{-# LANGUAGE CPP #-} {- | [Cloud Haskell] This is an implementation of Cloud Haskell, as described in /Towards Haskell in the Cloud/ by Jeff Epstein, Andrew Black, and Simon Peyton Jones (see <http://research.microsoft.com/en-us/um/people/simonpj/papers/parallel/>), although some of the details are different. The precise message passing semantics are based on /A unified semantics for future Erlang/ by Hans Svensson, Lars-Åke Fredlund and Clara Benac Earle. For a detailed description of the package and other reference materials, please see the distributed-process wiki page on github: <https://github.com/haskell-distributed/distributed-process/wiki>. -} module Control.Distributed.Process ( -- * Basic types ProcessId , NodeId(..) , Process , SendPortId , processNodeId , sendPortProcessId , liftIO -- Reexported for convenience -- * Basic messaging , send , expect , expectTimeout -- * Channels , ReceivePort , SendPort , sendPortId , newChan , sendChan , receiveChan , receiveChanTimeout , mergePortsBiased , mergePortsRR -- * Unsafe messaging variants , unsafeSend , unsafeSendChan , unsafeNSend , unsafeWrapMessage -- * Advanced messaging , Match , receiveWait , receiveTimeout , match , matchIf , matchUnknown , matchAny , matchAnyIf , matchChan , matchSTM , Message , matchMessage , matchMessageIf , isEncoded , wrapMessage , unwrapMessage , handleMessage , handleMessageIf , handleMessage_ , handleMessageIf_ , forward , delegate , relay , proxy -- * Process management , spawn , call , terminate , die , kill , exit , catchExit , catchesExit , ProcessTerminationException(..) , ProcessRegistrationException(..) , SpawnRef , getSelfPid , getSelfNode , ProcessInfo(..) , getProcessInfo , NodeStats(..) , getNodeStats , getLocalNodeStats -- * Monitoring and linking , link , linkNode , linkPort , unlink , unlinkNode , unlinkPort , monitor , monitorNode , monitorPort , unmonitor , withMonitor , MonitorRef -- opaque , ProcessLinkException(..) , NodeLinkException(..) , PortLinkException(..) , ProcessMonitorNotification(..) , NodeMonitorNotification(..) , PortMonitorNotification(..) , DiedReason(..) -- * Closures , Closure , closure , Static , unStatic , unClosure , RemoteTable -- * Logging , say -- * Registry , register , reregister , unregister , whereis , nsend , registerRemoteAsync , reregisterRemoteAsync , unregisterRemoteAsync , whereisRemoteAsync , nsendRemote , WhereIsReply(..) , RegisterReply(..) -- * Exception handling , catch , Handler(..) , catches , try , mask , mask_ , onException , bracket , bracket_ , finally -- * Auxiliary API , spawnAsync , spawnSupervised , spawnLink , spawnMonitor , spawnChannel , DidSpawn(..) -- * Local versions of 'spawn' , spawnLocal , spawnChannelLocal -- * Reconnecting , reconnect , reconnectPort ) where #if ! MIN_VERSION_base(4,6,0) import Prelude hiding (catch) #endif import Control.Monad.IO.Class (liftIO) import Control.Applicative ((<$>)) import Control.Monad.Reader (ask) import Control.Concurrent.MVar (newEmptyMVar, takeMVar, putMVar) import Control.Distributed.Static ( Closure , closure , Static , RemoteTable ) import Control.Distributed.Process.Internal.Types ( NodeId(..) , ProcessId(..) , Process(..) , MonitorRef(..) , ProcessMonitorNotification(..) , NodeMonitorNotification(..) , PortMonitorNotification(..) , ProcessLinkException(..) , NodeLinkException(..) , PortLinkException(..) , ProcessRegistrationException(..) , DiedReason(..) , SpawnRef(..) , DidSpawn(..) , SendPort(..) , ReceivePort(..) , SendPortId(..) , WhereIsReply(..) , RegisterReply(..) , LocalProcess(processNode) , Message ) import Control.Distributed.Process.Serializable (Serializable) import Control.Distributed.Process.Internal.Primitives ( -- Basic messaging send , expect -- Channels , newChan , sendChan , receiveChan , mergePortsBiased , mergePortsRR , unsafeSend , unsafeSendChan , unsafeNSend -- Advanced messaging , Match , receiveWait , receiveTimeout , match , matchIf , matchUnknown , matchAny , matchAnyIf , matchChan , matchSTM , matchMessage , matchMessageIf , isEncoded , wrapMessage , unsafeWrapMessage , unwrapMessage , handleMessage , handleMessageIf , handleMessage_ , handleMessageIf_ , forward , delegate , relay , proxy -- Process management , terminate , ProcessTerminationException(..) , die , exit , catchExit , catchesExit , kill , getSelfPid , getSelfNode , ProcessInfo(..) , getProcessInfo , NodeStats(..) , getNodeStats , getLocalNodeStats -- Monitoring and linking , link , linkNode , linkPort , unlink , unlinkNode , unlinkPort , monitor , monitorNode , monitorPort , unmonitor , withMonitor -- Logging , say -- Registry , register , reregister , unregister , whereis , nsend , registerRemoteAsync , reregisterRemoteAsync , unregisterRemoteAsync , whereisRemoteAsync , nsendRemote -- Closures , unStatic , unClosure -- Exception handling , catch , Handler(..) , catches , try , mask , mask_ , onException , bracket , bracket_ , finally -- Auxiliary API , expectTimeout , receiveChanTimeout , spawnAsync -- Reconnecting , reconnect , reconnectPort ) import Control.Distributed.Process.Node (forkProcess) import Control.Distributed.Process.Internal.Spawn ( -- Spawning Processes/Channels spawn , spawnLink , spawnMonitor , spawnChannel , spawnSupervised , call ) -- INTERNAL NOTES -- -- 1. 