update Readme with latest branch name and pointer to SocialHub

- relaxes some version constraints as dirty update quickfix
- removes hie integration as that project is abandoned, todo: switch to
  haskell-languageserver instead

Hash2Pub.cabal

@@ -46,8 +46,8 @@ category:            Network
 extra-source-files:  CHANGELOG.md
 
 common deps
-  build-depends:       base ^>=4.12.0.0, containers ^>=0.6.0.1, bytestring, utf8-string ^>=1.0.1.1, network ^>=2.8.0.1, time ^>=1.8.0.2, cmdargs ^>= 0.10, cryptonite ^>= 0.25, memory, async, stm, asn1-encoding, asn1-types, asn1-parse, publicsuffix, network-byte-order, safe, iproute, mtl, random, servant, servant-server, servant-client, warp, text, unordered-containers, hashable, unicode-transforms, http-client, http-types, unbounded-delays
+  build-depends:       base >=4, containers ^>=0.6.0.1, bytestring, utf8-string ^>=1.0.1.1, network ^>=3.1, time, cmdargs ^>= 0.10, cryptonite, memory, async, stm, asn1-encoding, asn1-types, asn1-parse, publicsuffix, network-byte-order, safe, iproute, mtl, random, servant, servant-server, servant-client, warp, text, unordered-containers, hashable, unicode-transforms, http-client, http-types, unbounded-delays, dlist, formatting
-  ghc-options:         -Wall -Wpartial-fields
+  ghc-options:         -Wall -Wpartial-fields -O2
 
 
 
@@ -58,7 +58,7 @@ library
   exposed-modules:     Hash2Pub.FediChord, Hash2Pub.FediChordTypes, Hash2Pub.DHTProtocol, Hash2Pub.ASN1Coding, Hash2Pub.ProtocolTypes, Hash2Pub.PostService, Hash2Pub.RingMap
 
   -- Modules included in this library but not exported.
-  other-modules: Hash2Pub.Utils
+  other-modules: Hash2Pub.Utils, Hash2Pub.PostService.API
 
   -- LANGUAGE extensions used by modules in this package.
   other-extensions:    GeneralizedNewtypeDeriving, DataKinds, OverloadedStrings
@@ -91,7 +91,7 @@ executable Hash2Pub
   -- Base language which the package is written in.
   default-language:    Haskell2010
 
-  ghc-options:         -threaded
+  ghc-options:         -threaded -rtsopts -with-rtsopts=-N
 
 executable Experiment
   -- experiment runner

Readme.md

@@ -1,7 +1,7 @@
 # Hash2Pub
 
 ***This is heavily WIP and does not provide any useful functionality yet***.  
-I aim for always having the master branch at a state where it builds and tests pass.
+I aim for always having the `mainline` branch in a state where it builds and tests pass.
 
 A fully-decentralised relay for global hashtag federation in [ActivityPub](https://activitypub.rocks) based on a distributed hash table.
 It allows querying and subscribing to all posts of a certain hashtag and is implemented in Haskell.
@@ -10,8 +10,13 @@ This is the practical implementation of the concept presented in the paper [Dece
 
 The ASN.1 module schema used for DHT messages can be found in `FediChord.asn1`.
 
+For further questions and discussins, please refer to the **Hash2Pub topic in [SocialHub](https://socialhub.activitypub.rocks/c/software/hash2pub/48)**.
+
 ## Building
 
 The project and its developent environment are built with [Nix](https://nixos.org/nix/).
 
-The development environment can be entered with `nix-shell`. Then the project can be built with `cabal build` from within the environment, or using `nix-shell --command "cabal build"` to do both steps at once.
+The development environment can be entered with `nix-shell shell-minimal.nix`. Then the project can be built with `cabal build` from within the environment, or using `nix-shell --command "cabal build" shell-minimal.nix` to do both steps at once.
+
+While the `shell-minimal.nix` environment contains everything necessary for building and testing this project, the `shell.nix` additionally contains the Haskell IDE engine *hie* and the documentation for all used Haskell packages for more convenient development.  
+Be aware that these need to be build from source and can take a very long time to build.

app/Experiment.hs

@@ -3,42 +3,49 @@
 module Main where
 
 import           Control.Concurrent
-import           Control.Monad              (forM_)
+import           Control.Monad        (forM_)
-import           Control.Monad.IO.Class
+import qualified Data.Text.Lazy       as Txt
-import           Control.Monad.State.Class
+import qualified Data.Text.Lazy.IO    as TxtI
-import           Control.Monad.State.Strict (evalStateT)
+import qualified Network.HTTP.Client  as HTTP
-import qualified Network.HTTP.Client        as HTTP
+import           System.Environment   (getArgs)
-import           System.Random
 
-import           Hash2Pub.PostService       (Hashtag, clientPublishPost)
+import           Hash2Pub.PostService (Hashtag, clientPublishPost)
 
--- placeholder post data definition
+-- configuration constants
-
+timelineFile = "../simulationData/inputs/generated/timeline_sample.csv"
-tagsToPostTo = [ "JustSomeTag", "WantAnotherTag234", "HereWeGoAgain", "Oyä", "通信端末" ]
-
-knownRelays :: [(String, Int)]
-knownRelays =
-  [ ("animalliberation.social", 3342)
-  , ("hostux.social", 3343)
-  , ("social.diskseven.com", 3344)
-  , ("social.imirhil.fr", 3345)
-  ]
 
 main :: IO ()
 main = do
-    -- initialise HTTP manager
+    -- read CLI parameters
-    httpMan <- HTTP.newManager HTTP.defaultManagerSettings
+    speedupStr : _ <- getArgs
-    -- initialise RNG
+    -- read and parse timeline schedule
-    let initRGen = mkStdGen 12
+    -- relying on lazyness of HaskellIO, hoping it does not introduce too strong delays
-    -- cycle through tags and post to a random instance
+    postEvents <- parseSchedule <$> TxtI.readFile timelineFile
-    evalStateT (forM_ (cycle tagsToPostTo) $ publishPostRandom httpMan) initRGen
+    -- actually schedule and send the post events
-    -- wait for a specified time
+    executeSchedule (read speedupStr) postEvents
+    pure ()
 
-publishPostRandom :: (RandomGen g, MonadIO m, MonadState g m) => HTTP.Manager -> Hashtag -> m ()
+
-publishPostRandom httpman tag = do
+
-    index <- state $ randomR (0, length knownRelays - 1)
+parseSchedule :: Txt.Text
-    let (pubHost, pubPort) = knownRelays !! index
+              -> [(Int, Hashtag, (String, Int))] -- ^ [(delay in microseconds, hashtag, (hostname, port))]
-    _ <- liftIO . forkIO $ do
+parseSchedule = fmap (parseEntry . Txt.split (== ';')) . Txt.lines
-        postResult <- liftIO $ clientPublishPost httpman pubHost pubPort ("foobar #" <> tag)
+  where
-        either putStrLn (const $ pure ()) postResult
+      parseEntry [delayT, contactT, tag] =
-    liftIO $ threadDelay 500
+          (read $ Txt.unpack delayT, tag, read $ Txt.unpack contactT)
+      parseEntry entry = error $ "invalid schedule input format: " <> show entry
+
+executeSchedule :: Int  -- ^ speedup factor
+                -> [(Int, Hashtag, (String, Int))] -- ^ [(delay in microseconds, hashtag, (hostname, port))]
+                -> IO ()
+executeSchedule speedup events = do
+    -- initialise HTTP manager
+    httpMan <- HTTP.newManager $ HTTP.defaultManagerSettings { HTTP.managerResponseTimeout = HTTP.responseTimeoutMicro 60000000 }
+    forM_ events $ \(delay, tag, (pubHost, pubPort)) -> do
+        _ <- forkIO $
+            clientPublishPost httpMan pubHost pubPort ("foobar #" <> tag)
+            >>= either putStrLn (const $ pure ())
+        -- while threadDelay gives only minimum delay guarantees, let's hope the
+        -- additional delays are negligible
+        -- otherwise: evaluate usage of https://hackage.haskell.org/package/schedule-0.3.0.0/docs/Data-Schedule.html
+        threadDelay $ delay `div` speedup

