module Control.Distributed.Process.Node
( LocalNode
, newLocalNode
, closeLocalNode
, forkProcess
, runProcess
, initRemoteTable
, localNodeId
) where
import System.IO (fixIO, hPutStrLn, stderr)
import System.Mem.Weak (Weak, deRefWeak)
import qualified Data.ByteString.Lazy as BSL (fromChunks)
import Data.Binary (decode)
import Data.Map (Map)
import qualified Data.Map as Map
( empty
, toList
, fromList
, filter
, partitionWithKey
, elems
, size
, filterWithKey
, foldlWithKey
)
import Data.Set (Set)
import qualified Data.Set as Set
( empty
, insert
, delete
, map
, member
, toList
, union
)
import Data.Foldable (forM_)
import Data.List (foldl')
import Data.Maybe (isJust, fromJust, isNothing, catMaybes)
import Data.Typeable (Typeable)
import Control.Category ((>>>))
import Control.Applicative
import Control.Monad (void, when, join)
import Control.Monad.IO.Class (MonadIO, liftIO)
import Control.Monad.State.Strict (MonadState, StateT, evalStateT, gets)
import qualified Control.Monad.State.Strict as StateT (get, put)
import Control.Monad.Reader (MonadReader, ReaderT, runReaderT, ask)
import Control.Exception
( throwIO
, SomeException
, Exception
, throwTo
, uninterruptibleMask_
, getMaskingState
, MaskingState(..)
)
import qualified Control.Exception as Exception
( Handler(..)
, catch
, catches
, finally
)
import Control.Concurrent (forkIO, killThread)
import Control.Distributed.Process.Internal.BiMultiMap (BiMultiMap)
import qualified Control.Distributed.Process.Internal.BiMultiMap as BiMultiMap
import Control.Distributed.Process.Internal.StrictMVar
( newMVar
, withMVar
, modifyMVarMasked
, modifyMVar
, newEmptyMVar
, putMVar
, takeMVar
)
import Control.Concurrent.Chan (newChan, writeChan, readChan)
import qualified Control.Concurrent.MVar as MVar (newEmptyMVar, takeMVar)
import Control.Concurrent.STM
( atomically
)
import Control.Distributed.Process.Internal.CQueue
( CQueue
, enqueue
, newCQueue
, mkWeakCQueue
, queueSize
)
import qualified Network.Transport as NT
( Transport
, EndPoint
, newEndPoint
, receive
, Event(..)
, EventErrorCode(..)
, TransportError(..)
, address
, closeEndPoint
, Connection
, ConnectionId
, close
, EndPointAddress
, Reliability(ReliableOrdered)
)
import Data.Accessor (Accessor, accessor, (^.), (^=), (^:))
import System.Random (randomIO)
import Control.Distributed.Static (RemoteTable, Closure)
import qualified Control.Distributed.Static as Static
( unclosure
, initRemoteTable
)
import Control.Distributed.Process.Internal.Types
( NodeId(..)
, LocalProcessId(..)
, ProcessId(..)
, LocalNode(..)
, MxEventBus(..)
, LocalNodeState(..)
, ValidLocalNodeState(..)
, withValidLocalState
, modifyValidLocalState
, LocalProcess(..)
, LocalProcessState(..)
, Process(..)
, DiedReason(..)
, NCMsg(..)
, ProcessSignal(..)
, localPidCounter
, localPidUnique
, localProcessWithId
, localProcesses
, localConnections
, forever'
, MonitorRef(..)
, NodeClosedException(..)
, ProcessMonitorNotification(..)
, NodeMonitorNotification(..)
, PortMonitorNotification(..)
, ProcessExitException(..)
, ProcessLinkException(..)
, NodeLinkException(..)
, PortLinkException(..)
, DidUnmonitor(..)
, DidUnlinkProcess(..)
, DidUnlinkNode(..)
, DidUnlinkPort(..)
, SpawnRef
, DidSpawn(..)
, Message(..)
, TypedChannel(..)
, Identifier(..)
, nodeOf
, ProcessInfo(..)
, ProcessInfoNone(..)
, NodeStats(..)
, SendPortId(..)
, typedChannelWithId
, RegisterReply(..)
, WhereIsReply(..)
, payloadToMessage
, createUnencodedMessage
, unsafeCreateUnencodedMessage
, runLocalProcess
, firstNonReservedProcessId
, ImplicitReconnect(WithImplicitReconnect)
)
import Control.Distributed.Process.Management.Internal.Agent
( mxAgentController
)
import qualified Control.Distributed.Process.Management.Internal.Table as Table
( mxTableCoordinator
, startTableCoordinator
)
import qualified Control.Distributed.Process.Management.Internal.Trace.Remote as Trace
( remoteTable
)
import Control.Distributed.Process.Management.Internal.Trace.Tracer
( defaultTracer
)
import Control.Distributed.Process.Management.Internal.Trace.Types
( TraceArg(..)
, traceEvent
, traceLogFmt
, enableTrace
)
import Control.Distributed.Process.Management.Internal.Types
( MxEvent(..)
