mirror of https://github.com/voidlizard/hbs2
725 lines
23 KiB
Haskell
725 lines
23 KiB
Haskell
{-# OPTIONS_GHC -fno-warn-orphans #-}
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{-# Language UndecidableInstances #-}
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module BlockDownload where
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import HBS2.Actors.Peer
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import HBS2.Clock
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import HBS2.Data.Detect
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import HBS2.Data.Types.Refs
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import HBS2.Data.Bundle
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import HBS2.Data.Types.SignedBox
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import HBS2.Defaults
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import HBS2.Events
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import HBS2.Hash
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import HBS2.Merkle
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import HBS2.Net.PeerLocator
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import HBS2.Net.Proto
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import HBS2.Net.Proto.Definition
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import HBS2.Net.Proto.Peer
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import HBS2.Net.Proto.RefLog
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import HBS2.Net.Proto.Sessions
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import HBS2.Prelude.Plated
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import HBS2.Storage
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import HBS2.System.Logger.Simple
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import PeerTypes
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import PeerInfo
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import Brains
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import DownloadMon
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import Control.Concurrent.Async
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import Control.Concurrent.STM
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import Control.Concurrent.STM.TSem
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import Control.Monad.Reader
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import Control.Monad.Trans.Maybe
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import Data.ByteString.Lazy (ByteString)
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import Data.ByteString.Lazy qualified as LBS
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import Data.Cache qualified as Cache
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import Data.Foldable hiding (find)
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import Data.HashMap.Strict qualified as HashMap
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import Data.HashSet (HashSet)
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import Data.HashSet qualified as HashSet
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import Data.IntMap (IntMap)
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import Data.IntMap qualified as IntMap
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import Data.IntSet qualified as IntSet
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import Data.List qualified as List
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import Data.Maybe
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import Lens.Micro.Platform
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import System.Random (randomRIO)
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import System.Random.Shuffle (shuffleM)
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import Codec.Serialise
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getBlockForDownload :: forall e m . (MonadIO m, IsPeerAddr e m, MyPeer e, HasStorage m)
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=> Peer e
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-> BlockDownloadM e m (Maybe (Hash HbSync))
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getBlockForDownload peer = do
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pa <- lift $ toPeerAddr peer
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tinq <- asks (view blockInQ)
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brains <- asks (view downloadBrains)
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prop <- asks (view blockProposed)
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sto <- lift getStorage
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inq <- liftIO $ readTVarIO tinq
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-- let size = HashMap.size inq
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let allBlks = HashMap.keys inq
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hs' <- forM allBlks $ \blk -> do
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here <- liftIO $ hasBlock sto blk <&> isJust
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newOne <- shouldDownloadBlock @e brains peer blk
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if not here && newOne then do
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pure $ Just blk
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else do
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po <- shouldPostponeBlock @e brains blk
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when po do
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postponeBlock blk
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pure Nothing
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let hs = catMaybes hs'
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let size = length hs
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if size == 0 then do
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pure Nothing
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else do
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i <- randomRIO (0, size - 1)
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let blk = HashMap.keys inq !! i
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pure $ Just blk
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processBlock :: forall e m . ( MonadIO m
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, HasStorage m
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, MyPeer e
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, ForSignedBox e
