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basic_test.go
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basic_test.go
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package iavl
import (
"bytes"
mrand "math/rand"
"sort"
"testing"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/tendermint/tmlibs/db"
)
func TestBasic(t *testing.T) {
var tree *Tree = NewTree(nil, 0)
up := tree.Set([]byte("1"), []byte("one"))
if up {
t.Error("Did not expect an update (should have been create)")
}
up = tree.Set([]byte("2"), []byte("two"))
if up {
t.Error("Did not expect an update (should have been create)")
}
up = tree.Set([]byte("2"), []byte("TWO"))
if !up {
t.Error("Expected an update")
}
up = tree.Set([]byte("5"), []byte("five"))
if up {
t.Error("Did not expect an update (should have been create)")
}
// Test 0x00
{
idx, val := tree.Get64([]byte{0x00})
if val != nil {
t.Errorf("Expected no value to exist")
}
if idx != 0 {
t.Errorf("Unexpected idx %x", idx)
}
if string(val) != "" {
t.Errorf("Unexpected value %v", string(val))
}
}
// Test "1"
{
idx, val := tree.Get64([]byte("1"))
if val == nil {
t.Errorf("Expected value to exist")
}
if idx != 0 {
t.Errorf("Unexpected idx %x", idx)
}
if string(val) != "one" {
t.Errorf("Unexpected value %v", string(val))
}
}
// Test "2"
{
idx, val := tree.Get64([]byte("2"))
if val == nil {
t.Errorf("Expected value to exist")
}
if idx != 1 {
t.Errorf("Unexpected idx %x", idx)
}
if string(val) != "TWO" {
t.Errorf("Unexpected value %v", string(val))
}
}
// Test "4"
{
idx, val := tree.Get64([]byte("4"))
if val != nil {
t.Errorf("Expected no value to exist")
}
if idx != 2 {
t.Errorf("Unexpected idx %x", idx)
}
if string(val) != "" {
t.Errorf("Unexpected value %v", string(val))
}
}
// Test "6"
{
idx, val := tree.Get64([]byte("6"))
if val != nil {
t.Errorf("Expected no value to exist")
}
if idx != 3 {
t.Errorf("Unexpected idx %x", idx)
}
if string(val) != "" {
t.Errorf("Unexpected value %v", string(val))
}
}
}
func TestUnit(t *testing.T) {
expectHash := func(tree *Tree, hashCount int64) {
// ensure number of new hash calculations is as expected.
hash, count := tree.hashWithCount()
if count != hashCount {
t.Fatalf("Expected %v new hashes, got %v", hashCount, count)
}
// nuke hashes and reconstruct hash, ensure it's the same.
tree.root.traverse(tree, true, func(node *Node) bool {
node.hash = nil
return false
})
// ensure that the new hash after nuking is the same as the old.
newHash, _ := tree.hashWithCount()
if !bytes.Equal(hash, newHash) {
t.Fatalf("Expected hash %v but got %v after nuking", hash, newHash)
}
}
expectSet := func(tree *Tree, i int, repr string, hashCount int64) {
origNode := tree.root
updated := tree.Set(i2b(i), []byte{})
// ensure node was added & structure is as expected.
if updated || P(tree.root) != repr {
t.Fatalf("Adding %v to %v:\nExpected %v\nUnexpectedly got %v updated:%v",
i, P(origNode), repr, P(tree.root), updated)
}
// ensure hash calculation requirements
expectHash(tree, hashCount)
tree.root = origNode
}
expectRemove := func(tree *Tree, i int, repr string, hashCount int64) {
origNode := tree.root
value, removed := tree.Remove(i2b(i))
// ensure node was added & structure is as expected.
