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Node.hs
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Node.hs
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-- | Local nodes
module Control.Distributed.Process.Node
( LocalNode
, newLocalNode
, closeLocalNode
, forkProcess
, runProcess
, initRemoteTable
, localNodeId
) where
#if ! MIN_VERSION_base(4,6,0)
import Prelude hiding (catch)
#endif
import System.IO (fixIO, hPutStrLn, stderr)
import qualified Data.ByteString.Lazy as BSL (fromChunks)
import Data.Binary (decode)
import Data.Map (Map)
import qualified Data.Map as Map
( empty
, lookup
, insert
, delete
, toList
, partitionWithKey
, filterWithKey
, elems
)
import Data.Set (Set)
import qualified Data.Set as Set (empty, insert, delete, member, filter)
import Data.Foldable (forM_)
import Data.Maybe (isJust)
import Data.Typeable (Typeable)
import Control.Category ((>>>))
import Control.Applicative ((<$>))
import Control.Monad (void, when)
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)
import qualified Control.Exception as Exception (catch)
import Control.Concurrent (forkIO)
import Control.Distributed.Process.Internal.StrictMVar
( newMVar
, withMVar
, modifyMVar
, modifyMVar_
, newEmptyMVar
, putMVar
, takeMVar
)
import Control.Concurrent.Chan (newChan, writeChan, readChan)
import Control.Concurrent.STM (atomically, writeTChan)
import Control.Distributed.Process.Internal.CQueue (enqueue, newCQueue)
import qualified Network.Transport as NT
( Transport
, EndPoint
, newEndPoint
, receive
, Event(..)
, EventErrorCode(..)
, TransportError(..)
, address
, closeEndPoint
, ConnectionId
, Connection
, close
)
import Data.Accessor (Accessor, accessor, (^.), (^=), (^:))
import qualified Data.Accessor.Container as DAC (mapDefault, mapMaybe)
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(..)
, LocalNodeState(..)
, LocalProcess(..)
, LocalProcessState(..)
, Process(..)
, DiedReason(..)
, NCMsg(..)
, ProcessSignal(..)
, localPidCounter
, localPidUnique
, localProcessWithId
, localConnections
, MonitorRef(..)
, ProcessMonitorNotification(..)
, NodeMonitorNotification(..)
, PortMonitorNotification(..)
, ProcessLinkException(..)
, NodeLinkException(..)
, PortLinkException(..)
, DidUnmonitor(..)
, DidUnlinkProcess(..)
, DidUnlinkNode(..)
, DidUnlinkPort(..)
, SpawnRef
, DidSpawn(..)
, Message
, TypedChannel(..)
, Identifier(..)
, nodeOf
, SendPortId(..)
, typedChannelWithId
, WhereIsReply(..)
, messageToPayload
, payloadToMessage
, createMessage
, runLocalProcess
)
import Control.Distributed.Process.Serializable (Serializable)
import Control.Distributed.Process.Internal.Node
( sendBinary
, sendMessage
, sendPayload
, reconnect
)
import Control.Distributed.Process.Internal.Primitives (expect, register, finally)
import qualified Control.Distributed.Process.Internal.Closure.BuiltIn as BuiltIn (remoteTable)
--------------------------------------------------------------------------------
-- Initialization --
--------------------------------------------------------------------------------
initRemoteTable :: RemoteTable
initRemoteTable = BuiltIn.remoteTable Static.initRemoteTable
-- | Initialize a new local node.