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, HasPeerLocator e (BlockDownloadM e m)
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)
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=> Hash HbSync
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-> BlockDownloadM e m ()
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processBlock h = do
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sto <- lift getStorage
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brains <- asks (view downloadBrains)
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let parent = Just h
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block <- liftIO $ getBlock sto h
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let bt = tryDetect h <$> block
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-- FIXME: если блок нашёлся, то удаляем его из wip
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when (isJust bt) (removeFromWip h)
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let handleHrr (hrr :: Either (Hash HbSync) [HashRef]) = do
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case hrr of
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Left hx -> addDownload parent hx
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Right hr -> do
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for_ hr $ \(HashRef blk) -> do
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-- debug $ pretty blk
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here <- liftIO (hasBlock sto blk) <&> isJust
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if here then do
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pure ()
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-- debug $ "block" <+> pretty blk <+> "is already here"
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-- unless (h == blk) do
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-- processBlock blk -- NOTE: хуже не стало
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-- FIXME: fugure out if it's really required
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else do
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addDownload parent blk
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case bt of
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Nothing -> addDownload mzero h
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Just (SeqRef (SequentialRef n (AnnotatedHashRef a' b))) -> do
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maybe1 a' none $ \a -> do
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addDownload parent (fromHashRef a)
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addDownload parent (fromHashRef b)
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Just (AnnRef (AnnotatedHashRef ann hx)) -> do
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maybe1 ann none $ addDownload parent . fromHashRef
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addDownload parent (fromHashRef hx)
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Just (MerkleAnn ann) -> do
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case _mtaMeta ann of
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NoMetaData -> pure ()
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ShortMetadata {} -> pure ()
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AnnHashRef hx -> addDownload parent hx
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case _mtaCrypt ann of
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NullEncryption -> pure ()
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CryptAccessKeyNaClAsymm h -> addDownload parent h
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EncryptGroupNaClSymm h -> addDownload parent h
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debug $ "GOT WRAPPED MERKLE. requesting nodes/leaves" <+> pretty h
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walkMerkleTree (_mtaTree ann) (liftIO . getBlock sto) handleHrr
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Just (Merkle{}) -> do
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debug $ "GOT MERKLE. requesting nodes/leaves" <+> pretty h
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walkMerkle h (liftIO . getBlock sto) handleHrr
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Just (Blob{}) -> do
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-- NOTE: bundle-ref-detection-note
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-- добавлять обработку BundleRefValue в tryDetect
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-- слишком накладно, т.к. требует большого количества
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-- констрейнтов, которые не предполагались там
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-- изначально. Как временная мера -- пробуем Bundle
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-- обнаруживать здесь.
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mon <- asks (view downloadMon)
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runMaybeT do
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bs <- MaybeT $ pure block
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-- TODO: check-if-we-somehow-trust-this-key
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(pk, BundleRefSimple ref) <- MaybeT $ pure $ deserialiseOrFail @(BundleRefValue e) bs
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& either (const Nothing) unboxBundleRef
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debug $ "GOT BundleRefValue" <+> parens (pretty ref)
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downloadMonAdd mon ref do
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debug $ "Downloaded bundle:" <+> pretty ref
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r <- importBundle sto (void . putBlock sto . snd) ref
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case r of
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Right{} -> debug $ "Imported bundle: " <+> pretty ref
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Left e -> err (viaShow e)
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lift $ addDownload parent (fromHashRef ref)
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pure ()
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where
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unboxBundleRef (BundleRefValue box) = unboxSignedBox0 box
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-- NOTE: if peer does not have a block, it may
