514 lines
16 KiB
Nim
514 lines
16 KiB
Nim
## Nim-Codex
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## Copyright (c) 2021 Status Research & Development GmbH
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## Licensed under either of
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## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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## * MIT license ([LICENSE-MIT](LICENSE-MIT))
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## at your option.
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## This file may not be copied, modified, or distributed except according to
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## those terms.
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import std/options
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import std/tables
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import std/sequtils
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import std/strformat
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import std/sugar
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import pkg/questionable
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import pkg/questionable/results
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import pkg/chronicles
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import pkg/chronos
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import pkg/libp2p/[switch, multicodec, multihash]
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import pkg/libp2p/stream/bufferstream
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# TODO: remove once exported by libp2p
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import pkg/libp2p/routing_record
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import pkg/libp2p/signed_envelope
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import ./chunker
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import ./clock
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import ./blocktype as bt
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import ./manifest
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import ./merkletree
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import ./stores/blockstore
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import ./blockexchange
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import ./streams
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import ./erasure
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import ./discovery
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import ./contracts
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import ./node/batch
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import ./utils
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import ./errors
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export batch
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logScope:
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topics = "codex node"
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const
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FetchBatch = 200
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type
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CodexError = object of CatchableError
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Contracts* = tuple
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client: ?ClientInteractions
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host: ?HostInteractions
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validator: ?ValidatorInteractions
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CodexNodeRef* = ref object
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switch*: Switch
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networkId*: PeerId
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blockStore*: BlockStore
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engine*: BlockExcEngine
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erasure*: Erasure
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discovery*: Discovery
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contracts*: Contracts
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clock*: Clock
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OnManifest* = proc(cid: Cid, manifest: Manifest): void {.gcsafe, closure.}
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proc findPeer*(
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node: CodexNodeRef,
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peerId: PeerId): Future[?PeerRecord] {.async.} =
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## Find peer using the discovery service from the given CodexNode
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##
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return await node.discovery.findPeer(peerId)
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proc connect*(
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node: CodexNodeRef,
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peerId: PeerId,
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addrs: seq[MultiAddress]
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): Future[void] =
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node.switch.connect(peerId, addrs)
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proc fetchManifest*(
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node: CodexNodeRef,
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cid: Cid): Future[?!Manifest] {.async.} =
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## Fetch and decode a manifest block
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##
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if err =? cid.isManifest.errorOption:
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return failure "CID has invalid content type for manifest {$cid}"
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trace "Retrieving manifest for cid", cid
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without blk =? await node.blockStore.getBlock(BlockAddress.init(cid)), err:
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trace "Error retrieve manifest block", cid, err = err.msg
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return failure err
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trace "Decoding manifest for cid", cid
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without manifest =? Manifest.decode(blk), err:
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trace "Unable to decode as manifest", err = err.msg
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return failure("Unable to decode as manifest")
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trace "Decoded manifest", cid
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return manifest.success
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proc updateExpiry*(node: CodexNodeRef, manifestCid: Cid, expiry: SecondsSince1970): Future[?!void] {.async.} =
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without manifest =? await node.fetchManifest(manifestCid), error:
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trace "Unable to fetch manifest for cid", manifestCid
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return failure(error)
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try:
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let ensuringFutures = Iter.fromSlice(0..<manifest.blocksCount)
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.mapIt(node.blockStore.ensureExpiry( manifest.treeCid, it, expiry ))
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await allFuturesThrowing(ensuringFutures)
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except CancelledError as exc:
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raise exc
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except CatchableError as exc:
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return failure(exc.msg)
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return success()
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proc fetchBatched*(
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node: CodexNodeRef,
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manifest: Manifest,
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batchSize = FetchBatch,
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onBatch: BatchProc = nil): Future[?!void] {.async, gcsafe.} =
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## Fetch manifest in batches of `batchSize`
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##
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let batchCount = divUp(manifest.blocksCount, batchSize)
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trace "Fetching blocks in batches of", size = batchSize
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let iter = Iter.fromSlice(0..<manifest.blocksCount)
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.map((i: int) => node.blockStore.getBlock(BlockAddress.init(manifest.treeCid, i)))