if len(value) != 0 || !removed || P(tree.root) != repr {
t.Fatalf("Removing %v from %v:\nExpected %v\nUnexpectedly got %v value:%v removed:%v",
i, P(origNode), repr, P(tree.root), value, removed)
}
// ensure hash calculation requirements
expectHash(tree, hashCount)
tree.root = origNode
}
//////// Test Set cases:
// Case 1:
t1 := T(N(4, 20))
expectSet(t1, 8, "((4 8) 20)", 3)
expectSet(t1, 25, "(4 (20 25))", 3)
t2 := T(N(4, N(20, 25)))
expectSet(t2, 8, "((4 8) (20 25))", 3)
expectSet(t2, 30, "((4 20) (25 30))", 4)
t3 := T(N(N(1, 2), 6))
expectSet(t3, 4, "((1 2) (4 6))", 4)
expectSet(t3, 8, "((1 2) (6 8))", 3)
t4 := T(N(N(1, 2), N(N(5, 6), N(7, 9))))
expectSet(t4, 8, "(((1 2) (5 6)) ((7 8) 9))", 5)
expectSet(t4, 10, "(((1 2) (5 6)) (7 (9 10)))", 5)
//////// Test Remove cases:
t10 := T(N(N(1, 2), 3))
expectRemove(t10, 2, "(1 3)", 1)
expectRemove(t10, 3, "(1 2)", 0)
t11 := T(N(N(N(1, 2), 3), N(4, 5)))
expectRemove(t11, 4, "((1 2) (3 5))", 2)
expectRemove(t11, 3, "((1 2) (4 5))", 1)
}
func TestRemove(t *testing.T) {
size := 10000
keyLen, dataLen := 16, 40
d := db.NewDB("test", "memdb", "")
defer d.Close()
t1 := NewVersionedTree(d, size)
// insert a bunch of random nodes
keys := make([][]byte, size)
l := int32(len(keys))
for i := 0; i < size; i++ {
key := randBytes(keyLen)
t1.Set(key, randBytes(dataLen))
keys[i] = key
}
for i := 0; i < 10; i++ {
step := 50 * i
// remove a bunch of existing keys (may have been deleted twice)
for j := 0; j < step; j++ {
key := keys[mrand.Int31n(l)]
t1.Remove(key)
}
t1.SaveVersion()
}
}
func TestIntegration(t *testing.T) {
type record struct {
key string
value string
}
records := make([]*record, 400)
var tree *Tree = NewTree(nil, 0)
randomRecord := func() *record {
return &record{randstr(20), randstr(20)}
}
for i := range records {
r := randomRecord()
records[i] = r
updated := tree.Set([]byte(r.key), []byte{})
if updated {
t.Error("should have not been updated")
}
updated = tree.Set([]byte(r.key), []byte(r.value))
if !updated {
t.Error("should have been updated")
}
if tree.Size() != i+1 {
t.Error("size was wrong", tree.Size(), i+1)
}
}
for _, r := range records {
if has := tree.Has([]byte(r.key)); !has {
t.Error("Missing key", r.key)
}
if has := tree.Has([]byte(randstr(12))); has {
t.Error("Table has extra key")
}
if _, val := tree.Get64([]byte(r.key)); string(val) != string(r.value) {
t.Error("wrong value")
}
}
for i, x := range records {
if val, removed := tree.Remove([]byte(x.key)); !removed {
t.Error("Wasn't removed")
} else if string(val) != string(x.value) {
t.Error("Wrong value")
}
for _, r := range records[i+1:] {
if has := tree.Has([]byte(r.key)); !has {
t.Error("Missing key", r.key)
}
if has := tree.Has([]byte(randstr(12))); has {
t.Error("Table has extra key")
}
_, val := tree.Get64([]byte(r.key))
if string(val) != string(r.value) {
t.Error("wrong value")
}
}
if tree.Size() != len(records)-(i+1) {
t.Error("size was wrong", tree.Size(), (len(records) - (i + 1)))
}
}
}
func TestIterateRange(t *testing.T) {
type record struct {
key string
value string
}
records := []record{
{"abc", "123"},
{"low", "high"},
{"fan", "456"},
{"foo", "a"},
{"foobaz", "c"},
{"good", "bye"},
{"foobang", "d"},
{"foobar", "b"},
{"food", "e"},
{"foml", "f"},
}
keys := make([]string, len(records))
for i, r := range records {
keys[i] = r.key
}
sort.Strings(keys)
var tree *Tree = NewTree(nil, 0)
// insert all the data
for _, r := range records {
updated := tree.Set([]byte(r.key), []byte(r.value))
