Safe Haskell | None |
---|---|
Language | Haskell98 |
Cloud Haskell primitives
We define these in a separate module so that we don't have to rely on the closure combinators
- send :: Serializable a => ProcessId -> a -> Process ()
- expect :: forall a. Serializable a => Process a
- newChan :: Serializable a => Process (SendPort a, ReceivePort a)
- sendChan :: Serializable a => SendPort a -> a -> Process ()
- receiveChan :: Serializable a => ReceivePort a -> Process a
- mergePortsBiased :: Serializable a => [ReceivePort a] -> Process (ReceivePort a)
- mergePortsRR :: Serializable a => [ReceivePort a] -> Process (ReceivePort a)
- unsafeSend :: Serializable a => ProcessId -> a -> Process ()
- unsafeSendChan :: Serializable a => SendPort a -> a -> Process ()
- unsafeNSend :: Serializable a => String -> a -> Process ()
- data Match b
- receiveWait :: [Match b] -> Process b
- receiveTimeout :: Int -> [Match b] -> Process (Maybe b)
- match :: forall a b. Serializable a => (a -> Process b) -> Match b
- matchIf :: forall a b. Serializable a => (a -> Bool) -> (a -> Process b) -> Match b
- matchUnknown :: Process b -> Match b
- matchAny :: forall b. (Message -> Process b) -> Match b
- matchAnyIf :: forall a b. Serializable a => (a -> Bool) -> (Message -> Process b) -> Match b
- matchChan :: ReceivePort a -> (a -> Process b) -> Match b
- matchSTM :: STM a -> (a -> Process b) -> Match b
- matchMessage :: (Message -> Process Message) -> Match Message
- matchMessageIf :: (Message -> Bool) -> (Message -> Process Message) -> Match Message
- isEncoded :: Message -> Bool
- wrapMessage :: Serializable a => a -> Message
- unsafeWrapMessage :: Serializable a => a -> Message
- unwrapMessage :: forall m a. (Monad m, Serializable a) => Message -> m (Maybe a)
- handleMessage :: forall m a b. (Monad m, Serializable a) => Message -> (a -> m b) -> m (Maybe b)
- handleMessageIf :: forall m a b. (Monad m, Serializable a) => Message -> (a -> Bool) -> (a -> m b) -> m (Maybe b)
- handleMessage_ :: forall m a. (Monad m, Serializable a) => Message -> (a -> m ()) -> m ()
- handleMessageIf_ :: forall m a. (Monad m, Serializable a) => Message -> (a -> Bool) -> (a -> m ()) -> m ()
- forward :: Message -> ProcessId -> Process ()
- delegate :: ProcessId -> (Message -> Bool) -> Process ()
- relay :: ProcessId -> Process ()
- proxy :: Serializable a => ProcessId -> (a -> Process Bool) -> Process ()
- terminate :: Process a
- data ProcessTerminationException = ProcessTerminationException
- die :: Serializable a => a -> Process b
- kill :: ProcessId -> String -> Process ()
- exit :: Serializable a => ProcessId -> a -> Process ()
- catchExit :: forall a b. (Show a, Serializable a) => Process b -> (ProcessId -> a -> Process b) -> Process b
- catchesExit :: Process b -> [ProcessId -> Message -> Process (Maybe b)] -> Process b
- data ProcessExitException
- getSelfPid :: Process ProcessId
- getSelfNode :: Process NodeId
- data ProcessInfo = ProcessInfo {
- infoNode :: NodeId
- infoRegisteredNames :: [String]
- infoMessageQueueLength :: Maybe Int
- infoMonitors :: [(ProcessId, MonitorRef)]
- infoLinks :: [ProcessId]
- getProcessInfo :: ProcessId -> Process (Maybe ProcessInfo)
- data NodeStats = NodeStats {}
- getNodeStats :: NodeId -> Process (Either DiedReason NodeStats)
- getLocalNodeStats :: Process NodeStats
- link :: ProcessId -> Process ()
- unlink :: ProcessId -> Process ()
- monitor :: ProcessId -> Process MonitorRef
- unmonitor :: MonitorRef -> Process ()
- withMonitor :: ProcessId -> Process a -> Process a
- say :: String -> Process ()
- register :: String -> ProcessId -> Process ()
- reregister :: String -> ProcessId -> Process ()
- unregister :: String -> Process ()
- whereis :: String -> Process (Maybe ProcessId)
- nsend :: Serializable a => String -> a -> Process ()
