Merge branch 'measurement_logging' into mainline
more values are parametrised through FediChordConfig
This commit is contained in:
commit
60f5780742
28
app/Main.hs
28
app/Main.hs
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@ -45,27 +45,33 @@ main = do
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readConfig :: IO (FediChordConf, ServiceConf)
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readConfig = do
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confDomainString : ipString : portString : servicePortString : speedup : remainingArgs <- getArgs
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confDomainString : ipString : portString : servicePortString : speedupString : remainingArgs <- getArgs
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-- allow starting the initial node without bootstrapping info to avoid
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-- waiting for timeout
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let
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speedup = read speedupString
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confBootstrapNodes' = case remainingArgs of
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bootstrapHost : bootstrapPortString : _ ->
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[(bootstrapHost, read bootstrapPortString)]
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_ -> []
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fConf = 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 = confBootstrapNodes'
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--, confStabiliseInterval = 60
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, confBootstrapSamplingInterval = 180
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, confMaxLookupCacheAge = 300
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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 = confBootstrapNodes'
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, confStabiliseInterval = 60 * 10^6
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, confBootstrapSamplingInterval = 180 * 10^6 `div` speedup
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, confMaxLookupCacheAge = 300 / fromIntegral speedup
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, confJoinAttemptsInterval = 60 * 10^6 `div` speedup
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, confMaxNodeCacheAge = 600 / fromIntegral speedup
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, confResponsePurgeAge = 60 / fromIntegral speedup
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, confRequestTimeout = 5 * 10^6 `div` speedup
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, confRequestRetries = 3
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}
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sConf = ServiceConf {
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confSubscriptionExpiryTime = fromIntegral $ 2*3600 `div` (read speedup :: Integer)
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, confServicePort = read servicePortString
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, confServiceHost = confDomainString
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confSubscriptionExpiryTime = fromIntegral $ 2*3600 `div` speedup
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, confServicePort = read servicePortString
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, confServiceHost = confDomainString
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}
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pure (fConf, sConf)
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@ -488,10 +488,11 @@ requestJoin :: (NodeState a, Service s (RealNodeSTM s)) => a -- ^ cu
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requestJoin toJoinOn ownStateSTM = do
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ownState <- readTVarIO ownStateSTM
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prn <- readTVarIO $ parentRealNode ownState
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srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ownState)
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nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ownState)
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let srcAddr = confIP nodeConf
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bracket (mkSendSocket srcAddr (getDomain toJoinOn) (getDhtPort toJoinOn)) close (\sock -> do
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-- extract own state for getting request information
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responses <- sendRequestTo (\rid -> Request rid (toRemoteNodeState ownState) 1 True Join (Just JoinRequestPayload)) sock
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responses <- sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (\rid -> Request rid (toRemoteNodeState ownState) 1 True Join (Just JoinRequestPayload)) sock
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(cacheInsertQ, joinedState) <- atomically $ do
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stateSnap <- readTVar ownStateSTM
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let
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@ -584,10 +585,11 @@ sendQueryIdMessages targetID ns lParam targets = do
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-- create connected sockets to all query targets and use them for request handling
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srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
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nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
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let srcAddr = confIP nodeConf
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-- ToDo: make attempts and timeout configurable
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queryThreads <- mapM (\resultNode -> async $ bracket (mkSendSocket srcAddr (getDomain resultNode) (getDhtPort resultNode)) close (
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sendRequestTo (lookupMessage targetID ns Nothing)
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sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (lookupMessage targetID ns Nothing)
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)) targets
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-- ToDo: process results immediately instead of waiting for the last one to finish, see https://stackoverflow.com/a/38815224/9198613
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-- ToDo: exception handling, maybe log them
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@ -635,8 +637,9 @@ requestStabilise :: LocalNodeState s -- ^ sending node
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-> RemoteNodeState -- ^ neighbour node to send to
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-> IO (Either String ([RemoteNodeState], [RemoteNodeState])) -- ^ (predecessors, successors) of responding node
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requestStabilise ns neighbour = do
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srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
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responses <- bracket (mkSendSocket srcAddr (getDomain neighbour) (getDhtPort neighbour)) close (fmap Right . sendRequestTo (\rid ->
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nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