app/Main.hs

@@ -45,21 +45,36 @@ main = do
 
 readConfig :: IO (FediChordConf, ServiceConf)
 readConfig = do
-    confDomainString : ipString : portString : bootstrapHost : bootstrapPortString : servicePortString : speedup : _ <- getArgs
+    confDomainString : ipString : portString : servicePortString : speedupString : remainingArgs <- getArgs
+    -- allow starting the initial node without bootstrapping info to avoid
+    -- waiting for timeout
     let
-        fConf = FediChordConf {
+        speedup = read speedupString
-        confDomain = confDomainString
+        confBootstrapNodes' = case remainingArgs of
-      , confIP = toHostAddress6 . read $ ipString
+            bootstrapHost : bootstrapPortString : _ ->
-      , confDhtPort = read portString
+                [(bootstrapHost, read bootstrapPortString)]
-      , confBootstrapNodes = [(bootstrapHost, read bootstrapPortString)]
+            _ -> []
-      --, confStabiliseInterval = 60
+        fConf = FediChordConf
-      , confBootstrapSamplingInterval = 180
+          { confDomain = confDomainString
-      , confMaxLookupCacheAge = 300
+          , confIP = toHostAddress6 . read $ ipString
-                           }
+          , confDhtPort = read portString
-        sConf = ServiceConf {
+          , confBootstrapNodes = confBootstrapNodes'
-        confSubscriptionExpiryTime = fromIntegral $ 2*3600 `div` (read speedup :: Integer)
+          , confStabiliseInterval = 80 * 10^6
-                            , confServicePort = read servicePortString
+          , confBootstrapSamplingInterval = 180 * 10^6 `div` speedup
-                            , confServiceHost = confDomainString
+          , confMaxLookupCacheAge = 300 / fromIntegral speedup
-                            }
+          , confJoinAttemptsInterval = 60 * 10^6 `div` speedup
+          , confMaxNodeCacheAge = 600 / fromIntegral speedup
+          , confResponsePurgeAge = 60 / fromIntegral speedup
+          , confRequestTimeout = 5 * 10^6 `div` speedup
+          , confRequestRetries = 3
+          }
+        sConf = ServiceConf
+          { confSubscriptionExpiryTime = 24*3600 / fromIntegral speedup
+          , confServicePort = read servicePortString
+          , confServiceHost = confDomainString
+          , confLogfilePath = "../simulationData/logs/" <> confDomainString <> ".log"
+          , confSpeedupFactor = speedup
+          , confStatsEvalDelay = 120 * 10^6 `div` speedup
+          }
     pure (fConf, sConf)
 

default.nix

@@ -1,26 +1,18 @@
 {
-  compiler ? "ghc865",
+  compiler ? "ghc884"
-  withHIE ? false
 }:
 
 let
-  # pin all-hies for getting the language server
-  all-hies = fetchTarball {
-    url = "https://github.com/infinisil/all-hies/tarball/b8fb659620b99b4a393922abaa03a1695e2ca64d";
-    sha256 = "sha256:0br6wsqpfk1lzz90f7zw439w1ir2p54268qilw9l2pk6yz7ganfx";
-  };
   pkgs = import (
     builtins.fetchGit {
       name = "nixpkgs-pinned";
       url = https://github.com/NixOS/nixpkgs/;
-      ref = "refs/heads/release-20.03";
+      ref = "refs/heads/release-20.09";
-      rev = "de3780b937d2984f9b5e20d191f23be4f857b3aa";
+      rev = "e065200fc90175a8f6e50e76ef10a48786126e1c";
     }) {
       # Pass no config for purity
           config = {};
-              overlays = [
+              overlays = [];
-                      (import all-hies {}).overlay
-                          ];
     };
   hp = pkgs.haskell.packages."${compiler}";
   src = pkgs.nix-gitignore.gitignoreSource [] ./.;
@@ -38,7 +30,6 @@ in
         hlint
         stylish-haskell
         pkgs.python3Packages.asn1ate
-      ]
+      ];
-      ++ (if withHIE then [ hie ] else []);
   };
 }

shell.nix

@@ -1 +1 @@
-(import ./default.nix {withHIE = true;}).shell
+(import ./default.nix {}).shell

src/Hash2Pub/DHTProtocol.hs

@@ -488,10 +488,11 @@ requestJoin :: (NodeState a, Service s (RealNodeSTM s)) => a             -- ^ cu
 requestJoin toJoinOn ownStateSTM = do
     ownState <- readTVarIO ownStateSTM
     prn <- readTVarIO $ parentRealNode ownState
-    srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ownState)
+    nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ownState)
+    let srcAddr = confIP nodeConf
     bracket (mkSendSocket srcAddr (getDomain toJoinOn) (getDhtPort toJoinOn)) close (\sock -> do
         -- extract own state for getting request information
-        responses <- sendRequestTo (\rid -> Request rid (toRemoteNodeState ownState) 1 True Join (Just JoinRequestPayload)) sock
+        responses <- sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (\rid -> Request rid (toRemoteNodeState ownState) 1 True Join (Just JoinRequestPayload)) sock
         (cacheInsertQ, joinedState) <- atomically $ do
             stateSnap <- readTVar ownStateSTM
             let
@@ -584,10 +585,10 @@ sendQueryIdMessages targetID ns lParam targets = do
 
           -- create connected sockets to all query targets and use them for request handling
 
-          srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
+          nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
-          -- ToDo: make attempts and timeout configurable
+          let srcAddr = confIP nodeConf
           queryThreads <- mapM (\resultNode -> async $ bracket (mkSendSocket srcAddr (getDomain resultNode) (getDhtPort resultNode)) close (
-              sendRequestTo (lookupMessage targetID ns Nothing)
+              sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (lookupMessage targetID ns Nothing)
                                                                                                                                    )) targets
           -- ToDo: process results immediately instead of waiting for the last one to finish, see https://stackoverflow.com/a/38815224/9198613
           -- ToDo: exception handling, maybe log them
@@ -635,8 +636,9 @@ requestStabilise :: LocalNodeState s      -- ^ sending node
                  -> RemoteNodeState     -- ^ neighbour node to send to
                  -> IO (Either String ([RemoteNodeState], [RemoteNodeState]))   -- ^ (predecessors, successors) of responding node
 requestStabilise ns neighbour = do
-    srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
+    nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
-    responses <- bracket (mkSendSocket srcAddr (getDomain neighbour) (getDhtPort neighbour)) close (fmap Right . sendRequestTo (\rid ->
+    let srcAddr = confIP nodeConf
+    responses <- bracket (mkSendSocket srcAddr (getDomain neighbour) (getDhtPort neighbour)) close (fmap Right . sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (\rid ->
         Request {
             requestID = rid
           , sender = toRemoteNodeState ns
@@ -673,13 +675,14 @@ requestLeave :: LocalNodeState s
              -> RemoteNodeState     -- target node
              -> IO (Either String ())   -- error or success
 requestLeave ns doMigration target = do
-    srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
+    nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
-    let leavePayload = LeaveRequestPayload {
+    let srcAddr = confIP nodeConf
+        leavePayload = LeaveRequestPayload {
         leaveSuccessors = successors ns
       , leavePredecessors = predecessors ns
       , leaveDoMigration = doMigration
                                            }
-    responses <- bracket (mkSendSocket srcAddr (getDomain target) (getDhtPort target)) close (fmap Right . sendRequestTo (\rid ->
+    responses <- bracket (mkSendSocket srcAddr (getDomain target) (getDhtPort target)) close (fmap Right . sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (\rid ->
         Request {
             requestID = rid
           , sender = toRemoteNodeState ns
@@ -701,10 +704,11 @@ requestPing :: LocalNodeState s      -- ^ sending node
                  -> RemoteNodeState     -- ^ node to be PINGed
                  -> IO (Either String [RemoteNodeState])   -- ^ all active vServers of the pinged node
 requestPing ns target = do
-    srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
+    nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
+    let srcAddr = confIP nodeConf
     responses <- bracket (mkSendSocket srcAddr (getDomain target) (getDhtPort target)) close
         (\sock -> do
-            resp <- sendRequestTo (\rid ->
+            resp <- sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (\rid ->
                 Request {
                     requestID = rid
                   , sender = toRemoteNodeState ns
@@ -740,22 +744,14 @@ requestPing ns target = do
         ) responses
 
