import std/sequtils import pkg/chronos import pkg/libp2p import pkg/libp2p/varint import pkg/codex/blocktype import pkg/codex/stores import pkg/codex/manifest import pkg/codex/merkletree import pkg/codex/blockexchange import pkg/codex/rng import pkg/codex/utils import ./helpers/nodeutils import ./helpers/randomchunker import ./helpers/mockchunker import ./helpers/mockdiscovery import ./helpers/always import ../checktest export randomchunker, nodeutils, mockdiscovery, mockchunker, always, checktest, manifest export libp2p except setup, eventually # NOTE: The meaning of equality for blocks # is changed here, because blocks are now `ref` # types. This is only in tests!!! func `==`*(a, b: Block): bool = (a.cid == b.cid) and (a.data == b.data) proc calcEcBlocksCount*(blocksCount: int, ecK, ecM: int): int = let rounded = roundUp(blocksCount, ecK) steps = divUp(blocksCount, ecK) rounded + (steps * ecM) proc lenPrefix*(msg: openArray[byte]): seq[byte] = ## Write `msg` with a varint-encoded length prefix ## let vbytes = PB.toBytes(msg.len().uint64) var buf = newSeqUninitialized[byte](msg.len() + vbytes.len) buf[0.. 0): let blk = Block.new(chunk).tryGet() cids.add(blk.cid) (await store.putBlock(blk)).tryGet() let tree = CodexTree.init(cids).tryGet() treeCid = tree.rootCid.tryGet() manifest = Manifest.new( treeCid = treeCid, blockSize = NBytes(chunker.chunkSize), datasetSize = NBytes(chunker.offset)) for i in 0..= 0: continue pos.add(i) var blk = (await store.getBlock(manifest.treeCid, i)).tryGet() bytePos: seq[int] doAssert bytes < blk.data.len while bytePos.len <= bytes: let ii = Rng.instance.rand(blk.data.len - 1) if bytePos.find(ii) >= 0: continue bytePos.add(ii) blk.data[ii] = byte 0 return pos