{-# LANGUAGE BangPatterns, DeriveDataTypeable, OverloadedStrings, ScopedTypeVariables #-} -- | -- -- A client library for AMQP servers implementing the 0-9-1 spec; currently only supports RabbitMQ (see ) -- -- A good introduction to RabbitMQ and AMQP 0-9-1 (in various languages): , -- -- == Example -- -- Connect to a server, declare a queue and an exchange and setup a callback for messages coming in on the queue. Then publish a single message to our new exchange -- -- >{-# LANGUAGE OverloadedStrings #-} -- >import Network.AMQP -- >import qualified Data.ByteString.Lazy.Char8 as BL -- > -- >main = do -- > conn <- openConnection "127.0.0.1" "/" "guest" "guest" -- > chan <- openChannel conn -- > -- > -- declare a queue, exchange and binding -- > declareQueue chan newQueue {queueName = "myQueue"} -- > declareExchange chan newExchange {exchangeName = "myExchange", exchangeType = "direct"} -- > bindQueue chan "myQueue" "myExchange" "myKey" -- > -- > -- subscribe to the queue -- > consumeMsgs chan "myQueue" Ack myCallback -- > -- > -- publish a message to our new exchange -- > publishMsg chan "myExchange" "myKey" -- > newMsg {msgBody = (BL.pack "hello world"), -- > msgDeliveryMode = Just Persistent} -- > -- > getLine -- wait for keypress -- > closeConnection conn -- > putStrLn "connection closed" -- > -- > -- >myCallback :: (Message,Envelope) -> IO () -- >myCallback (msg, env) = do -- > putStrLn $ "received message: " ++ (BL.unpack $ msgBody msg) -- > -- acknowledge receiving the message -- > ackEnv env -- -- == Exception handling notes -- -- Some function calls can make the AMQP server throw an AMQP exception, which has the side-effect of closing the connection or channel. The AMQP exceptions are raised as Haskell exceptions (see 'AMQPException'). So upon receiving an 'AMQPException' you may have to reopen the channel or connection. -- -- == Debugging tips -- -- If you need to debug a problem with e.g. channels being closed unexpectedly, here are some tips: -- -- - The RabbitMQ log file often has helpful error-messages. The location of the log-file differs by OS. Look for RABBITMQ_LOGS in this page: -- - The function 'addChannelExceptionHandler' can be used to figure out when and why a channel was closed. -- - RabbitMQ has a browser-based management console, which allows you to see connections, channels, queues and more. Setup instructions are here: https://www.rabbitmq.com/management.html -- module Network.AMQP ( -- * Connection Connection, ConnectionOpts(..), TLSSettings(..), defaultConnectionOpts, openConnection, openConnection', openConnection'', closeChannel, closeConnection, addConnectionClosedHandler, addConnectionBlockedHandler, getServerProperties, -- * Channel Channel, openChannel, addReturnListener, addChannelExceptionHandler, isNormalChannelClose, qos, -- * Exchanges ExchangeOpts(..), newExchange, declareExchange, bindExchange, bindExchange', unbindExchange, unbindExchange', deleteExchange, -- * Queues QueueOpts(..), newQueue, declareQueue, bindQueue, bindQueue', unbindQueue, unbindQueue', purgeQueue, deleteQueue, -- * Messaging Message(..), DeliveryMode(..), PublishError(..), ReturnReplyCode(..), newMsg, Envelope(..), ConsumerTag, Ack(..), consumeMsgs, consumeMsgs', cancelConsumer, publishMsg, publishMsg', getMsg, rejectMsg, rejectEnv, recoverMsgs, ackMsg, ackEnv, nackMsg, nackEnv, -- * Transactions txSelect, txCommit, txRollback, -- * Confirms confirmSelect, waitForConfirms, waitForConfirmsUntil, addConfirmationListener, ConfirmationResult(..), AckType(..), -- * Flow Control flow, -- * SASL SASLMechanism(..), plain, amqplain, rabbitCRdemo, -- * Exceptions AMQPException(..), ChanThreadKilledException, CloseType(..), -- * URI parsing fromURI ) where import Control.Applicative import Control.Concurrent import Control.Concurrent.STM import Control.Monad(when) import Data.List.Split (splitOn) import Data.Binary import Data.Binary.Put import Network.Socket (PortNumber) import Network.URI (unEscapeString) import Data.Text (Text) import qualified Data.ByteString.Lazy as BL import qualified Data.ByteString as BS import qualified Data.IntSet as IntSet import qualified Data.Text.Encoding as E import qualified Data.Map as M import qualified