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
-- | Create a new local node (without any service processes running)
createBareLocalNode :: NT.EndPoint -> RemoteTable -> IO LocalNode
createBareLocalNode endPoint rtable = do
unq <- randomIO
state <- newMVar LocalNodeState
{ _localProcesses = Map.empty
, _localPidCounter = 0
, _localPidUnique = unq
, _localConnections = Map.empty
}
ctrlChan <- newChan
let node = LocalNode { localNodeId = NodeId $ NT.address endPoint
, localEndPoint = endPoint
, localState = state
, localCtrlChan = ctrlChan
, remoteTable = rtable
}
void . forkIO $ runNodeController node
void . forkIO $ handleIncomingMessages node
return node
-- Like 'Control.Monad.forever' but sans space leak
{-# INLINE forever' #-}
forever' :: Monad m => m a -> m b
forever' a = let a' = a >> a' in a'
-- | Start and register the service processes on a node
-- (for now, this is only the logger)
startServiceProcesses :: LocalNode -> IO ()
startServiceProcesses node = do
logger <- forkProcess node . forever' $ do
(time, pid, string) <- expect :: Process (String, ProcessId, String)
liftIO . hPutStrLn stderr $ time ++ " " ++ show pid ++ ": " ++ string
runProcess node $ register "logger" logger
-- | Force-close a local node
--
-- TODO: for now we just close the associated endpoint
closeLocalNode :: LocalNode -> IO ()
closeLocalNode node =
NT.closeEndPoint (localEndPoint node)
-- | Run a process on a local node and wait for it to finish
runProcess :: LocalNode -> Process () -> IO ()
runProcess node proc = do
done <- newEmptyMVar
void $ forkProcess node (proc `finally` liftIO (putMVar done ()))
takeMVar done
-- | Spawn a new process on a local node
forkProcess :: LocalNode -> Process () -> IO ProcessId
forkProcess node proc = modifyMVar (localState node) startProcess
where
startProcess :: LocalNodeState -> IO (LocalNodeState, ProcessId)
startProcess st = do
let lpid = LocalProcessId { lpidCounter = st ^. localPidCounter
, lpidUnique = st ^. localPidUnique
}
let pid = ProcessId { processNodeId = localNodeId node
, processLocalId = lpid
}
pst <- newMVar LocalProcessState { _monitorCounter = 0
, _spawnCounter = 0
, _channelCounter = 0
, _typedChannels = Map.empty
}
queue <- newCQueue
(_, lproc) <- fixIO $ \ ~(tid, _) -> do
let lproc = LocalProcess { processQueue = queue
, processId = pid
, processState = pst
, processThread = tid
, processNode = node
}
tid' <- forkIO $ do
reason <- Exception.catch
(runLocalProcess lproc proc >> return DiedNormal)
(return . DiedException . (show :: SomeException -> String))
-- [Unified: Table 4, rules termination and exiting]
modifyMVar_ (localState node) (cleanupProcess pid)
writeChan (localCtrlChan node) NCMsg
{ ctrlMsgSender = ProcessIdentifier pid
, ctrlMsgSignal = Died (ProcessIdentifier pid) reason
}
return (tid', lproc)
if lpidCounter lpid == maxBound
then do
newUnique <- randomIO
return ( (localProcessWithId lpid ^= Just lproc)
. (localPidCounter ^= 0)
. (localPidUnique ^= newUnique)
$ st
, pid
)
else
return ( (localProcessWithId lpid ^= Just lproc)
. (localPidCounter ^: (+ 1))
$ st
, pid
)
cleanupProcess :: ProcessId -> LocalNodeState -> IO LocalNodeState
cleanupProcess pid st = do
let pid' = ProcessIdentifier pid
let (affected, unaffected) = Map.partitionWithKey (\(fr, _to) !_v -> impliesDeathOf pid' fr) (st ^. localConnections)
mapM_ NT.close (Map.elems affected)
return $ (localProcessWithId (processLocalId pid) ^= Nothing)
. (localConnections ^= unaffected)
$ st
handleIncomingMessages :: LocalNode -> IO ()
handleIncomingMessages node = go Set.empty Map.empty Map.empty Set.empty
where
go :: Set NT.ConnectionId -- ^ Connections whose purpose we don't yet know
-> Map NT.ConnectionId LocalProcess -- ^ Connections to local processes
-> Map NT.ConnectionId TypedChannel -- ^ Connections to typed channels
-> Set NT.ConnectionId -- ^ Connections to our controller
-> IO ()
go !uninitConns !procs !chans !ctrls = do
event <- NT.receive endpoint
case event of
NT.ConnectionOpened cid _rel _theirAddr ->
-- TODO: Check if _rel is ReliableOrdered, and if not, treat as
-- (**) below.
go (Set.insert cid uninitConns) procs chans ctrls
NT.Received cid payload ->
case ( Map.lookup cid procs
, Map.lookup cid chans
, cid `Set.member` ctrls
, cid `Set.member` uninitConns
) of
(Just proc, _, _, _) -> do
let msg = payloadToMessage payload
enqueue (processQueue proc) msg
go uninitConns procs chans ctrls
(_, Just (TypedChannel chan), _, _) -> do
atomically $ writeTChan chan . decode . BSL.fromChunks $ payload
go uninitConns procs chans ctrls
(_, _, True, _) -> do
let ctrlMsg = decode . BSL.fromChunks $ payload
writeChan ctrlChan ctrlMsg
go uninitConns procs chans ctrls
(_, _, _, True) ->
case decode (BSL.fromChunks payload) of
ProcessIdentifier pid -> do
let lpid = processLocalId pid
mProc <- withMVar state $ return . (^. localProcessWithId lpid)
case mProc of
Just proc ->
go (Set.delete cid uninitConns)
(Map.insert cid proc procs)
chans
ctrls
Nothing ->
-- Request for an unknown process.
