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  1. package merkle
  2. import (
  3. "bytes"
  4. "fmt"
  5. "github.com/tendermint/tendermint/binary"
  6. . "github.com/tendermint/tendermint/common"
  7. . "github.com/tendermint/tendermint/common/test"
  8. "github.com/tendermint/tendermint/db"
  9. "runtime"
  10. "testing"
  11. )
  12. func randstr(length int) string {
  13. return RandStr(length)
  14. }
  15. // Convenience for a new node
  16. func N(l, r interface{}) *IAVLNode {
  17. var left, right *IAVLNode
  18. if _, ok := l.(*IAVLNode); ok {
  19. left = l.(*IAVLNode)
  20. } else {
  21. left = NewIAVLNode(l, "")
  22. }
  23. if _, ok := r.(*IAVLNode); ok {
  24. right = r.(*IAVLNode)
  25. } else {
  26. right = NewIAVLNode(r, "")
  27. }
  28. n := &IAVLNode{
  29. key: right.lmd(nil).key,
  30. value: "",
  31. leftNode: left,
  32. rightNode: right,
  33. }
  34. n.calcHeightAndSize(nil)
  35. return n
  36. }
  37. // Setup a deep node
  38. func T(n *IAVLNode) *IAVLTree {
  39. t := NewIAVLTree(binary.BasicCodec, binary.BasicCodec, 0, nil)
  40. n.hashWithCount(t)
  41. t.root = n
  42. return t
  43. }
  44. // Convenience for simple printing of keys & tree structure
  45. func P(n *IAVLNode) string {
  46. if n.height == 0 {
  47. return fmt.Sprintf("%v", n.key)
  48. } else {
  49. return fmt.Sprintf("(%v %v)", P(n.leftNode), P(n.rightNode))
  50. }
  51. }
  52. func TestUnit(t *testing.T) {
  53. expectHash := func(tree *IAVLTree, hashCount uint) {
  54. // ensure number of new hash calculations is as expected.
  55. hash, count := tree.HashWithCount()
  56. if count != hashCount {
  57. t.Fatalf("Expected %v new hashes, got %v", hashCount, count)
  58. }
  59. // nuke hashes and reconstruct hash, ensure it's the same.
  60. tree.root.traverse(tree, func(node *IAVLNode) bool {
  61. node.hash = nil
  62. return false
  63. })
  64. // ensure that the new hash after nuking is the same as the old.
  65. newHash, _ := tree.HashWithCount()
  66. if bytes.Compare(hash, newHash) != 0 {
  67. t.Fatalf("Expected hash %v but got %v after nuking", hash, newHash)
  68. }
  69. }
  70. expectSet := func(tree *IAVLTree, i int, repr string, hashCount uint) {
  71. origNode := tree.root
  72. updated := tree.Set(i, "")
  73. // ensure node was added & structure is as expected.
  74. if updated == true || P(tree.root) != repr {
  75. t.Fatalf("Adding %v to %v:\nExpected %v\nUnexpectedly got %v updated:%v",
  76. i, P(origNode), repr, P(tree.root), updated)
  77. }
  78. // ensure hash calculation requirements
  79. expectHash(tree, hashCount)
  80. tree.root = origNode
  81. }
  82. expectRemove := func(tree *IAVLTree, i int, repr string, hashCount uint) {
  83. origNode := tree.root
  84. value, removed := tree.Remove(i)
  85. // ensure node was added & structure is as expected.
