## Nim-Codex ## Copyright (c) 2021 Status Research & Development GmbH ## Licensed under either of ## * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE)) ## * MIT license ([LICENSE-MIT](LICENSE-MIT)) ## at your option. ## This file may not be copied, modified, or distributed except according to ## those terms. import std/options import std/tables import std/sequtils import std/strformat import pkg/questionable import pkg/questionable/results import pkg/chronicles import pkg/chronos import pkg/libp2p # TODO: remove once exported by libp2p import pkg/libp2p/routing_record import pkg/libp2p/signed_envelope import ./chunker import ./blocktype as bt import ./manifest import ./stores/blockstore import ./blockexchange import ./streams import ./erasure import ./discovery import ./contracts logScope: topics = "codex node" const FetchBatch = 200 type BatchProc* = proc(blocks: seq[bt.Block]): Future[void] {.gcsafe, raises: [Defect].} CodexError = object of CatchableError CodexNodeRef* = ref object switch*: Switch networkId*: PeerID blockStore*: BlockStore engine*: BlockExcEngine erasure*: Erasure discovery*: Discovery contracts*: ?ContractInteractions proc findPeer*( node: CodexNodeRef, peerId: PeerID): Future[?PeerRecord] {.async.} = return await node.discovery.findPeer(peerId) proc connect*( node: CodexNodeRef, peerId: PeerID, addrs: seq[MultiAddress]): Future[void] = node.switch.connect(peerId, addrs) proc fetchManifest*( node: CodexNodeRef, cid: Cid): Future[?!Manifest] {.async.} = ## Fetch and decode a manifest block ## if err =? cid.isManifest.errorOption: return failure "CID has invalid content type for manifest {$cid}" trace "Received manifest retrieval request", cid without blk =? await node.blockStore.getBlock(cid), err: trace "Error retriving manifest block", cid, err = err.msg return failure err without manifest =? Manifest.decode(blk), err: trace "Unable to decode as manifest", err = err.msg return failure("Unable to decode as manifest") trace "Decoded manifest", cid return manifest.success proc fetchBatched*( node: CodexNodeRef, manifest: Manifest, batchSize = FetchBatch, onBatch: BatchProc = nil): Future[?!void] {.async, gcsafe.} = ## Fetch manifest in batches of `batchSize` ## let batches = (manifest.blocks.len div batchSize) + (manifest.blocks.len mod batchSize) trace "Fetching blocks in batches of", size = batchSize for blks in manifest.blocks.distribute(max(1, batches), true): try: let blocks = blks.mapIt(node.blockStore.getBlock( it )) await allFuturesThrowing(allFinished(blocks)) if not onBatch.isNil: await onBatch(blocks.mapIt( it.read.get )) except CancelledError as exc: raise exc except CatchableError as exc: return failure(exc.msg) return success() proc retrieve*( node: CodexNodeRef, cid: Cid): Future[?!LPStream] {.async.} = ## Retrieve by Cid a single block or an entire dataset described by manifest ## if manifest =? (await node.fetchManifest(cid)): trace "Retrieving blocks from manifest", cid if manifest.protected: # Retrieve, decode and save to the local store all EС groups proc erasureJob(): Future[void] {.async.} = try: # Spawn an erasure decoding job without res =? (await node.erasure.decode(manifest)), error: trace "Unable to erasure decode manifest", cid, exc = error.msg except CatchableError as exc: trace "Exception decoding manifest", cid, exc = exc.msg # asyncSpawn erasureJob() # else: # # Prefetch the entire dataset into the local store # proc prefetchBlocks() {.async, raises: [Defect].} = # try: # discard await node.fetchBatched(manifest) # except CatchableError as exc: # trace "Exception prefetching blocks", exc = exc.msg # # # # asyncSpawn prefetchBlocks() - temporarily commented out # # Retrieve all blocks of the dataset sequentially from the local store or network trace "Creating store stream for manifest", cid return LPStream(StoreStream.new(node.blockStore, manifest, pad = false)).success let stream = BufferStream.new() without blk =? (await node.blockStore.getBlock(cid)), err: return failure(err) proc streamOneBlock(): Future[void] {.async.} = try: await stream.pushData(blk.data) except CatchableError as exc: trace "Unable to send block", cid, exc = exc.msg discard finally: await stream.pushEof() asyncSpawn streamOneBlock() return LPStream(stream).success() return failure("Unable to retrieve Cid!") proc store*( self: CodexNodeRef, stream: LPStream, blockSize = BlockSize): Future[?!Cid] {.async.} = ## Save stream contents as dataset with given blockSize ## to nodes's BlockStore, and return Cid of its manifest ## trace "Storing data" without var blockManifest =? Manifest.new(blockSize = blockSize): return failure("Unable to create Block Set") # Manifest and chunker should use the same blockSize let chunker = LPStreamChunker.new(stream, chunkSize = blockSize) try: while ( let chunk = await chunker.getBytes(); chunk.len > 0): trace "Got data from stream", len = chunk.len without blk =? bt.Block.new(chunk): return failure("Unable to init block from chunk!") blockManifest.add(blk.cid) if err =? (await self.blockStore.putBlock(blk)).errorOption: trace "Unable to store block", cid = blk.cid, err = err.msg return failure(&"Unable to store block {blk.cid}") except CancelledError as exc: raise exc except CatchableError as exc: return failure(exc.msg) finally: await stream.close() # Generate manifest