import sets, options, random, hashes, asyncdispatch2, chronicles, eth_common/eth_types, private/types, rlpx, peer_pool, rlpx_protocols/eth_protocol, ../eth_p2p.nim const minPeersToStartSync* = 2 # Wait for consensus of at least this # number of peers before syncing type SyncStatus* = enum syncSuccess syncNotEnoughPeers syncTimeOut WantedBlocksState = enum Initial, Requested, Received, Persisted WantedBlocks = object startIndex: BlockNumber numBlocks: uint state: WantedBlocksState headers: seq[BlockHeader] bodies: seq[BlockBody] SyncContext = ref object workQueue: seq[WantedBlocks] endBlockNumber: BlockNumber finalizedBlock: BlockNumber # Block which was downloaded and verified chain: AbstractChainDB peerPool: PeerPool trustedPeers: HashSet[Peer] hasOutOfOrderBlocks: bool proc hash*(p: Peer): Hash {.inline.} = hash(cast[pointer](p)) proc endIndex(b: WantedBlocks): BlockNumber = result = b.startIndex result += (b.numBlocks - 1).u256 proc availableWorkItem(ctx: SyncContext): int = var maxPendingBlock = ctx.finalizedBlock trace "queue len", length = ctx.workQueue.len result = -1 for i in 0 .. ctx.workQueue.high: case ctx.workQueue[i].state of Initial: return i of Persisted: result = i else: discard let eb = ctx.workQueue[i].endIndex if eb > maxPendingBlock: maxPendingBlock = eb let nextRequestedBlock = maxPendingBlock + 1 if nextRequestedBlock >= ctx.endBlockNumber: return -1 if result == -1: result = ctx.workQueue.len ctx.workQueue.setLen(result + 1) var numBlocks = (ctx.endBlockNumber - nextRequestedBlock).toInt if numBlocks > maxHeadersFetch: numBlocks = maxHeadersFetch ctx.workQueue[result] = WantedBlocks(startIndex: nextRequestedBlock, numBlocks: numBlocks.uint, state: Initial) proc persistWorkItem(ctx: SyncContext, wi: var WantedBlocks) = case ctx.chain.persistBlocks(wi.headers, wi.bodies) of ValidationResult.OK: ctx.finalizedBlock = wi.endIndex wi.state = Persisted of ValidationResult.Error: wi.state = Initial # successful or not, we're done with these blocks wi.headers.setLen(0) wi.bodies.setLen(0) proc persistPendingWorkItems(ctx: SyncContext) = var nextStartIndex = ctx.finalizedBlock + 1 var keepRunning = true var hasOutOfOrderBlocks = false trace "Looking for out of order blocks" while keepRunning: keepRunning = false hasOutOfOrderBlocks = false for i in 0 ..< ctx.workQueue.len: let start = ctx.workQueue[i].startIndex if ctx.workQueue[i].state == Received: if start == nextStartIndex: trace "Persisting pending work item", start ctx.persistWorkItem(ctx.workQueue[i]) nextStartIndex = ctx.finalizedBlock + 1 keepRunning = true break else: hasOutOfOrderBlocks = true ctx.hasOutOfOrderBlocks = hasOutOfOrderBlocks proc returnWorkItem(ctx: SyncContext, workItem: int): ValidationResult = let wi = addr ctx.workQueue[workItem] let askedBlocks = wi.numBlocks.int let receivedBlocks = wi.headers.len let start = wi.startIndex if askedBlocks == receivedBlocks: trace "Work item complete", start, askedBlocks, receivedBlocks if wi.startIndex != ctx.finalizedBlock + 1: trace "Blocks out of order", start, final = ctx.finalizedBlock ctx.hasOutOfOrderBlocks = true if ctx.hasOutOfOrderBlocks: ctx.persistPendingWorkItems() else: ctx.persistWorkItem(wi[]) else: trace "Work item complete but we got fewer blocks than requested, so we're ditching the whole thing.", start, askedBlocks, receivedBlocks return ValidationResult.Error proc newSyncContext(chain: AbstractChainDB, peerPool: PeerPool): SyncContext = new result result.chain = chain result.peerPool = peerPool result.trustedPeers = initSet[Peer]() result.finalizedBlock = chain.getBestBlockHeader().blockNumber proc handleLostPeer(ctx: SyncContext) = # TODO: ask the PeerPool for new connections and then call # `obtainBlocksFromPeer` discard proc getBestBlockNumber(p: Peer): Future[BlockNumber] {.async.