 
--- | 'sendRequestToWithParams' with default timeout and retries already specified.
--- Generic function for sending a request over a connected socket and collecting the response.
--- Serialises the message and tries to deliver its parts for a number of attempts within a default timeout.
-sendRequestTo :: (Integer -> FediChordMessage)       -- ^ the message to be sent, still needing a requestID
-              -> Socket                 -- ^ connected socket to use for sending
-              -> IO (Set.Set FediChordMessage)  -- ^ responses
-sendRequestTo = sendRequestToWithParams 5000 3
-
 -- | Generic function for sending a request over a connected socket and collecting the response.
 -- Serialises the message and tries to deliver its parts for a number of attempts within a specified timeout.
-sendRequestToWithParams :: Int                    -- ^ timeout in milliseconds
+sendRequestTo :: Int                    -- ^ timeout in milliseconds
-                        -> Int                    -- ^ number of retries
+              -> Int                    -- ^ number of retries
-                        -> (Integer -> FediChordMessage)       -- ^ the message to be sent, still needing a requestID
+              -> (Integer -> FediChordMessage)       -- ^ the message to be sent, still needing a requestID
-                        -> Socket                 -- ^ connected socket to use for sending
+              -> Socket                 -- ^ connected socket to use for sending
-                        -> IO (Set.Set FediChordMessage)  -- ^ responses
+              -> IO (Set.Set FediChordMessage)  -- ^ responses
-sendRequestToWithParams timeoutMillis numAttempts msgIncomplete sock = do
+sendRequestTo timeoutMillis numAttempts msgIncomplete sock = do
     -- give the message a random request ID
     randomID <- randomRIO (0, 2^32-1)
     let
@@ -764,7 +760,7 @@ sendRequestToWithParams timeoutMillis numAttempts msgIncomplete sock = do
     -- create a queue for passing received response messages back, even after a timeout
     responseQ <- newTBQueueIO $ 2*maximumParts  -- keep room for duplicate packets
     -- start sendAndAck with timeout
-    attempts numAttempts . timeout (timeoutMillis*1000) $ sendAndAck responseQ sock requests
+    _ <- attempts numAttempts . timeout (timeoutMillis*1000) $ sendAndAck responseQ sock requests
     -- after timeout, check received responses, delete them from unacked message set/ map and rerun senAndAck with that if necessary.
     recvdParts <- atomically $ flushTBQueue responseQ
     pure $ Set.fromList recvdParts
@@ -869,7 +865,7 @@ mkServerSocket ip port = do
     sockAddr <- addrAddress <$> resolve (Just $ show . fromHostAddress6 $ ip) (Just port)
     sock <- socket AF_INET6 Datagram defaultProtocol
     setSocketOption sock IPv6Only 1
-    bind sock sockAddr
+    bind sock sockAddr `catch` (\e -> putStrLn $ "Caught exception while bind " <> show sock <> " " <> show sockAddr <> ": " <> show (e :: SomeException))
     pure sock
 
 -- | create a UDP datagram socket, connected to a destination.
@@ -885,6 +881,6 @@ mkSendSocket srcIp dest destPort = do
     setSocketOption sendSock IPv6Only 1
     -- bind to the configured local IP to make sure that outgoing packets are sent from
     -- this source address
-    bind sendSock srcAddr
+    bind sendSock srcAddr `catch` (\e -> putStrLn $ "Caught exception while mkSendSocket bind " <> show sendSock <> " " <> show srcAddr <> ": " <> show (e :: SomeException))
     connect sendSock destAddr
     pure sendSock

src/Hash2Pub/FediChord.hs

@@ -199,7 +199,7 @@ convergenceSampleThread nsSTM = forever $ do
     -- unjoined node: try joining through all bootstrapping nodes
     else tryBootstrapJoining nsSTM >> pure ()
     let delaySecs = confBootstrapSamplingInterval . nodeConfig $ parentNode
-    threadDelay $ delaySecs * 10^6
+    threadDelay delaySecs
 
 
 -- | Try joining the DHT through any of the bootstrapping nodes until it succeeds.
@@ -223,10 +223,11 @@ tryBootstrapJoining nsSTM = do
 bootstrapQueryId :: LocalNodeStateSTM s -> (String, PortNumber) -> NodeID -> IO (Either String RemoteNodeState)
 bootstrapQueryId nsSTM (bootstrapHost, bootstrapPort) targetID = do
     ns <- readTVarIO nsSTM
-    srcAddr <- confIP . nodeConfig <$> readTVarIO (parentRealNode ns)
+    nodeConf <- nodeConfig <$> readTVarIO (parentRealNode ns)
+    let srcAddr = confIP nodeConf
     bootstrapResponse <- bracket (mkSendSocket srcAddr bootstrapHost bootstrapPort) close (
         -- Initialise an empty cache only with the responses from a bootstrapping node
-        fmap Right . sendRequestTo (lookupMessage targetID ns Nothing)
+        fmap Right . sendRequestTo (confRequestTimeout nodeConf) (confRequestRetries nodeConf) (lookupMessage targetID ns Nothing)
                                                                                   )
        `catch` (\e -> pure . Left $ "Error at bootstrap QueryId: " <> displayException (e :: IOException))
 
@@ -310,12 +311,13 @@ joinOnNewEntriesThread nsSTM = loop
   where
     loop = do
         nsSnap <- readTVarIO nsSTM
-        (lookupResult, cache) <- atomically $ do
+        (lookupResult, parentNode) <- atomically $ do
             cache <- readTVar $ nodeCacheSTM nsSnap
+            parentNode <- readTVar $ parentRealNode nsSnap
             case queryLocalCache nsSnap cache 1 (getNid nsSnap) of
               -- empty cache, block until cache changes and then retry
               (FORWARD s) | Set.null s -> retry
-              result                   -> pure (result, cache)
+              result                   -> pure (result, parentNode)
         case lookupResult of
           -- already joined
           FOUND _ ->
@@ -325,8 +327,7 @@ joinOnNewEntriesThread nsSTM = loop
               joinResult <- runExceptT $ fediChordVserverJoin nsSTM
               either
                 -- on join failure, sleep and retry
-                -- TODO: make delay configurable
+                (const $ threadDelay (confJoinAttemptsInterval . nodeConfig $ parentNode) >> loop)
-                (const $ threadDelay (30 * 10^6) >> loop)
                 (const $ pure ())
                 joinResult
 
@@ -341,20 +342,15 @@ nodeCacheWriter nsSTM =
         modifyTVar' (nodeCacheSTM ns) cacheModifier
 
 
--- TODO: make max entry age configurable
-maxEntryAge :: POSIXTime
-maxEntryAge = 600
-
-
 -- | Periodically iterate through cache, clean up expired entries and verify unverified ones
 nodeCacheVerifyThread :: LocalNodeStateSTM s -> IO ()
 nodeCacheVerifyThread nsSTM = forever $ do
-    putStrLn "cache verify run: begin"
     -- get cache
-    (ns, cache) <- atomically $ do
+    (ns, cache, maxEntryAge) <- atomically $ do
         ns <- readTVar nsSTM
         cache <- readTVar $ nodeCacheSTM ns
-        pure (ns, cache)
+        maxEntryAge <- confMaxNodeCacheAge . nodeConfig <$> readTVar (parentRealNode ns)
+        pure (ns, cache, maxEntryAge)
     -- iterate entries:
     -- for avoiding too many time syscalls, get current time before iterating.
     now <- getPOSIXTime
@@ -401,8 +397,7 @@ nodeCacheVerifyThread nsSTM = forever $ do
         forkIO $ sendQueryIdMessages targetID latestNs (Just (1 + jEntriesPerSlice latestNs)) (nodesToQuery targetID) >> pure () -- ask for 1 entry more than j because of querying the middle
                                                              )
 
-    putStrLn "cache verify run: end"
+    threadDelay $ fromEnum (maxEntryAge / 20) `div` 10^6    -- convert from pico to milliseconds
-    threadDelay $ 10^6 * round maxEntryAge `div` 20
 
 
 -- | Checks the invariant of at least @jEntries@ per cache slice.
@@ -468,7 +463,6 @@ stabiliseThread :: Service s (RealNodeSTM s) => LocalNodeStateSTM s -> IO ()
 stabiliseThread nsSTM = forever $ do
     oldNs <- readTVarIO nsSTM
 
-    putStrLn "stabilise run: begin"
 
     -- iterate through the same snapshot, collect potential new neighbours
     -- and nodes to be deleted, and modify these changes only at the end of
@@ -547,9 +541,8 @@ stabiliseThread nsSTM = forever $ do
                     )
                     newPredecessor
 
-    putStrLn "stabilise run: end"
+    stabiliseDelay <- confStabiliseInterval . nodeConfig <$> readTVarIO (parentRealNode newNs)
-    -- TODO: make delay configurable
+    threadDelay stabiliseDelay
-    threadDelay (60 * 10^6)
   where
     -- | send a stabilise request to the n-th neighbour
     -- (specified by the provided getter function) and on failure retry
@@ -636,19 +629,15 @@ type RequestMap = Map.Map (SockAddr, Integer) RequestMapEntry
 data RequestMapEntry = RequestMapEntry (Set.Set FediChordMessage) (Maybe Integer)
                   POSIXTime
 
--- TODO: make purge age configurable
--- | periodically clean up old request parts
-responsePurgeAge :: POSIXTime
-responsePurgeAge = 60 -- seconds
 
-requestMapPurge :: MVar RequestMap -> IO ()
+requestMapPurge :: POSIXTime -> MVar RequestMap -> IO ()
-requestMapPurge mapVar = forever $ do
+requestMapPurge purgeAge mapVar = forever $ do
     rMapState <- takeMVar mapVar
     now <- getPOSIXTime
     putMVar mapVar $ Map.filter (\(RequestMapEntry _ _ ts)  ->
-        now - ts < responsePurgeAge
+        now - ts < purgeAge
                                 ) rMapState
-    threadDelay $ round responsePurgeAge * 2 * 10^6
+    threadDelay $ (fromEnum purgeAge * 2) `div` 10^6
 
