import options, random, chronos, chronicles, spec/datatypes, eth2_network, beacon_node_types, sync_protocol, eth/async_utils proc init*(T: type RequestManager, network: Eth2Node): T = T(network: network) type FetchAncestorsResponseHandler = proc (b: BeaconBlock) {.gcsafe.} proc fetchAncestorBlocksFromPeer( peer: Peer, rec: FetchRecord, responseHandler: FetchAncestorsResponseHandler) {.async.} = # TODO: It's not clear if this function follows the intention of the # FetchRecord data type. Perhaps it is supposed to get a range of blocks # instead. In order to do this, we'll need the slot number of the known # block to be stored in the FetchRecord, so we can ask for a range of # blocks starting N positions before this slot number. let blocks = await peer.beaconBlocksByRoot([rec.root]) if blocks.isSome: for b in blocks.get: responseHandler(b) proc fetchAncestorBlocks*(requestManager: RequestManager, roots: seq[FetchRecord], responseHandler: FetchAncestorsResponseHandler) = # TODO: we could have some fancier logic here: # # * Keeps track of what was requested # (this would give a little bit of time for the asked peer to respond) # # * Keep track of the average latency of each peer # (we can give priority to peers with better latency) # const ParallelRequests = 2 var fetchComplete = false for peer in requestManager.network.randomPeers(ParallelRequests, BeaconSync): traceAsyncErrors peer.fetchAncestorBlocksFromPeer(roots.rand(), responseHandler)