)
import Control.Distributed.Process.Serializable (Serializable)
import Control.Distributed.Process.Internal.Messaging
( sendBinary
, closeImplicitReconnections
, impliesDeathOf
)
import Control.Distributed.Process.Internal.Primitives
( register
, receiveWait
, match
, sendChan
, unwrapMessage
)
import Control.Distributed.Process.Internal.Types (SendPort, Tracer(..))
import qualified Control.Distributed.Process.Internal.Closure.BuiltIn as BuiltIn (remoteTable)
import Control.Distributed.Process.Internal.WeakTQueue (TQueue, writeTQueue)
import qualified Control.Distributed.Process.Internal.StrictContainerAccessors as DAC
( mapMaybe
, mapDefault
)
import Control.Monad.Catch (try)
import GHC.IO (IO(..), unsafeUnmask)
import GHC.Base ( maskAsyncExceptions# )
import Unsafe.Coerce
import Prelude
block :: IO a -> IO a
block (IO io) = IO $ maskAsyncExceptions# io
unblock :: IO a -> IO a
unblock = unsafeUnmask
initRemoteTable :: RemoteTable
initRemoteTable = Trace.remoteTable $ BuiltIn.remoteTable Static.initRemoteTable
newLocalNode :: NT.Transport -> RemoteTable -> IO LocalNode
newLocalNode transport rtable = do
mEndPoint <- NT.newEndPoint transport
case mEndPoint of
Left ex -> throwIO ex
Right endPoint -> do
localNode <- createBareLocalNode endPoint rtable
startServiceProcesses localNode
return localNode
createBareLocalNode :: NT.EndPoint -> RemoteTable -> IO LocalNode
createBareLocalNode endPoint rtable = do
unq <- randomIO
state <- newMVar $ LocalNodeValid $ ValidLocalNodeState
{ _localProcesses = Map.empty
, _localPidCounter = firstNonReservedProcessId
, _localPidUnique = unq
, _localConnections = Map.empty
}
ctrlChan <- newChan
let node = LocalNode { localNodeId = NodeId $ NT.address endPoint
, localEndPoint = endPoint
, localState = state
, localCtrlChan = ctrlChan
, localEventBus = MxEventBusInitialising
, remoteTable = rtable
}
tracedNode <- startMxAgent node
void $ forkIO $ Exception.finally (runNodeController tracedNode)
(NT.closeEndPoint (localEndPoint node))
void $ forkIO $ Exception.finally (handleIncomingMessages tracedNode)
(stopNC node)
return tracedNode
where
stopNC node =
writeChan (localCtrlChan node) NCMsg
{ ctrlMsgSender = NodeIdentifier (localNodeId node)
, ctrlMsgSignal = SigShutdown
}
startMxAgent :: LocalNode -> IO LocalNode
startMxAgent node = do
let fork = forkProcess node
mv <- MVar.newEmptyMVar
pid <- fork $ mxAgentController fork mv
(tracer', wqRef, mxNew') <- MVar.takeMVar mv
return node { localEventBus = (MxEventBus pid tracer' wqRef mxNew') }
startDefaultTracer :: LocalNode -> IO ()
startDefaultTracer node' = do
let t = localEventBus node'
case t of
MxEventBus _ (Tracer pid _) _ _ -> do
runProcess node' $ register "trace.controller" pid
pid' <- forkProcess node' defaultTracer
enableTrace (localEventBus node') pid'
runProcess node' $ register "tracer.initial" pid'
_ -> return ()
startServiceProcesses :: LocalNode -> IO ()
startServiceProcesses node = do
startDefaultTracer node
tableCoordinatorPid <- fork $ Table.startTableCoordinator fork
runProcess node $ register Table.mxTableCoordinator tableCoordinatorPid
logger <- forkProcess node loop
runProcess node $ do
register "logger" logger
register "trace.logger" logger
where
fork = forkProcess node
loop = do
receiveWait
[ match $ \((time, pid, string) ::(String, ProcessId, String)) -> do
liftIO . hPutStrLn stderr $ time ++ " " ++ show pid ++ ": " ++ string
loop
, match $ \((time, string) :: (String, String)) -> do
liftIO . hPutStrLn stderr $ time ++ " [trace] " ++ string
loop
, match $ \(ch :: SendPort ()) ->
sendChan ch ()
]
closeLocalNode :: LocalNode -> IO ()
closeLocalNode node = do
join $ modifyMVar (localState node) $ \st -> case st of
LocalNodeValid vst -> do
return ( LocalNodeClosed
, forM_ (vst ^. localProcesses) $ \lproc ->
killThread (processThread lproc)
)
LocalNodeClosed -> return (LocalNodeClosed, return ())
NT.closeEndPoint (localEndPoint node)
runProcess :: LocalNode -> Process () -> IO ()
runProcess node proc = do
done <- newEmptyMVar
void $ forkProcess node $ try proc >>= liftIO . putMVar done
takeMVar done >>= either (throwIO :: SomeException -> IO a) return
forkProcess :: LocalNode -> Process () -> IO ProcessId