Data.Text as T import Network.AMQP.Types import Network.AMQP.Generated import Network.AMQP.Internal import Network.AMQP.Helpers ----- EXCHANGE ----- -- | A record that contains the fields needed when creating a new exhange using 'declareExchange'. The default values apply when you use 'newExchange'. data ExchangeOpts = ExchangeOpts { exchangeName :: Text, -- ^ (must be set); the name of the exchange exchangeType :: Text, -- ^ (must be set); the type of the exchange (\"fanout\", \"direct\", \"topic\", \"headers\") -- optional exchangePassive :: Bool, -- ^ (default 'False'); If set, the server will not create the exchange. The client can use this to check whether an exchange exists without modifying the server state. exchangeDurable :: Bool, -- ^ (default 'True'); If set when creating a new exchange, the exchange will be marked as durable. Durable exchanges remain active when a server restarts. Non-durable exchanges (transient exchanges) are purged if/when a server restarts. exchangeAutoDelete :: Bool, -- ^ (default 'False'); If set, the exchange is deleted when all queues have finished using it. exchangeInternal :: Bool, -- ^ (default 'False'); If set, the exchange may not be used directly by publishers, but only when bound to other exchanges. Internal exchanges are used to construct wiring that is not visible to applications. exchangeArguments :: FieldTable -- ^ (default empty); A set of arguments for the declaration. The syntax and semantics of these arguments depends on the server implementation. } deriving (Eq, Ord, Read, Show) -- | an 'ExchangeOpts' with defaults set; you must override at least the 'exchangeName' and 'exchangeType' fields. newExchange :: ExchangeOpts newExchange = ExchangeOpts "" "" False True False False (FieldTable M.empty) -- | declares a new exchange on the AMQP server. Can be used like this: @declareExchange channel newExchange {exchangeName = \"myExchange\", exchangeType = \"fanout\"}@ declareExchange :: Channel -> ExchangeOpts -> IO () declareExchange chan exchg = do (SimpleMethod Exchange_declare_ok) <- request chan (SimpleMethod (Exchange_declare 1 -- ticket; ignored by rabbitMQ (ShortString $ exchangeName exchg) -- exchange (ShortString $ exchangeType exchg) -- typ (exchangePassive exchg) -- passive (exchangeDurable exchg) -- durable (exchangeAutoDelete exchg) -- auto_delete (exchangeInternal exchg) -- internal False -- nowait (exchangeArguments exchg))) -- arguments return () -- | @bindExchange chan destinationName sourceName routingKey@ binds the exchange to the exchange using the provided routing key bindExchange :: Channel -> Text -> Text -> Text -> IO () bindExchange chan destinationName sourceName routingKey = bindExchange' chan destinationName sourceName routingKey (FieldTable M.empty) -- | an extended version of @bindExchange@ that allows you to include arbitrary arguments. This is useful to use the @headers@ exchange-type. bindExchange' :: Channel -> Text -> Text -> Text -> FieldTable -> IO () bindExchange' chan destinationName sourceName routingKey args = do (SimpleMethod Exchange_bind_ok) <- request chan (SimpleMethod (Exchange_bind 1 -- ticket; ignored by rabbitMQ (ShortString destinationName) (ShortString sourceName) (ShortString routingKey) False -- nowait args -- arguments )) return () -- | @unbindExchange chan destinationName sourceName routingKey@ unbinds an exchange from an exchange. The @routingKey@ must be identical to the one specified when binding the exchange. unbindExchange :: Channel -> Text -> Text -> Text -> IO () unbindExchange chan destinationName sourceName routingKey = unbindExchange' chan destinationName sourceName routingKey (FieldTable M.empty) -- | an extended version of @unbindExchange@ that allows you to include arguments. The @arguments@ must be identical to the ones specified when binding the exchange. unbindExchange' :: Channel -> Text -> Text -> Text -> FieldTable -> IO () unbindExchange' chan destinationName sourceName routingKey args = do SimpleMethod Exchange_unbind_ok <- request chan $ SimpleMethod $ Exchange_unbind 1 -- ticket (ShortString destinationName) (ShortString sourceName) (ShortString routingKey) False -- nowait args return () -- | deletes the exchange