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-- cause to an unpleasant timeouts
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-- So make sure that this peer really answered to
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-- GetBlockSize request
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downloadFromWithPeer :: forall e m . ( DownloadFromPeerStuff e m
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, e ~ L4Proto
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, HasPeerLocator e (BlockDownloadM e m) )
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=> Peer e
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-> Integer
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-> Hash HbSync
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-> BlockDownloadM e m ()
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downloadFromWithPeer peer thisBkSize h = do
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brains <- asks (view downloadBrains)
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npi <- newPeerInfo
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pinfo <- lift $ fetch True npi (PeerInfoKey peer) id
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sto <- lift getStorage
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let chunkSize = case view sockType peer of
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UDP -> defChunkSize
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TCP -> defChunkSize
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coo <- genCookie (peer,h)
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let key = DownloadSessionKey (peer, coo)
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let chusz = fromIntegral chunkSize -- defChunkSize
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dnwld <- newBlockDownload h
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let chuQ = view sBlockChunks dnwld
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let new = set sBlockChunkSize chusz
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. set sBlockSize (fromIntegral thisBkSize)
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$ dnwld
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trace $ "downloadFromWithPeer STARTED" <+> pretty coo
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lift $ update @e new key id
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let burstSizeT = view peerBurst pinfo
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burstSize <- liftIO $ readTVarIO burstSizeT
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let offsets = calcChunks thisBkSize (fromIntegral chusz) :: [(Offset, Size)]
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let chunkNums = [ 0 .. pred (length offsets) ]
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let bursts = calcBursts burstSize chunkNums
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rtt <- medianPeerRTT pinfo <&> fmap ( (/1e9) . realToFrac )
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<&> fromMaybe defChunkWaitMax
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let w = 4 * rtt * realToFrac (length bursts)
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let burstTime = max defChunkWaitMax $ realToFrac w :: Timeout 'Seconds
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trace $ "BURST TIME" <+> pretty burstTime
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let r = view sBlockChunks2 new
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rq <- liftIO newTQueueIO
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for_ bursts $ liftIO . atomically . writeTQueue rq
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fix \next -> do
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burst <- liftIO $ atomically $ tryReadTQueue rq
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case burst of
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Just (i,chunksN) -> do
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let req = BlockGetChunks h chusz (fromIntegral i) (fromIntegral chunksN)
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void $ liftIO $ atomically $ flushTQueue chuQ
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lift $ request peer (BlockChunks @e coo req)
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let waity = liftIO $ race ( pause burstTime >> pure False ) do
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fix \zzz -> do
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hc <- atomically do
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forM [i .. i + chunksN-1 ] $ \j -> do
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m <- readTVar r
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pure (j, IntMap.member j m)
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let here = and $ fmap snd hc
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if here then do
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pure here
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else do
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pause rtt
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zzz
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void $ liftIO $ race ( pause (2 * rtt) ) $ atomically do
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void $ peekTQueue chuQ
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flushTQueue chuQ
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catched <- waity <&> either id id
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if catched then do
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liftIO $ atomically do
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modifyTVar (view peerDownloaded pinfo) (+chunksN)
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writeTVar (view peerPingFailed pinfo) 0
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else do
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liftIO $ atomically $ modifyTVar (view peerErrors pinfo) succ
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updatePeerInfo True peer pinfo
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newBurst <- liftIO $ readTVarIO burstSizeT
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-- let newBurst = max defBurst $ floor (realToFrac newBurst' * 0.5 )
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liftIO $ atomically $ modifyTVar (view peerDownloaded pinfo) (+chunksN)
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let chuchu = calcBursts newBurst [ i + n | n <- [0 .. chunksN] ]
