444 lines
12 KiB
Nim
444 lines
12 KiB
Nim
## Nim-Dagger
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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/sequtils
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import pkg/chronos
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import pkg/chronicles
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import pkg/libp2p
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import pkg/libp2p/errors
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import ../stores/blockstore
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import ../blocktype as bt
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import ../utils/asyncheapqueue
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import ./protobuf/blockexc
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import ./protobuf/presence
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import ./network
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import ./pendingblocks
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import ./peercontext
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import ./engine/payments
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export peercontext, payments, pendingblocks
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logScope:
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topics = "dagger blockexc engine"
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const
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DefaultBlockTimeout* = 5.minutes
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DefaultMaxPeersPerRequest* = 10
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DefaultTaskQueueSize = 100
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DefaultConcurrentTasks = 10
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DefaultMaxRetries = 3
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type
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TaskHandler* = proc(task: BlockExcPeerCtx): Future[void] {.gcsafe.}
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TaskScheduler* = proc(task: BlockExcPeerCtx): bool {.gcsafe.}
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BlockExcEngine* = ref object of RootObj
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localStore*: BlockStore # where we localStore blocks for this instance
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network*: BlockExcNetwork # network interface
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peers*: seq[BlockExcPeerCtx] # peers we're currently actively exchanging with
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wantList*: seq[Cid] # local wants list
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taskQueue*: AsyncHeapQueue[BlockExcPeerCtx] # peers we're currently processing tasks for
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concurrentTasks: int # number of concurrent peers we're serving at any given time
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maxRetries: int # max number of tries for a failed block
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blockexcTasks: seq[Future[void]] # future to control blockexc task
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blockexcRunning: bool # indicates if the blockexc task is running
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pendingBlocks*: PendingBlocksManager # blocks we're awaiting to be resolved
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peersPerRequest: int # max number of peers to request from
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wallet*: WalletRef # nitro wallet for micropayments
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pricing*: ?Pricing # optional bandwidth pricing
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Pricing* = object
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address*: EthAddress
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price*: UInt256
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proc contains*(a: AsyncHeapQueue[Entry], b: Cid): bool =
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## Convenience method to check for entry prepense
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##
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a.anyIt( it.cid == b )
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proc getPeerCtx*(b: BlockExcEngine, peerId: PeerID): BlockExcPeerCtx =
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## Get the peer's context
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##
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let peer = b.peers.filterIt( it.id == peerId )
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if peer.len > 0:
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return peer[0]
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# attach task scheduler to engine
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proc scheduleTask(b: BlockExcEngine, task: BlockExcPeerCtx): bool {.gcsafe} =
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b.taskQueue.pushOrUpdateNoWait(task).isOk()
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proc blockexcTaskRunner(b: BlockExcEngine): Future[void] {.gcsafe.}
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proc start*(b: BlockExcEngine) {.async.} =
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## Start the blockexc task
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##
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trace "blockexc start"
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if b.blockexcRunning:
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warn "Starting blockexc twice"
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return
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b.blockexcRunning = true
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for i in 0..<b.concurrentTasks:
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b.blockexcTasks.add(blockexcTaskRunner(b))
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proc stop*(b: BlockExcEngine) {.async.} =
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## Stop the blockexc blockexc
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##
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trace "NetworkStore stop"
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if not b.blockexcRunning:
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warn "Stopping blockexc without starting it"
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return
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b.blockexcRunning = false
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for t in b.blockexcTasks:
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if not t.finished:
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trace "Awaiting task to stop"
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await t.cancelAndWait()
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trace "Task stopped"
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trace "NetworkStore stopped"
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proc requestBlock*(
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b: BlockExcEngine,
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cid: Cid,
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timeout = DefaultBlockTimeout): Future[bt.Block] =
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## Request a block from remotes
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##
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let
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blk = b.pendingBlocks.addOrAwait(cid).wait(timeout)
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if b.peers.len <= 0:
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warn "No peers to request blocks from"
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# TODO: run discovery here to get peers for the block
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return blk
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var peers = b.peers
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# get the first peer with at least one (any)
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# matching cid
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var blockPeer: BlockExcPeerCtx
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for i, p in peers:
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if cid in p.peerHave:
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blockPeer = p
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break
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# didn't find any peer with matching cids
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# use the first one in the sorted array
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if isNil(blockPeer):
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blockPeer = peers[0]
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peers.keepItIf(
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it != blockPeer
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)
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trace "Requesting block from peer", peer = blockPeer.id, cid
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# request block
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b.network.request.sendWantList(
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blockPeer.id,
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@[cid],
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wantType = WantType.wantBlock) # we want this remote to send us a block
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if peers.len == 0:
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return blk # no peers to send wants to
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# filter out the peer we've already requested from
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let stop = min(peers.high, b.peersPerRequest)
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trace "Sending want list requests to remaining peers", count = stop + 1
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for p in peers[0..stop]:
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if cid notin p.peerHave:
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# just send wants
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b.network.request.sendWantList(
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p.id,
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@[cid],
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wantType = WantType.wantHave) # we only want to know if the peer has the block
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return blk
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proc blockPresenceHandler*(
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b: BlockExcEngine,
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peer: PeerID,
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blocks: seq[BlockPresence]) {.async.} =
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## Handle block presence
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##
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let peerCtx = b.getPeerCtx(peer)
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if isNil(peerCtx):
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return
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for blk in blocks:
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if presence =? Presence.init(blk):
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peerCtx.updatePresence(presence)
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proc scheduleTasks(b: BlockExcEngine, blocks: seq[bt.Block]) =
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trace "Schedule a task for new blocks"
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let cids = blocks.mapIt( it.cid )
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# schedule any new peers to provide blocks to
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for p in b.peers:
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for c in cids: # for each cid
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# schedule a peer if it wants at least one
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# cid and we have it in our local store
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if c in p.peerWants and c in b.localStore:
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if not b.scheduleTask(p):
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trace "Unable to schedule task for peer", peer = p.id
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break # do next peer
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proc resolveBlocks*(b: BlockExcEngine, blocks: seq[bt.Block]) =
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## Resolve pending blocks from the pending blocks manager
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## and schedule any new task to be ran
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##
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trace "Resolving blocks"
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b.pendingBlocks.resolve(blocks)
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b.scheduleTasks(blocks)
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proc payForBlocks(engine: BlockExcEngine,
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peer: BlockExcPeerCtx,
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blocks: seq[bt.Block]) =
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let sendPayment = engine.network.request.sendPayment
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if sendPayment.isNil:
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return
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let cids = blocks.mapIt(it.cid)
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if payment =? engine.wallet.pay(peer, peer.price(cids)):
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sendPayment(peer.id, payment)
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proc blocksHandler*(
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b: BlockExcEngine,
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peer: PeerID,
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blocks: seq[bt.Block]) {.async.} =
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## handle incoming blocks
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##
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trace "Got blocks from peer", peer, len = blocks.len
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for blk in blocks:
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if not (await b.localStore.putBlock(blk)):
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trace "Unable to store block", cid = blk.cid
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continue
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b.resolveBlocks(blocks)
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let peerCtx = b.getPeerCtx(peer)
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if peerCtx != nil:
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b.payForBlocks(peerCtx, blocks)
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proc wantListHandler*(
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b: BlockExcEngine,
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peer: PeerID,
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wantList: WantList) {.async.} =
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## Handle incoming want lists
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##
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trace "Got want list for peer", peer
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let peerCtx = b.getPeerCtx(peer)
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if isNil(peerCtx):
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return
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var dontHaves: seq[Cid]
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let entries = wantList.entries
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for e in entries:
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let idx = peerCtx.peerWants.find(e)
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if idx > -1:
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# peer doesn't want this block anymore
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if e.cancel:
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peerCtx.peerWants.del(idx)
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continue
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peerCtx.peerWants[idx] = e # update entry
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else:
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peerCtx.peerWants.add(e)
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trace "Added entry to peer's want list", peer = peerCtx.id, cid = $e.cid
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# peer might want to ask for the same cid with
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# different want params
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if e.sendDontHave and e.cid notin b.localStore:
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dontHaves.add(e.cid)
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# send don't have's to remote
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if dontHaves.len > 0:
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b.network.request.sendPresence(
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peer,
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dontHaves.mapIt(
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BlockPresence(
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cid: it.data.buffer,
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`type`: BlockPresenceType.presenceDontHave)))
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if not b.scheduleTask(peerCtx):
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trace "Unable to schedule task for peer", peer
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proc accountHandler*(engine: BlockExcEngine, peer: PeerID, account: Account) {.async.} =
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let context = engine.getPeerCtx(peer)
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if context.isNil:
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return
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context.account = account.some
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proc paymentHandler*(engine: BlockExcEngine, peer: PeerId, payment: SignedState) {.async.} =
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without context =? engine.getPeerCtx(peer).option and
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account =? context.account:
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return
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if channel =? context.paymentChannel:
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let sender = account.address
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discard engine.wallet.acceptPayment(channel, Asset, sender, payment)
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else:
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context.paymentChannel = engine.wallet.acceptChannel(payment).option