  86. if value != "" || !removed || P(tree.root) != repr {
  87. t.Fatalf("Removing %v from %v:\nExpected %v\nUnexpectedly got %v value:%v removed:%v",
  88. i, P(origNode), repr, P(tree.root), value, removed)
  89. }
  90. // ensure hash calculation requirements
  91. expectHash(tree, hashCount)
  92. tree.root = origNode
  93. }
  94. //////// Test Set cases:
  95. // Case 1:
  96. t1 := T(N(4, 20))
  97. expectSet(t1, 8, "((4 8) 20)", 3)
  98. expectSet(t1, 25, "(4 (20 25))", 3)
  99. t2 := T(N(4, N(20, 25)))
  100. expectSet(t2, 8, "((4 8) (20 25))", 3)
  101. expectSet(t2, 30, "((4 20) (25 30))", 4)
  102. t3 := T(N(N(1, 2), 6))
  103. expectSet(t3, 4, "((1 2) (4 6))", 4)
  104. expectSet(t3, 8, "((1 2) (6 8))", 3)
  105. t4 := T(N(N(1, 2), N(N(5, 6), N(7, 9))))
  106. expectSet(t4, 8, "(((1 2) (5 6)) ((7 8) 9))", 5)
  107. expectSet(t4, 10, "(((1 2) (5 6)) (7 (9 10)))", 5)
  108. //////// Test Remove cases:
  109. t10 := T(N(N(1, 2), 3))
  110. expectRemove(t10, 2, "(1 3)", 1)
  111. expectRemove(t10, 3, "(1 2)", 0)
  112. t11 := T(N(N(N(1, 2), 3), N(4, 5)))
  113. expectRemove(t11, 4, "((1 2) (3 5))", 2)
  114. expectRemove(t11, 3, "((1 2) (4 5))", 1)
  115. }
  116. func TestIntegration(t *testing.T) {
  117. type record struct {
  118. key string
  119. value string
  120. }
  121. records := make([]*record, 400)
  122. var tree *IAVLTree = NewIAVLTree(binary.BasicCodec, binary.BasicCodec, 0, nil)
  123. randomRecord := func() *record {
  124. return &record{randstr(20), randstr(20)}
  125. }
  126. for i := range records {
  127. r := randomRecord()
  128. records[i] = r
  129. //t.Log("New record", r)
  130. //PrintIAVLNode(tree.root)
  131. updated := tree.Set(r.key, "")
  132. if updated {
  133. t.Error("should have not been updated")
  134. }
  135. updated = tree.Set(r.key, r.value)
  136. if !updated {
  137. t.Error("should have been updated")
  138. }
  139. if tree.Size() != uint(i+1) {
  140. t.Error("size was wrong", tree.Size(), i+1)
  141. }
  142. }
  143. for _, r := range records {
  144. if has := tree.Has(r.key); !has {
  145. t.Error("Missing key", r.key)
  146. }
  147. if has := tree.Has(randstr(12)); has {
  148. t.Error("Table has extra key")
  149. }
  150. if _, val := tree.Get(r.key); val.(string) != r.value {
  151. t.Error("wrong value")
  152. }
  153. }
  154. for i, x := range records {
  155. if val, removed := tree.Remove(x.key); !removed {
  156. t.Error("Wasn't removed")
  157. } else if val != x.value {
  158. t.Error("Wrong value")
  159. }
  160. for _, r := range records[i+1:] {
  161. if has := tree.Has(r.key); !has {
  162. t.Error("Missing key", r.key)
  163. }
  164. if has := tree.Has(randstr(12)); has {
  165. t.Error("Table has extra key")
  166. }
  167. _, val := tree.Get(r.key)
  168. if val != r.value {
  169. t.Error("wrong value")
  170. }
  171. }
  172. if tree.Size() != uint(len(records)-(i+1)) {
  173. t.Error("size was wrong", tree.Size(), (len(records) - (i + 1)))
  174. }
  175. }
  176. }
  177. func TestPersistence(t *testing.T) {
  178. db := db.NewMemDB()
  179. // Create some random key value pairs
  180. records := make(map[string]string)
  181. for i := 0; i < 10000; i++ {
  182. records[randstr(20)] = randstr(20)
  183. }
  184. // Construct some tree and save it
  185. t1 := NewIAVLTree(binary.BasicCodec, binary.BasicCodec, 0, db)
  186. for key, value := range records {
  187. t1.Set(key, value)
  188. }
  189. t1.Save()
  190. hash, _ := t1.HashWithCount()
  191. // Load a tree
  192. t2 := NewIAVLTree(binary.BasicCodec, binary.BasicCodec, 0, db)
  193. t2.Load(hash)
  194. for key, value := range records {
  195. _, t2value := t2.Get(key)
  196. if t2value != value {
  197. t.Fatalf("Invalid value. Expected %v, got %v", value, t2value)
  198. }
  199. }
  200. }
  201. func testProof(t *testing.T, proof *IAVLProof, keyBytes, valueBytes, rootHash []byte) {
  202. // Proof must verify.
