import std/sequtils import std/math import std/importutils import std/sugar import ../../asynctest import pkg/chronos import pkg/questionable/results import pkg/codex/blocktype as bt import pkg/codex/rng import pkg/codex/stores import pkg/codex/chunker import pkg/codex/merkletree import pkg/codex/manifest {.all.} import pkg/codex/utils import pkg/codex/utils/digest import pkg/codex/utils/poseidon2digest import pkg/datastore import pkg/poseidon2 import pkg/poseidon2/io import pkg/constantine/math/io/io_fields import ./helpers import ../helpers import ../examples import ../merkletree/helpers import pkg/codex/indexingstrategy {.all.} import pkg/codex/slots {.all.} privateAccess(Poseidon2Builder) # enable access to private fields privateAccess(Manifest) # enable access to private fields const Strategy = SteppedStrategy suite "Slot builder": let blockSize = NBytes 1024 cellSize = NBytes 64 ecK = 3 ecM = 2 numSlots = ecK + ecM numDatasetBlocks = 50 numTotalBlocks = calcEcBlocksCount(numDatasetBlocks, ecK, ecM) # total number of blocks in the dataset after # EC (should will match number of slots) originalDatasetSize = numDatasetBlocks * blockSize.int totalDatasetSize = numTotalBlocks * blockSize.int numBlockCells = (blockSize div cellSize).int # number of cells per block numSlotBlocks = numTotalBlocks div numSlots # number of blocks per slot numSlotCells = numSlotBlocks * numBlockCells # number of uncorrected slot cells pow2SlotCells = nextPowerOfTwo(numSlotCells) # pow2 cells per slot numPadSlotBlocks = pow2SlotCells div numBlockCells # pow2 blocks per slot numPadBlocksTotal = numPadSlotBlocks * numSlots # total number of pad blocks # empty digest emptyDigest = SpongeMerkle.digest(newSeq[byte](blockSize.int), cellSize.int) var datasetBlocks: seq[bt.Block] padBlocks: seq[bt.Block] localStore: BlockStore manifest: Manifest protectedManifest: Manifest builder: Poseidon2Builder chunker: Chunker setup: let repoDs = SQLiteDatastore.new(Memory).tryGet() metaDs = SQLiteDatastore.new(Memory).tryGet() localStore = RepoStore.new(repoDs, metaDs) chunker = RandomChunker.new(Rng.instance(), size = totalDatasetSize, chunkSize = blockSize) datasetBlocks = await chunker.createBlocks(localStore) (manifest, protectedManifest) = await createProtectedManifest( datasetBlocks, localStore, numDatasetBlocks, ecK, ecM, blockSize, originalDatasetSize, totalDatasetSize) teardown: await localStore.close() # TODO: THIS IS A BUG IN asynctest, because it doesn't release the # objects after the test is done, so we need to do it manually # # Need to reset all objects because otherwise they get # captured by the test runner closures, not good! reset(datasetBlocks) reset(localStore) reset(manifest) reset(protectedManifest) reset(builder) reset(chunker) test "Can only create builder with protected manifest": let unprotectedManifest = Manifest.new( treeCid = Cid.example, blockSize = blockSize.NBytes, datasetSize = originalDatasetSize.NBytes) check: Poseidon2Builder.new(localStore, unprotectedManifest, cellSize = cellSize) .error.msg == "Manifest is not protected." test "Number of blocks must be devisable by number of slots": let mismatchManifest = Manifest.new( manifest = Manifest.new( treeCid = Cid.example, blockSize = blockSize.NBytes, datasetSize = originalDatasetSize.NBytes), treeCid = Cid.example, datasetSize = totalDatasetSize.NBytes, ecK = ecK - 1, ecM = ecM, strategy = Strategy) check: Poseidon2Builder.new(localStore, mismatchManifest, cellSize = cellSize) .error.msg == "Number of blocks must be divisable by number of slots." test "Block size must be divisable by cell size": let mismatchManifest = Manifest.new( manifest = Manifest.new( treeCid = Cid.example, blockSize = (blockSize + 1).NBytes, datasetSize = (originalDatasetSize - 1).NBytes), treeCid = Cid.example, datasetSize = (totalDatasetSize - 1).NBytes, ecK = ecK, ecM = ecM, strategy = Strategy) check: Poseidon2Builder.new(localStore, mismatchManifest, cellSize = cellSize) .error.msg == "Block size must be divisable