 
 -- | Wait for messages, deserialise them, manage parts and acknowledgement status,
@@ -663,12 +652,13 @@ fediMessageHandler sendQ recvQ nsSTM = do
     -- not change.
     -- Other functions are passed the nsSTM reference and thus can get the latest state.
     nsSnap <- readTVarIO nsSTM
+    nodeConf <- nodeConfig <$> readTVarIO (parentRealNode nsSnap)
     -- handling multipart messages:
     -- 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.
     requestMap <- newMVar (Map.empty :: RequestMap)
     -- run receive loop and requestMapPurge concurrently, so that an exception makes
     -- both of them fail
-    concurrently_ (requestMapPurge requestMap) $ forever $ do
+    concurrently_ (requestMapPurge (confResponsePurgeAge nodeConf) requestMap) $ forever $ do
         -- wait for incoming messages
         (rawMsg, sourceAddr) <- atomically $ readTQueue recvQ
         let aMsg = deserialiseMessage rawMsg
@@ -807,4 +797,4 @@ lookupCacheCleanup nodeSTM = do
                 now - ts < confMaxLookupCacheAge (nodeConfig node)
                        )
                                                        )
-        threadDelay $ round (confMaxLookupCacheAge $ nodeConfig node) * (10^5)
+        threadDelay $ fromEnum (2 * confMaxLookupCacheAge (nodeConfig node)) `div` 10^6

src/Hash2Pub/FediChordTypes.hs

@@ -411,10 +411,22 @@ data FediChordConf = FediChordConf
     -- ^ listening port for the FediChord DHT
     , confBootstrapNodes            :: [(String, PortNumber)]
     -- ^ list of potential bootstrapping nodes
+    , confStabiliseInterval         :: Int
+    -- ^ pause between stabilise runs, in milliseconds
     , confBootstrapSamplingInterval :: Int
-    -- ^ pause between sampling the own ID through bootstrap nodes, in seconds
+    -- ^ pause between sampling the own ID through bootstrap nodes, in milliseconds
     , confMaxLookupCacheAge         :: POSIXTime
-    -- ^ maximum age of lookup cache entries in seconds
+    -- ^ maximum age of key lookup cache entries in seconds
+    , confJoinAttemptsInterval      :: Int
+    -- ^ interval between join attempts on newly learned nodes, in milliseconds
+    , confMaxNodeCacheAge           :: POSIXTime
+    -- ^ maximum age of entries in the node cache, in milliseconds
+    , confResponsePurgeAge          :: POSIXTime
+    -- ^ maximum age of message parts in response part cache, in seconds
+    , confRequestTimeout            :: Int
+    -- ^ how long to wait until response has arrived, in milliseconds
+    , confRequestRetries            :: Int
+    -- ^ how often re-sending a timed-out request can be retried
     }
     deriving (Show, Eq)
 
@@ -445,6 +457,12 @@ data ServiceConf = ServiceConf
     -- ^ listening port for service
     , confServiceHost            :: String
     -- ^ hostname of service
+    , confLogfilePath            :: String
+    -- ^ where to store the (measurement) log file
+    , confStatsEvalDelay         :: Int
+    -- ^ delay between statistic rate measurement samplings, in microseconds
+    , confSpeedupFactor          :: Int
+    -- While the speedup factor needs to be already included in all
     }
 
 class DHT d where

src/Hash2Pub/PostService.hs

@@ -12,32 +12,41 @@ import           Control.Concurrent
 import           Control.Concurrent.Async
 import           Control.Concurrent.STM
 import           Control.Exception         (Exception (..), try)
-import           Control.Monad             (foldM, forM, forM_, forever, void,
+import           Control.Monad             (foldM, forM, forM_, forever, unless,
-                                            when)
+                                            void, when)
 import           Control.Monad.IO.Class    (liftIO)
 import           Data.Bifunctor
 import qualified Data.ByteString.Lazy.UTF8 as BSUL
 import qualified Data.ByteString.UTF8      as BSU
+import qualified Data.DList                as D
+import           Data.Either               (lefts, rights)
 import qualified Data.HashMap.Strict       as HMap
 import qualified Data.HashSet              as HSet
-import           Data.Maybe                (fromMaybe, isJust)
+import           Data.Maybe                (fromJust, isJust)
 import           Data.String               (fromString)
+import           Data.Text.Lazy            (Text)
 import qualified Data.Text.Lazy            as Txt
+import qualified Data.Text.Lazy.IO         as TxtI
 import           Data.Text.Normalize       (NormalizationMode (NFC), normalize)
 import           Data.Time.Clock.POSIX
 import           Data.Typeable             (Typeable)
 import qualified Network.HTTP.Client       as HTTP
 import qualified Network.HTTP.Types        as HTTPT
+import           System.IO
 import           System.Random
 import           Text.Read                 (readEither)
 
+import           Formatting                (fixed, format, int, (%))
 import qualified Network.Wai.Handler.Warp  as Warp
 import           Servant
 import           Servant.Client
 
 import           Hash2Pub.FediChordTypes
+import           Hash2Pub.PostService.API
 import           Hash2Pub.RingMap
+import           Hash2Pub.Utils
 
+import           Debug.Trace
 
 data PostService d = PostService
     { serviceConf          :: ServiceConf
@@ -48,19 +57,22 @@ data PostService d = PostService
     -- ^ for each tag store the subscribers + their queue
     , ownSubscriptions     :: TVar (HMap.HashMap NodeID POSIXTime)
     -- ^ tags subscribed by the own node have an assigned lease time
-    , ownPosts             :: TVar (HSet.HashSet Txt.Text)
-    -- ^ just store the existence of posts for saving memory,
     , relayInQueue         :: TQueue (Hashtag, PostID, PostContent)
     -- ^ Queue for processing incoming posts of own instance asynchronously
     , postFetchQueue       :: TQueue PostID
+    -- ^ queue of posts to be fetched
     , migrationsInProgress :: TVar (HMap.HashMap NodeID (MVar ()))
     , httpMan              :: HTTP.Manager
+    , statsQueue           :: TQueue StatsEvent
+    , loadStats            :: TVar RelayStats
+    -- ^ current load stats, replaced periodically
+    , logFileHandle        :: Handle
     }
     deriving (Typeable)
 
-type Hashtag = Txt.Text
+type Hashtag = Text
-type PostID = Txt.Text
+type PostID = Text
-type PostContent = Txt.Text
+type PostContent = Text
 -- | For each handled tag, store its subscribers and provide a
 -- broadcast 'TChan' for enqueuing posts
 type RelayTags = RingMap NodeID (TagSubscribersSTM, TChan PostID, Hashtag)
@@ -78,26 +90,38 @@ instance DHT d => Service PostService d where
         threadVar <- newTVarIO =<< myThreadId -- own thread ID as placeholder
         subscriberVar <- newTVarIO emptyRMap
         ownSubsVar <- newTVarIO HMap.empty
-        ownPostVar <- newTVarIO HSet.empty
+        --ownPostVar <- newTVarIO HSet.empty
         relayInQueue' <- newTQueueIO
         postFetchQueue' <- newTQueueIO
         migrationsInProgress' <- newTVarIO HMap.empty
         httpMan' <- HTTP.newManager HTTP.defaultManagerSettings
+        statsQueue' <- newTQueueIO
+        loadStats' <- newTVarIO emptyStats
+        loggingFile <- openFile (confLogfilePath conf) WriteMode
+        hSetBuffering loggingFile LineBuffering
         let
-            thisService = PostService {
+            thisService = PostService
-                serviceConf = conf
+              { serviceConf = conf
               , baseDHT = dht
               , serviceThread = threadVar
               , subscribers = subscriberVar
               , ownSubscriptions = ownSubsVar
-              , ownPosts = ownPostVar
+              --, ownPosts = ownPostVar
               , relayInQueue = relayInQueue'
               , postFetchQueue = postFetchQueue'
               , migrationsInProgress = migrationsInProgress'
               , httpMan = httpMan'
-                                      }
+              , statsQueue = statsQueue'
+              , loadStats = loadStats'
+              , logFileHandle = loggingFile
+              }
             port' = fromIntegral (confServicePort conf)
             warpSettings = Warp.setPort port' . Warp.setHost (fromString . confServiceHost $ conf) $ Warp.defaultSettings
+        -- log a start message, this also truncates existing files
+        TxtI.hPutStrLn loggingFile $ Txt.unlines
+            [ "# Starting mock relay implementation"
+            , "#time stamp         ; relay receive rate   ;relay delivery rate   ;instance publish rate ;instance fetch rate   ;total subscriptions"
+            ]
         -- Run 'concurrently_' from another thread to be able to return the
         -- 'PostService'.
         -- Terminating that parent thread will make all child threads terminate as well.
@@ -105,7 +129,11 @@ instance DHT d => Service PostService d where
             concurrently_
                 -- web server
                 (Warp.runSettings warpSettings $ postServiceApplication thisService)
-                (processIncomingPosts thisService)
+                $ concurrently
+                    -- background processing workers
+                    (launchWorkerThreads thisService)
+                    -- statistics/ measurements
+                    (launchStatsThreads thisService)
         -- update thread ID after fork
         atomically $ writeTVar threadVar servThreadID
         pure thisService
@@ -131,38 +159,13 @@ postServiceApplication :: DHT d => PostService d -> Application
 postServiceApplication serv = serve exposedPostServiceAPI $ postServer serv
 