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let srcAddr = confIP nodeConf
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responses <- bracket (mkSendSocket srcAddr (getDomain neighbour) (getDhtPort neighbour)) close (fmap Right . sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (\rid ->
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Request {
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requestID = rid
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, sender = toRemoteNodeState ns
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@ -673,13 +676,14 @@ requestLeave :: LocalNodeState s
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-> RemoteNodeState -- target node
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-> IO (Either String ()) -- error or success
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requestLeave ns doMigration target = do
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srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
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let leavePayload = LeaveRequestPayload {
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nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
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let srcAddr = confIP nodeConf
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leavePayload = LeaveRequestPayload {
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leaveSuccessors = successors ns
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, leavePredecessors = predecessors ns
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, leaveDoMigration = doMigration
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}
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responses <- bracket (mkSendSocket srcAddr (getDomain target) (getDhtPort target)) close (fmap Right . sendRequestTo (\rid ->
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responses <- bracket (mkSendSocket srcAddr (getDomain target) (getDhtPort target)) close (fmap Right . sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (\rid ->
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Request {
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requestID = rid
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, sender = toRemoteNodeState ns
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@ -701,10 +705,11 @@ requestPing :: LocalNodeState s -- ^ sending node
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-> RemoteNodeState -- ^ node to be PINGed
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-> IO (Either String [RemoteNodeState]) -- ^ all active vServers of the pinged node
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requestPing ns target = do
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srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
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nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
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let srcAddr = confIP nodeConf
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responses <- bracket (mkSendSocket srcAddr (getDomain target) (getDhtPort target)) close
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(\sock -> do
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resp <- sendRequestTo (\rid ->
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resp <- sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (\rid ->
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Request {
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requestID = rid
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, sender = toRemoteNodeState ns
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@ -740,22 +745,14 @@ requestPing ns target = do
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) responses
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-- | 'sendRequestToWithParams' with default timeout and retries already specified.
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-- Generic function for sending a request over a connected socket and collecting the response.
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-- Serialises the message and tries to deliver its parts for a number of attempts within a default timeout.
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sendRequestTo :: (Integer -> FediChordMessage) -- ^ the message to be sent, still needing a requestID
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-> Socket -- ^ connected socket to use for sending
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-> IO (Set.Set FediChordMessage) -- ^ responses
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sendRequestTo = sendRequestToWithParams 5000 3
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-- | Generic function for sending a request over a connected socket and collecting the response.
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-- Serialises the message and tries to deliver its parts for a number of attempts within a specified timeout.
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sendRequestToWithParams :: Int -- ^ timeout in milliseconds
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-> Int -- ^ number of retries
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-> (Integer -> FediChordMessage) -- ^ the message to be sent, still needing a requestID
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-> Socket -- ^ connected socket to use for sending
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-> IO (Set.Set FediChordMessage) -- ^ responses
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sendRequestToWithParams timeoutMillis numAttempts msgIncomplete sock = do
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sendRequestTo :: Int -- ^ timeout in milliseconds
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-> Int -- ^ number of retries
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-> (Integer -> FediChordMessage) -- ^ the message to be sent, still needing a requestID
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-> Socket -- ^ connected socket to use for sending
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-> IO (Set.Set FediChordMessage) -- ^ responses
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sendRequestTo timeoutMillis numAttempts msgIncomplete sock = do
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-- give the message a random request ID
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randomID <- randomRIO (0, 2^32-1)
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let
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@ -764,7 +761,7 @@ sendRequestToWithParams timeoutMillis numAttempts msgIncomplete sock = do
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-- create a queue for passing received response messages back, even after a timeout
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responseQ <- newTBQueueIO $ 2*maximumParts -- keep room for duplicate packets
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-- start sendAndAck with timeout
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attempts numAttempts . timeout (timeoutMillis*1000) $ sendAndAck responseQ sock requests
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_ <- attempts numAttempts . timeout (timeoutMillis*1000) $ sendAndAck responseQ sock requests
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-- after timeout, check received responses, delete them from unacked message set/ map and rerun senAndAck with that if necessary.