with the provided name deleteExchange :: Channel -> Text -> IO () deleteExchange chan exchange = do (SimpleMethod Exchange_delete_ok) <- request chan (SimpleMethod (Exchange_delete 1 -- ticket; ignored by rabbitMQ (ShortString exchange) -- exchange False -- if_unused; If set, the server will only delete the exchange if it has no queue bindings. False -- nowait )) return () ----- QUEUE ----- -- | A record that contains the fields needed when creating a new queue using 'declareQueue'. The default values apply when you use 'newQueue'. data QueueOpts = QueueOpts { --must be set queueName :: Text, -- ^ (default \"\"); the name of the queue; if left empty, the server will generate a new name and return it from the 'declareQueue' method --optional queuePassive :: Bool, -- ^ (default 'False'); If set, the server will not create the queue. The client can use this to check whether a queue exists without modifying the server state. queueDurable :: Bool, -- ^ (default 'True'); If set when creating a new queue, the queue will be marked as durable. Durable queues remain active when a server restarts. Non-durable queues (transient queues) are purged if/when a server restarts. Note that durable queues do not necessarily hold persistent messages, although it does not make sense to send persistent messages to a transient queue. queueExclusive :: Bool, -- ^ (default 'False'); Exclusive queues may only be consumed from by the current connection. Setting the 'exclusive' flag always implies 'auto-delete'. queueAutoDelete :: Bool, -- ^ (default 'False'); If set, the queue is deleted when all consumers have finished using it. Last consumer can be cancelled either explicitly or because its channel is closed. If there was no consumer ever on the queue, it won't be deleted. queueHeaders :: FieldTable -- ^ (default empty): Headers to use when creating this queue, such as @x-message-ttl@ or @x-dead-letter-exchange@. } deriving (Eq, Ord, Read, Show) -- | a 'QueueOpts' with defaults set; you should override at least 'queueName'. newQueue :: QueueOpts newQueue = QueueOpts "" False True False False (FieldTable M.empty) -- | creates a new queue on the AMQP server; can be used like this: @declareQueue channel newQueue {queueName = \"myQueue\"}@. -- -- Returns a tuple @(queue, messageCount, consumerCount)@. -- @queue@ is the name of the new queue (if you don't specify a queue the server will autogenerate one). -- @messageCount@ is the number of messages in the queue, which will be zero for newly-created queues. @consumerCount@ is the number of active consumers for the queue. declareQueue :: Channel -> QueueOpts -> IO (Text, Int, Int) declareQueue chan queue = do SimpleMethod (Queue_declare_ok (ShortString qName) messageCount consumerCount) <- request chan $ SimpleMethod $ Queue_declare 1 -- ticket (ShortString $ queueName queue) (queuePassive queue) (queueDurable queue) (queueExclusive queue) (queueAutoDelete queue) False -- no-wait; true means no answer from server (queueHeaders queue) return (qName, fromIntegral messageCount, fromIntegral consumerCount) -- | @bindQueue chan queue exchange routingKey@ binds the queue to the exchange using the provided routing key. If @exchange@ is the empty string, the default exchange will be used. bindQueue :: Channel -> Text -> Text -> Text -> IO () bindQueue chan queue exchange routingKey = bindQueue' chan queue exchange routingKey (FieldTable M.empty) -- | an extended version of @bindQueue@ that allows you to include arbitrary arguments. This is useful to use the @headers@ exchange-type. bindQueue' :: Channel -> Text -> Text -> Text -> FieldTable -> IO () bindQueue' chan queue exchange routingKey args = do (SimpleMethod Queue_bind_ok) <- request chan (SimpleMethod (Queue_bind 1 -- ticket; ignored by rabbitMQ (ShortString queue) (ShortString exchange) (ShortString routingKey) False -- nowait args -- arguments )) return () -- | @unbindQueue chan queue exchange routingKey@ unbinds a queue from an exchange. The @routingKey@ must be identical to the one specified when binding the queue. unbindQueue :: Channel -> Text -> Text -> Text -> IO () unbindQueue chan queue exchange routingKey = unbindQueue' chan queue exchange routingKey (FieldTable