 
--- | needed for guiding type inference
-exposedPostServiceAPI :: Proxy PostServiceAPI
-exposedPostServiceAPI = Proxy
-
 -- ========= constants ===========
 
-placeholderPost :: Txt.Text
+placeholderPost :: Text
 placeholderPost = Txt.take 5120 . Txt.repeat $ 'O' -- size 5KiB
 
 -- ========= HTTP API and handlers =============
 
-type PostServiceAPI = "relay" :> "inbox" :> Capture "hashtag" Txt.Text :> ReqBody '[PlainText] Txt.Text :> PutCreated '[PlainText] NoContent
-                 -- delivery endpoint at responsible relay for delivering posts of $tag for distribution
-                 :<|> "relay" :> "subscribers" :> Capture "senderID" Integer :> ReqBody '[PlainText] Txt.Text :> PostNoContent '[PlainText] Txt.Text
-                 -- endpoint for delivering the subscriptions and outstanding queue
-                 :<|> "post" :> Capture "postid" Txt.Text :> Get '[PlainText] Txt.Text
-                 -- fetch endpoint for posts, full post ID is http://$domain/post/$postid
-                 :<|> "posts" :> ReqBody '[PlainText] Txt.Text :> Post '[PlainText] Txt.Text
-                 -- endpoint for fetching multiple posts at once
-                 :<|> "posts" :> "inbox" :> ReqBody '[PlainText] Txt.Text :> PutCreated '[PlainText] NoContent
-                 -- delivery endpoint of newly published posts of the relay's instance
-                 :<|> "tags" :> Capture "hashtag" Txt.Text :> ReqBody '[PlainText] Txt.Text :> PostCreated '[PlainText] Txt.Text
-                 -- delivery endpoint for posts of $tag at subscribing instance
-                 :<|> "tags" :> Capture "hashtag" Txt.Text :> "subscribe" :> Header "Origin" Txt.Text :> Get '[PlainText] Integer
-                 -- endpoint for subscribing the instance specified in
-                 -- the Origin header to $hashtag.
-                 -- Returns subscription lease time in seconds.
-                 :<|> "tags" :> Capture "hashtag" Txt.Text :> "unsubscribe" :> Header "Origin" Txt.Text :> Get '[PlainText] Txt.Text
-                 -- endpoint for unsubscribing the instance specified in
-                 -- the Origin header to $hashtag
-
-
 postServer :: DHT d => PostService d -> Server PostServiceAPI
 postServer service = relayInbox service
         :<|> subscriptionDelivery service
@@ -174,7 +177,8 @@ postServer service = relayInbox service
         :<|> tagUnsubscribe service
 
 
-relayInbox :: DHT d => PostService d -> Hashtag -> Txt.Text -> Handler NoContent
+-- | delivery endpoint: receive posts of a handled tag and enqueue them for relaying
+relayInbox :: DHT d => PostService d -> Hashtag -> Text -> Handler NoContent
 relayInbox serv tag posts = do
     let
     -- skip checking whether the post actually contains the tag, just drop full post
@@ -190,8 +194,10 @@ relayInbox serv tag posts = do
     -- if noone subscribed to the tag, nothing needs to be done
         (pure ())
     -- otherwise enqueue posts into broadcast queue of the tag
-        (\queue ->
+        (\queue -> do
             liftIO $ forM_ postIDs (atomically . writeTChan queue)
+            -- report the received post for statistic purposes
+            liftIO . atomically . writeTQueue (statsQueue serv) $ StatsEvent RelayReceiveEvent (length postIDs) (hashtagToId tag)
         )
         broadcastChan
     pure NoContent
@@ -202,7 +208,8 @@ newtype UnhandledTagException = UnhandledTagException String
 
 instance Exception UnhandledTagException
 
-subscriptionDelivery :: DHT d => PostService d -> Integer -> Txt.Text -> Handler Txt.Text
+-- | delivery endpoint: receives a list of subscribers of tags and their outstanding queues for migration
+subscriptionDelivery :: DHT d => PostService d -> Integer -> Text -> Handler Text
 subscriptionDelivery serv senderID subList = do
     let
         tagSubs = Txt.lines subList
@@ -236,7 +243,7 @@ subscriptionDelivery serv senderID subList = do
       Right _  -> pure ""
     -- TODO: check and only accept tags in own (future?) responsibility
   where
-      processTag :: TVar RelayTags -> Txt.Text -> STM ()
+      processTag :: TVar RelayTags -> Text -> STM ()
       processTag subscriberSTM tagData = do
           let
             tag:subText:lease:posts:_ = Txt.splitOn "," tagData
@@ -247,44 +254,47 @@ subscriptionDelivery serv senderID subList = do
           enqueueSubscription subscriberSTM (normaliseTag tag) sub postList leaseTime
 
 
-postFetch :: PostService d -> Txt.Text -> Handler Txt.Text
+-- | endpoint for fetching a post by its ID
-postFetch serv postID = do
+postFetch :: PostService d -> Text -> Handler Text
-    postSet <- liftIO . readTVarIO . ownPosts $ serv
+postFetch serv _ = do
-    if HSet.member postID postSet
+    -- decision: for saving memory do not store published posts, just
-       -- decision: always return the same placeholder post
+    -- pretend there is a post for each requested ID
-       then pure placeholderPost
+    liftIO . atomically . writeTQueue (statsQueue serv) $ StatsEvent IncomingPostFetchEvent 1 0  -- tag fetched for is irrelevant
-       else throwError $ err404 { errBody = "No post found with this ID" }
+    pure placeholderPost
 
 
-postMultiFetch :: PostService d -> Txt.Text -> Handler Txt.Text
+-- | endpoint for fetching multiple posts of this instance by their IDs
+postMultiFetch :: PostService d -> Text -> Handler Text
 postMultiFetch serv postIDs = do
-    let idList = Txt.lines postIDs
+    let
-    postSet <- liftIO . readTVarIO . ownPosts $ serv
+        idList = Txt.lines postIDs
-    -- look up existence of all given post IDs, fail if even one is missing
+        -- decision: for saving memory do not store published posts, just
-    foldM (\response postID ->
+        -- pretend there is a post for each requested ID
-        if HSet.member postID postSet
+        response = foldl (\response' _ ->
-           then pure $ placeholderPost <> "\n" <> response
+           placeholderPost <> "\n" <> response'
-           else throwError $ err404 { errBody = "No post found with this ID" }
           ) "" idList
+    liftIO . atomically . writeTQueue (statsQueue serv) $ StatsEvent IncomingPostFetchEvent (length idList) 0  -- tag fetched for is irrelevant
+    pure response
 
 
-postInbox :: PostService d -> Txt.Text -> Handler NoContent
+-- | delivery endpoint: inbox for initially publishing a post at an instance
+postInbox :: PostService d -> Text -> Handler NoContent
 postInbox serv post = do
     -- extract contained hashtags
     let
         containedTags = fmap (normaliseTag . Txt.tail) . filter ((==) '#' . Txt.head) . Txt.words $ post
     -- generate post ID
     postId <- liftIO $ Txt.pack . show <$> (randomRIO (0, 2^(128::Integer)-1) :: IO Integer)
-    -- add ID to own posts
+    -- decision: for saving memory do not store published post IDs, just deliver a post for any requested ID
-    liftIO . atomically $ modifyTVar' (ownPosts serv) (HSet.insert postId)
     -- enqueue a relay job for each tag
-    liftIO $ forM_ (containedTags :: [Txt.Text]) (\tag ->
+    liftIO $ forM_ (containedTags :: [Text]) (\tag ->
         atomically $ writeTQueue (relayInQueue serv) (tag, postId,  post)
                                  )
     pure NoContent
 
 
-tagDelivery :: PostService d -> Txt.Text -> Txt.Text -> Handler Txt.Text
+-- | delivery endpoint: receive postIDs of a certain subscribed hashtag
+tagDelivery :: PostService d -> Text -> Text -> Handler Text
 tagDelivery serv hashtag posts = do
     let postIDs = Txt.lines posts
     subscriptions <- liftIO . readTVarIO . ownSubscriptions $ serv
@@ -295,7 +305,9 @@ tagDelivery serv hashtag posts = do
             pure ()
     pure $ "Received a postID for tag " <> hashtag
 