'send' never fails. If you want to know that the remote process received -- your message, you will need to send an explicit acknowledgement. If you -- want to know when the remote process failed, you will need to monitor -- that remote process. -- -- 2. 'send' may block (when the system TCP buffers are full, while we are -- trying to establish a connection to the remote endpoint, etc.) but its -- return does not imply that the remote process received the message (much -- less processed it). When 'send' targets a local process, it is dispatched -- via the node controller however, in which cases it will /not/ block. This -- isn't part of the semantics, so it should be ok. The ordering is maintained -- because the ctrlChannel still has FIFO semantics with regards interactions -- between two disparate forkIO threads. -- -- 3. Message delivery is reliable and ordered. That means that if process A -- sends messages m1, m2, m3 to process B, B will either arrive all three -- messages in order (m1, m2, m3) or a prefix thereof; messages will not be -- 'missing' (m1, m3) or reordered (m1, m3, m2) -- -- In order to guarantee (3), we stipulate that -- -- 3a. We do not garbage collect connections because Network.Transport provides -- ordering guarantees only *per connection*. -- -- 3b. Once a connection breaks, we have no way of knowing which messages -- arrived and which did not; hence, once a connection fails, we assume the -- remote process to be forever unreachable. Otherwise we might sent m1 and -- m2, get notified of the broken connection, reconnect, send m3, but only -- m1 and m3 arrive. -- -- 3c. As a consequence of (3b) we should not reuse PIDs. If a process dies, -- we consider it forever unreachable. Hence, new processes should get new -- IDs or they too would be considered unreachable. -- -- Main reference for Cloud Haskell is -- -- [1] "Towards Haskell in the Cloud", Jeff Epstein, Andrew Black and Simon -- Peyton-Jones. -- http://research.microsoft.com/en-us/um/people/simonpj/papers/parallel/remote.pdf -- -- The precise semantics for message passing is based on -- -- [2] "A Unified Semantics for Future Erlang", Hans Svensson, Lars-Ake Fredlund -- and Clara Benac Earle (not freely available online, unfortunately) -- -- Some pointers to related documentation about Erlang, for comparison and -- inspiration: -- -- [3] "Programming Distributed Erlang Applications: Pitfalls and Recipes", -- Hans Svensson and Lars-Ake Fredlund -- http://man.lupaworld.com/content/develop/p37-svensson.pdf -- [4] The Erlang manual, sections "Message Sending" and "Send" -- http://www.erlang.org/doc/reference_manual/processes.html#id82409 -- http://www.erlang.org/doc/reference_manual/expressions.html#send -- [5] Questions "Is the order of message reception guaranteed?" and -- "If I send a message, is it guaranteed to reach the receiver?" of -- the Erlang FAQ -- http://www.erlang.org/faq/academic.html -- [6] "Delivery of Messages", post on erlang-questions -- http://erlang.org/pipermail/erlang-questions/2012-February/064767.html -------------------------------------------------------------------------------- -- Local versions of spawn -- -------------------------------------------------------------------------------- -- | Spawn a process on the local node spawnLocal :: Process () -> Process ProcessId spawnLocal proc = do node <- processNode <$> ask liftIO $ forkProcess node proc -- | Create a new typed channel, spawn a process on the local node, passing it -- the receive port, and return the send port spawnChannelLocal :: Serializable a => (ReceivePort a -> Process ()) -> Process (SendPort a) spawnChannelLocal proc = do node <- processNode <$> ask liftIO $ do mvar <- newEmptyMVar _ <- forkProcess node $ do -- It is important that we allocate the new channel in the new process, -- because otherwise it will be associated with the wrong process ID (sport, rport) <- newChan liftIO $ putMVar mvar sport proc rport takeMVar mvar