178 lines
5.4 KiB
Nim
178 lines
5.4 KiB
Nim
# Fluffy
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# Copyright (c) 2021-2023 Status Research & Development GmbH
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# Licensed and distributed under either of
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# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
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# at your option. This file may not be copied, modified, or distributed except according to those terms.
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{.used.}
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import
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unittest2, stint,
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eth/keys,
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../network/state/state_content,
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../content_db,
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./test_helpers
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suite "Content Database":
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let rng = newRng()
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let testId = u256(0)
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# Note: We are currently not really testing something new here just basic
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# underlying kvstore.
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test "ContentDB basic API":
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let
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db = ContentDB.new("", uint32.high, inMemory = true)
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key = ContentId(UInt256.high()) # Some key
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block:
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let val = db.get(key)
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check:
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val.isNone()
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db.contains(key) == false
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block:
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discard db.put(key, [byte 0, 1, 2, 3], testId)
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let val = db.get(key)
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check:
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val.isSome()
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val.get() == [byte 0, 1, 2, 3]
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db.contains(key) == true
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block:
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db.del(key)
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let val = db.get(key)
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check:
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val.isNone()
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db.contains(key) == false
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test "ContentDB size":
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let
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db = ContentDB.new("", uint32.high, inMemory = true)
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let numBytes = 10000
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let size1 = db.size()
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discard db.put(u256(1), genByteSeq(numBytes), testId)
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let size2 = db.size()
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discard db.put(u256(2), genByteSeq(numBytes), testId)
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let size3 = db.size()
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discard db.put(u256(2), genByteSeq(numBytes), testId)
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let size4 = db.size()
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let usedSize = db.usedSize()
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check:
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size2 > size1
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size3 > size2
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size3 == size4
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usedSize == size4
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db.del(u256(2))
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db.del(u256(1))
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let usedSize1 = db.usedSize()
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let size5 = db.size()
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check:
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size4 == size5
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# The real size will be smaller as after a deletion there are free pages
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# in the db which can be re-used for further additions.
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usedSize1 < size5
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db.reclaimSpace()
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let size6 = db.size()
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let usedSize2 = db.usedSize()
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check:
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# After space reclamation the size of the db back to the initial size.
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size6 == size1
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usedSize2 == size6
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test "ContentDB pruning":
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# TODO: This test is extremely breakable when changing
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# `contentDeletionFraction` and/or the used test values.
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# Need to rework either this test, or the pruning mechanism, or probably
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# both.
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let
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storageCapacity = 100_000'u64
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db = ContentDB.new("", storageCapacity, inMemory = true)
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furthestElement = u256(40)
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secondFurthest = u256(30)
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thirdFurthest = u256(20)
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numBytes = 10_000
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pr1 = db.put(u256(1), genByteSeq(numBytes), u256(0))
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pr2 = db.put(thirdFurthest, genByteSeq(numBytes), u256(0))
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pr3 = db.put(u256(3), genByteSeq(numBytes), u256(0))
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pr4 = db.put(u256(10), genByteSeq(numBytes), u256(0))
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pr5 = db.put(u256(5), genByteSeq(numBytes), u256(0))
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pr6 = db.put(u256(11), genByteSeq(numBytes), u256(0))
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pr7 = db.put(furthestElement, genByteSeq(2000), u256(0))
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pr8 = db.put(secondFurthest, genByteSeq(2000), u256(0))
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pr9 = db.put(u256(2), genByteSeq(numBytes), u256(0))
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pr10 = db.put(u256(4), genByteSeq(12000), u256(0))
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check:
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pr1.kind == ContentStored
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pr2.kind == ContentStored
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pr3.kind == ContentStored
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pr4.kind == ContentStored
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pr5.kind == ContentStored
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pr6.kind == ContentStored
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pr7.kind == ContentStored
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pr8.kind == ContentStored
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pr9.kind == ContentStored
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pr10.kind == DbPruned
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check:
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pr10.deletedElements == 2
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uint64(db.usedSize()) < storageCapacity
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# With the current settings the 2 furthest elements will be deleted,
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# i.e key 30 and 40. The furthest non deleted one will have key 20.
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pr10.distanceOfFurthestElement == thirdFurthest
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db.get(furthestElement).isNone()
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db.get(secondFurthest).isNone()
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db.get(thirdFurthest).isSome()
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test "ContentDB force pruning":
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const
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# This start capacity doesn't really matter here as we are directly
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# putting data in the db without additional size checks.
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startCapacity = 14_159_872'u64
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endCapacity = 500_000'u64
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amountOfItems = 10_000
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let
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rng = newRng()
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db = ContentDB.new("", startCapacity, inMemory = true)
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localId = UInt256.fromHex(
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"30994892f3e4889d99deb5340050510d1842778acc7a7948adffa475fed51d6e")
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content = genByteSeq(1000)
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# Note: We could randomly generate the above localId and the content keys
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# that are added to the database below. However we opt for a more
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# deterministic test case as the randomness makes it difficult to chose a
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# reasonable value to check if pruning was succesful.
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let
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increment = UInt256.high div amountOfItems
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remainder = UInt256.high mod amountOfItems
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var id = u256(0)
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while id < UInt256.high - remainder:
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db.put(id, content)
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id = id + increment
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db.storageCapacity = endCapacity
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let
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oldRadiusApproximation = db.getLargestDistance(localId)
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newRadius = db.estimateNewRadius(oldRadiusApproximation)
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db.forcePrune(localId, newRadius)
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let diff = abs(db.size() - int64(db.storageCapacity))
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# Quite a big marging (20%) is added as it is all an approximation.
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check diff < int64(float(db.storageCapacity) * 0.20)
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