- registerRemoteAsync :: NodeId -> String -> ProcessId -> Process ()
- reregisterRemoteAsync :: NodeId -> String -> ProcessId -> Process ()
- unregisterRemoteAsync :: NodeId -> String -> Process ()
- whereisRemoteAsync :: NodeId -> String -> Process ()
- nsendRemote :: Serializable a => NodeId -> String -> a -> Process ()
- unClosure :: Typeable a => Closure a -> Process a
- unStatic :: Typeable a => Static a -> Process a
- catch :: Exception e => Process a -> (e -> Process a) -> Process a
- data Handler a = forall e . Exception e => Handler (e -> Process a)
- catches :: Process a -> [Handler a] -> Process a
- try :: Exception e => Process a -> Process (Either e a)
- mask :: ((forall a. Process a -> Process a) -> Process b) -> Process b
- onException :: Process a -> Process b -> Process a
- bracket :: Process a -> (a -> Process b) -> (a -> Process c) -> Process c
- bracket_ :: Process a -> Process b -> Process c -> Process c
- finally :: Process a -> Process b -> Process a
- expectTimeout :: forall a. Serializable a => Int -> Process (Maybe a)
- receiveChanTimeout :: Serializable a => Int -> ReceivePort a -> Process (Maybe a)
- spawnAsync :: NodeId -> Closure (Process ()) -> Process SpawnRef
- linkNode :: NodeId -> Process ()
- linkPort :: SendPort a -> Process ()
- unlinkNode :: NodeId -> Process ()
- unlinkPort :: SendPort a -> Process ()
- monitorNode :: NodeId -> Process MonitorRef
- monitorPort :: forall a. Serializable a => SendPort a -> Process MonitorRef
- reconnect :: ProcessId -> Process ()
- reconnectPort :: SendPort a -> Process ()
- sendCtrlMsg :: Maybe NodeId -> ProcessSignal -> Process ()
Basic messaging
send :: Serializable a => ProcessId -> a -> Process () Source
Send a message
expect :: forall a. Serializable a => Process a Source
Wait for a message of a specific type
Channels
newChan :: Serializable a => Process (SendPort a, ReceivePort a) Source
Create a new typed channel
sendChan :: Serializable a => SendPort a -> a -> Process () Source
Send a message on a typed channel
receiveChan :: Serializable a => ReceivePort a -> Process a Source
Wait for a message on a typed channel
mergePortsBiased :: Serializable a => [ReceivePort a] -> Process (ReceivePort a) Source
Merge a list of typed channels.
The result port is left-biased: if there are messages available on more than one port, the first available message is returned.
mergePortsRR :: Serializable a => [ReceivePort a] -> Process (ReceivePort a) Source
Like mergePortsBiased
, but with a round-robin scheduler (rather than
left-biased)
Unsafe messaging variants
unsafeSend :: Serializable a => ProcessId -> a -> Process () Source
Unsafe variant of send
. This function makes no attempt to serialize
and (in the case when the destination process resides on the same local
node) therefore ensure that the payload is fully evaluated before it is
delivered.
unsafeSendChan :: Serializable a => SendPort a -> a -> Process () Source
Send a message on a typed channel. This function makes no attempt to
serialize and (in the case when the ReceivePort
resides on the same local
node) therefore ensure that the payload is fully evaluated before it is
delivered.
unsafeNSend :: Serializable a => String -> a -> Process () Source
Named send to a process in the local registry (asynchronous). This function makes no attempt to serialize and (in the case when the destination process resides on the same local node) therefore ensure that the payload is fully evaluated before it is delivered.
Advanced messaging
Opaque type used in receiveWait
and receiveTimeout
receiveWait :: [Match b] -> Process b Source
Test the matches in order against each message in the queue
receiveTimeout :: Int -> [Match b] -> Process (Maybe b) Source
Like receiveWait
but with a timeout.