forkProcess node proc = do
ms <- getMaskingState
modifyMVarMasked (localState node) (startProcess ms)
where
startProcess :: MaskingState
-> LocalNodeState
-> IO (LocalNodeState, ProcessId)
startProcess ms (LocalNodeValid vst) = do
let lpid = LocalProcessId { lpidCounter = vst ^. localPidCounter
, lpidUnique = vst ^. localPidUnique
}
let pid = ProcessId { processNodeId = localNodeId node
, processLocalId = lpid
}
pst <- newMVar LocalProcessState { _monitorCounter = 0
, _spawnCounter = 0
, _channelCounter = 0
, _typedChannels = Map.empty
}
queue <- newCQueue
weakQueue <- mkWeakCQueue queue (return ())
(_, lproc) <- fixIO $ \ ~(tid, _) -> do
let lproc = LocalProcess { processQueue = queue
, processWeakQ = weakQueue
, processId = pid
, processState = pst
, processThread = tid
, processNode = node
}
let unmask = case ms of
Unmasked -> unblock
MaskedInterruptible -> block
MaskedUninterruptible -> id
tid' <- uninterruptibleMask_ $ forkIO $ do
reason <- Exception.catches
(unmask $ runLocalProcess lproc proc >> return DiedNormal)
[ (Exception.Handler (\ex@(ProcessExitException from msg) -> do
mMsg <- unwrapMessage msg :: IO (Maybe String)
case mMsg of
Nothing -> return $ DiedException $ show ex
Just m -> return $ DiedException ("exit-from=" ++ (show from) ++ ",reason=" ++ m)))
, (Exception.Handler
(return . DiedException . (show :: SomeException -> String)))]
mconns <- modifyValidLocalState node (cleanupProcess pid)
forM_ mconns $ forkIO . mapM_ NT.close
writeChan (localCtrlChan node) NCMsg
{ ctrlMsgSender = ProcessIdentifier pid
, ctrlMsgSignal = Died (ProcessIdentifier pid) reason
}
return (tid', lproc)
trace node (MxSpawned pid)
if lpidCounter lpid == maxBound
then do
newUnique <- randomIO
return ( LocalNodeValid
$ (localProcessWithId lpid ^= Just lproc)
. (localPidCounter ^= firstNonReservedProcessId)
. (localPidUnique ^= newUnique)
$ vst
, pid
)
else
return ( LocalNodeValid
$ (localProcessWithId lpid ^= Just lproc)
. (localPidCounter ^: (+ 1))
$ vst
, pid
)
startProcess _ LocalNodeClosed =
throwIO $ NodeClosedException $ localNodeId node
cleanupProcess :: ProcessId
-> ValidLocalNodeState
-> IO (ValidLocalNodeState, [NT.Connection])
cleanupProcess pid vst = do
let pid' = ProcessIdentifier pid
let (affected, unaffected) = Map.partitionWithKey (\(fr, _to) !_v -> impliesDeathOf pid' fr) (vst ^. localConnections)
return ( (localProcessWithId (processLocalId pid) ^= Nothing)
. (localConnections ^= unaffected)
$ vst
, map fst $ Map.elems affected
)
type IncomingConnection = (NT.EndPointAddress, IncomingTarget)
data IncomingTarget =
Uninit
| ToProc ProcessId (Weak (CQueue Message))
| ToChan TypedChannel
| ToNode
data ConnectionState = ConnectionState {
_incoming :: !(Map NT.ConnectionId IncomingConnection)
, _incomingFrom :: !(Map NT.EndPointAddress (Set NT.ConnectionId))
}
initConnectionState :: ConnectionState
initConnectionState = ConnectionState {
_incoming = Map.empty
, _incomingFrom = Map.empty
}
incoming :: Accessor ConnectionState (Map NT.ConnectionId IncomingConnection)
incoming = accessor _incoming (\conns st -> st { _incoming = conns })
incomingAt :: NT.ConnectionId -> Accessor ConnectionState (Maybe IncomingConnection)
incomingAt cid = incoming >>> DAC.mapMaybe cid
incomingFrom :: NT.EndPointAddress -> Accessor ConnectionState (Set NT.ConnectionId)
incomingFrom addr = aux >>> DAC.mapDefault Set.empty addr
where
aux = accessor _incomingFrom (\fr st -> st { _incomingFrom = fr })
handleIncomingMessages :: LocalNode -> IO ()
handleIncomingMessages node = go initConnectionState
`Exception.catch` \(NodeClosedException _) -> return ()
where
go :: ConnectionState -> IO ()
go !st = do
event <- NT.receive endpoint
case event of
NT.ConnectionOpened cid rel theirAddr ->
if rel == NT.ReliableOrdered
then
trace node (MxConnected cid theirAddr)
>> go (
(incomingAt cid ^= Just (theirAddr, Uninit))
. (incomingFrom theirAddr ^: Set.insert cid)
$ st
)
else invalidRequest cid st $
"attempt to connect with unsupported reliability " ++ show rel
NT.Received cid payload ->
case st ^. incomingAt cid of
Just (_, ToProc pid weakQueue) -> do
mQueue <- deRefWeak weakQueue
forM_ mQueue $ \queue -> do
let msg = payloadToMessage payload