--
-- TODO: We should treat this as a fatal error on the
-- part of the remote node. That is, we should report the
-- remote node as having died, and we should close
-- incoming connections (this requires a Transport layer
-- extension). (**)
go (Set.delete cid uninitConns) procs chans ctrls
SendPortIdentifier chId -> do
let lcid = sendPortLocalId chId
lpid = processLocalId (sendPortProcessId chId)
mProc <- withMVar state $ return . (^. localProcessWithId lpid)
case mProc of
Just proc -> do
mChannel <- withMVar (processState proc) $ return . (^. typedChannelWithId lcid)
case mChannel of
Just channel ->
go (Set.delete cid uninitConns)
procs
(Map.insert cid channel chans)
ctrls
Nothing ->
-- Unknown typed channel
-- TODO (**) above
go (Set.delete cid uninitConns) procs chans ctrls
Nothing ->
-- Unknown process
-- TODO (**) above
go (Set.delete cid uninitConns) procs chans ctrls
NodeIdentifier _ ->
go (Set.delete cid uninitConns)
procs
chans
(Set.insert cid ctrls)
_ ->
-- Unexpected message
-- TODO (**) above
go uninitConns procs chans ctrls
NT.ConnectionClosed cid ->
go (Set.delete cid uninitConns)
(Map.delete cid procs)
(Map.delete cid chans)
(Set.delete cid ctrls)
NT.ErrorEvent (NT.TransportError (NT.EventConnectionLost (Just theirAddr) cids) _) -> do
-- [Unified table 9, rule node_disconnect]
let nid = NodeIdentifier $ NodeId theirAddr
writeChan ctrlChan NCMsg
{ ctrlMsgSender = nid
, ctrlMsgSignal = Died nid DiedDisconnect
}
let notRemoved k = k `notElem` cids
go (Set.filter notRemoved uninitConns)
(Map.filterWithKey (const . notRemoved) procs)
(Map.filterWithKey (const . notRemoved) chans)
(Set.filter notRemoved ctrls)
NT.ErrorEvent (NT.TransportError (NT.EventConnectionLost Nothing _) _) ->
-- TODO: We should treat an asymetrical connection loss (incoming
-- connection broken, but outgoing connection still potentially ok)
-- as a fatal error on the part of the remote node (like (**), above)
fail "handleIncomingMessages: TODO"
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 _ _ ->
-- If we received a multicast message, something went horribly wrong
-- and we just give up
fail "Cloud Haskell fatal error: received unexpected multicast"
state = localState node
endpoint = localEndPoint node
ctrlChan = localCtrlChan node
--------------------------------------------------------------------------------
-- Top-level access to the node controller --
--------------------------------------------------------------------------------
runNodeController :: LocalNode -> IO ()
runNodeController =
runReaderT (evalStateT (unNC nodeController) initNCState)
--------------------------------------------------------------------------------
-- Internal data types --
--------------------------------------------------------------------------------
data NCState = NCState
{ -- Mapping from remote processes to linked local processes
_links :: !(Map Identifier (Set ProcessId))
-- Mapping from remote processes to monitoring local processes
, _monitors :: !(Map Identifier (Set (ProcessId, MonitorRef)))
-- Process registry
, _registry :: !(Map String ProcessId)
}
newtype NC a = NC { unNC :: StateT NCState (ReaderT LocalNode IO) a }
deriving (Functor, Monad, MonadIO, MonadState NCState, MonadReader LocalNode)
initNCState :: NCState
initNCState = NCState { _links = Map.empty
, _monitors = Map.empty
, _registry = Map.empty
}
--------------------------------------------------------------------------------
-- Core functionality --
--------------------------------------------------------------------------------
-- [Unified: Table 7]
nodeController :: NC ()
nodeController = do
node <- ask
forever' $ do
msg <- liftIO $ readChan (localCtrlChan node)
-- [Unified: Table 7, rule nc_forward]
case destNid (ctrlMsgSignal msg) of
Just nid' | nid' /= localNodeId node ->
liftIO $ sendBinary node
(ctrlMsgSender msg)
(NodeIdentifier 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 _from (Register label pid) ->
ncEffectRegister label pid
NCMsg (ProcessIdentifier from) (WhereIs label) ->
ncEffectWhereIs from label
NCMsg from (NamedSend label msg') ->
ncEffectNamedSend from label msg'
NCMsg from (Reconnect to) ->
ncEffectReconnect from to
unexpected ->
error $ "nodeController: unexpected message " ++ show unexpected
-- [Unified: Table 10]
ncEffectMonitor :: ProcessId -- ^ Who's watching?
