# Nimbus # Copyright (c) 2021 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. {.used.} import std/algorithm, unittest2, stint, eth/keys, ../network/state/state_content, ../content_db, ./test_helpers proc generateNRandomU256(rng: var BrHmacDrbgContext, n: int): seq[UInt256] = var i = 0 var res = newSeq[Uint256]() while i < n: var bytes = newSeq[byte](32) brHmacDrbgGenerate(rng, bytes) let num = Uint256.fromBytesBE(bytes) res.add(num) inc i return res suite "Content Database": let rng = newRng() let testId = u256(0) # Note: We are currently not really testing something new here just basic # underlying kvstore. test "ContentDB basic API": let db = ContentDB.new("", uint32.high, inMemory = true) key = ContentId(UInt256.high()) # Some key block: let val = db.get(key) check: val.isNone() db.contains(key) == false block: discard db.put(key, [byte 0, 1, 2, 3], testId) let val = db.get(key) check: val.isSome() val.get() == [byte 0, 1, 2, 3] db.contains(key) == true block: db.del(key) let val = db.get(key) check: val.isNone() db.contains(key) == false test "ContentDB size": let db = ContentDB.new("", uint32.high, inMemory = true) let numBytes = 10000 let size1 = db.size() discard db.put(u256(1), genByteSeq(numBytes), testId) let size2 = db.size() discard db.put(u256(2), genByteSeq(numBytes), testId) let size3 = db.size() discard db.put(u256(2), genByteSeq(numBytes), testId) let size4 = db.size() check: size2 > size1 size3 > size2 size3 == size4 db.del(u256(2)) db.del(u256(1)) let size5 = db.size() check: size4 == size5 db.reclaimSpace() let size6 = db.size() check: # After space reclamation size of db should be equal to initial size size6 == size1 type TestCase = object keys: seq[UInt256] n: uint64 proc init(T: type TestCase, keys: seq[UInt256], n: uint64): T = TestCase(keys: keys, n: n) proc hasCorrectOrder(s: seq[ObjInfo], expectedOrder: seq[Uint256]): bool = var i = 0 for e in s: if (e.distFrom != expectedOrder[i]): return false inc i return true test "Get N furthest elements from db": # we check distances from zero as num xor 0 = num, so each uint in sequence is valid # distance let zero = u256(0) let testCases = @[ TestCase.init(@[], 10), TestCase.init(@[u256(1), u256(2)], 1), TestCase.init(@[u256(1), u256(2)], 2), TestCase.init(@[u256(5), u256(1), u256(2), u256(4)], 2), TestCase.init(@[u256(5), u256(1), u256(2), u256(4)], 4), TestCase.init(@[u256(57), u256(32), u256(108), u256(4)], 2), TestCase.init(@[u256(57), u256(32), u256(108), u256(4)], 4), TestCase.init(generateNRandomU256(rng[], 10), 5), TestCase.init(generateNRandomU256(rng[], 10), 10) ] for testCase in testCases: let db = ContentDB.new("", uint32.high, inMemory = true) for elem in testCase.keys: discard db.put(elem, genByteSeq(32), testId) let (furthest, _) = db.getNFurthestElements(zero, testCase.n) var sortedKeys = testCase.keys sortedKeys.sort(SortOrder.Descending) if uint64(len(testCase.keys)) < testCase.n: check: len(furthest) == len(testCase.keys) else: check: uint64(len(furthest)) == testCase.n check: furthest.hasCorrectOrder(sortedKeys) test "ContentDB pruning": let maxDbSize = uint32(100000) db = ContentDB.new("", maxDbSize, inMemory = true) let furthestElement = u256(40) let secondFurthest = u256(30) let thirdFurthest = u256(20) let numBytes = 10000 let pr1 = db.put(u256(1), genByteSeq(numBytes), u256(0)) let pr2 = db.put(thirdFurthest, genByteSeq(numBytes), u256(0)) let pr3 = db.put(u256(3), genByteSeq(numBytes), u256(0)) let pr4 = db.put(u256(10), genByteSeq(numBytes), u256(0)) let pr5 = db.put(u256(5), genByteSeq(numBytes), u256(0)) let pr6 = db.put(u256(10), genByteSeq(numBytes), u256(0)) let pr7 = db.put(furthestElement, genByteSeq(numBytes), u256(0)) let pr8 = db.put(secondFurthest, genByteSeq(numBytes), u256(0)) let pr9 = db.put(u256(2), genByteSeq(numBytes), u256(0)) let pr10 = db.put(u256(4), genByteSeq(numBytes), u256(0)) check: pr1.kind == ContentStored pr2.kind == ContentStored pr3.kind == ContentStored pr4.kind == ContentStored pr5.kind == ContentStored pr6.kind == ContentStored pr7.kind == ContentStored pr8.kind == ContentStored pr9.kind == ContentStored pr10.kind == DbPruned check: pr10.numOfDeletedElements == 2 uint32(db.size()) < maxDbSize # With current settings 2 furthers elements will be delted i.e 30 and 40 # so the furthest non deleted one will be 20 pr10.furthestStoredElementDistance == thirdFurthest db.get(furthestElement).isNone() db.get(secondFurthest).isNone() db.get(thirdFurthest).isSome()