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liftIO $ atomically $ modifyTVar (view peerErrors pinfo) succ
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trace $ "new burst: " <+> pretty newBurst
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trace $ "missed chunks for request" <+> pretty (i,chunksN)
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trace $ "burst time" <+> pretty burstTime
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for_ chuchu $ liftIO . atomically . writeTQueue rq
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next
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Nothing -> do
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sz <- liftIO $ readTVarIO r <&> IntMap.size
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if sz >= length offsets then do
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pieces <- liftIO $ readTVarIO r <&> IntMap.elems
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let block = mconcat pieces
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let h1 = hashObject @HbSync block
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if h1 == h then do
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trace $ "PROCESS BLOCK" <+> pretty coo <+> pretty h
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lift $ expire @e key
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void $ liftIO $ putBlock sto block
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onBlockDownloaded brains peer h
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void $ processBlock h
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else do
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trace "HASH NOT MATCH / PEER MAYBE JERK"
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else do
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trace "RETRY BLOCK DOWNLOADING / ASK FOR MISSED CHUNKS"
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got <- liftIO $ readTVarIO r <&> IntMap.keysSet
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let need = IntSet.fromList (fmap fromIntegral chunkNums)
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let missed = IntSet.toList $ need `IntSet.difference` got
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-- normally this should not happen
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-- however, let's try do download the tails
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-- by one chunk a time
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for_ missed $ \n -> do
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trace $ "MISSED CHUNK" <+> pretty coo <+> pretty n
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liftIO $ atomically $ writeTQueue rq (n,1)
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next
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lift $ expire @e key
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trace $ "downloadFromWithPeer EXIT" <+> pretty coo
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instance HasPeerLocator e m => HasPeerLocator e (BlockDownloadM e m) where
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getPeerLocator = lift getPeerLocator
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-- NOTE: updatePeerInfo is CC
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-- updatePeerInfo is actuall doing CC (congestion control)
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updatePeerInfo :: forall e m . (e ~ L4Proto, MonadIO m) => Bool -> Peer e -> PeerInfo e -> m ()
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updatePeerInfo _ p pinfo | view sockType p == TCP = do
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liftIO $ atomically $ writeTVar (view peerBurst pinfo) 256
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updatePeerInfo onError _ pinfo = do
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t1 <- liftIO getTimeCoarse
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void $ liftIO $ atomically $ do
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bu <- readTVar (view peerBurst pinfo)
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buMax <- readTVar (view peerBurstMax pinfo)
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buSet <- readTVar (view peerBurstSet pinfo)
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errs <- readTVar (view peerErrors pinfo)
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errsLast <- readTVar (view peerErrorsLast pinfo)
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t0 <- readTVar (view peerLastWatched pinfo)
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down <- readTVar (view peerDownloaded pinfo)
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downLast <- readTVar (view peerDownloadedLast pinfo)
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-- downFail <- readTVar (view peerDownloadFail pinfo)
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-- downBlk <- readTVar (view peerDownloadedBlk pinfo)
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let dE = realToFrac $ max 0 (errs - errsLast)
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let dT = realToFrac (max 1 (toNanoSecs t1 - toNanoSecs t0)) / 1e9
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let eps = floor (dE / dT)
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let win = min 10 $ 4 * (defBurstMax - defBurst)
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when (down - downLast > 0 || onError) do
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(bu1, bus) <- if eps == 0 && not onError then do
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let bmm = fromMaybe defBurstMax buMax
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let buN = min bmm (ceiling (realToFrac bu * 1.25))
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pure (buN, trimUp win $ IntSet.insert buN buSet)
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else do
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let buM = headMay $ drop 1 $ IntSet.toDescList buSet
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writeTVar (view peerBurstMax pinfo) buM
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let buN = headDef defBurst $ drop 2 $ IntSet.toDescList buSet
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pure (buN, trimDown win $ IntSet.insert buN buSet)
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writeTVar (view peerErrorsLast pinfo) errs
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writeTVar (view peerLastWatched pinfo) t1