If the timeout is zero do a non-blocking check for matching messages. A non-zero timeout is applied only when waiting for incoming messages (that is, after we have checked the messages that are already in the mailbox).
match :: forall a b. Serializable a => (a -> Process b) -> Match b Source
Match against any message of the right type
matchIf :: forall a b. Serializable a => (a -> Bool) -> (a -> Process b) -> Match b Source
Match against any message of the right type that satisfies a predicate
matchUnknown :: Process b -> Match b Source
Remove any message from the queue
matchAny :: forall b. (Message -> Process b) -> Match b Source
Match against an arbitrary message. matchAny
removes the first available
message from the process mailbox. To handle arbitrary raw messages once
removed from the mailbox, see handleMessage
and unwrapMessage
.
matchAnyIf :: forall a b. Serializable a => (a -> Bool) -> (Message -> Process b) -> Match b Source
Match against an arbitrary message. Intended for use with handleMessage
and unwrapMessage
, this function only removes a message from the process
mailbox, if the supplied condition matches. The success (or failure) of
runtime type checks deferred to handleMessage
and friends is irrelevant
here, i.e., if the condition evaluates to True
then the message will
be removed from the process mailbox and decoded, but that does not
guarantee that an expression passed to handleMessage
will pass the
runtime type checks and therefore be evaluated.
matchChan :: ReceivePort a -> (a -> Process b) -> Match b Source
Match on a typed channel
matchSTM :: STM a -> (a -> Process b) -> Match b Source
Match on an arbitrary STM action.
This rather unusaul match primitive allows us to compose arbitrary STM
actions with checks against our process' mailbox and/or any typed channel
ReceivePort
s we may hold.
This allows us to process multiple input streams along with our mailbox,
in just the same way that matchChan
supports checking both the mailbox
and an arbitrary set of typed channels in one atomic transaction.
Note there are no ordering guarnatees with respect to these disparate input sources.
matchMessage :: (Message -> Process Message) -> Match Message Source
Match against any message, regardless of the underlying (contained) type
matchMessageIf :: (Message -> Bool) -> (Message -> Process Message) -> Match Message Source
Match against any message (regardless of underlying type) that satisfies a predicate
wrapMessage :: Serializable a => a -> Message Source
Wrap a Serializable
value in a Message
. Note that Message
s are
Serializable
- like the datum they contain - but also note, deserialising
such a Message
will yield a Message
, not the type within it! To obtain the
wrapped datum, use unwrapMessage
or handleMessage
with a specific type.
do self <- getSelfPid send self (wrapMessage "blah") Nothing <- expectTimeout 1000000 :: Process (Maybe String) (Just m) <- expectTimeout 1000000 :: Process (Maybe Message) (Just "blah") <- unwrapMessage m :: Process (Maybe String)
unsafeWrapMessage :: Serializable a => a -> Message Source
This is the unsafe variant of wrapMessage
. See
Control.Distributed.Process.UnsafePrimitives for details.
unwrapMessage :: forall m a. (Monad m, Serializable a) => Message -> m (Maybe a) Source
Attempt to unwrap a raw Message
.
If the type of the decoded message payload matches the expected type, the
value will be returned with Just
, otherwise Nothing
indicates the types
do not match.
This expression, for example, will evaluate to Nothing
> unwrapMessage (wrapMessage "foobar") :: Process (Maybe Int)
Whereas this expression, will yield Just "foo"
> unwrapMessage (wrapMessage "foo") :: Process (Maybe String)
handleMessage :: forall m a b. (Monad m, Serializable a) => Message -> (a -> m b) -> m (Maybe b) Source
Attempt to handle a raw Message
.
If the type of the message matches the type of the first argument to
the supplied expression, then the message will be decoded and the expression
evaluated against its value. If this runtime type checking fails however,
Nothing
will be returned to indicate the fact. If the check succeeds and
evaluation proceeds, the resulting value with be wrapped with Just
.
Intended for use in catchesExit
and matchAny
primitives.
handleMessageIf :: forall m a b. (Monad m, Serializable a) => Message -> (a -> Bool) -> (a -> m b) -> m (Maybe b) Source
Conditionally handle a raw Message
.
If the predicate (a -> Bool)
evaluates to True
, invokes the supplied
handler, other returns Nothing
to indicate failure. See handleMessage
for further information about runtime type checking.
handleMessage_ :: forall m a. (Monad m, Serializable a) => Message -> (a -> m ()) -> m () Source
As handleMessage
but ignores result, which is useful if you don't
care whether or not the handler succeeded.
handleMessageIf_ :: forall m a. (Monad m, Serializable a) => Message -> (a -> Bool) -> (a -> m ()) -> m () Source
Conditional version of handleMessage_
.
delegate :: ProcessId -> (Message -> Bool) -> Process () Source
Receives messages and forwards them to pid
if p msg == True
.
relay :: ProcessId -> Process () Source
A straight relay that forwards all messages to the supplied pid.