-tagSubscribe :: DHT d => PostService d -> Txt.Text -> Maybe Txt.Text -> Handler Integer
+
+-- | receive subscription requests to a handled hashtag
+tagSubscribe :: DHT d => PostService d -> Text -> Maybe Text -> Handler Integer
 tagSubscribe serv hashtag origin = do
     responsible <- liftIO $ isResponsibleFor (baseDHT serv) (hashtagToId hashtag)
     if not responsible
@@ -311,10 +323,12 @@ tagSubscribe serv hashtag origin = do
     let leaseTime = now + confSubscriptionExpiryTime (serviceConf serv)
     -- setup subscription entry
     _ <- liftIO . atomically $ setupSubscriberChannel (subscribers serv) hashtag (BSU.toString $ HTTP.host req, HTTP.port req) leaseTime
+    --liftIO . putStrLn $ "just got a subscription to " <> Txt.unpack hashtag
     pure $ round leaseTime
 
 
-tagUnsubscribe :: DHT d => PostService d -> Txt.Text -> Maybe Txt.Text -> Handler Txt.Text
+-- | receive and handle unsubscription requests regarding a handled tag
+tagUnsubscribe :: DHT d => PostService d -> Text -> Maybe Text -> Handler Text
 tagUnsubscribe serv hashtag origin = do
     responsible <- liftIO $ isResponsibleFor (baseDHT serv) (hashtagToId hashtag)
     if not responsible
@@ -334,8 +348,15 @@ tagUnsubscribe serv hashtag origin = do
 clientAPI :: Proxy PostServiceAPI
 clientAPI = Proxy
 
-
+relayInboxClient
-relayInboxClient :<|> subscriptionDeliveryClient :<|> postFetchClient :<|> postMultiFetchClient :<|> postInboxClient :<|> tagDeliveryClient :<|> tagSubscribeClient :<|> tagUnsubscribeClient = client clientAPI
+    :<|> subscriptionDeliveryClient
+    :<|> postFetchClient
+    :<|> postMultiFetchClient
+    :<|> postInboxClient
+    :<|> tagDeliveryClient
+    :<|> tagSubscribeClient
+    :<|> tagUnsubscribeClient
+    = client clientAPI
 
 
 -- | Deliver the subscriber list of all hashtags in the interval [fromTag, toTag]
@@ -405,10 +426,12 @@ clientSubscribeTo serv tag = do
                 Left (FailureResponse _ fresp)
                   |(HTTPT.statusCode . responseStatusCode $ fresp) == 410 && allowRetry -> do  -- responsibility gone, force new lookup
                       newRes <- forceLookupKey (baseDHT serv) (Txt.unpack tag)
+                      --putStrLn $ "failed subscribing to " <> Txt.unpack tag <> " on " <> foundHost
                       doSubscribe newRes False
                 Left err    -> pure . Left . show $ err
                 Right lease -> do
                     atomically . modifyTVar' (ownSubscriptions serv) $ HMap.insert (hashtagToId tag) (fromInteger lease)
+                    --putStrLn $ "just subscribed to " <> Txt.unpack tag <> " on " <> foundHost
                     pure . Right $ lease
           )
           lookupResponse
@@ -542,15 +565,37 @@ lookupTagSubscriptions :: Hashtag -> RingMap NodeID a -> Maybe a
 lookupTagSubscriptions tag = rMapLookup (hashtagToId tag)
 
 
--- normalise the unicode representation of a string to NFC
+-- normalise the unicode representation of a string to NFC and convert to lower case
-normaliseTag :: Txt.Text -> Txt.Text
+normaliseTag :: Text -> Text
-normaliseTag = Txt.fromStrict . normalize NFC . Txt.toStrict
+normaliseTag = Txt.toLower . Txt.fromStrict . normalize NFC . Txt.toStrict
 
 
 -- | convert a hashtag to its representation on the DHT
 hashtagToId :: Hashtag -> NodeID
 hashtagToId = genKeyID . Txt.unpack
 
+
+readUpToTChan :: Int -> TChan a -> STM [a]
+readUpToTChan 0 _ = pure []
+readUpToTChan n chan = do
+  readFromChan <- tryReadTChan chan
+  case readFromChan of
+       Nothing -> pure []
+       Just val -> do
+           moreReads <- readUpToTChan (pred n) chan
+           pure (val:moreReads)
+
+
+readUpToTQueue :: Int -> TQueue a -> STM [a]
+readUpToTQueue 0 _ = pure []
+readUpToTQueue n q = do
+    readFromQueue <- tryReadTQueue q
+    case readFromQueue of
+      Nothing -> pure []
+      Just val -> do
+          moreReads <- readUpToTQueue (pred n) q
+          pure (val:moreReads)
+
 -- | define how to convert all showable types to PlainText
 -- No idea what I'm doing with these overlappable instances though ¯\_(ツ)_/¯
 -- TODO: figure out how this overlapping stuff actually works https://downloads.haskell.org/~ghc/latest/docs/html/users_guide/glasgow_exts.html#instance-overlap
@@ -562,36 +607,78 @@ instance {-# OVERLAPPABLE #-} Read a => MimeUnrender PlainText a where
 
 -- ====== worker threads ======
 
+-- TODO: make configurable
+numParallelDeliveries = 10
+
+launchWorkerThreads :: DHT d => PostService d -> IO ()
+launchWorkerThreads serv = concurrently_
+    (processIncomingPosts serv)
+    $ concurrently_
+        (purgeSubscriptionsThread serv)
+        $ concurrently_
+            (fetchTagPosts serv)
+            (relayWorker serv)
+
+
+-- | periodically remove expired subscription entries from relay subscribers
+purgeSubscriptionsThread :: PostService d -> IO ()
+purgeSubscriptionsThread serv = forever $ do
+    -- read config
+    now <- getPOSIXTime
+    let
+        purgeInterval = confSubscriptionExpiryTime (serviceConf serv) / 10
+    -- no need to atomically lock this, as newly incoming subscriptions do not
+    -- need to be purged
+    tagMap <- readTVarIO $ subscribers serv
+    forM_ tagMap $ \(subscriberMapSTM, _, _) ->
+        -- but each subscriberMap needs to be modified atomically
+        atomically . modifyTVar' subscriberMapSTM $ HMap.filter (\(_, ts) -> ts > now)
+    threadDelay $ fromEnum purgeInterval `div` 10^6
+
+
 -- | process the pending relay inbox of incoming posts from the internal queue:
 -- Look up responsible relay node for given hashtag and forward post to it
 processIncomingPosts :: DHT d => PostService d -> IO ()
 processIncomingPosts serv = forever $ do
     -- blocks until available
-    -- TODO: process multiple in parallel
+    deliveriesToProcess <- atomically $ do
-    (tag, pID, pContent) <- atomically . readTQueue $ relayInQueue serv
+        readResult <- readUpToTQueue numParallelDeliveries $ relayInQueue serv
-    let pIdUri = "http://" <> (Txt.pack . confServiceHost . serviceConf $ serv) <> ":" <> (fromString . show . confServicePort . serviceConf $ serv) <> "/post/" <> pID
+        if null readResult
-    lookupRes <- lookupKey (baseDHT serv) (Txt.unpack tag)
+           then retry
-    case lookupRes of
+           else pure readResult
-      -- no vserver active => wait and retry
+    runningJobs <- forM deliveriesToProcess $ \(tag, pID, pContent) -> async $ do
-      Nothing -> threadDelay $ 10 * 10^6
+        let pIdUri = "http://" <> (Txt.pack . confServiceHost . serviceConf $ serv) <> ":" <> (fromString . show . confServicePort . serviceConf $ serv) <> "/post/" <> pID
-      Just (responsibleHost, responsiblePort) -> do
+        lookupRes <- lookupKey (baseDHT serv) (Txt.unpack tag)
-        resp <- runClientM (relayInboxClient tag $ pIdUri <> "," <> pContent) (mkClientEnv (httpMan serv) (BaseUrl Http responsibleHost (fromIntegral responsiblePort) ""))
+        case lookupRes of
-        case resp of
+          -- no vserver active => wait and retry
-          Left err  -> do
+          Nothing -> threadDelay (10 * 10^6) >> pure (Left "no vserver active")
-              putStrLn $ "Error: " <> show err
+          Just (responsibleHost, responsiblePort) -> do
-              -- 410 error indicates outdated responsibility mapping
+            resp <- runClientM (relayInboxClient tag $ pIdUri <> "," <> pContent) (mkClientEnv (httpMan serv) (BaseUrl Http responsibleHost (fromIntegral responsiblePort) ""))
-              -- Simplification: just invalidate the mapping entry on all errors, force a re-lookup and re-queue the post
+            case resp of
-              -- TODO: keep track of maximum retries
+              Left err  -> do
-              _ <- forceLookupKey (baseDHT serv) (Txt.unpack tag)
+                  -- 410 error indicates outdated responsibility mapping
-              atomically . writeTQueue (relayInQueue serv) $ (tag, pID, pContent)
+                  -- Simplification: just invalidate the mapping entry on all errors, force a re-lookup and re-queue the post
-          Right _ -> do
+                  -- TODO: keep track of maximum retries
-              -- TODO: stats
+                  _ <- forceLookupKey (baseDHT serv) (Txt.unpack tag)
-              -- idea for the experiment: each post publication makes the initial posting instance subscribe to all contained tags
+                  atomically . writeTQueue (relayInQueue serv) $ (tag, pID, pContent)
-              now <- getPOSIXTime
+                  pure . Left $ "Error: " <> show err
-              subscriptionStatus <- HMap.lookup (hashtagToId tag) <$> readTVarIO (ownSubscriptions serv)
+              Right _ -> do
-              -- if not yet subscribed or subscription expires within 2 minutes, (re)subscribe to tag
+                  -- idea for the experiment: each post publication makes the initial posting instance subscribe to all contained tags
-              when (maybe False (\subLease -> now - subLease < 120) subscriptionStatus) $
+                  now <- getPOSIXTime
-                  void $ clientSubscribeTo serv tag
+                  subscriptionStatus <- HMap.lookup (hashtagToId tag) <$> readTVarIO (ownSubscriptions serv)
+                  -- if not yet subscribed or subscription expires within 5 minutes, (re)subscribe to tag
+                  when (maybe True (\subLease -> now - subLease < 300) subscriptionStatus) $
+                      void $ clientSubscribeTo serv tag
+
+                  -- for evaluation, return the tag of the successfully forwarded post
+                  pure $ Right tag
+
+    -- collect async results
+    results <- mapM waitCatch runningJobs
+    -- report the count of published posts for statistics
+    atomically . writeTQueue (statsQueue serv) $ StatsEvent PostPublishEvent (length . rights $ results) 0    -- hashtag published to doesn't matter
+    pure ()
+
 