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proc setupPeer*(b: BlockExcEngine, peer: PeerID) =
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## Perform initial setup, such as want
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## list exchange
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##
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trace "Setting up new peer", peer
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if peer notin b.peers:
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b.peers.add(BlockExcPeerCtx(
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id: peer
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))
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# broadcast our want list, the other peer will do the same
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if b.wantList.len > 0:
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b.network.request.sendWantList(peer, b.wantList, full = true)
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if address =? b.pricing.?address:
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b.network.request.sendAccount(peer, Account(address: address))
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proc dropPeer*(b: BlockExcEngine, peer: PeerID) =
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## Cleanup disconnected peer
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##
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trace "Dropping peer", peer
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# drop the peer from the peers table
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b.peers.keepItIf( it.id != peer )
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proc taskHandler*(b: BlockExcEngine, task: BlockExcPeerCtx) {.gcsafe, async.} =
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trace "Handling task for peer", peer = task.id
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var wantsBlocks = newAsyncHeapQueue[Entry](queueType = QueueType.Max)
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# get blocks and wants to send to the remote
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for e in task.peerWants:
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if e.wantType == WantType.wantBlock:
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await wantsBlocks.push(e)
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# TODO: There should be all sorts of accounting of
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# bytes sent/received here
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if wantsBlocks.len > 0:
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let blockFuts = await allFinished(wantsBlocks.mapIt(
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b.localStore.getBlock(it.cid)
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))
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let blocks = blockFuts
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.filterIt((not it.failed) and it.read.isOk)
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.mapIt(!it.read)
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if blocks.len > 0:
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b.network.request.sendBlocks(
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task.id,
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blocks)
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# Remove successfully sent blocks
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task.peerWants.keepIf(
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proc(e: Entry): bool =
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not blocks.anyIt( it.cid == e.cid )
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)
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var wants: seq[BlockPresence]
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# do not remove wants from the queue unless
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# we send the block or get a cancel
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for e in task.peerWants:
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if e.wantType == WantType.wantHave:
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var presence = Presence(cid: e.cid)
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presence.have = b.localStore.hasblock(presence.cid)
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if presence.have and price =? b.pricing.?price:
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presence.price = price
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wants.add(BlockPresence.init(presence))
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if wants.len > 0:
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b.network.request.sendPresence(task.id, wants)
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proc blockexcTaskRunner(b: BlockExcEngine) {.async.} =
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## process tasks
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##
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while b.blockexcRunning:
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let peerCtx = await b.taskQueue.pop()
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asyncSpawn b.taskHandler(peerCtx)
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trace "Exiting blockexc task runner"
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proc new*(
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T: type BlockExcEngine,
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localStore: BlockStore,
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wallet: WalletRef,
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network: BlockExcNetwork,
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concurrentTasks = DefaultConcurrentTasks,
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maxRetries = DefaultMaxRetries,
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peersPerRequest = DefaultMaxPeersPerRequest): T =
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let engine = BlockExcEngine(
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localStore: localStore,
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pendingBlocks: PendingBlocksManager.new(),
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peersPerRequest: peersPerRequest,
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network: network,
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wallet: wallet,
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concurrentTasks: concurrentTasks,
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maxRetries: maxRetries,
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taskQueue: newAsyncHeapQueue[BlockExcPeerCtx](DefaultTaskQueueSize))
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proc peerEventHandler(peerId: PeerID, event: PeerEvent) {.async.} =
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if event.kind == PeerEventKind.Joined:
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engine.setupPeer(peerId)
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else:
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engine.dropPeer(peerId)
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if not isNil(network.switch):
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network.switch.addPeerEventHandler(peerEventHandler, PeerEventKind.Joined)
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network.switch.addPeerEventHandler(peerEventHandler, PeerEventKind.Left)
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proc blockWantListHandler(
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peer: PeerID,
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wantList: WantList): Future[void] {.gcsafe.} =
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engine.wantListHandler(peer, wantList)
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proc blockPresenceHandler(
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peer: PeerID,
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presence: seq[BlockPresence]): Future[void] {.gcsafe.} =
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engine.blockPresenceHandler(peer, presence)
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proc blocksHandler(
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peer: PeerID,
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blocks: seq[bt.Block]): Future[void] {.gcsafe.} =
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engine.blocksHandler(peer, blocks)
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proc accountHandler(peer: PeerId, account: Account): Future[void] {.gcsafe.} =
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engine.accountHandler(peer, account)
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proc paymentHandler(peer: PeerId, payment: SignedState): Future[void] {.gcsafe.} =
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engine.paymentHandler(peer, payment)
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network.handlers = BlockExcHandlers(
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onWantList: blockWantListHandler,
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onBlocks: blocksHandler,
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onPresence: blockPresenceHandler,
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onAccount: accountHandler,
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onPayment: paymentHandler
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)
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return engine
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