Process management
data ProcessTerminationException Source
Thrown by terminate
die :: Serializable a => a -> Process b Source
Die immediately - throws a ProcessExitException
with the given reason
.
exit :: Serializable a => ProcessId -> a -> Process () Source
Graceful request to exit a process. Throws ProcessExitException
with the
supplied reason
encoded as a message. Any exit signal raised in this
manner can be handled using the catchExit
family of functions.
catchExit :: forall a b. (Show a, Serializable a) => Process b -> (ProcessId -> a -> Process b) -> Process b Source
Catches ProcessExitException
. The handler will not be applied unless its
type matches the encoded data stored in the exception (see the reason
argument given to the exit
primitive). If the handler cannot be applied,
the exception will be re-thrown.
To handle ProcessExitException
without regard for reason, see catch
.
To handle multiple reasons of differing types, see catchesExit
.
catchesExit :: Process b -> [ProcessId -> Message -> Process (Maybe b)] -> Process b Source
Lift catches
(almost).
As ProcessExitException
stores the exit reason
as a typed, encoded
message, a handler must accept inputs of the expected type. In order to
handle a list of potentially different handlers (and therefore input types),
a handler passed to catchesExit
must accept Message
and return
Maybe
(i.e., Just p
if it handled the exit reason, otherwise Nothing
).
See maybeHandleMessage
and Message
for more details.
data ProcessExitException Source
Internal exception thrown indirectly by exit
getSelfPid :: Process ProcessId Source
Our own process ID
getSelfNode :: Process NodeId Source
Get the node ID of our local node
data ProcessInfo Source
Provide information about a running process
ProcessInfo | |
|
getProcessInfo :: ProcessId -> Process (Maybe ProcessInfo) Source
Get information about the specified process
getNodeStats :: NodeId -> Process (Either DiedReason NodeStats) Source
Get statistics about the specified node
getLocalNodeStats :: Process NodeStats Source
Get statistics about our local node
Monitoring and linking
link :: ProcessId -> Process () Source
Link to a remote process (asynchronous)
When process A links to process B (that is, process A calls
link pidB
) then an asynchronous exception will be thrown to process A
when process B terminates (normally or abnormally), or when process A gets
disconnected from process B. Although it is technically possible to catch
these exceptions, chances are if you find yourself trying to do so you should
probably be using monitor
rather than link
. In particular, code such as
link pidB -- Link to process B expect -- Wait for a message from process B unlink pidB -- Unlink again
doesn't quite do what one might expect: if process B sends a message to
process A, and subsequently terminates, then process A might or might not
be terminated too, depending on whether the exception is thrown before or
after the unlink
(i.e., this code has a race condition).
Linking is all-or-nothing: A is either linked to B, or it's not. A second
call to link
has no effect.
Note that link
provides unidirectional linking (see spawnSupervised
).
Linking makes no distinction between normal and abnormal termination of
the remote process.
unlink :: ProcessId -> Process () Source
Remove a link
This is synchronous in the sense that once it returns you are guaranteed that no exception will be raised if the remote process dies. However, it is asynchronous in the sense that we do not wait for a response from the remote node.
monitor :: ProcessId -> Process MonitorRef Source
Monitor another process (asynchronous)
When process A monitors process B (that is, process A calls
monitor pidB
) then process A will receive a ProcessMonitorNotification
when process B terminates (normally or abnormally), or when process A gets
disconnected from process B. You receive this message like any other (using
expect
); the notification includes a reason (DiedNormal
, DiedException
,
DiedDisconnect
, etc.).
Every call to monitor
returns a new monitor reference MonitorRef
; if
multiple monitors are set up, multiple notifications will be delivered
and monitors can be disabled individually using unmonitor
.
unmonitor :: MonitorRef -> Process () Source
Remove a monitor
This has the same synchronous/asynchronous nature as unlink
.
withMonitor :: ProcessId -> Process a -> Process a Source
Establishes temporary monitoring of another process.
withMonitor pid code
sets up monitoring of pid
for the duration
of code
. Note: although monitoring is no longer active when
withMonitor
returns, there might still be unreceived monitor
messages in the queue.