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recvdParts <- atomically $ flushTBQueue responseQ
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pure $ Set.fromList recvdParts
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@ -199,7 +199,7 @@ convergenceSampleThread nsSTM = forever $ do
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-- unjoined node: try joining through all bootstrapping nodes
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else tryBootstrapJoining nsSTM >> pure ()
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let delaySecs = confBootstrapSamplingInterval . nodeConfig $ parentNode
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threadDelay $ delaySecs * 10^6
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threadDelay delaySecs
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-- | Try joining the DHT through any of the bootstrapping nodes until it succeeds.
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@ -223,10 +223,11 @@ tryBootstrapJoining nsSTM = do
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bootstrapQueryId :: LocalNodeStateSTM s -> (String, PortNumber) -> NodeID -> IO (Either String RemoteNodeState)
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bootstrapQueryId nsSTM (bootstrapHost, bootstrapPort) targetID = do
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ns <- readTVarIO nsSTM
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srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
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nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
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let srcAddr = confIP nodeConf
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bootstrapResponse <- bracket (mkSendSocket srcAddr bootstrapHost bootstrapPort) close (
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-- Initialise an empty cache only with the responses from a bootstrapping node
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fmap Right . sendRequestTo (lookupMessage targetID ns Nothing)
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fmap Right . sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (lookupMessage targetID ns Nothing)
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)
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`catch` (\e -> pure . Left $ "Error at bootstrap QueryId: " <> displayException (e :: IOException))
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@ -310,12 +311,13 @@ joinOnNewEntriesThread nsSTM = loop
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where
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loop = do
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nsSnap <- readTVarIO nsSTM
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(lookupResult, cache) <- atomically $ do
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(lookupResult, parentNode) <- atomically $ do
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cache <- readTVar $ nodeCacheSTM nsSnap
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parentNode <- readTVar $ parentRealNode nsSnap
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case queryLocalCache nsSnap cache 1 (getNid nsSnap) of
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-- empty cache, block until cache changes and then retry
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(FORWARD s) | Set.null s -> retry
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result -> pure (result, cache)
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result -> pure (result, parentNode)
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case lookupResult of
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-- already joined
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FOUND _ ->
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joinResult <- runExceptT $ fediChordVserverJoin nsSTM
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either
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-- on join failure, sleep and retry
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-- TODO: make delay configurable
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(const $ threadDelay (30 * 10^6) >> loop)
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(const $ threadDelay (confJoinAttemptsInterval . nodeConfig $ parentNode) >> loop)
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(const $ pure ())
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joinResult
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@ -341,20 +342,16 @@ nodeCacheWriter nsSTM =
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modifyTVar' (nodeCacheSTM ns) cacheModifier
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-- TODO: make max entry age configurable
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maxEntryAge :: POSIXTime
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maxEntryAge = 600
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-- | Periodically iterate through cache, clean up expired entries and verify unverified ones
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nodeCacheVerifyThread :: LocalNodeStateSTM s -> IO ()
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nodeCacheVerifyThread nsSTM = forever $ do
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putStrLn "cache verify run: begin"
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-- get cache
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(ns, cache) <- atomically $ do
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(ns, cache, maxEntryAge) <- atomically $ do
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ns <- readTVar nsSTM
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cache <- readTVar $ nodeCacheSTM ns
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pure (ns, cache)
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maxEntryAge <- confMaxNodeCacheAge . nodeConfig <$> readTVar (parentRealNode ns)
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pure (ns, cache, maxEntryAge)
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-- iterate entries:
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-- for avoiding too many time syscalls, get current time before iterating.
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now <- getPOSIXTime
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@ -402,7 +399,7 @@ nodeCacheVerifyThread nsSTM = forever $ do
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)
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putStrLn "cache verify run: end"
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threadDelay $ 10^6 * round maxEntryAge `div` 20
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threadDelay $ fromEnum (maxEntryAge / 20) `div` 10^6 -- convert from pico to milliseconds
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-- | Checks the invariant of at least @jEntries@ per cache slice.