by cell size." test "Should build correct slot builder": builder = Poseidon2Builder.new( localStore, protectedManifest, cellSize = cellSize).tryGet() check: builder.cellSize == cellSize builder.numSlots == numSlots builder.numBlockCells == numBlockCells builder.numSlotBlocks == numPadSlotBlocks builder.numSlotCells == pow2SlotCells builder.numBlocks == numPadBlocksTotal test "Should build slot hashes for all slots": let steppedStrategy = Strategy.init( 0, numPadBlocksTotal - 1, numSlots) builder = Poseidon2Builder.new( localStore, protectedManifest, cellSize = cellSize).tryGet() # for i in 0.. (protectedManifest.numSlotBlocks - 1): emptyDigest else: SpongeMerkle.digest(datasetBlocks[idx].data, cellSize.int) cellHashes = (await builder.getCellHashes(0)).tryGet() check: cellHashes.len == expectedHashes.len cellHashes == expectedHashes test "Should build slot trees for all slots": let steppedStrategy = Strategy.init( 0, numPadBlocksTotal - 1, numSlots) builder = Poseidon2Builder.new( localStore, protectedManifest, cellSize = cellSize).tryGet() for i in 0.. (protectedManifest.numSlotBlocks - 1): emptyDigest else: SpongeMerkle.digest(datasetBlocks[idx].data, cellSize.int) expectedRoot = Merkle.digest(expectedHashes) slotTree = (await builder.buildSlotTree(i)).tryGet() check: slotTree.root().tryGet() == expectedRoot test "Should persist trees for all slots": let builder = Poseidon2Builder.new( localStore, protectedManifest, cellSize = cellSize).tryGet() for i in 0.. (protectedManifest.numSlotBlocks - 1): emptyDigest else: SpongeMerkle.digest(datasetBlocks[idx].data, cellSize.int) Merkle.digest(slotHashes) expectedRoot = Merkle.digest(slotsHashes) rootHash = builder.buildVerifyTree(builder.slotRoots).tryGet().root.tryGet() check: expectedRoot == rootHash test "Should build correct verification root manifest": let steppedStrategy = Strategy.init(0, numPadBlocksTotal - 1, numSlots) builder = Poseidon2Builder.new( localStore, protectedManifest, cellSize = cellSize).tryGet() slotsHashes = collect(newSeq): for i in 0.. (protectedManifest.numSlotBlocks - 1): emptyDigest else: SpongeMerkle.digest(datasetBlocks[idx].data, cellSize.int) Merkle.digest(slotHashes) expectedRoot = Merkle.digest(slotsHashes) manifest = (await builder.buildManifest()).tryGet() mhash = manifest.verifyRoot.mhash.tryGet() mhashBytes = mhash.digestBytes rootHash = Poseidon2Hash.fromBytes(mhashBytes.toArray32).get check: expectedRoot == rootHash test "Should not build from verifiable manifest with 0 slots": var builder = Poseidon2Builder.new( localStore, protectedManifest, cellSize = cellSize).tryGet() verifyManifest = (await builder.buildManifest()).tryGet() verifyManifest.slotRoots = @[] check Poseidon2Builder.new( localStore, verifyManifest, cellSize = cellSize).isErr test "Should not build from verifiable manifest with incorrect number of slots": var builder = Poseidon2Builder.new( localStore, protectedManifest, cellSize = cellSize).tryGet() verifyManifest = (await builder.buildManifest()).tryGet() verifyManifest.slotRoots.del( verifyManifest.slotRoots.len - 1 ) check Poseidon2Builder.new( localStore, verifyManifest, cellSize = cellSize).isErr test "Should not build from verifiable manifest with invalid verify root": let builder = Poseidon2Builder.new( localStore, protectedManifest, cellSize = cellSize).tryGet() verifyManifest = (await builder.buildManifest()).tryGet() offset = verifyManifest.verifyRoot.data.buffer.len div 2 rng.shuffle( Rng.instance, verifyManifest.verifyRoot.data.buffer) check Poseidon2Builder.new( localStore, verifyManifest, cellSize = cellSize).isErr test "Should build from verifiable manifest": let builder = Poseidon2Builder.new( localStore, protectedManifest, cellSize = cellSize).tryGet() verifyManifest = (await builder.buildManifest()).tryGet() verificationBuilder = Poseidon2Builder.new( localStore, verifyManifest, cellSize = cellSize).tryGet() check: builder.slotRoots == verificationBuilder.slotRoots builder.verifyRoot == verificationBuilder.verifyRoot