-> Identifier -- ^ Who's being watched?
-> Maybe MonitorRef -- ^ 'Nothing' to link
-> 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, _) -> -- [Unified: first rule]
case mRef of
Just ref -> modify' $ monitorsFor them ^: Set.insert (from, ref)
Nothing -> modify' $ linksFor them ^: Set.insert from
(False, True) -> -- [Unified: second rule]
notifyDied from them DiedUnknownId mRef
(False, False) -> -- [Unified: third rule]
-- TODO: this is the right sender according to the Unified semantics,
-- but perhaps having 'them' as the sender would make more sense
-- (see also: notifyDied)
liftIO $ sendBinary node
(NodeIdentifier $ localNodeId node)
(NodeIdentifier $ processNodeId from)
NCMsg
{ ctrlMsgSender = NodeIdentifier (localNodeId node)
, ctrlMsgSignal = Died them DiedUnknownId
}
-- [Unified: Table 11]
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' $ linksFor them ^: Set.delete from
-- [Unified: Table 11]
ncEffectUnmonitor :: ProcessId -> MonitorRef -> NC ()
ncEffectUnmonitor from ref = do
node <- ask
when (isLocal node (ProcessIdentifier from)) $
postAsMessage from $ DidUnmonitor ref
modify' $ monitorsFor (monitorRefIdent ref) ^: Set.delete (from, ref)
-- [Unified: Table 12]
ncEffectDied :: Identifier -> DiedReason -> NC ()
ncEffectDied ident reason = do
node <- ask
(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)
modify' $ (links ^= unaffectedLinks) . (monitors ^= unaffectedMons)
-- [Unified: Table 13]
ncEffectSpawn :: ProcessId -> Closure (Process ()) -> SpawnRef -> NC ()
ncEffectSpawn pid cProc ref = do
mProc <- unClosure cProc
-- If the closure does not exist, we spawn a process that throws an exception
-- This allows the remote node to find out what's happening
let proc = case mProc of
Left err -> fail $ "Error: Could not resolve closure: " ++ err
Right p -> p
node <- ask
pid' <- liftIO $ forkProcess node proc
liftIO $ sendMessage node
(NodeIdentifier (localNodeId node))
(ProcessIdentifier pid)
(DidSpawn ref pid')
-- Unified semantics does not explicitly describe how to implement 'register',
-- but mentions it's "very similar to nsend" (Table 14)
ncEffectRegister :: String -> Maybe ProcessId -> NC ()
ncEffectRegister label mPid =
modify' $ registryFor label ^= mPid
-- An acknowledgement is not necessary. If we want a synchronous register,
-- it suffices to send a whereis requiry immediately after the register
-- (that may not suffice if we do decide for unreliable messaging instead)
-- Unified semantics does not explicitly describe 'whereis'
ncEffectWhereIs :: ProcessId -> String -> NC ()
ncEffectWhereIs from label = do
node <- ask
mPid <- gets (^. registryFor label)
liftIO $ sendMessage node
(NodeIdentifier (localNodeId node))
(ProcessIdentifier from)
(WhereIsReply label mPid)
-- [Unified: Table 14]
ncEffectNamedSend :: Identifier -> String -> Message -> NC ()
ncEffectNamedSend from label msg = do
mPid <- gets (^. registryFor label)
-- If mPid is Nothing, we just ignore the named send (as per Table 14)
node <- ask
forM_ mPid $ \pid ->
liftIO $ sendPayload node
from
(ProcessIdentifier pid)
(messageToPayload msg)
-- Reconnecting
ncEffectReconnect :: Identifier -> Identifier -> NC ()
ncEffectReconnect from to = do
node <- ask
liftIO $ reconnect node from to
--------------------------------------------------------------------------------
-- Auxiliary --
--------------------------------------------------------------------------------
notifyDied :: ProcessId -- ^ Who to notify?
-> Identifier -- ^ Who died?
-> DiedReason -- ^ How did they die?
-> Maybe MonitorRef -- ^ 'Nothing' for linking
-> 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, _, _) ->
-- TODO: why the change in sender? How does that affect 'reconnect' semantics?