if updated {
t.Error("should have not been updated")
}
}
// test traversing the whole node works... in order
viewed := []string{}
tree.Iterate(func(key []byte, value []byte) bool {
viewed = append(viewed, string(key))
return false
})
if len(viewed) != len(keys) {
t.Error("not the same number of keys as expected")
}
for i, v := range viewed {
if v != keys[i] {
t.Error("Keys out of order", v, keys[i])
}
}
trav := traverser{}
tree.IterateRange([]byte("foo"), []byte("goo"), true, trav.view)
expectTraverse(t, trav, "foo", "food", 5)
trav = traverser{}
tree.IterateRange(nil, []byte("flap"), true, trav.view)
expectTraverse(t, trav, "abc", "fan", 2)
trav = traverser{}
tree.IterateRange([]byte("foob"), nil, true, trav.view)
expectTraverse(t, trav, "foobang", "low", 6)
trav = traverser{}
tree.IterateRange([]byte("very"), nil, true, trav.view)
expectTraverse(t, trav, "", "", 0)
// make sure it doesn't include end
trav = traverser{}
tree.IterateRange([]byte("fooba"), []byte("food"), true, trav.view)
expectTraverse(t, trav, "foobang", "foobaz", 3)
// make sure backwards also works... (doesn't include end)
trav = traverser{}
tree.IterateRange([]byte("fooba"), []byte("food"), false, trav.view)
expectTraverse(t, trav, "foobaz", "foobang", 3)
// make sure backwards also works...
trav = traverser{}
tree.IterateRange([]byte("g"), nil, false, trav.view)
expectTraverse(t, trav, "low", "good", 2)
}
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[randstr(20)] = randstr(20)
}
// Construct some tree and save it
t1 := NewVersionedTree(db, 0)
for key, value := range records {
t1.Set([]byte(key), []byte(value))
}
t1.SaveVersion()
// Load a tree
t2 := NewVersionedTree(db, 0)
t2.Load()
for key, value := range records {
_, t2value := t2.Get64([]byte(key))
if string(t2value) != value {
t.Fatalf("Invalid value. Expected %v, got %v", value, t2value)
}
}
}
func TestProof(t *testing.T) {
t.Skipf("This test has a race condition causing it to occasionally panic.")
// Construct some random tree
db := db.NewMemDB()
var tree *VersionedTree = NewVersionedTree(db, 100)
for i := 0; i < 1000; i++ {
key, value := randstr(20), randstr(20)
tree.Set([]byte(key), []byte(value))
}
// Persist the items so far
tree.SaveVersion()
// Add more items so it's not all persisted
for i := 0; i < 100; i++ {
key, value := randstr(20), randstr(20)
tree.Set([]byte(key), []byte(value))
}
// Now for each item, construct a proof and verify
tree.Iterate(func(key []byte, value []byte) bool {
value2, proof, err := tree.GetWithProof(key)
assert.NoError(t, err)
assert.Equal(t, value, value2)
if assert.NotNil(t, proof) {
testProof(t, proof.(*KeyExistsProof), key, value, tree.Hash())
}
return false
})
}
func TestTreeProof(t *testing.T) {
db := db.NewMemDB()
var tree *Tree = NewTree(db, 100)
// should get false for proof with nil root
_, _, err := tree.GetWithProof([]byte("foo"))
assert.Error(t, err)
// insert lots of info and store the bytes
keys := make([][]byte, 200)
for i := 0; i < 200; i++ {
key, value := randstr(20), randstr(200)
tree.Set([]byte(key), []byte(value))
keys[i] = []byte(key)
}
// query random key fails
_, _, err = tree.GetWithProof([]byte("foo"))
assert.NoError(t, err)
// valid proof for real keys
root := tree.Hash()
for _, key := range keys {
value, proof, err := tree.GetWithProof(key)
if assert.NoError(t, err) {
require.Nil(t, err, "Failed to read proof from bytes: %v", err)
assert.NoError(t, proof.Verify(key, value, root))
}
}
}