() *record {
return &record{randstr(32), randstr(32)}
}
t := NewIAVLTree(nil)
for i := 0; i < 1000000; i++ {
r := randomRecord()
t.Put(r.key, r.value)
}
fmt.Println("ok, starting")
runtime.GC()
b.StartTimer()
for i := 0; i < b.N; i++ {
r := randomRecord()
t.Put(r.key, r.value)
t.Remove(r.key)
}
}