nim-eth/tests/trie/test_sparse_binary_trie.nim

{.used.}

import
  unittest, random, stew/byteutils,
  eth/trie/[db, sparse_binary, sparse_proofs],
  ./testutils

suite "sparse binary trie":
  randomize()
  var kv_pairs = randKVPair(20)
  var numbers = randList(int, randGen(1, 99), randGen(50, 100))
  var db = newMemoryDB()
  var trie = initSparseBinaryTrie(db)

  test "basic set":
    for c in kv_pairs:
      check trie.exists(c.key) == false
      trie.set(c.key, c.value)

  let prevRoot = trie.getRootHash()
  test "basic get":
    for c in kv_pairs:
      let x = trie.get(c.key)
      let y = c.value
      check x == y
      trie.del(c.key)

    for c in kv_pairs:
      check trie.exists(c.key) == false

    check trie.getRootHash() == keccakHash(emptyNodeHashes[0].data, emptyNodeHashes[0].data).data

  test "single update set":
    random.shuffle(kv_pairs)
    for c in kv_pairs:
      trie.set(c.key, c.value)

    # Check trie root remains the same even in different insert order
    check trie.getRootHash() == prevRoot

  let prior_to_update_root = trie.getRootHash()
  test "single update get":
    for i in numbers:
      # If new value is the same as current value, skip the update
      if toBytes($i) == trie.get(kv_pairs[i].key):
        continue
      # Update
      trie.set(kv_pairs[i].key, toBytes($i))
      check trie.get(kv_pairs[i].key) == toBytes($i)
      check trie.getRootHash() != prior_to_update_root

      # Un-update
      trie.set(kv_pairs[i].key, kv_pairs[i].value)
      check trie.getRootHash == prior_to_update_root

  test "batch update with different update order":
    # First batch update
    for i in numbers:
      trie.set(kv_pairs[i].key, toBytes($i))

    let batch_updated_root = trie.getRootHash()

    # Un-update
    random.shuffle(numbers)
    for i in numbers:
      trie.set(kv_pairs[i].key, kv_pairs[i].value)

    check trie.getRootHash() == prior_to_update_root

    # Second batch update
    random.shuffle(numbers)
    for i in numbers:
        trie.set(kv_pairs[i].key, toBytes($i))

    check trie.getRootHash() == batch_updated_root

  test "dictionary API":
    trie[kv_pairs[0].key] = kv_pairs[0].value
    let x = trie[kv_pairs[0].key]
    let y = kv_pairs[0].value
    check x == y
    check kv_pairs[0].key in trie

  test "get/set for specific root":
    db = newMemoryDB()
    trie = initSparseBinaryTrie(db)
    let
      testKey    = kv_pairs[0].key
      testValue  = kv_pairs[0].value
      testKey2   = kv_pairs[1].key
      testValue2 = kv_pairs[1].value

    trie.set(testKey, testValue)
    var root = trie.getRootHash()
    var value = trie.get(testKey, root)
    check value == testValue

    root = trie.set(testKey2, testValue2, root)
    value = trie.get(testKey2, root)
    check value == testValue2

    value = trie.get(testKey, root)
    check value == testValue

  proc makeBadProof(size: int, width = 32): seq[seq[byte]] =
    let badProofStr = randList(seq[byte], randGen(width, width), randGen(size, size))
    result = newSeq[seq[byte]](size)
    for i in 0 ..< result.len:
      result[i] = badProofStr[i]

  test "proofs":
    const
      MaxBadProof = 32 * 8

    let
      testKey   = kv_pairs[0].key
      badKey    = kv_pairs[1].key
      testValue = "testValue".toBytes
      testValue2 = "testValue2".toBytes
      badValue  = "badValue".toBytes
      badProof  = makeBadProof(MaxBadProof)

    trie[testKey] = testValue
    var proof = trie.prove(testKey)
    check proof.len == treeHeight
    check verifyProof(proof, trie.getRootHash(), testKey, testValue) == true
    check verifyProof(proof, trie.getRootHash(), testKey, badValue) == false
    check verifyProof(proof, trie.getRootHash(), badKey, testValue) == false
    check verifyProof(badProof, trie.getRootHash(), testKey, testValue) == false

    let
      testKey2  = kv_pairs[2].key
      testKey3  = kv_pairs[3].key
      defaultValue = default(seq[byte])

    trie.set(testKey2, testValue)
    proof = trie.prove(testKey)
    check verifyProof(proof, trie.getRootHash(), testKey, testValue) == true
    check verifyProof(proof, trie.getRootHash(), testKey, badValue) == false
    check verifyProof(proof, trie.getRootHash(), testKey2, testValue) == false
    check verifyProof(badProof, trie.getRootHash(), testKey, testValue) == false