M.empty) -- | an extended version of @unbindQueue@ that allows you to include arguments. The @arguments@ must be identical to the ones specified when binding the queue. unbindQueue' :: Channel -> Text -> Text -> Text -> FieldTable -> IO () unbindQueue' chan queue exchange routingKey args = do SimpleMethod Queue_unbind_ok <- request chan $ SimpleMethod $ Queue_unbind 1 -- ticket (ShortString queue) (ShortString exchange) (ShortString routingKey) args return () -- | remove all messages from the queue; returns the number of messages that were in the queue purgeQueue :: Channel -> Text -> IO Word32 purgeQueue chan queue = do SimpleMethod (Queue_purge_ok msgCount) <- request chan $ SimpleMethod $ Queue_purge 1 -- ticket (ShortString queue) -- queue False -- nowait return msgCount -- | deletes the queue; returns the number of messages that were in the queue before deletion deleteQueue :: Channel -> Text -> IO Word32 deleteQueue chan queue = do SimpleMethod (Queue_delete_ok msgCount) <- request chan $ SimpleMethod $ Queue_delete 1 -- ticket (ShortString queue) -- queue False -- if_unused False -- if_empty False -- nowait return msgCount ----- MSG (the BASIC class in AMQP) ----- -- | a 'Msg' with defaults set; you should override at least 'msgBody' newMsg :: Message newMsg = Message BL.empty Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing -- | specifies whether you have to acknowledge messages that you receive from 'consumeMsgs' or 'getMsg'. If you use 'Ack', you have to call 'ackMsg' or 'ackEnv' after you have processed a message, otherwise it might be delivered again in the future data Ack = Ack | NoAck deriving (Eq, Ord, Read, Show) ackToBool :: Ack -> Bool ackToBool Ack = False ackToBool NoAck = True -- | @consumeMsgs chan queue ack callback@ subscribes to the given queue and returns a consumerTag. For any incoming message, the callback will be run. If @ack == 'Ack'@ you will have to acknowledge all incoming messages (see 'ackMsg' and 'ackEnv') -- -- === Exceptions in the callback -- -- If an exception occurs in @callback@, it will be caught and printed to @stderr@. But you should not depend on this behaviour (it might change in future versions of this library); -- instead, it is /strongly/ recommended that you catch any exceptions that your callback may throw and handle them appropriately. -- But make sure not to catch 'ChanThreadKilledException' (or re-throw it if you did catch it), since it is used internally by the library to close channels. -- -- So unless you are confident that your callback won't throw exceptions, you may want to structure your code like this: -- -- > consumeMsgs chan name Ack $ \(msg, env) -> (do ...) -- > `CE.catches` -- > [ -- > -- rethrow this exception, since the AMPQ library uses it internally -- > CE.Handler $ \(e::ChanThreadKilledException) -> CE.throwIO e, -- > -- > -- (optional) catch individual exceptions that your code may throw -- > CE.Handler $ \(e::CE.IOException) -> ..., -- > CE.Handler $ \(e::SomeOtherException) -> ..., -- > -- > -- catch all exceptions that weren't handled above -- > CE.Handler $ \(e::CE.SomeException) -> ... -- > ] -- -- In practice, it might be useful to encapsulate this exception-handling logic in a custom wrapper-function so that you can reuse it for every callback you pass to @consumeMsgs@. -- -- === Blocking requests in the callback -- -- The @callback@ will be run on the channel's receiver thread (which is responsible for handling all incoming messages on this channel, including responses to requests from the client) so DO NOT perform any blocking request on @chan@ inside the callback, as this would lead to a dead-lock. However, you CAN perform requests on other open channels inside the callback, though that would keep @chan@ blocked until the requests are done, so it is not recommended. -- -- Unless you're using AMQP flow control, the following functions can safely be called on @chan@: 'ackMsg', 'ackEnv', 'rejectMsg', 'publishMsg'. If you use flow-control or want to perform anything more complex, it's recommended that instead of using 'consumeMsgs' you use 'getMsg' to fetch messages in a loop (because then your message-handling code will not run in the channel's receiver