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writeTVar (view peerErrorsPerSec pinfo) eps
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writeTVar (view peerBurst pinfo) bu1
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writeTVar (view peerBurstSet pinfo) bus
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writeTVar (view peerDownloadedLast pinfo) down
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-- writeTVar (view peerUsefulness pinfo) usefulN
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where
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trimUp n s | IntSet.size s >= n = IntSet.deleteMin s
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| otherwise = s
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trimDown n s | IntSet.size s >= n = IntSet.deleteMax s
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| otherwise = s
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blockDownloadLoop :: forall e m . ( m ~ PeerM e IO
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, MonadIO m
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, Request e (BlockInfo e) m
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, Request e (BlockAnnounce e) m
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, HasProtocol e (BlockInfo e)
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, HasProtocol e (BlockAnnounce e)
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, HasProtocol e (BlockChunks e)
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, EventListener e (BlockInfo e) m
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, EventListener e (BlockChunks e) m
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, EventListener e (BlockAnnounce e) m
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, EventListener e (PeerHandshake e) m
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, EventListener e (RefLogUpdateEv e) m
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, EventListener e (RefLogRequestAnswer e) m
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, EventEmitter e (BlockChunks e) m
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, EventEmitter e (DownloadReq e) m
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, Sessions e (BlockChunks e) m
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, Sessions e (PeerInfo e) m
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, Sessions e (KnownPeer e) m
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, PeerSessionKey e (PeerInfo e)
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, HasStorage m
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, Pretty (Peer e)
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, PeerMessaging e
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, IsPeerAddr e m
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, HasPeerLocator e m
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, e ~ L4Proto
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)
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=> DownloadEnv e -> m ()
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blockDownloadLoop env0 = do
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e <- ask
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let blks = mempty
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pl <- getPeerLocator @e
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pause @'Seconds 3.81
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let withAllStuff = withPeerM e . withDownload env0
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-- FIXME: exception-handling
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void $ liftIO $ async $ withPeerM e do
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downloadMonLoop (view downloadMon env0)
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void $ liftIO $ async $ forever $ withPeerM e do
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pause @'Seconds 30
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pee <- knownPeers @e pl
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npi <- newPeerInfo
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for_ pee $ \p -> do
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pinfo <- fetch True npi (PeerInfoKey p) id
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liftIO $ atomically $ writeTVar (view peerBurstMax pinfo) Nothing
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void $ liftIO $ async $ forever $ withPeerM e do
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pause @'Seconds 1.5
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pee <- knownPeers @e pl
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npi <- newPeerInfo
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for_ pee $ \p -> do
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pinfo <- fetch True npi (PeerInfoKey p) id
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updatePeerInfo False p pinfo
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void $ liftIO $ async $ forever $ withAllStuff do
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pause @'Seconds 5 -- FIXME: put to defaults
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-- we need to show download stats
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wipNum <- asks (view blockInQ) >>= liftIO . readTVarIO <&> HashMap.size
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po <- postponedNum
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notice $ "maintain blocks wip" <+> pretty wipNum
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<+> "postponed"
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<+> pretty po
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busyPeers <- liftIO $ newTVarIO (mempty :: HashSet (Peer e))
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released <- liftIO newTQueueIO
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npi <- newPeerInfo
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liftIO $ withAllStuff do
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brains <- asks (view downloadBrains)
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fix \next -> do
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wipNum <- asks (view blockInQ) >>= liftIO . readTVarIO <&> HashMap.size
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when (wipNum == 0) do
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pause @'Seconds 1
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next
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allPips <- lift $ getKnownPeers @e