    proof = trie.prove(testKey2)
    check verifyProof(proof, trie.getRootHash(), testKey2, testValue) == true
    check verifyProof(proof, trie.getRootHash(), testKey2, badValue) == false
    check verifyProof(proof, trie.getRootHash(), testKey3, testValue) == false
    check verifyProof(badProof, trie.getRootHash(), testKey, testValue) == false

    var compactProof = compactProof(proof)
    var decompactedProof = decompactProof(compactProof)

    check decompactedProof.len == proof.len
    for i, c in proof:
      check decompactedProof[i] == c

    let
      badProof2 = makeBadProof(MaxBadProof + 1)
      badProof3 = makeBadProof(MaxBadProof - 1)
      badProof4 = makeBadProof(MaxBadProof, 31)
      badProof5 = makeBadProof(MaxBadProof, 33)
      badProof6 = makeBadProof(MaxBadProof, 1)

    check verifyProof(badProof2, trie.getRootHash(), testKey3, defaultValue) == false
    check verifyProof(badProof3, trie.getRootHash(), testKey3, defaultValue) == false
    check verifyProof(badProof4, trie.getRootHash(), testKey3, defaultValue) == false
    check verifyProof(badProof5, trie.getRootHash(), testKey3, defaultValue) == false
    check verifyProof(badProof6, trie.getRootHash(), testKey3, defaultValue) == false

    check compactProof(badProof2).len == 0
    check compactProof(badProof3).len == 0
    check decompactProof(badProof3).len == 0
    var zeroProof: seq[seq[byte]]
    check decompactProof(zeroProof).len == 0

    proof = trie.proveCompact(testKey2)
    check verifyCompactProof(proof, trie.getRootHash(), testKey2, testValue) == true
    check verifyCompactProof(proof, trie.getRootHash(), testKey2, badValue) == false
    check verifyCompactProof(proof, trie.getRootHash(), testKey3, testValue) == false
    check verifyCompactProof(badProof, trie.getRootHash(), testKey, testValue) == false

    var root = trie.getRootHash()
    trie.set(testKey2, testValue2)

    proof = trie.proveCompact(testKey2, root)
    check verifyCompactProof(proof, root, testKey2, testValue) == true
    check verifyCompactProof(proof, root, testKey2, badValue) == false
    check verifyCompactProof(proof, root, testKey3, testValue) == false
    check verifyCompactProof(badProof, root, testKey, testValue) == false

    proof = trie.prove(testKey2, root)
    check verifyProof(proof, root, testKey2, testValue) == true
    check verifyProof(proof, root, testKey2, badValue) == false
    check verifyProof(proof, root, testKey3, testValue) == false
    check verifyProof(badProof, root, testKey, testValue) == false

    proof = trie.prove(testKey3)
    check proof.len == 0
    check verifyProof(proof, trie.getRootHash(), testKey3, defaultValue) == false
    check verifyProof(proof, trie.getRootHash(), testKey3, badValue) == false
    check verifyProof(proof, trie.getRootHash(), testKey2, defaultValue) == false
    check verifyProof(badProof, trie.getRootHash(), testKey, testValue) == false

  test "examples":
    let
      key1 = "01234567890123456789".toBytes
      key2 = "abcdefghijklmnopqrst".toBytes

    trie.set(key1, "value1".toBytes)
    trie.set(key2, "value2".toBytes)
    check trie.get(key1) == "value1".toBytes
    check trie.get(key2) == "value2".toBytes

    trie.del(key1)
    check trie.get(key1) == []

    trie.del(key2)
    check trie[key2] == []

    let
      value1 = "hello world".toBytes
      badValue = "bad value".toBytes

    trie[key1] = value1
    var proof = trie.prove(key1)

    check verifyProof(proof, trie.getRootHash(), key1, value1) == true
    check verifyProof(proof, trie.getRootHash(), key1, badValue) == false
    check verifyProof(proof, trie.getRootHash(), key2, value1) == false
cleanups (#226) 2020-04-18 08:17:59 +00:00			`{.used.}`

Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00			`import`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`unittest, random, stew/byteutils,`
			`eth/trie/[db, sparse_binary, sparse_proofs],`
clean up the test suite by removing test wrappers that are no longer used and renaming a helper file that had a name starting with the "test_" prefix 2019-02-14 22:40:23 +00:00			`./testutils`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`suite "sparse binary trie":`
			`randomize()`
			`var kv_pairs = randKVPair(20)`
			`var numbers = randList(int, randGen(1, 99), randGen(50, 100))`
			`var db = newMemoryDB()`
			`var trie = initSparseBinaryTrie(db)`