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for batchNum in 0..<batchCount:
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let blocks = collect:
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for i in 0..<batchSize:
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if not iter.finished:
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iter.next()
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if blocksErr =? (await allFutureResult(blocks)).errorOption:
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return failure(blocksErr)
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if not onBatch.isNil and batchErr =? (await onBatch(blocks.mapIt( it.read.get ))).errorOption:
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return failure(batchErr)
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return success()
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proc retrieve*(
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node: CodexNodeRef,
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cid: Cid,
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local: bool = true): Future[?!LPStream] {.async.} =
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## Retrieve by Cid a single block or an entire dataset described by manifest
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##
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if local and not await (cid in node.blockStore):
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return failure((ref BlockNotFoundError)(msg: "Block not found in local store"))
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if manifest =? (await node.fetchManifest(cid)):
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trace "Retrieving blocks from manifest", cid
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if manifest.protected:
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# Retrieve, decode and save to the local store all EС groups
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proc erasureJob(): Future[void] {.async.} =
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try:
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# Spawn an erasure decoding job
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without res =? (await node.erasure.decode(manifest)), error:
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trace "Unable to erasure decode manifest", cid, exc = error.msg
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except CatchableError as exc:
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trace "Exception decoding manifest", cid, exc = exc.msg
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asyncSpawn erasureJob()
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# Retrieve all blocks of the dataset sequentially from the local store or network
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trace "Creating store stream for manifest", cid
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LPStream(StoreStream.new(node.blockStore, manifest, pad = false)).success
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else:
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let
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stream = BufferStream.new()
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without blk =? (await node.blockStore.getBlock(BlockAddress.init(cid))), err:
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return failure(err)
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proc streamOneBlock(): Future[void] {.async.} =
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try:
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await stream.pushData(blk.data)
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except CatchableError as exc:
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trace "Unable to send block", cid, exc = exc.msg
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discard
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finally:
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await stream.pushEof()
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asyncSpawn streamOneBlock()
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LPStream(stream).success()
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proc store*(
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self: CodexNodeRef,
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stream: LPStream,
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blockSize = DefaultBlockSize): Future[?!Cid] {.async.} =
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## Save stream contents as dataset with given blockSize
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## to nodes's BlockStore, and return Cid of its manifest
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##
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trace "Storing data"
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let
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hcodec = multiCodec("sha2-256")
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dataCodec = multiCodec("raw")
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chunker = LPStreamChunker.new(stream, chunkSize = blockSize)
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var cids: seq[Cid]
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try:
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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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trace "Got data from stream", len = chunk.len
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without mhash =? MultiHash.digest($hcodec, chunk).mapFailure, err:
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return failure(err)
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without cid =? Cid.init(CIDv1, dataCodec, mhash).mapFailure, err:
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return failure(err)
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without blk =? bt.Block.new(cid, chunk, verify = false):
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return failure("Unable to init block from chunk!")
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cids.add(cid)
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if err =? (await self.blockStore.putBlock(blk)).errorOption:
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trace "Unable to store block", cid = blk.cid, err = err.msg
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return failure(&"Unable to store block {blk.cid}")
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except CancelledError as exc:
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raise exc
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except CatchableError as exc:
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return failure(exc.msg)
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finally:
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await stream.close()
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without tree =? MerkleTree.init(cids), err:
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return failure(err)
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without treeCid =? tree.rootCid(CIDv1, dataCodec), err:
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return failure(err)
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for index, cid in cids:
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without proof =? tree.getProof(index), err:
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return failure(err)
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if err =? (await self.blockStore.putBlockCidAndProof(treeCid, index, cid, proof)).errorOption:
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# TODO add log here
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return failure(err)
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let manifest = Manifest.new(
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treeCid = treeCid,
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blockSize = blockSize,
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datasetSize = NBytes(chunker.offset),
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version = CIDv1,
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hcodec = hcodec,
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codec = dataCodec
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)
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# Generate manifest
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without data =? manifest.encode(), err:
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return failure(
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newException(CodexError, "Error encoding manifest: " & err.msg))
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# Store as a dag-pb block
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without manifestBlk =? bt.Block.new(data = data, codec = DagPBCodec):
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trace "Unable to init block from manifest data!"