thread, so there will be no problems when performing blocking requests). consumeMsgs :: Channel -> Text -> Ack -> ((Message,Envelope) -> IO ()) -> IO ConsumerTag consumeMsgs chan queue ack callback = consumeMsgs' chan queue ack callback (\_ -> return ()) (FieldTable M.empty) -- | an extended version of @consumeMsgs@ that allows you to define a consumer cancellation callback and include arbitrary arguments. consumeMsgs' :: Channel -> Text -> Ack -> ((Message,Envelope) -> IO ()) -> (ConsumerTag -> IO ()) -> FieldTable -> IO ConsumerTag consumeMsgs' chan queue ack callback cancelCB args = do --generate a new consumer tag newConsumerTag <- fmap (T.pack . show) $ modifyMVar (lastConsumerTag chan) $ \c -> return (c+1,c+1) --register the consumer modifyMVar_ (consumers chan) $ return . M.insert newConsumerTag (callback, cancelCB) writeAssembly chan (SimpleMethod $ Basic_consume 1 -- ticket (ShortString queue) -- queue (ShortString newConsumerTag) -- consumer_tag False -- no_local; If the no-local field is set the server will not send messages to the client that published them. (ackToBool ack) -- no_ack False -- exclusive; Request exclusive consumer access, meaning only this consumer can access the queue. True -- nowait args ) return newConsumerTag -- | stops a consumer that was started with 'consumeMsgs' cancelConsumer :: Channel -> ConsumerTag -> IO () cancelConsumer chan consumerTag = do SimpleMethod (Basic_cancel_ok _) <- request chan $ SimpleMethod $ Basic_cancel (ShortString consumerTag) -- consumer_tag False -- nowait --unregister the consumer modifyMVar_ (consumers chan) $ return . M.delete consumerTag -- | @publishMsg chan exchange routingKey msg@ publishes @msg@ to the exchange with the provided @exchange@. The effect of @routingKey@ depends on the type of the exchange. -- -- Returns the sequence-number of the message (only if the channel is in publisher confirm mode; see 'confirmSelect'). -- -- NOTE: This method may temporarily block if the AMQP server requested us to stop sending content data (using the flow control mechanism). So don't rely on this method returning immediately. publishMsg :: Channel -> Text -> Text -> Message -> IO (Maybe Int) publishMsg chan exchange routingKey msg = publishMsg' chan exchange routingKey False msg -- | Like 'publishMsg', but additionally allows you to specify whether the 'mandatory' flag should be set. publishMsg' :: Channel -> Text -> Text -> Bool -> Message -> IO (Maybe Int) publishMsg' chan exchange routingKey mandatory msg = do modifyMVar (nextPublishSeqNum chan) $ \nxtSeqNum -> do writeAssembly chan $ ContentMethod (Basic_publish 1 -- ticket; ignored by rabbitMQ (ShortString exchange) (ShortString routingKey) mandatory -- mandatory; if true, the server might return the msg, which is currently not handled False --immediate; not customizable, as it is currently not supported anymore by RabbitMQ ) (CHBasic (ShortString <$> msgContentType msg) (ShortString <$> msgContentEncoding msg) (msgHeaders msg) (deliveryModeToInt <$> msgDeliveryMode msg) (msgPriority msg) (ShortString <$> msgCorrelationID msg) (ShortString <$> msgReplyTo msg) (ShortString <$> msgExpiration msg) (ShortString <$> msgID msg) (msgTimestamp msg) (ShortString <$> msgType msg) (ShortString <$> msgUserID msg) (ShortString <$> msgApplicationID msg) (ShortString <$> msgClusterID msg) ) (msgBody msg) if nxtSeqNum /= 0 then do atomically $ modifyTVar' (unconfirmedSet chan) $ \uSet -> IntSet.insert nxtSeqNum uSet return (succ nxtSeqNum, Just nxtSeqNum) else return (0, Nothing) -- | @getMsg chan ack queue@ gets a message from the specified queue. If @ack=='Ack'@, you have to call 'ackMsg' or 'ackEnv' for any message that you get, otherwise it might be delivered again in the future (by calling 'recoverMsgs'). -- -- Will return @Nothing@ when no message is currently available. getMsg :: Channel -> Ack -> Text -> IO (Maybe (Message, Envelope)) getMsg chan ack queue = do ret <- request chan $ SimpleMethod $ Basic_get 1 -- ticket (ShortString queue) -- queue (ackToBool ack) -- no_ack case ret of ContentMethod (Basic_get_ok deliveryTag redelivered (ShortString exchange) (ShortString routingKey) _) properties body -> return $ Just (msgFromContentHeaderProperties properties body, Envelope {envDeliveryTag = deliveryTag, envRedelivered = redelivered, envExchangeName = exchange, envRoutingKey = routingKey, envChannel = chan}) _ -> return Nothing {- | @ackMsg chan deliveryTag multiple@ acknowledges one or more messages. A message MUST not be acknowledged more than once. if @multiple==True@, the @deliverTag@ is treated as \"up to and including\", so that the client can acknowledge multiple messages with a single method call. If @multiple==False@, @deliveryTag@ refers to a single message. If @multiple==True@, and @deliveryTag==0@, tells the server to acknowledge all outstanding mesages. -} ackMsg :: Channel -> LongLongInt -> Bool -> IO () ackMsg chan deliveryTag multiple = writeAssembly chan $ SimpleMethod $ Basic_ack deliveryTag -- delivery_tag multiple -- multiple -- | Acknowledges a single message. This is a wrapper for 'ackMsg' in case you have the 'Envelope' at hand. ackEnv :: Envelope -> IO () ackEnv env = ackMsg (envChannel env) (envDeliveryTag env) False {- | @nackMsg chan deliveryTag multiple requeue@ rejects one or more messages. A message MUST not be rejected more than once. if @multiple==True@, the @deliverTag@ is treated as \"up to and including\", so that the client can reject multiple messages with a single method call. If @multiple==False@, @deliveryTag@ refers to a single message. If @requeue==True@, the server will try to requeue the message. If @requeue==False@, the message will be dropped by the server. -} nackMsg :: Channel -> LongLongInt -> Bool -> Bool -> IO () nackMsg chan deliveryTag multiple requeue = writeAssembly chan $ SimpleMethod $ Basic_nack deliveryTag -- delivery_tag multiple -- multiple requeue -- requeue -- | Reject a single message. This is a wrapper for 'nackMsg' in case you have the 'Envelope' at hand. nackEnv :: Envelope -> IO () nackEnv env = nackMsg (envChannel env) (envDeliveryTag env) False False -- | @rejectMsg chan deliveryTag requeue@ allows a client to reject a message. It can be used to interrupt and cancel large incoming messages, or return untreatable messages to their original queue. If @requeue==False@, the message will be discarded. If it is 'True', the server will attempt to requeue the message. -- -- NOTE: RabbitMQ 1.7 doesn't implement this command rejectMsg :: Channel -> LongLongInt -> Bool -> IO () rejectMsg chan deliveryTag requeue = writeAssembly chan $ SimpleMethod $ Basic_reject deliveryTag -- delivery_tag requeue -- requeue -- | Reject a message. This is a wrapper for 'rejectMsg' in case you have the 'Envelope' at hand. rejectEnv :: Envelope -> Bool -- ^ requeue -> IO () rejectEnv env requeue = rejectMsg (envChannel env) (envDeliveryTag env) requeue -- | @recoverMsgs chan requeue@ asks the broker to redeliver all messages that were received but not acknowledged on the specified channel. --If @requeue==False@, the message will be redelivered to the original recipient. If @requeue==True@, the server will attempt to requeue the message, potentially then delivering it to an alternative subscriber. recoverMsgs :: Channel -> Bool -> IO () recoverMsgs chan requeue = do SimpleMethod Basic_recover_ok <- request chan $ SimpleMethod $ Basic_recover requeue -- requeue return () ------------------- TRANSACTIONS (TX) -------------------------- -- | This method sets the channel to use standard transactions. The client must use this method at least once on a channel before using the Commit or Rollback methods. txSelect :: Channel -> IO () txSelect chan = do SimpleMethod Tx_select_ok <- request chan $ SimpleMethod Tx_select return () -- | This method commits all messages published and acknowledged in the current transaction. A new transaction starts immediately after a commit. txCommit :: Channel -> IO () txCommit chan = do SimpleMethod Tx_commit_ok <- request chan $ SimpleMethod Tx_commit return () -- | This method abandons all messages published and acknowledged in the current transaction. A new transaction starts immediately after a rollback. txRollback :: Channel -> IO () txRollback chan = do SimpleMethod Tx_rollback_ok <- request chan $ SimpleMethod Tx_rollback return () -------------------- PUBLISHER CONFIRMS ------------------------ {- | @confirmSelect chan nowait@ puts the channel in publisher confirm mode. This mode is a RabbitMQ extension where a producer receives confirmations when messages are successfully processed by the broker. Publisher confirms are a relatively lightweight alternative to full transactional mode. For details about the delivery guarantees and performace implications of this mode, see https://www.rabbitmq.com/confirms.html. Note that on a single channel, publisher confirms and transactions are mutually exclusive (you cannot select both at the same time). When @nowait==True@ the server will not send back a response to this method. -} confirmSelect :: Channel -> Bool -> IO () confirmSelect chan nowait = do modifyMVar_ (nextPublishSeqNum chan) $ \seqn -> return $ if seqn == 0 then 1 else seqn if nowait then writeAssembly chan $ SimpleMethod (Confirm_select True) else do (SimpleMethod Confirm_select_ok) <- request chan $ SimpleMethod (Confirm_select False) return () {- | Calling this function will cause the invoking thread to block until all previously published messages have been acknowledged by the broker (positively or negatively). Returns a value of type 'ConfirmationResult', holding a tuple of two IntSets @(acked, nacked)@, ontaining the delivery tags for the messages that have been confirmed by the broker. -} waitForConfirms :: Channel -> IO ConfirmationResult waitForConfirms chan = atomically $ Complete <$> waitForAllConfirms chan {- | Same as 'waitForConfirms', but with a timeout in microseconds. Note that, since this operation may timeout before the server has acked or nacked all pending messages, the returned 'ConfirmationResult' should be pattern-matched for the constructors @Complete (acked, nacked)@ and @Partial (acked, nacked, pending)@ -} waitForConfirmsUntil :: Channel -> Int -> IO ConfirmationResult waitForConfirmsUntil chan timeout = do delay <- registerDelay timeout let partial = do expired <- readTVar delay if expired then Partial <$> ((,,) <$> swapTVar (ackedSet chan) IntSet.empty <*> swapTVar (nackedSet chan) IntSet.empty <*> readTVar (unconfirmedSet chan)) else retry complete = Complete <$> waitForAllConfirms chan atomically $ complete `orElse` partial {- | Adds a handler which will be invoked each time the @Channel@ receives a confirmation from the broker. The parameters passed to the the handler are the @deliveryTag@ for the message being confirmed, a flag indicating whether the confirmation refers to this message individually (@False@) or all messages up to this one (@True@) and an @AckType@ whose value can be either @BasicAck@ or @BasicNack@. -} addConfirmationListener :: Channel -> ((Word64, Bool, AckType) -> IO ()) -> IO () addConfirmationListener chan handler = modifyMVar_ (confirmListeners chan) $ \listeners -> return $ handler:listeners --------------------- FLOW CONTROL ------------------------ {- | @flow chan active@ tells the AMQP server to pause or restart the flow of content data. This is a simple flow-control mechanism that a peer can use to avoid overflowing its queues or otherwise finding itself receiving more messages than it can process. If @active==True@ the server will start sending content data, if @active==False@ the server will stop sending content data. A new channel is always active by default. NOTE: RabbitMQ 1.7 doesn't implement this command. -} flow :: Channel -> Bool -> IO () flow chan active = do SimpleMethod (Channel_flow_ok _) <- request chan $ SimpleMethod (Channel_flow active) return () -- | Constructs default connection options with the following settings : -- -- * Broker: @amqp:\/\/guest:guest\@localhost:5672\/%2F@ using the @PLAIN@ SASL mechanism -- -- * max frame size: @131072@ -- -- * use the heartbeat delay suggested by the broker -- -- * no limit on the number of used channels -- defaultConnectionOpts :: ConnectionOpts defaultConnectionOpts = ConnectionOpts [("localhost", 5672)] "/" [plain "guest" "guest"] (Just 131072) Nothing Nothing Nothing Nothing -- | @openConnection hostname virtualHost loginName loginPassword@ opens a connection to an AMQP server running on @hostname@. -- @virtualHost@ is used as a namespace for AMQP resources (default is \"/\"), so different applications