blockManifest.originalBytes = chunker.offset # store the exact file size without data =? blockManifest.encode(): return failure( newException(CodexError, "Could not generate dataset manifest!")) # Store as a dag-pb block without manifest =? bt.Block.new(data = data, codec = DagPBCodec): trace "Unable to init block from manifest data!" return failure("Unable to init block from manifest data!") if isErr (await self.blockStore.putBlock(manifest)): trace "Unable to store manifest", cid = manifest.cid return failure("Unable to store manifest " & $manifest.cid) without cid =? blockManifest.cid, error: trace "Unable to generate manifest Cid!", exc = error.msg return failure(error.msg) trace "Stored data", manifestCid = manifest.cid, contentCid = cid, blocks = blockManifest.len # Announce manifest await self.discovery.provide(manifest.cid) return manifest.cid.success proc requestStorage*(self: CodexNodeRef, cid: Cid, duration: UInt256, nodes: uint, tolerance: uint, reward: UInt256, expiry = UInt256.none): Future[?!PurchaseId] {.async.} = ## Initiate a request for storage sequence, this might ## be a multistep procedure. ## ## Roughly the flow is as follows: ## - Get the original cid from the store (should have already been uploaded) ## - Erasure code it according to the nodes and tolerance parameters ## - Run the PoR setup on the erasure dataset ## - Call into the marketplace and purchasing contracts ## trace "Received a request for storage!", cid, duration, nodes, tolerance, reward without contracts =? self.contracts: trace "Purchasing not available" return failure "Purchasing not available" without manifest =? await self.fetchManifest(cid), error: trace "Unable to fetch manifest for cid", cid raise error # Erasure code the dataset according to provided parameters without encoded =? (await self.erasure.encode(manifest, nodes.int, tolerance.int)), error: trace "Unable to erasure code dataset", cid return failure(error) without encodedData =? encoded.encode(), error: trace "Unable to encode protected manifest" return failure(error) without encodedBlk =? bt.Block.new(data = encodedData, codec = DagPBCodec), error: trace "Unable to create block from encoded manifest" return failure(error) if isErr (await self.blockStore.putBlock(encodedBlk)): trace "Unable to store encoded manifest block", cid = encodedBlk.cid return failure("Unable to store encoded manifest block") let request = StorageRequest( ask: StorageAsk( slots: nodes + tolerance, slotSize: (encoded.blockSize * encoded.steps).u256, duration: duration, reward: reward, maxSlotLoss: tolerance ), content: StorageContent( cid: $encodedBlk.cid, erasure: StorageErasure( totalChunks: encoded.len.uint64, ), por: StoragePor( u: @[], # TODO: PoR setup publicKey: @[], # TODO: PoR setup name: @[] # TODO: PoR setup ) ), expiry: expiry |? 0.u256 ) let purchase = await contracts.purchasing.purchase(request) return success purchase.id proc new*( T: type CodexNodeRef, switch: Switch, store: BlockStore, engine: BlockExcEngine, erasure: Erasure, discovery: Discovery, contracts = ContractInteractions.none): T = T( switch: switch, blockStore: store, engine: engine, erasure: erasure, discovery: discovery, contracts: contracts) proc start*(node: CodexNodeRef) {.async.} = if not node.switch.isNil: await node.switch.start() if not node.engine.isNil: await node.engine.start() if not node.erasure.isNil: await node.erasure.start() if not node.discovery.isNil: await node.discovery.start() if contracts =? node.contracts: # TODO: remove Sales callbacks, pass BlockStore and StorageProofs instead contracts.sales.onStore = proc(request: StorageRequest, slot: UInt256, availability: ?Availability) {.async.} = ## store data in local storage ## without cid =? Cid.init(request.content.cid): trace "Unable to parse Cid", cid raise newException(CodexError, "Unable to parse Cid") without manifest =? await node.fetchManifest(cid), error: trace "Unable to fetch manifest for cid", cid raise error trace "Fetching block for manifest", cid # TODO: This will probably require a call to `getBlock` either way, # since fetching of blocks will have to be selective according # to a combination of parameters, such as node slot position # and dataset geometry let fetchRes = await node.fetchBatched(manifest) if fetchRes.isErr: raise newException(CodexError, "Unable to retrieve blocks") contracts.sales.onClear = proc(availability: ?Availability, request: StorageRequest, slotIndex: UInt256) = # TODO: remove data from local storage discard contracts.sales.onProve = proc(request: StorageRequest, slot: UInt256): Future[seq[byte]] {.async.} = # TODO: generate proof return @[42'u8] try: await contracts.start() except CatchableError as error: error "Unable to start contract interactions: ", error=error.msg node.contracts = ContractInteractions.none node.networkId = node.switch.peerInfo.peerId notice "Started codex node", id = $node.networkId, addrs = node.switch.peerInfo.addrs proc stop*(node: CodexNodeRef) {.async.} = trace "Stopping node" if not node.engine.isNil: await node.engine.stop() if not node.switch.isNil: await node.switch.stop() if not node.erasure.isNil: await node.erasure.stop() if not node.discovery.isNil: await node.discovery.stop() if contracts =? node.contracts: await contracts.stop() if not node.blockStore.isNil: await node.blockStore.close