55 lines
2 KiB
Haskell
55 lines
2 KiB
Haskell
module Main where
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import Control.Concurrent
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import Control.Concurrent.Async
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import Control.Concurrent.STM
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import Control.Concurrent.STM.TVar
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import Control.Exception
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import Data.Either
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import Data.IP (IPv6, toHostAddress6)
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import System.Environment
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import Hash2Pub.FediChord
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main :: IO ()
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main = do
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-- ToDo: parse and pass config
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-- probably use `tomland` for that
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conf <- readConfig
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-- TODO: first initialise 'RealNode', then the vservers
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-- ToDo: load persisted caches, bootstrapping nodes …
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(serverSock, thisNode) <- fediChordInit conf
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-- currently no masking is necessary, as there is nothing to clean up
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cacheWriterThread <- forkIO $ cacheWriter thisNode
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-- try joining the DHT using one of the provided bootstrapping nodes
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joinedState <- tryBootstrapJoining thisNode
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either (\err -> do
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-- handle unsuccessful join
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putStrLn $ err <> " Error joining, start listening for incoming requests anyways"
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print =<< readTVarIO thisNode
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-- launch thread attempting to join on new cache entries
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_ <- forkIO $ joinOnNewEntriesThread thisNode
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wait =<< async (fediMainThreads serverSock thisNode)
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)
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(\joinedNS -> do
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-- launch main eventloop with successfully joined state
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putStrLn "successful join"
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wait =<< async (fediMainThreads serverSock thisNode)
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)
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joinedState
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pure ()
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readConfig :: IO FediChordConf
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readConfig = do
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confDomainString : ipString : portString : bootstrapHost : bootstrapPortString : _ <- getArgs
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pure $ FediChordConf {
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confDomain = confDomainString
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, confIP = toHostAddress6 . read $ ipString
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, confDhtPort = read portString
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, confBootstrapNodes = [(bootstrapHost, read bootstrapPortString)]
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--, confStabiliseInterval = 60
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, confBootstrapSamplingInterval = 180
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}
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