 
 -- | process the pending fetch jobs of delivered post IDs: Delivered posts are tried to be fetched from their URI-ID
@@ -601,18 +688,197 @@ fetchTagPosts serv = forever $ do
     -- TODO: batching, retry
     -- TODO: process multiple in parallel
     pIdUri <- atomically . readTQueue $ postFetchQueue serv
-    fetchReq <- HTTP.parseRequest . Txt.unpack $pIdUri
+    fetchReq <- HTTP.parseRequest . Txt.unpack $ pIdUri
     resp <- try $ HTTP.httpLbs fetchReq (httpMan serv) :: IO (Either HTTP.HttpException (HTTP.Response BSUL.ByteString))
     case resp of
       Right response ->
-          if HTTPT.statusCode (HTTP.responseStatus response) == 200
+          -- TODO error handling, retry
-             then
+          --if HTTPT.statusCode (HTTP.responseStatus response) == 200
-             -- success, TODO: statistics
+          --   then
-             putStrLn "post fetch success"
+          --   -- success, TODO: statistics
-             else
+          --   else
-             -- TODO error handling, retry
+          pure ()
-             pure ()
       Left _ ->
              -- TODO error handling, retry
              pure ()
 
+
+relayWorker :: PostService d -> IO ()
+relayWorker serv = forever $ do
+    -- atomically (to be able to retry) fold a list of due delivery actions
+    jobsToProcess <- atomically $ do
+        subscriptionMap <- readTVar $ subscribers serv
+        jobList <- D.toList <$> foldM (\jobAcc (subscriberMapSTM, _, tag) -> do
+            subscriberMap <- readTVar subscriberMapSTM
+            foldM (\jobAcc' ((subHost, subPort), (postChan, _)) -> do
+                postsToDeliver <- readUpToTChan 500 postChan
+                let postDeliveryAction = runClientM (tagDeliveryClient tag (Txt.unlines postsToDeliver)) (mkClientEnv (httpMan serv) (BaseUrl Http subHost (fromIntegral subPort) ""))
+                -- append relay push job to job list
+                pure $ if not (null postsToDeliver)
+                          then jobAcc' `D.snoc` (do
+                              deliveryResult <- postDeliveryAction
+                              either
+                                (const $ pure ())
+                                -- on successful push, record that event for statistics
+                                (const . atomically . writeTQueue (statsQueue serv) $ StatsEvent RelayDeliveryEvent (length postsToDeliver) (hashtagToId tag))
+                                deliveryResult
+                              pure deliveryResult
+                                                )
+                   else jobAcc'
+                ) jobAcc $ HMap.toList subscriberMap
+            ) D.empty subscriptionMap
+        -- if no relay jobs, then retry
+        if null jobList
+           then retry
+           else pure jobList
+
+    -- when processing the list, send several deliveries in parallel
+    forM_ (chunksOf numParallelDeliveries jobsToProcess) $ \jobset -> do
+        runningJobs <- mapM async jobset
+        -- so far just dropping failed attempts, TODO: retry mechanism
+        results <- mapM waitCatch runningJobs
+        let
+            successfulResults =  rights results
+            unsuccessfulResults = lefts results
+        unless (null unsuccessfulResults) $ putStrLn ("ERR: " <> show (length unsuccessfulResults) <> " failed deliveries!")
+        putStrLn $ "successfully relayed " <> show (length successfulResults)
+        pure ()
+
+
+-- ======= statistics/measurement and logging =======
+
+data StatsEventType = PostPublishEvent
+    | RelayReceiveEvent
+    | RelayDeliveryEvent
+    | IncomingPostFetchEvent
+    deriving (Enum, Show, Eq)
+
+-- | Represents measurement event of a 'StatsEventType' with a count relevant for a certain key
+data StatsEvent = StatsEvent StatsEventType Int NodeID
+    deriving (Show, Eq)
+
+
+-- | measured rates of relay performance
+-- TODO: maybe include other metrics in here as well, like number of subscribers?
+data RelayStats = RelayStats
+    { relayReceiveRates  :: RingMap NodeID Double
+    -- ^ rate of incoming posts in the responsibility of this relay
+    , relayDeliveryRates :: RingMap NodeID Double
+    -- ^ rate of relayed outgoing posts
+    , postFetchRate      :: Double -- no need to differentiate between tags
+    -- ^ number of post-fetches delivered
+    , postPublishRate    :: Double
+    -- ^ rate of initially publishing posts through this instance
+    }
+    deriving (Show, Eq)
+
+
+
+launchStatsThreads :: PostService d -> IO ()
+launchStatsThreads serv = do
+    -- create shared accumulator
+    sharedAccum <- newTVarIO emptyStats
+    concurrently_
+        (accumulateStatsThread sharedAccum $ statsQueue serv)
+        (evaluateStatsThread serv sharedAccum)
+
+
+-- | Read stats events from queue and add them to a shared accumulator.
+-- Instead of letting the events accumulate in the queue and allocate linear memory, immediately fold the result.
+accumulateStatsThread :: TVar RelayStats -> TQueue StatsEvent -> IO ()
+accumulateStatsThread statsAccumulator statsQ = forever $ do
+    -- blocks until stats event arrives
+    event <- atomically $ readTQueue statsQ
+    -- add the event number to current accumulator
+    atomically $ modifyTVar' statsAccumulator $ statsAdder event
+
+
+-- | add incoming stats events to accumulator value
+statsAdder :: StatsEvent -> RelayStats -> RelayStats
+statsAdder event stats = case event of
+    StatsEvent PostPublishEvent num _ ->
+        stats {postPublishRate = fromIntegral num + postPublishRate stats}
+    StatsEvent RelayReceiveEvent num key ->
+        stats {relayReceiveRates = sumIfEntryExists key (fromIntegral num) (relayReceiveRates stats)}
+    StatsEvent RelayDeliveryEvent num key ->
+        stats {relayDeliveryRates = sumIfEntryExists key (fromIntegral num) (relayDeliveryRates stats)}
+    StatsEvent IncomingPostFetchEvent num _ ->
+        stats {postFetchRate = fromIntegral num + postFetchRate stats}
+  where
+      sumIfEntryExists = addRMapEntryWith (\newVal oldVal ->
+          let toInsert = fromJust $ extractRingEntry newVal
+          in
+          case oldVal of
+            KeyEntry n -> KeyEntry (n + toInsert)
+            ProxyEntry pointer (Just (KeyEntry n)) -> ProxyEntry pointer (Just (KeyEntry $ n + toInsert))
+            ProxyEntry pointer Nothing -> ProxyEntry pointer (Just newVal)
+            _ -> error "RingMap nested too deeply"
+                                          )
+
+
+-- Periodically exchange the accumulated statistics with empty ones, evaluate them
+-- and make them the current statistics of the service.
+evaluateStatsThread :: PostService d -> TVar RelayStats -> IO ()
+evaluateStatsThread serv statsAcc = getPOSIXTime >>= loop
+  where
+      loop previousTs = do
+          threadDelay $ confStatsEvalDelay (serviceConf serv)
+          -- get and reset the stats accumulator
+          summedStats <- atomically $ do
+              stats <- readTVar statsAcc
+              writeTVar statsAcc emptyStats
+              pure stats
+          -- as the transaction might retry several times, current time needs to
+          -- be read afterwards
+          now <- getPOSIXTime
+          -- evaluate stats rate and replace server stats
+          -- persistently store in a TVar so it can be retrieved later by the DHT
+          let timePassed = (now - previousTs) * fromIntegral (confSpeedupFactor $ serviceConf serv)
+              rateStats = evaluateStats timePassed summedStats
+          atomically $ writeTVar (loadStats serv) rateStats
+          -- and now what? write a log to file
+          -- format: total relayReceiveRates;total relayDeliveryRates;postFetchRate;postPublishRate; subscriberSum
+          -- later: current (reported) load, target load
+          subscriberSum <- sumSubscribers
+          TxtI.hPutStrLn (logFileHandle serv) $
+              format (fixed 9 % ";" % fixed 20 % ";" % fixed 20 % ";" % fixed 20 % ";" % fixed 20 % ";" % int )
+                  (realToFrac now :: Double)
+                  (sum . relayReceiveRates $ rateStats)
+                  (sum . relayDeliveryRates $ rateStats)
+                  (postPublishRate rateStats)
+                  (postFetchRate rateStats)
+                  subscriberSum
+          loop now
+
+      sumSubscribers = do
+          tagMap <- readTVarIO $ subscribers serv
+          foldM (\subscriberSum (subscriberMapSTM, _, _) -> do
+              subscriberMap <- readTVarIO subscriberMapSTM
+              pure $ subscriberSum + HMap.size subscriberMap
+                )
+                0 tagMap
+
+
+-- | Evaluate the accumulated statistic events: Currently mostly calculates the event
+-- rates by dividing through the collection time frame
+evaluateStats :: POSIXTime -> RelayStats -> RelayStats
+evaluateStats timeInterval summedStats =
+    -- first sum all event numbers, then divide through number of seconds passed to
+    -- get rate per second
+    RelayStats
+    { relayReceiveRates = (/ intervalSeconds) <$> relayReceiveRates summedStats
+    , relayDeliveryRates = (/ intervalSeconds) <$> relayDeliveryRates summedStats
+    , postPublishRate = postPublishRate summedStats / intervalSeconds
+    , postFetchRate = postFetchRate summedStats / intervalSeconds
+    }
+  where
+      intervalSeconds = realToFrac timeInterval
+
+
+emptyStats :: RelayStats
+emptyStats = RelayStats
+    { relayReceiveRates = emptyRMap
+    , relayDeliveryRates = emptyRMap
+    , postFetchRate = 0
+    , postPublishRate = 0
+    }