			`test "basic set":`
			`for c in kv_pairs:`
			`check trie.exists(c.key) == false`
			`trie.set(c.key, c.value)`

			`let prevRoot = trie.getRootHash()`
			`test "basic get":`
			`for c in kv_pairs:`
			`let x = trie.get(c.key)`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`let y = c.value`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00			`check x == y`
			`trie.del(c.key)`

			`for c in kv_pairs:`
			`check trie.exists(c.key) == false`

Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`check trie.getRootHash() == keccakHash(emptyNodeHashes[0].data, emptyNodeHashes[0].data).data`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`test "single update set":`
			`random.shuffle(kv_pairs)`
			`for c in kv_pairs:`
			`trie.set(c.key, c.value)`

			`# Check trie root remains the same even in different insert order`
			`check trie.getRootHash() == prevRoot`

			`let prior_to_update_root = trie.getRootHash()`
			`test "single update get":`
			`for i in numbers:`
			`# If new value is the same as current value, skip the update`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`if toBytes($i) == trie.get(kv_pairs[i].key):`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00			`continue`
			`# Update`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`trie.set(kv_pairs[i].key, toBytes($i))`
			`check trie.get(kv_pairs[i].key) == toBytes($i)`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00			`check trie.getRootHash() != prior_to_update_root`

			`# Un-update`
			`trie.set(kv_pairs[i].key, kv_pairs[i].value)`
			`check trie.getRootHash == prior_to_update_root`

			`test "batch update with different update order":`
			`# First batch update`
			`for i in numbers:`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`trie.set(kv_pairs[i].key, toBytes($i))`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`let batch_updated_root = trie.getRootHash()`

			`# Un-update`
			`random.shuffle(numbers)`
			`for i in numbers:`
			`trie.set(kv_pairs[i].key, kv_pairs[i].value)`

			`check trie.getRootHash() == prior_to_update_root`

			`# Second batch update`
			`random.shuffle(numbers)`
			`for i in numbers:`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`trie.set(kv_pairs[i].key, toBytes($i))`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`check trie.getRootHash() == batch_updated_root`

			`test "dictionary API":`
			`trie[kv_pairs[0].key] = kv_pairs[0].value`
			`let x = trie[kv_pairs[0].key]`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`let y = kv_pairs[0].value`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00			`check x == y`
			`check kv_pairs[0].key in trie`

			`test "get/set for specific root":`
			`db = newMemoryDB()`
			`trie = initSparseBinaryTrie(db)`
			`let`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`testKey = kv_pairs[0].key`
			`testValue = kv_pairs[0].value`
			`testKey2 = kv_pairs[1].key`
			`testValue2 = kv_pairs[1].value`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`trie.set(testKey, testValue)`
			`var root = trie.getRootHash()`
			`var value = trie.get(testKey, root)`
			`check value == testValue`

			`root = trie.set(testKey2, testValue2, root)`
			`value = trie.get(testKey2, root)`
			`check value == testValue2`

			`value = trie.get(testKey, root)`
			`check value == testValue`

Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`proc makeBadProof(size: int, width = 32): seq[seq[byte]] =`
			`let badProofStr = randList(seq[byte], randGen(width, width), randGen(size, size))`
			`result = newSeq[seq[byte]](size)`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00			`for i in 0 ..< result.len:`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`result[i] = badProofStr[i]`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`test "proofs":`
			`const`
			`MaxBadProof = 32 * 8`

			`let`
			`testKey = kv_pairs[0].key`
			`badKey = kv_pairs[1].key`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`testValue = "testValue".toBytes`
			`testValue2 = "testValue2".toBytes`
			`badValue = "badValue".toBytes`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00			`badProof = makeBadProof(MaxBadProof)`

			`trie[testKey] = testValue`
			`var proof = trie.prove(testKey)`
			`check proof.len == treeHeight`
			`check verifyProof(proof, trie.getRootHash(), testKey, testValue) == true`
			`check verifyProof(proof, trie.getRootHash(), testKey, badValue) == false`
			`check verifyProof(proof, trie.getRootHash(), badKey, testValue) == false`
			`check verifyProof(badProof, trie.getRootHash(), testKey, testValue) == false`

			`let`
			`testKey2 = kv_pairs[2].key`
			`testKey3 = kv_pairs[3].key`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`defaultValue = default(seq[byte])`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`trie.set(testKey2, testValue)`
			`proof = trie.prove(testKey)`
			`check verifyProof(proof, trie.getRootHash(), testKey, testValue) == true`
			`check verifyProof(proof, trie.getRootHash(), testKey, badValue) == false`
			`check verifyProof(proof, trie.getRootHash(), testKey2, testValue) == false`
			`check verifyProof(badProof, trie.getRootHash(), testKey, testValue) == false`