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return failure("Unable to init block from manifest data!")
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if isErr (await self.blockStore.putBlock(manifestBlk)):
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trace "Unable to store manifest", cid = manifestBlk.cid
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return failure("Unable to store manifest " & $manifestBlk.cid)
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info "Stored data", manifestCid = manifestBlk.cid,
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treeCid = treeCid,
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blocks = manifest.blocksCount,
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datasetSize = manifest.datasetSize
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# Announce manifest
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await self.discovery.provide(manifestBlk.cid)
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await self.discovery.provide(treeCid)
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return manifestBlk.cid.success
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proc iterateManifests*(node: CodexNodeRef, onManifest: OnManifest) {.async.} =
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without cids =? await node.blockStore.listBlocks(BlockType.Manifest):
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warn "Failed to listBlocks"
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return
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for c in cids:
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if cid =? await c:
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without blk =? await node.blockStore.getBlock(cid):
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warn "Failed to get manifest block by cid", cid
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return
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without manifest =? Manifest.decode(blk):
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warn "Failed to decode manifest", cid
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return
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onManifest(cid, manifest)
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proc requestStorage*(
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self: CodexNodeRef,
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cid: Cid,
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duration: UInt256,
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proofProbability: UInt256,
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nodes: uint,
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tolerance: uint,
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reward: UInt256,
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collateral: UInt256,
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expiry: UInt256): Future[?!PurchaseId] {.async.} =
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## Initiate a request for storage sequence, this might
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## be a multistep procedure.
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##
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## Roughly the flow is as follows:
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## - Get the original cid from the store (should have already been uploaded)
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## - Erasure code it according to the nodes and tolerance parameters
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## - Run the PoR setup on the erasure dataset
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## - Call into the marketplace and purchasing contracts
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##
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trace "Received a request for storage!", cid, duration, nodes, tolerance, reward, proofProbability, collateral, expiry
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without contracts =? self.contracts.client:
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trace "Purchasing not available"
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return failure "Purchasing not available"
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without manifest =? await self.fetchManifest(cid), error:
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trace "Unable to fetch manifest for cid", cid
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raise error
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# Erasure code the dataset according to provided parameters
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without encoded =? (await self.erasure.encode(manifest, nodes.int, tolerance.int)), error:
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trace "Unable to erasure code dataset", cid
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return failure(error)
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without encodedData =? encoded.encode(), error:
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trace "Unable to encode protected manifest"
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return failure(error)
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without encodedBlk =? bt.Block.new(data = encodedData, codec = DagPBCodec), error:
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trace "Unable to create block from encoded manifest"
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return failure(error)
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if isErr (await self.blockStore.putBlock(encodedBlk)):
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trace "Unable to store encoded manifest block", cid = encodedBlk.cid
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return failure("Unable to store encoded manifest block")
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let request = StorageRequest(
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ask: StorageAsk(
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slots: nodes + tolerance,
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# TODO: Specify slot-specific size (as below) once dispersal is
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# implemented. The current implementation downloads the entire dataset, so
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# it is currently set to be the size of the entire dataset. This is
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# because the slotSize is used to determine the amount of bytes to reserve
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# in a Reservations
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# TODO: slotSize: (encoded.blockSize.int * encoded.steps).u256,
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slotSize: (encoded.blockSize.int * encoded.blocksCount).u256,
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duration: duration,
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proofProbability: proofProbability,
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reward: reward,
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collateral: collateral,
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maxSlotLoss: tolerance
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),
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content: StorageContent(
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cid: $encodedBlk.cid,
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merkleRoot: array[32, byte].default # TODO: add merkle root for storage proofs
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),
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expiry: expiry
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)
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let purchase = await contracts.purchasing.purchase(request)
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return success purchase.id
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proc new*(
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T: type CodexNodeRef,
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switch: Switch,
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store: BlockStore,
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engine: BlockExcEngine,
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erasure: Erasure,
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discovery: Discovery,
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contracts = Contracts.default): CodexNodeRef =