} = let request = BlocksRequest( startBlock: HashOrNum(isHash: true, hash: p.state(eth).bestBlockHash), maxResults: 1, skip: 0, reverse: true) let latestBlock = await p.getBlockHeaders(request) if latestBlock.isSome and latestBlock.get.headers.len > 0: result = latestBlock.get.headers[0].blockNumber proc obtainBlocksFromPeer(syncCtx: SyncContext, peer: Peer) {.async.} = # Update our best block number try: let bestBlockNumber = await peer.getBestBlockNumber() if bestBlockNumber > syncCtx.endBlockNumber: trace "New sync end block number", number = bestBlockNumber syncCtx.endBlockNumber = bestBlockNumber except: debug "Exception in getBestBlockNumber()", exc = getCurrentException().name, err = getCurrentExceptionMsg() # no need to exit here, because the context might still have blocks to fetch # from this peer while (let workItemIdx = syncCtx.availableWorkItem(); workItemIdx != -1): template workItem: auto = syncCtx.workQueue[workItemIdx] workItem.state = Requested trace "Requesting block headers", start = workItem.startIndex, count = workItem.numBlocks, peer let request = BlocksRequest( startBlock: HashOrNum(isHash: false, number: workItem.startIndex), maxResults: workItem.numBlocks, skip: 0, reverse: false) var dataReceived = false try: let results = await peer.getBlockHeaders(request) if results.isSome: shallowCopy(workItem.headers, results.get.headers) var bodies = newSeq[BlockBody]() var hashes = newSeq[KeccakHash]() var nextIndex = workItem.startIndex for i in workItem.headers: if i.blockNumber != nextIndex: raise newException(Exception, "The block numbers are not in sequence. Not processing this workItem.") else: nextIndex = nextIndex + 1 hashes.add(blockHash(i)) if hashes.len == maxBodiesFetch: let b = await peer.getBlockBodies(hashes) hashes.setLen(0) bodies.add(b.get.blocks) if hashes.len != 0: let b = await peer.getBlockBodies(hashes) bodies.add(b.get.blocks) if bodies.len == workItem.headers.len: shallowCopy(workItem.bodies, bodies) dataReceived = true else: warn "Bodies len != headers.len", bodies = bodies.len, headers = workItem.headers.len except: # the success case sets `dataReceived`, so we can just fall back to the # failure path below. If we signal time-outs with exceptions such # failures will be easier to handle. debug "Exception in obtainBlocksFromPeer()", exc = getCurrentException().name, err = getCurrentExceptionMsg() var giveUpOnPeer = false if dataReceived: workItem.state = Received if syncCtx.returnWorkItem(workItemIdx) != ValidationResult.OK: giveUpOnPeer = true else: giveUpOnPeer = true if giveUpOnPeer: workItem.state = Initial try: await peer.disconnect(SubprotocolReason) except: discard syncCtx.handleLostPeer() break trace "Finished obtaining blocks", peer proc peersAgreeOnChain(a, b: Peer): Future[bool] {.async.