131 lines
3.4 KiB
Nim
131 lines
3.4 KiB
Nim
import std/sequtils
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import pkg/chronos
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import pkg/libp2p
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import pkg/libp2p/varint
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import pkg/codex/blocktype
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import pkg/codex/stores
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import pkg/codex/manifest
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import pkg/codex/merkletree
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import pkg/codex/blockexchange
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import pkg/codex/rng
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import ./helpers/nodeutils
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import ./helpers/randomchunker
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import ./helpers/mockchunker
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import ./helpers/mockdiscovery
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import ./helpers/always
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import ../checktest
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export randomchunker, nodeutils, mockdiscovery, mockchunker, always, checktest, manifest
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export libp2p except setup, eventually
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# NOTE: The meaning of equality for blocks
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# is changed here, because blocks are now `ref`
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# types. This is only in tests!!!
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func `==`*(a, b: Block): bool =
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(a.cid == b.cid) and (a.data == b.data)
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proc lenPrefix*(msg: openArray[byte]): seq[byte] =
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## Write `msg` with a varint-encoded length prefix
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##
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let vbytes = PB.toBytes(msg.len().uint64)
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var buf = newSeqUninitialized[byte](msg.len() + vbytes.len)
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buf[0..<vbytes.len] = vbytes.toOpenArray()
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buf[vbytes.len..<buf.len] = msg
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return buf
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proc makeManifestAndTree*(blocks: seq[Block]): ?!(Manifest, MerkleTree) =
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if blocks.len == 0:
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return failure("Blocks list was empty")
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let
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datasetSize = blocks.mapIt(it.data.len).foldl(a + b)
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blockSize = blocks.mapIt(it.data.len).foldl(max(a, b))
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tree = ? MerkleTree.init(blocks.mapIt(it.cid))
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treeCid = ? tree.rootCid
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manifest = Manifest.new(
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treeCid = treeCid,
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blockSize = NBytes(blockSize),
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datasetSize = NBytes(datasetSize),
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version = CIDv1,
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hcodec = tree.mcodec
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)
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return success((manifest, tree))
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proc makeWantList*(
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cids: seq[Cid],
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priority: int = 0,
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cancel: bool = false,
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wantType: WantType = WantType.WantHave,
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full: bool = false,
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sendDontHave: bool = false
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): WantList =
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WantList(
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entries: cids.mapIt(
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WantListEntry(
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address: BlockAddress(leaf: false, cid: it),
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priority: priority.int32,
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cancel: cancel,
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wantType: wantType,
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sendDontHave: sendDontHave) ),
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full: full)
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proc storeDataGetManifest*(store: BlockStore, chunker: Chunker): Future[Manifest] {.async.} =
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var cids = newSeq[Cid]()
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while (
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let chunk = await chunker.getBytes();
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chunk.len > 0):
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let blk = Block.new(chunk).tryGet()
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cids.add(blk.cid)
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(await store.putBlock(blk)).tryGet()
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let
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tree = MerkleTree.init(cids).tryGet()
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treeCid = tree.rootCid.tryGet()
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manifest = Manifest.new(
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treeCid = treeCid,
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blockSize = NBytes(chunker.chunkSize),
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datasetSize = NBytes(chunker.offset),
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)
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for i in 0..<tree.leavesCount:
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let proof = tree.getProof(i).tryGet()
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(await store.putBlockCidAndProof(treeCid, i, cids[i], proof)).tryGet()
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return manifest
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proc corruptBlocks*(
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store: BlockStore,
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manifest: Manifest,
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blks, bytes: int): Future[seq[int]] {.async.} =
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var pos: seq[int]
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doAssert blks < manifest.blocksCount
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while pos.len < blks:
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let i = Rng.instance.rand(manifest.blocksCount - 1)
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if pos.find(i) >= 0:
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continue
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pos.add(i)
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var
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blk = (await store.getBlock(manifest.treeCid, i)).tryGet()
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bytePos: seq[int]
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doAssert bytes < blk.data.len
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while bytePos.len <= bytes:
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let ii = Rng.instance.rand(blk.data.len - 1)
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if bytePos.find(ii) >= 0:
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continue
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bytePos.add(ii)
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blk.data[ii] = byte 0
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return pos
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