			`proof = trie.prove(testKey2)`
			`check verifyProof(proof, trie.getRootHash(), testKey2, testValue) == true`
			`check verifyProof(proof, trie.getRootHash(), testKey2, badValue) == false`
			`check verifyProof(proof, trie.getRootHash(), testKey3, testValue) == false`
			`check verifyProof(badProof, trie.getRootHash(), testKey, testValue) == false`

			`var compactProof = compactProof(proof)`
			`var decompactedProof = decompactProof(compactProof)`

			`check decompactedProof.len == proof.len`
			`for i, c in proof:`
			`check decompactedProof[i] == c`

			`let`
			`badProof2 = makeBadProof(MaxBadProof + 1)`
			`badProof3 = makeBadProof(MaxBadProof - 1)`
			`badProof4 = makeBadProof(MaxBadProof, 31)`
			`badProof5 = makeBadProof(MaxBadProof, 33)`
			`badProof6 = makeBadProof(MaxBadProof, 1)`

			`check verifyProof(badProof2, trie.getRootHash(), testKey3, defaultValue) == false`
			`check verifyProof(badProof3, trie.getRootHash(), testKey3, defaultValue) == false`
			`check verifyProof(badProof4, trie.getRootHash(), testKey3, defaultValue) == false`
			`check verifyProof(badProof5, trie.getRootHash(), testKey3, defaultValue) == false`
			`check verifyProof(badProof6, trie.getRootHash(), testKey3, defaultValue) == false`

			`check compactProof(badProof2).len == 0`
			`check compactProof(badProof3).len == 0`
			`check decompactProof(badProof3).len == 0`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`var zeroProof: seq[seq[byte]]`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00			`check decompactProof(zeroProof).len == 0`

			`proof = trie.proveCompact(testKey2)`
			`check verifyCompactProof(proof, trie.getRootHash(), testKey2, testValue) == true`
			`check verifyCompactProof(proof, trie.getRootHash(), testKey2, badValue) == false`
			`check verifyCompactProof(proof, trie.getRootHash(), testKey3, testValue) == false`
			`check verifyCompactProof(badProof, trie.getRootHash(), testKey, testValue) == false`

			`var root = trie.getRootHash()`
			`trie.set(testKey2, testValue2)`

			`proof = trie.proveCompact(testKey2, root)`
			`check verifyCompactProof(proof, root, testKey2, testValue) == true`
			`check verifyCompactProof(proof, root, testKey2, badValue) == false`
			`check verifyCompactProof(proof, root, testKey3, testValue) == false`
			`check verifyCompactProof(badProof, root, testKey, testValue) == false`

			`proof = trie.prove(testKey2, root)`
			`check verifyProof(proof, root, testKey2, testValue) == true`
			`check verifyProof(proof, root, testKey2, badValue) == false`
			`check verifyProof(proof, root, testKey3, testValue) == false`
			`check verifyProof(badProof, root, testKey, testValue) == false`

			`proof = trie.prove(testKey3)`
			`check proof.len == 0`
			`check verifyProof(proof, trie.getRootHash(), testKey3, defaultValue) == false`
			`check verifyProof(proof, trie.getRootHash(), testKey3, badValue) == false`
			`check verifyProof(proof, trie.getRootHash(), testKey2, defaultValue) == false`
			`check verifyProof(badProof, trie.getRootHash(), testKey, testValue) == false`

			`test "examples":`
			`let`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`key1 = "01234567890123456789".toBytes`
			`key2 = "abcdefghijklmnopqrst".toBytes`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`trie.set(key1, "value1".toBytes)`
			`trie.set(key2, "value2".toBytes)`
			`check trie.get(key1) == "value1".toBytes`
			`check trie.get(key2) == "value2".toBytes`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`trie.del(key1)`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`check trie.get(key1) == []`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`trie.del(key2)`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`check trie[key2] == []`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`let`
Rlp experimental (#227) * rlp: remove experimental features * avoid range library * trie: avoid reference-unsafe bitrange type 2020-04-20 18:14:39 +00:00			`value1 = "hello world".toBytes`
			`badValue = "bad value".toBytes`
Moved rlp and trie to eth 2019-02-05 12:01:10 +00:00
			`trie[key1] = value1`
			`var proof = trie.prove(key1)`

			`check verifyProof(proof, trie.getRootHash(), key1, value1) == true`
			`check verifyProof(proof, trie.getRootHash(), key1, badValue) == false`
			`check verifyProof(proof, trie.getRootHash(), key2, value1) == false`