  203. if !proof.Verify(keyBytes, valueBytes, rootHash) {
  204. t.Errorf("Invalid proof. Verification failed.")
  205. return
  206. }
  207. // Write/Read then verify.
  208. proofBytes := binary.BinaryBytes(proof)
  209. n, err := int64(0), error(nil)
  210. proof2 := binary.ReadBinary(&IAVLProof{}, bytes.NewBuffer(proofBytes), &n, &err).(*IAVLProof)
  211. if err != nil {
  212. t.Errorf("Failed to read IAVLProof from bytes: %v", err)
  213. return
  214. }
  215. if !proof2.Verify(keyBytes, valueBytes, rootHash) {
  216. t.Errorf("Invalid proof after write/read. Verification failed.")
  217. return
  218. }
  219. // Random mutations must not verify
  220. for i := 0; i < 5; i++ {
  221. badProofBytes := MutateByteSlice(proofBytes)
  222. n, err := int64(0), error(nil)
  223. badProof := binary.ReadBinary(&IAVLProof{}, bytes.NewBuffer(badProofBytes), &n, &err).(*IAVLProof)
  224. if err != nil {
  225. continue // This is fine.
  226. }
  227. if badProof.Verify(keyBytes, valueBytes, rootHash) {
  228. t.Errorf("Proof was still valid after a random mutation:\n%X\n%X", proofBytes, badProofBytes)
  229. }
  230. }
  231. }
  232. func TestIAVLProof(t *testing.T) {
  233. // Convenient wrapper around binary.BasicCodec.
  234. toBytes := func(o interface{}) []byte {
  235. buf, n, err := new(bytes.Buffer), int64(0), error(nil)
  236. binary.BasicCodec.Encode(o, buf, &n, &err)
  237. if err != nil {
  238. panic(Fmt("Failed to encode thing: %v", err))
  239. }
  240. return buf.Bytes()
  241. }
  242. // Construct some random tree
  243. db := db.NewMemDB()
  244. var tree *IAVLTree = NewIAVLTree(binary.BasicCodec, binary.BasicCodec, 100, db)
  245. for i := 0; i < 1000; i++ {
  246. key, value := randstr(20), randstr(20)
  247. tree.Set(key, value)
  248. }
  249. // Persist the items so far
  250. tree.Save()
  251. // Add more items so it's not all persisted
  252. for i := 0; i < 100; i++ {
  253. key, value := randstr(20), randstr(20)
  254. tree.Set(key, value)
  255. }
  256. // Now for each item, construct a proof and verify
  257. tree.Iterate(func(key interface{}, value interface{}) bool {
  258. proof := tree.ConstructProof(key)
  259. if !bytes.Equal(proof.RootHash, tree.Hash()) {
  260. t.Errorf("Invalid proof. Expected root %X, got %X", tree.Hash(), proof.RootHash)
  261. }
  262. testProof(t, proof, toBytes(key), toBytes(value), tree.Hash())
  263. return false
  264. })
  265. }
  266. func BenchmarkImmutableAvlTree(b *testing.B) {
  267. b.StopTimer()
  268. t := NewIAVLTree(binary.BasicCodec, binary.BasicCodec, 0, nil)
  269. // 23000ns/op, 43000ops/s
  270. // for i := 0; i < 10000000; i++ {
  271. for i := 0; i < 1000000; i++ {
  272. t.Set(RandUint64(), "")
  273. }
  274. fmt.Println("ok, starting")
  275. runtime.GC()
  276. b.StartTimer()
  277. for i := 0; i < b.N; i++ {
  278. ri := RandUint64()
  279. t.Set(ri, "")
  280. t.Remove(ri)
  281. }
  282. }