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onKnownPeers brains allPips
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pips <- flip filterM allPips $
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\p -> liftIO do
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busy <- readTVarIO busyPeers <&> HashSet.member p
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pure $ not busy
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when (List.null pips) do
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void $ liftIO $ race (pause @'Seconds 5) $ do
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trace "ALL PEERS BUSY"
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void $ liftIO $ atomically $ do
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p <- readTQueue released
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ps <- flushTQueue released
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for_ (p:ps) $ \x -> do
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modifyTVar busyPeers (HashSet.delete x)
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next
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|
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for_ pips $ \p -> do
|
||
h0 <- getBlockForDownload p
|
||
|
||
-- trace $ "getBlockForDownload" <+> pretty p <+> pretty h0
|
||
|
||
-- FIXME: busyloop-when-no-block-for-peer
|
||
maybe1 h0 (pure ()) $ \h -> do
|
||
|
||
liftIO $ atomically $ do
|
||
modifyTVar busyPeers (HashSet.insert p)
|
||
|
||
void $ liftIO $ async $ withAllStuff do
|
||
|
||
-- trace $ "start downloading shit" <+> pretty p <+> pretty h
|
||
|
||
lift $ onBlockDownloadAttempt brains p h
|
||
|
||
pinfo <- lift $ fetch True npi (PeerInfoKey p) id
|
||
size' <- blockSize brains p h
|
||
|
||
esize <- case size' of
|
||
Nothing -> do
|
||
doBlockSizeRequest p h
|
||
|
||
Just s -> pure (Right (Just s))
|
||
|
||
case esize of
|
||
Left{} -> pure ()
|
||
Right Nothing -> do
|
||
let downMiss = view peerDownloadMiss pinfo
|
||
liftIO $ atomically $ modifyTVar downMiss succ
|
||
|
||
Right (Just size) -> do
|
||
-- trace $ "BLOCK SIZE" <+> pretty p <+> pretty h <+> pretty size
|
||
let downFail = view peerDownloadFail pinfo
|
||
let downBlk = view peerDownloadedBlk pinfo
|
||
|
||
r <- liftIO $ race ( pause defBlockWaitMax )
|
||
$ withAllStuff
|
||
$ downloadFromWithPeer p size h
|
||
|
||
liftIO $ atomically $ writeTQueue released p
|
||
|
||
case r of
|
||
Left{} -> do
|
||
liftIO $ atomically $ modifyTVar downFail succ
|
||
failedDownload p h
|
||
|
||
Right{} -> do
|
||
onBlockDownloaded brains p h
|
||
liftIO $ withAllStuff $ processBlock h
|
||
liftIO $ atomically do
|
||
writeTVar downFail 0
|
||
modifyTVar downBlk succ
|
||
|
||
-- trace $ "exit download thread" <+> pretty p <+> pretty h
|
||
liftIO $ atomically $ writeTQueue released p
|
||
|
||
next
|
||
|
||
withDownload env0 do
|
||
|
||
mapM_ processBlock blks
|
||
|
||
proposed <- asks (view blockProposed)
|
||
|
||
void $ liftIO $ async $ forever do
|
||
pause @'Seconds 20
|
||
-- debug "block download loop. does not do anything"
|
||
liftIO $ Cache.purgeExpired proposed
|
||
|
||
|
||
postponedLoop :: forall e m . ( MyPeer e
|
||
, Sessions e (KnownPeer e) m
|
||
, Request e (BlockInfo e) m
|
||
, EventListener e (BlockInfo e) m
|
||
, DownloadFromPeerStuff e m
|
||
, HasPeerLocator e m
|
||
, m ~ PeerM e IO
|
||
)
|
||
=> DownloadEnv e -> m ()
|
||
postponedLoop env0 = do
|
||
e <- ask
|
||
|
||
pause @'Seconds 2.57
|
||
|
||
void $ liftIO $ async $ withPeerM e $ withDownload env0 do
|
||
q <- asks (view blockDelayTo)
|
||
fix \next -> do
|
||
w <- liftIO $ atomically $ readTQueue q
|
||
pause defInterBlockDelay
|
||
addDownload mzero w
|
||
-- ws <- liftIO $ atomically $ flushTQueue q
|
||
-- for_ (w:ws) $ addDownload mzero
|
||
next
|
||
|
||
void $ liftIO $ withPeerM e $ withDownload env0 do
|
||
forever do
|
||
pause @'Seconds 30
|
||
trace "UNPOSTPONE LOOP"
|
||
po <- asks (view blockPostponedTo) >>= liftIO . Cache.toList
|
||
for_ po $ \(h, _, expired) -> do
|
||
when (isJust expired) do
|
||
unpostponeBlock h
|
||
|
||
doBlockSizeRequest :: forall e m . ( MyPeer e
|
||
, Sessions e (KnownPeer e) m
|
||
, Request e (BlockInfo e) m
|
||
, EventListener e (BlockInfo e) m
|
||
, DownloadFromPeerStuff e m
|
||
, HasPeerLocator e m
|
||
, IsPeerAddr e m
|
||
, m ~ PeerM e IO
|
||
)
|
||
=> Peer e
|
||
-> Hash HbSync
|
||
-> BlockDownloadM e m (Either () (Maybe Integer))
|
||
|
||
doBlockSizeRequest peer h = do
|
||
|
||
brains <- asks (view downloadBrains)
|
||
|
||
q <- liftIO newTQueueIO
|
||
lift do
|
||
subscribe @e (BlockSizeEventKey h) $ \case
|
||
BlockSizeEvent (p1,_,s) -> do
|
||
when (p1 == peer) do
|
||
liftIO $ atomically $ writeTQueue q (Just s)
|
||
onBlockSize brains peer h s
|
||
|
||
NoBlockEvent{} -> do
|
||
-- TODO: ban-block-for-some-seconds
|
||
liftIO $ atomically $ writeTQueue q Nothing
|
||
pure ()
|
||
|
||
request peer (GetBlockSize @e h)
|
||
|
||
liftIO $ race ( pause defBlockInfoTimeout )
|
||
( atomically $ do
|
||
s <- readTQueue q
|
||
void $ flushTQueue q
|
||
pure s
|
||
)
|
||
|
||
|
||
-- NOTE: this is an adapter for a ResponseM monad
|
||
-- because response is working in ResponseM monad (ha!)
|
||
-- So don't be confused with types
|
||
--
|
||
mkAdapter :: forall e m . ( m ~ PeerM e IO
|
||
, HasProtocol e (BlockChunks e)
|
||
, Hashable (SessionKey e (BlockChunks e))
|
||
, Sessions e (BlockChunks e) (ResponseM e m)
|
||
, Typeable (SessionKey e (BlockChunks e))
|
||
, EventEmitter e (BlockChunks e) m
|
||
, Pretty (Peer e)
|
||
)
|
||
=> m (BlockChunksI e (ResponseM e m ))
|
||
mkAdapter = do
|
||
storage <- getStorage
|
||
pure $
|
||
BlockChunksI
|
||
{ blkSize = liftIO . hasBlock storage
|
||
, blkChunk = \h o s -> liftIO (getChunk storage h o s)
|
||
, blkGetHash = \c -> find (DownloadSessionKey @e c) (view sBlockHash)
|
||
|
||
, blkAcceptChunk = \(c,p,h,n,bs) -> void $ runMaybeT $ do
|
||
let cKey = DownloadSessionKey (p,c)
|
||
|
||
dodo <- lift $ find cKey (view sBlockChunks)
|
||
|
||
unless (isJust dodo) $ do
|
||
debug $ "session lost for peer !" <+> pretty p
|
||
|
||
-- debug $ "FINDING-SESSION:" <+> pretty c <+> pretty n
|
||
-- debug $ "GOT SHIT" <+> pretty c <+> pretty n
|
||
|
||
se <- MaybeT $ find cKey id
|
||
let dwnld = view sBlockChunks se
|
||
let dwnld2 = view sBlockChunks2 se
|
||
|
||
-- debug $ "WRITE SHIT" <+> pretty c <+> pretty n
|
||
liftIO $ atomically do
|
||
writeTQueue dwnld (n, bs)
|
||
modifyTVar' dwnld2 (IntMap.insert (fromIntegral n) bs)
|
||
}
|
||
|
||
|