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@ -548,8 +545,8 @@ stabiliseThread nsSTM = forever $ do
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newPredecessor
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putStrLn "stabilise run: end"
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-- TODO: make delay configurable
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threadDelay (60 * 10^6)
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stabiliseDelay <- confStabiliseInterval . nodeConfig <$> readTVarIO (parentRealNode newNs)
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threadDelay stabiliseDelay
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where
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-- | send a stabilise request to the n-th neighbour
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-- (specified by the provided getter function) and on failure retry
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@ -636,19 +633,15 @@ type RequestMap = Map.Map (SockAddr, Integer) RequestMapEntry
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data RequestMapEntry = RequestMapEntry (Set.Set FediChordMessage) (Maybe Integer)
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POSIXTime
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-- TODO: make purge age configurable
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-- | periodically clean up old request parts
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responsePurgeAge :: POSIXTime
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responsePurgeAge = 60 -- seconds
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requestMapPurge :: MVar RequestMap -> IO ()
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requestMapPurge mapVar = forever $ do
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requestMapPurge :: POSIXTime -> MVar RequestMap -> IO ()
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requestMapPurge purgeAge mapVar = forever $ do
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rMapState <- takeMVar mapVar
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now <- getPOSIXTime
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putMVar mapVar $ Map.filter (\(RequestMapEntry _ _ ts) ->
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now - ts < responsePurgeAge
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now - ts < purgeAge
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) rMapState
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threadDelay $ round responsePurgeAge * 2 * 10^6
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threadDelay $ (fromEnum purgeAge * 2) `div` 10^6
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-- | Wait for messages, deserialise them, manage parts and acknowledgement status,
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@ -663,12 +656,13 @@ fediMessageHandler sendQ recvQ nsSTM = do
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-- not change.
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-- Other functions are passed the nsSTM reference and thus can get the latest state.
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nsSnap <- readTVarIO nsSTM
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nodeConf <- nodeConfig <$> readTVarIO (parentRealNode nsSnap)
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-- handling multipart messages:
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-- Request parts can be insert into a map (key: (sender IP against spoofing, request ID), value: timestamp + set of message parts, handle all of them when size of set == parts) before being handled. This map needs to be purged periodically by a separate thread and can be protected by an MVar for fairness.
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requestMap <- newMVar (Map.empty :: RequestMap)
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-- run receive loop and requestMapPurge concurrently, so that an exception makes
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-- both of them fail
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concurrently_ (requestMapPurge requestMap) $ forever $ do
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concurrently_ (requestMapPurge (confResponsePurgeAge nodeConf) requestMap) $ forever $ do
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-- wait for incoming messages
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(rawMsg, sourceAddr) <- atomically $ readTQueue recvQ
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let aMsg = deserialiseMessage rawMsg
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@ -807,4 +801,4 @@ lookupCacheCleanup nodeSTM = do
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now - ts < confMaxLookupCacheAge (nodeConfig node)
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)
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)
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threadDelay $ round (confMaxLookupCacheAge $ nodeConfig node) * (10^5)
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threadDelay $ fromEnum (2 * confMaxLookupCacheAge (nodeConfig node)) `div` 10^6
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@ -411,10 +411,22 @@ data FediChordConf = FediChordConf
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-- ^ listening port for the FediChord DHT
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, confBootstrapNodes :: [(String, PortNumber)]
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-- ^ list of potential bootstrapping nodes
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, confStabiliseInterval :: Int
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-- ^ pause between stabilise runs, in milliseconds
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, confBootstrapSamplingInterval :: Int
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-- ^ pause between sampling the own ID through bootstrap nodes, in seconds
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-- ^ pause between sampling the own ID through bootstrap nodes, in milliseconds
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, confMaxLookupCacheAge :: POSIXTime
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-- ^ maximum age of lookup cache entries in seconds
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-- ^ maximum age of key lookup cache entries in seconds
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, confJoinAttemptsInterval :: Int
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-- ^ interval between join attempts on newly learned nodes, in milliseconds
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, confMaxNodeCacheAge :: POSIXTime
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-- ^ maximum age of entries in the node cache, in milliseconds
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, confResponsePurgeAge :: POSIXTime
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-- ^ maximum age of message parts in response part cache, in seconds
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, confRequestTimeout :: Int
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-- ^ how long to wait until response has arrived, in milliseconds
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, confRequestRetries :: Int
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-- ^ how often re-sending a timed-out request can be retried
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}
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deriving (Show, Eq)
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Reference in a new issue