enqueue queue msg
trace node (MxReceived pid msg)
go st
Just (_, ToChan (TypedChannel chan')) -> do
mChan <- deRefWeak chan'
forM_ mChan $ \chan -> atomically $
writeTQueue chan $! decode (BSL.fromChunks payload)
go st
Just (_, ToNode) -> do
let ctrlMsg = decode . BSL.fromChunks $ payload
writeChan ctrlChan $! ctrlMsg
go st
Just (src, Uninit) ->
case decode (BSL.fromChunks payload) of
ProcessIdentifier pid -> do
let lpid = processLocalId pid
mProc <- withValidLocalState node $ return . (^. localProcessWithId lpid)
case mProc of
Just proc ->
go (incomingAt cid ^= Just (src, ToProc pid (processWeakQ proc)) $ st)
Nothing ->
go (incomingAt cid ^= Nothing $ st)
SendPortIdentifier chId -> do
let lcid = sendPortLocalId chId
lpid = processLocalId (sendPortProcessId chId)
mProc <- withValidLocalState node $ return . (^. localProcessWithId lpid)
case mProc of
Just proc -> do
mChannel <- withMVar (processState proc) $ return . (^. typedChannelWithId lcid)
case mChannel of
Just channel ->
go (incomingAt cid ^= Just (src, ToChan channel) $ st)
Nothing ->
invalidRequest cid st $
"incoming attempt to connect to unknown channel of"
++ " process " ++ show (sendPortProcessId chId)
Nothing ->
go (incomingAt cid ^= Nothing $ st)
NodeIdentifier nid ->
if nid == localNodeId node
then go (incomingAt cid ^= Just (src, ToNode) $ st)
else invalidRequest cid st $
"incoming attempt to connect to a different node -"
++ " I'm " ++ show (localNodeId node)
++ " but the remote peer wants to connect to "
++ show nid
Nothing ->
invalidRequest cid st
"message received from an unknown connection"
NT.ConnectionClosed cid ->
case st ^. incomingAt cid of
Nothing ->
invalidRequest cid st "closed unknown connection"
Just (src, _) -> do
trace node (MxDisconnected cid src)
go ( (incomingAt cid ^= Nothing)
. (incomingFrom src ^: Set.delete cid)
$ st
)
NT.ErrorEvent (NT.TransportError (NT.EventConnectionLost theirAddr) _) -> do
let nid = NodeIdentifier $ NodeId theirAddr
writeChan ctrlChan NCMsg
{ ctrlMsgSender = nid
, ctrlMsgSignal = Died nid DiedDisconnect
}
let notLost k = not (k `Set.member` (st ^. incomingFrom theirAddr))
closeImplicitReconnections node nid
go ( (incomingFrom theirAddr ^= Set.empty)
. (incoming ^: Map.filterWithKey (const . notLost))
$ st
)
NT.ErrorEvent (NT.TransportError NT.EventEndPointFailed str) ->
fail $ "Cloud Haskell fatal error: end point failed: " ++ str
NT.ErrorEvent (NT.TransportError NT.EventTransportFailed str) ->
fail $ "Cloud Haskell fatal error: transport failed: " ++ str
NT.EndPointClosed ->
return ()
NT.ReceivedMulticast _ _ ->
fail "Cloud Haskell fatal error: received unexpected multicast"
invalidRequest :: NT.ConnectionId -> ConnectionState -> String -> IO ()
invalidRequest cid st msg = do
traceEventFmtIO node "" [ TraceStr $ " [network] invalid request"
++ " (" ++ msg ++ "): "
, (Trace cid)
]
go ( incomingAt cid ^= Nothing
$ st
)
endpoint = localEndPoint node
ctrlChan = localCtrlChan node
runNodeController :: LocalNode -> IO ()
runNodeController node =
runReaderT (evalStateT (unNC nodeController) initNCState) node
`Exception.catch` \(NodeClosedException _) -> return ()
data NCState = NCState
{
_links :: !(BiMultiMap Identifier ProcessId ())
, _monitors :: !(BiMultiMap Identifier ProcessId MonitorRef)
, _registeredHere :: !(Map String ProcessId)
, _registeredOnNodes :: !(Map ProcessId [(NodeId,Int)])
}
newtype NC a = NC { unNC :: StateT NCState (ReaderT LocalNode IO) a }
deriving ( Applicative
, Functor
, Monad
, MonadIO
, MonadState NCState
, MonadReader LocalNode
)
initNCState :: NCState
initNCState = NCState { _links = BiMultiMap.empty
, _monitors = BiMultiMap.empty
, _registeredHere = Map.empty
, _registeredOnNodes = Map.empty
}
data ProcessKillException =
ProcessKillException !ProcessId !String
deriving (Typeable)
instance Exception ProcessKillException
instance Show ProcessKillException where
show (ProcessKillException pid reason) =
"killed-by=" ++ show pid ++ ",reason=" ++ reason
ncSendToProcess :: ProcessId -> Message -> NC ()
ncSendToProcess = ncSendToProcessAndTrace True
ncSendToProcessAndTrace :: Bool -> ProcessId -> Message -> NC ()
ncSendToProcessAndTrace shouldTrace pid msg = do