} = # Returns true if one of the peers acknowledges existence of the best block # of another peer. var a = a b = b if a.state(eth).bestDifficulty < b.state(eth).bestDifficulty: swap(a, b) let request = BlocksRequest( startBlock: HashOrNum(isHash: true, hash: b.state(eth).bestBlockHash), maxResults: 1, skip: 0, reverse: true) let latestBlock = await a.getBlockHeaders(request) result = latestBlock.isSome and latestBlock.get.headers.len > 0 proc randomTrustedPeer(ctx: SyncContext): Peer = var k = rand(ctx.trustedPeers.len - 1) var i = 0 for p in ctx.trustedPeers: result = p if i == k: return inc i proc startSyncWithPeer(ctx: SyncContext, peer: Peer) {.async.} = trace "start sync", peer, trustedPeers = ctx.trustedPeers.len if ctx.trustedPeers.len >= minPeersToStartSync: # We have enough trusted peers. Validate new peer against trusted if await peersAgreeOnChain(peer, ctx.randomTrustedPeer()): ctx.trustedPeers.incl(peer) asyncCheck ctx.obtainBlocksFromPeer(peer) elif ctx.trustedPeers.len == 0: # Assume the peer is trusted, but don't start sync until we reevaluate # it with more peers trace "Assume trusted peer", peer ctx.trustedPeers.incl(peer) else: # At this point we have some "trusted" candidates, but they are not # "trusted" enough. We evaluate `peer` against all other candidates. # If one of the candidates disagrees, we swap it for `peer`. If all # candidates agree, we add `peer` to trusted set. The peers in the set # will become "fully trusted" (and sync will start) when the set is big # enough var agreeScore = 0 disagreedPeer: Peer for tp in ctx.trustedPeers: if await peersAgreeOnChain(peer, tp): inc agreeScore else: disagreedPeer = tp let disagreeScore = ctx.trustedPeers.len - agreeScore if agreeScore == ctx.trustedPeers.len: ctx.trustedPeers.incl(peer) # The best possible outcome elif disagreeScore == 1: trace "Peer is no longer trusted for sync", peer ctx.trustedPeers.excl(disagreedPeer) ctx.trustedPeers.incl(peer) else: trace "Peer not trusted for sync", peer if ctx.trustedPeers.len == minPeersToStartSync: for p in ctx.trustedPeers: asyncCheck ctx.obtainBlocksFromPeer(p) proc onPeerConnected(ctx: SyncContext, peer: Peer) = trace "New candidate for sync", peer try: let f = ctx.startSyncWithPeer(peer) f.callback = proc(data: pointer) {.gcsafe.} = if f.failed: error "startSyncWithPeer failed", msg = f.readError.msg, peer except: debug "Exception in startSyncWithPeer()", exc = getCurrentException().name, err = getCurrentExceptionMsg() proc onPeerDisconnected(ctx: SyncContext, p: Peer) = trace "peer disconnected ", peer = p ctx.trustedPeers.excl(p) proc startSync(ctx: SyncContext) = var po: PeerObserver po.onPeerConnected = proc(p: Peer) = ctx.onPeerConnected(p) po.onPeerDisconnected = proc(p: Peer) = ctx.onPeerDisconnected(p) ctx.peerPool.addObserver(ctx, po) proc findBestPeer(node: EthereumNode): (Peer, DifficultyInt) = var bestBlockDifficulty: DifficultyInt = 0.stuint(256) bestPeer: Peer = nil for peer in node.peers(eth): let peerEthState = peer.state(eth) if peerEthState.initialized: if peerEthState.bestDifficulty > bestBlockDifficulty: bestBlockDifficulty = peerEthState.bestDifficulty bestPeer = peer result = (bestPeer, bestBlockDifficulty) proc fastBlockchainSync*(node: EthereumNode): Future[SyncStatus] {.async.} = ## Code for the fast blockchain sync procedure: ## https://github.com/ethereum/wiki/wiki/Parallel-Block-Downloads ## https://github.com/ethereum/go-ethereum/pull/1889 # TODO: This needs a better interface. Consider removing this function and # exposing SyncCtx var syncCtx = newSyncContext(node.chain, node.peerPool) syncCtx.startSync()