import std/sequtils import pkg/asynctest import pkg/chronos import pkg/libp2p import pkg/questionable import pkg/questionable/results import pkg/dagger/erasure import pkg/dagger/manifest import pkg/dagger/stores import pkg/dagger/blocktype import pkg/dagger/rng import ./helpers suite "Erasure encode/decode": test "Should tolerate loosing M data blocks in a single random column": const buffers = 20 parity = 10 dataSetSize = BlockSize * 123 # weird geometry var chunker = RandomChunker.new(Rng.instance(), size = dataSetSize, chunkSize = BlockSize) manifest = Manifest.new(blockSize = BlockSize).tryGet() store = CacheStore.new(cacheSize = (dataSetSize * 2), chunkSize = BlockSize) erasure = Erasure.new(store, leoEncoderProvider, leoDecoderProvider) rng = Rng.instance while ( let chunk = await chunker.getBytes(); chunk.len > 0): let blk = Block.new(chunk).tryGet() manifest.add(blk.cid) check (await store.putBlock(blk)) let encoded = (await erasure.encode( manifest, buffers, parity)).tryGet() check: encoded.len mod (buffers + parity) == 0 encoded.rounded == (manifest.len + (buffers - (manifest.len mod buffers))) encoded.steps == encoded.rounded div buffers var column = rng.rand(encoded.len div encoded.steps) # random column dropped: seq[Cid] for _ in 0.. 0): let blk = Block.new(chunk).tryGet() manifest.add(blk.cid) check (await store.putBlock(blk)) let encoded = (await erasure.encode( manifest, buffers, parity)).tryGet() check: encoded.len mod (buffers + parity) == 0 encoded.rounded == (manifest.len + (buffers - (manifest.len mod buffers))) encoded.steps == encoded.rounded div buffers var column = rng.rand(encoded.len div encoded.steps) # random column dropped: seq[Cid] for _ in 0.. 0): let blk = Block.new(chunk).tryGet() manifest.add(blk.cid) check (await store.putBlock(blk)) let encoded = (await erasure.encode( manifest, buffers, parity)).tryGet() check: encoded.len mod (buffers + parity) == 0 encoded.rounded == (manifest.len + (buffers - (manifest.len mod buffers))) encoded.steps == encoded.rounded div buffers var blocks: seq[int] offset = 0 while offset < encoded.steps - 1: let blockIdx = toSeq(countup(offset, encoded.len - 1, encoded.steps)) for _ in 0.. 0): let blk = Block.new(chunk).tryGet() manifest.add(blk.cid) check (await store.putBlock(blk)) let encoded = (await erasure.encode( manifest, buffers, parity)).tryGet() check: encoded.len mod (buffers + parity) == 0 encoded.rounded == (manifest.len + (buffers - (manifest.len mod buffers))) encoded.steps == encoded.rounded div buffers var blocks: seq[int] offset = 0 while offset < encoded.steps - 1: let blockIdx = toSeq(countup(offset, encoded.len - 1, encoded.steps)) for _ in 0.. 0): let blk = Block.new(chunk).tryGet() manifest.add(blk.cid) check (await store.putBlock(blk)) let encoded = (await erasure.encode( manifest, buffers, parity)).tryGet() check: encoded.len mod (buffers + parity) == 0 encoded.rounded == (manifest.len + (buffers - (manifest.len mod buffers))) encoded.steps == encoded.rounded div buffers for b in encoded.blocks[0.. 0): let blk = Block.new(chunk).tryGet() manifest.add(blk.cid) check (await store.putBlock(blk)) let encoded = (await erasure.encode( manifest, buffers, parity)).tryGet() check: encoded.len mod (buffers + parity) == 0 encoded.rounded == (manifest.len + (buffers - (manifest.len mod buffers))) encoded.steps == encoded.rounded div buffers for b in encoded.blocks[^(encoded.steps * encoded.M)..^1]: check (await store.delBlock(b)) var decoded = (await erasure.decode(encoded)).tryGet() for d in manifest: check d in store