node <- ask
if processNodeId pid == localNodeId node
then ncEffectLocalSendAndTrace shouldTrace node pid msg
else liftIO $ sendBinary node
(NodeIdentifier $ localNodeId node)
(NodeIdentifier $ processNodeId pid)
WithImplicitReconnect
NCMsg { ctrlMsgSender = NodeIdentifier $ localNodeId node
, ctrlMsgSignal = UnreliableSend (processLocalId pid) msg
}
ncSendToNode :: NodeId -> NCMsg -> NC ()
ncSendToNode to msg = do
node <- ask
liftIO $ if to == localNodeId node
then writeChan (localCtrlChan node) $! msg
else sendBinary node
(NodeIdentifier $ localNodeId node)
(NodeIdentifier to)
WithImplicitReconnect
msg
traceNotifyDied :: LocalNode -> Identifier -> DiedReason -> NC ()
traceNotifyDied node ident reason =
liftIO $ withLocalTracer node $ \t ->
case ident of
(NodeIdentifier nid) -> traceEvent t (MxNodeDied nid reason)
(ProcessIdentifier pid) -> traceEvent t (MxProcessDied pid reason)
_ -> return ()
traceEventFmtIO :: LocalNode
-> String
-> [TraceArg]
-> IO ()
traceEventFmtIO node fmt args =
withLocalTracer node $ \t -> traceLogFmt t fmt args
trace :: LocalNode -> MxEvent -> IO ()
trace node ev = withLocalTracer node $ \t -> traceEvent t ev
withLocalTracer :: LocalNode -> (MxEventBus -> IO ()) -> IO ()
withLocalTracer node act = act (localEventBus node)
nodeController :: NC ()
nodeController = do
node <- ask
forever' $ do
msg <- liftIO $ readChan (localCtrlChan node)
case destNid (ctrlMsgSignal msg) of
Just nid' | nid' /= localNodeId node ->
ncSendToNode nid' msg
_ ->
return ()
case msg of
NCMsg (ProcessIdentifier from) (Link them) ->
ncEffectMonitor from them Nothing
NCMsg (ProcessIdentifier from) (Monitor ref) ->
ncEffectMonitor from (monitorRefIdent ref) (Just ref)
NCMsg (ProcessIdentifier from) (Unlink them) ->
ncEffectUnlink from them
NCMsg (ProcessIdentifier from) (Unmonitor ref) ->
ncEffectUnmonitor from ref
NCMsg _from (Died ident reason) ->
ncEffectDied ident reason
NCMsg (ProcessIdentifier from) (Spawn proc ref) ->
ncEffectSpawn from proc ref
NCMsg (ProcessIdentifier from) (Register label atnode pid force) ->
ncEffectRegister from label atnode pid force
NCMsg (ProcessIdentifier from) (WhereIs label) ->
ncEffectWhereIs from label
NCMsg _ (NamedSend label msg') ->
ncEffectNamedSend label msg'
NCMsg _ (UnreliableSend lpid msg') ->
ncEffectLocalSend node (ProcessId (localNodeId node) lpid) msg'
NCMsg _ (LocalSend to msg') ->
ncEffectLocalSend node to msg'
NCMsg _ (LocalPortSend to msg') ->
ncEffectLocalPortSend to msg'
NCMsg (ProcessIdentifier from) (Kill to reason) ->
ncEffectKill from to reason
NCMsg (ProcessIdentifier from) (Exit to reason) ->
ncEffectExit from to reason
NCMsg (ProcessIdentifier from) (GetInfo pid) ->
ncEffectGetInfo from pid
NCMsg _ SigShutdown ->
liftIO $ do
NT.closeEndPoint (localEndPoint node)
`Exception.finally` throwIO (NodeClosedException $ localNodeId node)
NCMsg (ProcessIdentifier from) (GetNodeStats nid) ->
ncEffectGetNodeStats from nid
unexpected ->
error $ "nodeController: unexpected message " ++ show unexpected
ncEffectMonitor :: ProcessId
-> Identifier
-> Maybe MonitorRef
-> NC ()
ncEffectMonitor from them mRef = do
node <- ask
shouldLink <-
if not (isLocal node them)
then return True
else isValidLocalIdentifier them
case (shouldLink, isLocal node (ProcessIdentifier from)) of
(True, _) ->
case mRef of
Just ref -> modify' $ monitors ^: BiMultiMap.insert them from ref
Nothing -> modify' $ links ^: BiMultiMap.insert them from ()
(False, True) ->
notifyDied from them DiedUnknownId mRef
(False, False) ->
ncSendToNode (processNodeId from) $ NCMsg
{ ctrlMsgSender = NodeIdentifier (localNodeId node)
, ctrlMsgSignal = Died them DiedUnknownId
}
ncEffectUnlink :: ProcessId -> Identifier -> NC ()
ncEffectUnlink from them = do
node <- ask
when (isLocal node (ProcessIdentifier from)) $
case them of
ProcessIdentifier pid ->
postAsMessage from $ DidUnlinkProcess pid
NodeIdentifier nid ->
postAsMessage from $ DidUnlinkNode nid
SendPortIdentifier cid ->
postAsMessage from $ DidUnlinkPort cid
modify' $ links ^: BiMultiMap.delete them from ()
ncEffectUnmonitor :: ProcessId -> MonitorRef -> NC ()
ncEffectUnmonitor from ref = do
node <- ask
when (isLocal node (ProcessIdentifier from)) $