-- (see [Unified: Table 10]
liftIO $ sendBinary node
(NodeIdentifier $ localNodeId node)
(NodeIdentifier $ processNodeId dest)
NCMsg
{ ctrlMsgSender = NodeIdentifier (localNodeId node)
, ctrlMsgSignal = Died src reason
}
-- | [Unified: Table 8]
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 (Reconnect _) = Nothing
-- We don't need to forward 'Died' signals; if monitoring/linking is setup,
-- then when a local process dies the monitoring/linking machinery will take
-- care of notifying remote nodes
destNid (Died _ _) = Nothing
-- | Check if a process is local to our own node
isLocal :: LocalNode -> Identifier -> Bool
isLocal nid ident = nodeOf ident == localNodeId nid
-- | Lookup a local closure
unClosure :: Typeable a => Closure a -> NC (Either String a)
unClosure closure = do
rtable <- remoteTable <$> ask
return (Static.unclosure rtable closure)
-- | Check if an identifier refers to a valid local object
isValidLocalIdentifier :: Identifier -> NC Bool
isValidLocalIdentifier ident = do
node <- ask
liftIO . withMVar (localState 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
--------------------------------------------------------------------------------
-- Messages to local processes --
--------------------------------------------------------------------------------
postAsMessage :: Serializable a => ProcessId -> a -> NC ()
postAsMessage pid = postMessage pid . createMessage
postMessage :: ProcessId -> Message -> NC ()
postMessage pid msg = withLocalProc pid $ \p -> enqueue (processQueue p) msg
throwException :: Exception e => ProcessId -> e -> NC ()
throwException pid e = withLocalProc pid $ \p ->
throwTo (processThread p) e
withLocalProc :: ProcessId -> (LocalProcess -> IO ()) -> NC ()
withLocalProc pid p = do
node <- ask
liftIO $ do
-- By [Unified: table 6, rule missing_process] messages to dead processes
-- can silently be dropped
let lpid = processLocalId pid
mProc <- withMVar (localState node) $ return . (^. localProcessWithId lpid)
forM_ mProc p
--------------------------------------------------------------------------------
-- Accessors --
--------------------------------------------------------------------------------
links :: Accessor NCState (Map Identifier (Set ProcessId))
links = accessor _links (\ls st -> st { _links = ls })
monitors :: Accessor NCState (Map Identifier (Set (ProcessId, MonitorRef)))
monitors = accessor _monitors (\ms st -> st { _monitors = ms })
registry :: Accessor NCState (Map String ProcessId)
registry = accessor _registry (\ry st -> st { _registry = ry })
linksFor :: Identifier -> Accessor NCState (Set ProcessId)
linksFor ident = links >>> DAC.mapDefault Set.empty ident
monitorsFor :: Identifier -> Accessor NCState (Set (ProcessId, MonitorRef))
monitorsFor ident = monitors >>> DAC.mapDefault Set.empty ident
registryFor :: String -> Accessor NCState (Maybe ProcessId)
registryFor ident = registry >>> DAC.mapMaybe ident
-- | @splitNotif ident@ splits a notifications map into those
-- notifications that should trigger when 'ident' fails and those links that
-- should not.
--
-- There is a hierarchy between identifiers: failure of a node implies failure
-- of all processes on that node, and failure of a process implies failure of
-- all typed channels to that process. In other words, if 'ident' refers to a
-- node, then the /should trigger/ set will include
--
-- * the notifications for the node specifically
-- * the notifications for processes on that node, and
-- * the notifications for typed channels to processes on that node.
--
-- Similarly, if 'ident' refers to a process, the /should trigger/ set will
-- include
--
-- * the notifications for that process specifically and
-- * the notifications for typed channels to that process.
splitNotif :: Identifier
-> Map Identifier a
-> (Map Identifier a, Map Identifier a)
splitNotif ident = Map.partitionWithKey (\k !v -> impliesDeathOf ident k)
-- | Does the death of one entity (node, project, channel) imply the death
-- of another?
impliesDeathOf :: Identifier -- ^ Who died
-> Identifier -- ^ Who's being watched
-> Bool -- ^ Does this death implies the death of the watchee?
NodeIdentifier nid `impliesDeathOf` NodeIdentifier nid' =
nid' == nid
NodeIdentifier nid `impliesDeathOf` ProcessIdentifier pid =
processNodeId pid == nid
NodeIdentifier nid `impliesDeathOf` SendPortIdentifier cid =
processNodeId (sendPortProcessId cid) == nid
ProcessIdentifier pid `impliesDeathOf` ProcessIdentifier pid' =
pid' == pid
ProcessIdentifier pid `impliesDeathOf` SendPortIdentifier cid =
sendPortProcessId cid == pid
SendPortIdentifier cid `impliesDeathOf` SendPortIdentifier cid' =
cid' == cid
_ `impliesDeathOf` _ =
False
--------------------------------------------------------------------------------
-- Strict evaluation of the state --
--------------------------------------------------------------------------------
-- | Modify and evaluate the state
modify' :: MonadState s m => (s -> s) -> m ()
modify' f = StateT.get >>= \s -> StateT.put $! f s