could use multiple virtual hosts on the same AMQP server. -- -- You must call 'closeConnection' before your program exits to ensure that all published messages are received by the server. -- -- The @loginName@ and @loginPassword@ will be used to authenticate via the 'PLAIN' SASL mechanism. -- -- NOTE: If the login name, password or virtual host are invalid, this method will throw a 'ConnectionClosedException'. The exception will not contain a reason why the connection was closed, so you'll have to find out yourself. openConnection :: String -> Text -> Text -> Text -> IO Connection openConnection host = openConnection' host 5672 -- | same as 'openConnection' but allows you to specify a non-default port-number as the 2nd parameter openConnection' :: String -> PortNumber -> Text -> Text -> Text -> IO Connection openConnection' host port vhost loginName loginPassword = openConnection'' $ defaultConnectionOpts { coServers = [(host, port)], coVHost = vhost, coAuth = [plain loginName loginPassword] } -- | The @PLAIN@ SASL mechanism. See plain :: Text -> Text -> SASLMechanism plain loginName loginPassword = SASLMechanism "PLAIN" initialResponse Nothing where nul = '\0' initialResponse = E.encodeUtf8 $ T.cons nul loginName `T.append` T.cons nul loginPassword -- | The @AMQPLAIN@ SASL mechanism. See . amqplain :: Text -> Text -> SASLMechanism amqplain loginName loginPassword = SASLMechanism "AMQPLAIN" initialResponse Nothing where initialResponse = toStrict $ BL.drop 4 $ runPut $ put $ FieldTable $ M.fromList [("LOGIN",FVString $ E.encodeUtf8 loginName), ("PASSWORD", FVString $ E.encodeUtf8 loginPassword)] -- | The @RABBIT-CR-DEMO@ SASL mechanism needs to be explicitly enabled on the RabbitMQ server and should only be used for demonstration purposes of the challenge-response cycle. -- See . rabbitCRdemo :: Text -> Text -> SASLMechanism rabbitCRdemo loginName loginPassword = SASLMechanism "RABBIT-CR-DEMO" initialResponse (Just $ const challengeResponse) where initialResponse = E.encodeUtf8 loginName challengeResponse = return $ E.encodeUtf8 "My password is " `BS.append` E.encodeUtf8 loginPassword -- | @qos chan prefetchSize prefetchCount global@ limits the amount of data the server -- delivers before requiring acknowledgements. @prefetchSize@ specifies the -- number of bytes and @prefetchCount@ the number of messages. In both cases -- the value 0 means unlimited. -- -- The meaning of the @global@ flag is explained here: -- -- NOTE: RabbitMQ does not implement prefetchSize and will throw an exception if it doesn't equal 0. qos :: Channel -> Word32 -> Word16 -> Bool -> IO () qos chan prefetchSize prefetchCount global = do SimpleMethod Basic_qos_ok <- request chan $ SimpleMethod $ Basic_qos prefetchSize prefetchCount global return () -- | Parses amqp standard URI of the form @amqp://user:password@host:port/vhost@ and returns a @ConnectionOpts@ for use with @openConnection''@ -- | Any of these fields may be empty and will be replaced with defaults from @amqp://guest:guest@localhost:5672/@ fromURI :: String -> ConnectionOpts fromURI uri = defaultConnectionOpts { coServers = hostPorts', coVHost = T.pack vhost, coAuth = [plain (T.pack uid) (T.pack pw)], coTLSSettings = if tls then Just TLSTrusted else Nothing } where (hostPorts, uid, pw, vhost, tls) = fromURI' uri hostPorts' = [(h, fromIntegral p) | (h, p) <- hostPorts] fromURI' :: String -> ([(String, Int)], String, String, String, Bool) fromURI' uri = (fromHostPort dport <$> hstPorts, unEscapeString (dropWhile (=='/') uid), unEscapeString pw, unEscapeString vhost, tls) where (pre :suf : _) = splitOn "@" (uri ++ "@" ) -- look mom, no regexp dependencies (pro :uid' :pw':_) = splitOn ":" (pre ++ "::") (hnp :thost: _) = splitOn "/" (suf ++ "/" ) hstPorts = splitOn "," hnp vhost = if null thost then "/" else thost dport = if pro == "amqps" then 5671 else 5672 uid = if null uid' then "guest" else uid' pw = if null pw' then "guest" else pw' tls = pro == "amqps" fromHostPort :: Int -> String -> (String, Int) fromHostPort dport hostPort = (unEscapeString host, nport) where (hst':port : _) = splitOn ":" (hostPort ++ ":" ) host = if null hst' then "localhost" else hst' nport = if null port then dport else read port