postAsMessage from $ DidUnmonitor ref
modify' $ monitors ^: BiMultiMap.delete (monitorRefIdent ref) from ref
ncEffectDied :: Identifier -> DiedReason -> NC ()
ncEffectDied ident reason = do
node <- ask
traceNotifyDied node ident reason
(affectedLinks, unaffectedLinks) <- gets (splitNotif ident . (^. links))
(affectedMons, unaffectedMons) <- gets (splitNotif ident . (^. monitors))
let localOnly = case ident of NodeIdentifier _ -> True ; _ -> False
forM_ (Map.toList affectedLinks) $ \(them, uss) ->
forM_ uss $ \(us, _) ->
when (localOnly <= isLocal node (ProcessIdentifier us)) $
notifyDied us them reason Nothing
forM_ (Map.toList affectedMons) $ \(them, refs) ->
forM_ refs $ \(us, ref) ->
when (localOnly <= isLocal node (ProcessIdentifier us)) $
notifyDied us them reason (Just ref)
mapM_ (forwardDeath node) $
[ nid | ProcessIdentifier pid <- [ident]
, i <- Set.toList $ Set.union
(Set.map fst $ BiMultiMap.lookupBy2nd pid unaffectedLinks)
(Set.map fst $ BiMultiMap.lookupBy2nd pid unaffectedMons)
, let nid = nodeOf i
, nid /= localNodeId node
]
let deleteDeads :: (Ord a, Ord v)
=> BiMultiMap a ProcessId v -> BiMultiMap a ProcessId v
deleteDeads = case ident of
ProcessIdentifier pid -> BiMultiMap.deleteAllBy2nd pid
_ -> snd . BiMultiMap.partitionWithKeyBy2nd
(\pid _ -> ident `impliesDeathOf` ProcessIdentifier pid)
unaffectedLinks' = deleteDeads unaffectedLinks
unaffectedMons' = deleteDeads unaffectedMons
modify' $ (links ^= unaffectedLinks') . (monitors ^= unaffectedMons')
modify' $ registeredHere ^: Map.filter (\pid -> not $ ident `impliesDeathOf` ProcessIdentifier pid)
remaining <- fmap Map.toList (gets (^. registeredOnNodes)) >>=
mapM (\(pid,nidlist) ->
case ident `impliesDeathOf` ProcessIdentifier pid of
True ->
do forM_ nidlist $ \(nid,_) ->
when (not $ isLocal node (NodeIdentifier nid))
(forwardDeath node nid)
return Nothing
False -> return $ Just (pid,nidlist) )
modify' $ registeredOnNodes ^= (Map.fromList (catMaybes remaining))
where
forwardDeath node nid = ncSendToNode nid
NCMsg { ctrlMsgSender = NodeIdentifier (localNodeId node)
, ctrlMsgSignal = Died ident reason
}
ncEffectSpawn :: ProcessId -> Closure (Process ()) -> SpawnRef -> NC ()
ncEffectSpawn pid cProc ref = do
mProc <- unClosure cProc
let proc = case mProc of
Left err -> fail $ "Error: Could not resolve closure: " ++ err
Right p -> p
node <- ask
pid' <- liftIO $ forkProcess node proc
ncSendToProcess pid $ unsafeCreateUnencodedMessage $ DidSpawn ref pid'
ncEffectRegister :: ProcessId -> String -> NodeId -> Maybe ProcessId -> Bool -> NC ()
ncEffectRegister from label atnode mPid reregistration = do
node <- ask
currentVal <- gets (^. registeredHereFor label)
isOk <-
case mPid of
Nothing ->
return $ isJust currentVal
Just thepid ->
do isvalidlocal <- isValidLocalIdentifier (ProcessIdentifier thepid)
return $ (isNothing currentVal /= reregistration) &&
(not (isLocal node (ProcessIdentifier thepid) ) || isvalidlocal )
if isLocal node (NodeIdentifier atnode)
then do when isOk $
do modify' $ registeredHereFor label ^= mPid
updateRemote node currentVal mPid
case mPid of
(Just p) -> liftIO $ trace node (MxRegistered p label)
Nothing -> liftIO $ trace node (MxUnRegistered (fromJust currentVal) label)
newVal <- gets (^. registeredHereFor label)
ncSendToProcess from $ unsafeCreateUnencodedMessage $
RegisterReply label isOk newVal
else let operation =
case reregistration of
True -> flip decList
False -> flip incList
in case mPid of
Nothing -> return ()
Just pid -> modify' $ registeredOnNodesFor pid ^: (maybeify $ operation atnode)
where updateRemote node (Just oldval) (Just newval) | processNodeId oldval /= processNodeId newval =
do forward node (processNodeId oldval) (Register label atnode (Just oldval) True)
forward node (processNodeId newval) (Register label atnode (Just newval) False)
updateRemote node Nothing (Just newval) =
forward node (processNodeId newval) (Register label atnode (Just newval) False)
updateRemote node (Just oldval) Nothing =
forward node (processNodeId oldval) (Register label atnode (Just oldval) True)
updateRemote _ _ _ = return ()
maybeify f Nothing = unmaybeify $ f []
maybeify f (Just x) = unmaybeify $ f x
unmaybeify [] = Nothing