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## Create new instance of a Codex node, call `start` to run it
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##
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CodexNodeRef(
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switch: switch,
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blockStore: store,
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engine: engine,
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erasure: erasure,
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discovery: discovery,
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contracts: contracts)
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proc start*(node: CodexNodeRef) {.async.} =
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if not node.engine.isNil:
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await node.engine.start()
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if not node.erasure.isNil:
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await node.erasure.start()
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if not node.discovery.isNil:
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await node.discovery.start()
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if not node.clock.isNil:
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await node.clock.start()
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if hostContracts =? node.contracts.host:
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# TODO: remove Sales callbacks, pass BlockStore and StorageProofs instead
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hostContracts.sales.onStore = proc(request: StorageRequest,
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slot: UInt256,
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onBatch: BatchProc): Future[?!void] {.async.} =
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## store data in local storage
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##
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without cid =? Cid.init(request.content.cid):
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trace "Unable to parse Cid", cid
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let error = newException(CodexError, "Unable to parse Cid")
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return failure(error)
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without manifest =? await node.fetchManifest(cid), error:
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trace "Unable to fetch manifest for cid", cid
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return failure(error)
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trace "Fetching block for manifest", cid
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let expiry = request.expiry.toSecondsSince1970
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proc expiryUpdateOnBatch(blocks: seq[bt.Block]): Future[?!void] {.async.} =
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let ensureExpiryFutures = blocks.mapIt(node.blockStore.ensureExpiry(it.cid, expiry))
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if updateExpiryErr =? (await allFutureResult(ensureExpiryFutures)).errorOption:
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return failure(updateExpiryErr)
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if not onBatch.isNil and onBatchErr =? (await onBatch(blocks)).errorOption:
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return failure(onBatchErr)
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return success()
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if fetchErr =? (await node.fetchBatched(manifest, onBatch = expiryUpdateOnBatch)).errorOption:
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let error = newException(CodexError, "Unable to retrieve blocks")
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error.parent = fetchErr
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return failure(error)
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return success()
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hostContracts.sales.onExpiryUpdate = proc(rootCid: string, expiry: SecondsSince1970): Future[?!void] {.async.} =
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without cid =? Cid.init(rootCid):
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trace "Unable to parse Cid", cid
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let error = newException(CodexError, "Unable to parse Cid")
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return failure(error)
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return await node.updateExpiry(cid, expiry)
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hostContracts.sales.onClear = proc(request: StorageRequest,
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slotIndex: UInt256) =
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# TODO: remove data from local storage
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discard
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hostContracts.sales.onProve = proc(slot: Slot, challenge: ProofChallenge): Future[seq[byte]] {.async.} =
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# TODO: generate proof
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return @[42'u8]
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try:
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await hostContracts.start()
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except CatchableError as error:
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error "Unable to start host contract interactions", error=error.msg
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node.contracts.host = HostInteractions.none
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if clientContracts =? node.contracts.client:
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try:
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await clientContracts.start()
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except CatchableError as error:
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error "Unable to start client contract interactions: ", error=error.msg
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node.contracts.client = ClientInteractions.none
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if validatorContracts =? node.contracts.validator:
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try:
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await validatorContracts.start()
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except CatchableError as error:
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error "Unable to start validator contract interactions: ", error=error.msg
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node.contracts.validator = ValidatorInteractions.none
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node.networkId = node.switch.peerInfo.peerId
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notice "Started codex node", id = $node.networkId, addrs = node.switch.peerInfo.addrs
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proc stop*(node: CodexNodeRef) {.async.} =
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trace "Stopping node"
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if not node.engine.isNil:
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await node.engine.stop()
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if not node.erasure.isNil:
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await node.erasure.stop()
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if not node.discovery.isNil:
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await node.discovery.stop()
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if not node.clock.isNil:
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await node.clock.stop()
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if clientContracts =? node.contracts.client:
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await clientContracts.stop()
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if hostContracts =? node.contracts.host:
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await hostContracts.stop()
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if validatorContracts =? node.contracts.validator:
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await validatorContracts.stop()
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if not node.blockStore.isNil:
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await node.blockStore.close
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