src/Hash2Pub/PostService/API.hs

@@ -0,0 +1,37 @@
+{-# LANGUAGE DataKinds             #-}
+{-# LANGUAGE FlexibleInstances     #-}
+{-# LANGUAGE InstanceSigs          #-}
+{-# LANGUAGE MultiParamTypeClasses #-}
+{-# LANGUAGE OverloadedStrings     #-}
+{-# LANGUAGE RankNTypes            #-}
+{-# LANGUAGE TypeOperators         #-}
+module Hash2Pub.PostService.API where
+
+import           Data.Text.Lazy (Text)
+
+import           Servant
+
+type PostServiceAPI = "relay" :> "inbox" :> Capture "hashtag" Text :> ReqBody '[PlainText] Text :> PutCreated '[PlainText] NoContent
+                 -- delivery endpoint at responsible relay for delivering posts of $tag for distribution
+                 :<|> "relay" :> "subscribers" :> Capture "senderID" Integer :> ReqBody '[PlainText] Text :> PostNoContent '[PlainText] Text
+                 -- endpoint for delivering the subscriptions and outstanding queue
+                 :<|> "post" :> Capture "postid" Text :> Get '[PlainText] Text
+                 -- fetch endpoint for posts, full post ID is http://$domain/post/$postid
+                 :<|> "posts" :> ReqBody '[PlainText] Text :> Post '[PlainText] Text
+                 -- endpoint for fetching multiple posts at once
+                 :<|> "posts" :> "inbox" :> ReqBody '[PlainText] Text :> PutCreated '[PlainText] NoContent
+                 -- delivery endpoint of newly published posts of the relay's instance
+                 :<|> "tags" :> Capture "hashtag" Text :> ReqBody '[PlainText] Text :> PostCreated '[PlainText] Text
+                 -- delivery endpoint for posts of $tag at subscribing instance
+                 :<|> "tags" :> Capture "hashtag" Text :> "subscribe" :> Header "Origin" Text :> Get '[PlainText] Integer
+                 -- endpoint for subscribing the instance specified in
+                 -- the Origin header to $hashtag.
+                 -- Returns subscription lease time in seconds.
+                 :<|> "tags" :> Capture "hashtag" Text :> "unsubscribe" :> Header "Origin" Text :> Get '[PlainText] Text
+                 -- endpoint for unsubscribing the instance specified in
+                 -- the Origin header to $hashtag
+
+-- | needed for guiding type inference
+exposedPostServiceAPI :: Proxy PostServiceAPI
+exposedPostServiceAPI = Proxy
+

src/Hash2Pub/ProtocolTypes.hs

@@ -1,7 +1,5 @@
 module Hash2Pub.ProtocolTypes where
 
-import qualified Data.Map                as Map
-import           Data.Maybe              (mapMaybe)
 import qualified Data.Set                as Set
 import           Data.Time.Clock.POSIX   (POSIXTime)
 

src/Hash2Pub/RingMap.hs

@@ -23,7 +23,30 @@ instance (Bounded k, Ord k, Eq a) => Eq (RingMap k a) where
     a == b = getRingMap a == getRingMap b
 
 instance (Bounded k, Ord k, Show k, Show a) => Show (RingMap k a) where
-    show rmap = shows "RingMap " (show $ getRingMap rmap)
+    show rmap = shows ("RingMap " :: String) (show $ getRingMap rmap)
+
+
+instance (Bounded k, Ord k) => Functor (RingMap k) where
+    -- | map a function over all payload values of a 'RingMap'
+    fmap f = RingMap . Map.map traversingF . getRingMap
+      where
+          traversingF (KeyEntry a) = KeyEntry (f a)
+          traversingF (ProxyEntry pointer (Just entry)) = ProxyEntry pointer (Just $ traversingF entry)
+          traversingF (ProxyEntry pointer Nothing) = ProxyEntry pointer Nothing
+
+
+instance (Bounded k, Ord k) => Foldable (RingMap k) where
+    foldr f initVal = Map.foldr traversingFR initVal . getRingMap
+      where
+          traversingFR (KeyEntry a) acc = f a acc
+          traversingFR (ProxyEntry _ Nothing) acc = acc
+          traversingFR (ProxyEntry _ (Just entry)) acc = traversingFR entry acc
+    foldl f initVal = Map.foldl traversingFL initVal . getRingMap
+      where
+          traversingFL acc (KeyEntry a) = f acc a
+          traversingFL acc (ProxyEntry _ Nothing) = acc
+          traversingFL acc (ProxyEntry _ (Just entry)) = traversingFL acc entry
+
 
 -- | entry of a 'RingMap' that holds a value and can also
 -- wrap around the lookup direction at the edges of the name space.
@@ -133,7 +156,7 @@ rMapLookupPred :: (Bounded k, Ord k, Num k)
 rMapLookupPred = lookupWrapper Map.lookupLT Map.lookupLE Backwards
 
 addRMapEntryWith :: (Bounded k, Ord k)
-                 => (RingEntry k a -> RingEntry k a -> RingEntry k a)
+                 => (RingEntry k a -> RingEntry k a -> RingEntry k a) -- ^ f new_value mold_value
                  -> k   -- ^ key
                  -> a   -- ^ value
                  -> RingMap k a
@@ -207,7 +230,7 @@ takeEntriesUntil_ :: (Integral i, Bounded k, Ord k)
                  -> Maybe i     -- possible number limit
                  -> [a]
                  -> [a]
-takeEntriesUntil_ rmap' getterFunc' havingReached previousEntry (Just remaining) takeAcc
+takeEntriesUntil_ _rmap' _getterFunc' _havingReached _previousEntry (Just remaining) takeAcc
   -- length limit reached
   | remaining <= 0 = takeAcc
 takeEntriesUntil_ rmap' getterFunc' havingReached previousEntry numLimit takeAcc =