unmaybeify x = Just x
incList [] tag = [(tag,1)]
incList ((atag,acount):xs) tag | tag==atag = (atag,acount+1) : xs
incList (x:xs) tag = x : incList xs tag
decList [] _ = []
decList ((atag,1):xs) tag | atag == tag = xs
decList ((atag,n):xs) tag | atag == tag = (atag,n1):xs
decList (x:xs) tag = x:decList xs tag
forward node to reg =
when (not $ isLocal node (NodeIdentifier to)) $
ncSendToNode to $ NCMsg { ctrlMsgSender = ProcessIdentifier from
, ctrlMsgSignal = reg
}
ncEffectWhereIs :: ProcessId -> String -> NC ()
ncEffectWhereIs from label = do
mPid <- gets (^. registeredHereFor label)
ncSendToProcess from $ unsafeCreateUnencodedMessage $ WhereIsReply label mPid
ncEffectNamedSend :: String -> Message -> NC ()
ncEffectNamedSend label msg = do
mPid <- gets (^. registeredHereFor label)
forM_ mPid $ \to ->
ncSendToProcessAndTrace (label /= "trace.logger") to msg
ncEffectLocalSend :: LocalNode -> ProcessId -> Message -> NC ()
ncEffectLocalSend = ncEffectLocalSendAndTrace True
ncEffectLocalSendAndTrace :: Bool -> LocalNode -> ProcessId -> Message -> NC ()
ncEffectLocalSendAndTrace shouldTrace node to msg =
liftIO $ withLocalProc node to $ \p -> do
enqueue (processQueue p) msg
when shouldTrace $ trace node (MxReceived to msg)
ncEffectLocalPortSend :: SendPortId -> Message -> NC ()
ncEffectLocalPortSend from msg = do
node <- ask
let pid = sendPortProcessId from
cid = sendPortLocalId from
liftIO $ withLocalProc node pid $ \proc -> do
mChan <- withMVar (processState proc) $ return . (^. typedChannelWithId cid)
case mChan of
Nothing -> return ()
Just (TypedChannel chan') -> do
ch <- deRefWeak chan'
forM_ ch $ \chan -> deliverChan msg chan
where deliverChan :: forall a . Message -> TQueue a -> IO ()
deliverChan (UnencodedMessage _ raw) chan' =
atomically $ writeTQueue chan' ((unsafeCoerce raw) :: a)
deliverChan (EncodedMessage _ _) _ =
error "invalid local channel delivery"
ncEffectKill :: ProcessId -> ProcessId -> String -> NC ()
ncEffectKill from to reason = do
node <- ask
when (isLocal node (ProcessIdentifier to)) $
throwException to $ ProcessKillException from reason
ncEffectExit :: ProcessId -> ProcessId -> Message -> NC ()
ncEffectExit from to reason = do
node <- ask
when (isLocal node (ProcessIdentifier to)) $
throwException to $ ProcessExitException from reason
ncEffectGetInfo :: ProcessId -> ProcessId -> NC ()
ncEffectGetInfo from pid =
let lpid = processLocalId pid
them = (ProcessIdentifier pid)
in do
node <- ask
mProc <- liftIO $ withValidLocalState node
$ return . (^. localProcessWithId lpid)
case mProc of
Nothing -> dispatch (isLocal node (ProcessIdentifier from))
from (ProcessInfoNone DiedUnknownId)
Just proc -> do
itsLinks <- Set.map fst . BiMultiMap.lookupBy1st them <$>
gets (^. links)
itsMons <- BiMultiMap.lookupBy1st them <$> gets (^. monitors)
registered <- gets (^. registeredHere)
size <- liftIO $ queueSize $ processQueue $ proc
let reg = registeredNames registered
dispatch (isLocal node (ProcessIdentifier from))
from
ProcessInfo {
infoNode = (processNodeId pid)
, infoRegisteredNames = reg
, infoMessageQueueLength = size
, infoMonitors = Set.toList itsMons
, infoLinks = Set.toList itsLinks
}
where dispatch :: (Serializable a)
=> Bool
-> ProcessId
-> a
-> NC ()
dispatch True dest pInfo = postAsMessage dest $ pInfo
dispatch False dest pInfo =
ncSendToProcess dest $ unsafeCreateUnencodedMessage pInfo
registeredNames = Map.foldlWithKey (\ks k v -> if v == pid
then (k:ks)
else ks) []
ncEffectGetNodeStats :: ProcessId -> NodeId -> NC ()
ncEffectGetNodeStats from _nid = do
node <- ask
ncState <- StateT.get
nodeState <- liftIO $ withValidLocalState node return
let stats =
NodeStats {
nodeStatsNode = localNodeId node
, nodeStatsRegisteredNames = Map.size $ ncState ^. registeredHere
, nodeStatsMonitors = BiMultiMap.size $ ncState ^. monitors
, nodeStatsLinks = BiMultiMap.size $ ncState ^. links
, nodeStatsProcesses = Map.size (nodeState ^. localProcesses)
}
postAsMessage from stats
notifyDied :: ProcessId
-> Identifier
-> DiedReason
-> Maybe MonitorRef
-> NC ()
notifyDied dest src reason mRef = do
node <- ask
case (isLocal node (ProcessIdentifier dest), mRef, src) of
(True, Just ref, ProcessIdentifier pid) ->