Logging
say :: String -> Process () Source
Log a string
say message
sends a message (time, pid of the current process, message)
to the process registered as logger
. By default, this process simply
sends the string to stderr
. Individual Cloud Haskell backends might
replace this with a different logger process, however.
Registry
register :: String -> ProcessId -> Process () Source
Register a process with the local registry (asynchronous).
This version will wait until a response is gotten from the
management process. The name must not already be registered.
The process need not be on this node.
A bad registration will result in a ProcessRegistrationException
The process to be registered does not have to be local itself.
reregister :: String -> ProcessId -> Process () Source
Like register
, but will replace an existing registration.
The name must already be registered.
unregister :: String -> Process () Source
Remove a process from the local registry (asynchronous). This version will wait until a response is gotten from the management process. The name must already be registered.
nsend :: Serializable a => String -> a -> Process () Source
Named send to a process in the local registry (asynchronous)
registerRemoteAsync :: NodeId -> String -> ProcessId -> Process () Source
Register a process with a remote registry (asynchronous).
The process to be registered does not have to live on the same remote node.
Reply wil come in the form of a RegisterReply
message
See comments in whereisRemoteAsync
unregisterRemoteAsync :: NodeId -> String -> Process () Source
Remove a process from a remote registry (asynchronous).
Reply wil come in the form of a RegisterReply
message
See comments in whereisRemoteAsync
whereisRemoteAsync :: NodeId -> String -> Process () Source
Query a remote process registry (asynchronous)
Reply will come in the form of a WhereIsReply
message.
There is currently no synchronous version of whereisRemoteAsync
: if
you implement one yourself, be sure to take into account that the remote
node might die or get disconnect before it can respond (i.e. you should
use monitorNode
and take appropriate action when you receive a
NodeMonitorNotification
).
nsendRemote :: Serializable a => NodeId -> String -> a -> Process () Source
Named send to a process in a remote registry (asynchronous)
Closures
Exception handling
You need this when using catches
onException :: Process a -> Process b -> Process a Source
Lift onException
Auxiliary API
expectTimeout :: forall a. Serializable a => Int -> Process (Maybe a) Source
Like expect
but with a timeout
receiveChanTimeout :: Serializable a => Int -> ReceivePort a -> Process (Maybe a) Source
Like receiveChan
but with a timeout. If the timeout is 0, do a
non-blocking check for a message.
spawnAsync :: NodeId -> Closure (Process ()) -> Process SpawnRef Source
Asynchronous version of spawn
(spawn
is defined in terms of spawnAsync
and expect
)
unlinkNode :: NodeId -> Process () Source
Remove a node link
This has the same synchronous/asynchronous nature as unlink
.
unlinkPort :: SendPort a -> Process () Source
Remove a channel (send port) link
This has the same synchronous/asynchronous nature as unlink
.
monitorNode :: NodeId -> Process MonitorRef Source
Monitor a node (asynchronous)
monitorPort :: forall a. Serializable a => SendPort a -> Process MonitorRef Source
Monitor a typed channel (asynchronous)
Reconnecting
reconnect :: ProcessId -> Process () Source
Cloud Haskell provides the illusion of connection-less, reliable, ordered
message passing. However, when network connections get disrupted this
illusion cannot always be maintained. Once a network connection breaks (even
temporarily) no further communication on that connection will be possible.
For example, if process A sends a message to process B, and A is then
notified (by monitor notification) that it got disconnected from B, A will
not be able to send any further messages to B, unless A explicitly
indicates that it is acceptable to attempt to reconnect to B using the
Cloud Haskell reconnect
primitive.
Importantly, when A calls reconnect
it acknowledges that some messages to
B might have been lost. For instance, if A sends messages m1 and m2 to B,
then receives a monitor notification that its connection to B has been lost,
calls reconnect
and then sends m3, it is possible that B will receive m1
and m3 but not m2.
Note that reconnect
does not mean reconnect now but rather /it is okay
to attempt to reconnect on the next send/. In particular, if no further
communication attempts are made to B then A can use reconnect to clean up
its connection to B.
reconnectPort :: SendPort a -> Process () Source
Reconnect to a sendport. See reconnect
for more information.
Internal Exports
:: Maybe NodeId | Nothing for the local node |
-> ProcessSignal | Message to send |
-> Process () |