postAsMessage dest $ ProcessMonitorNotification ref pid reason
(True, Just ref, NodeIdentifier nid) ->
postAsMessage dest $ NodeMonitorNotification ref nid reason
(True, Just ref, SendPortIdentifier cid) ->
postAsMessage dest $ PortMonitorNotification ref cid reason
(True, Nothing, ProcessIdentifier pid) ->
throwException dest $ ProcessLinkException pid reason
(True, Nothing, NodeIdentifier pid) ->
throwException dest $ NodeLinkException pid reason
(True, Nothing, SendPortIdentifier pid) ->
throwException dest $ PortLinkException pid reason
(False, _, _) ->
ncSendToNode (processNodeId dest) $ NCMsg
{ ctrlMsgSender = NodeIdentifier (localNodeId node)
, ctrlMsgSignal = Died src reason
}
destNid :: ProcessSignal -> Maybe NodeId
destNid (Link ident) = Just $ nodeOf ident
destNid (Unlink ident) = Just $ nodeOf ident
destNid (Monitor ref) = Just $ nodeOf (monitorRefIdent ref)
destNid (Unmonitor ref) = Just $ nodeOf (monitorRefIdent ref)
destNid (Spawn _ _) = Nothing
destNid (Register _ _ _ _) = Nothing
destNid (WhereIs _) = Nothing
destNid (NamedSend _ _) = Nothing
destNid (UnreliableSend _ _) = Nothing
destNid (Died _ _) = Nothing
destNid (Kill pid _) = Just $ processNodeId pid
destNid (Exit pid _) = Just $ processNodeId pid
destNid (GetInfo pid) = Just $ processNodeId pid
destNid (GetNodeStats nid) = Just nid
destNid (LocalSend pid _) = Just $ processNodeId pid
destNid (LocalPortSend cid _) = Just $ processNodeId (sendPortProcessId cid)
destNid (SigShutdown) = Nothing
isLocal :: LocalNode -> Identifier -> Bool
isLocal nid ident = nodeOf ident == localNodeId nid
unClosure :: Typeable a => Closure a -> NC (Either String a)
unClosure closure = do
rtable <- remoteTable <$> ask
return (Static.unclosure rtable closure)
isValidLocalIdentifier :: Identifier -> NC Bool
isValidLocalIdentifier ident = do
node <- ask
liftIO . withValidLocalState node $ \nSt ->
case ident of
NodeIdentifier nid ->
return $ nid == localNodeId node
ProcessIdentifier pid -> do
let mProc = nSt ^. localProcessWithId (processLocalId pid)
return $ isJust mProc
SendPortIdentifier cid -> do
let pid = sendPortProcessId cid
mProc = nSt ^. localProcessWithId (processLocalId pid)
case mProc of
Nothing -> return False
Just proc -> withMVar (processState proc) $ \pSt -> do
let mCh = pSt ^. typedChannelWithId (sendPortLocalId cid)
return $ isJust mCh
postAsMessage :: Serializable a => ProcessId -> a -> NC ()
postAsMessage pid = postMessage pid . createUnencodedMessage
postMessage :: ProcessId -> Message -> NC ()
postMessage pid msg = do
node <- ask
liftIO $ withLocalProc node pid $ \p -> enqueue (processQueue p) msg
throwException :: Exception e => ProcessId -> e -> NC ()
throwException pid e = do
node <- ask
liftIO $ withLocalProc node pid $ \p -> throwTo (processThread p) e
withLocalProc :: LocalNode -> ProcessId -> (LocalProcess -> IO ()) -> IO ()
withLocalProc node pid p =
let lpid = processLocalId pid in do
join $ withValidLocalState node $ \vst ->
return $ forM_ (vst ^. localProcessWithId lpid) p
links :: Accessor NCState (BiMultiMap Identifier ProcessId ())
links = accessor _links (\ls st -> st { _links = ls })
monitors :: Accessor NCState (BiMultiMap Identifier ProcessId MonitorRef)
monitors = accessor _monitors (\ms st -> st { _monitors = ms })
registeredHere :: Accessor NCState (Map String ProcessId)
registeredHere = accessor _registeredHere (\ry st -> st { _registeredHere = ry })
registeredOnNodes :: Accessor NCState (Map ProcessId [(NodeId, Int)])
registeredOnNodes = accessor _registeredOnNodes (\ry st -> st { _registeredOnNodes = ry })
registeredHereFor :: String -> Accessor NCState (Maybe ProcessId)
registeredHereFor ident = registeredHere >>> DAC.mapMaybe ident
registeredOnNodesFor :: ProcessId -> Accessor NCState (Maybe [(NodeId,Int)])
registeredOnNodesFor ident = registeredOnNodes >>> DAC.mapMaybe ident
splitNotif :: (Ord a, Ord v)
=> Identifier
-> BiMultiMap Identifier a v
-> (Map Identifier (Set (a,v)), BiMultiMap Identifier a v)
splitNotif ident =
BiMultiMap.partitionWithKeyBy1st (\k !_v -> ident `impliesDeathOf` k)
modify' :: MonadState s m => (s -> s) -> m ()
modify' f = StateT.get >>= \s -> StateT.put $! f s