Safe Haskell | None |
---|---|
Language | Haskell98 |
Synopsis
- data Redis a
- runRedis :: Connection -> Redis a -> IO a
- unRedis :: Redis a -> ReaderT RedisEnv IO a
- reRedis :: ReaderT RedisEnv IO a -> Redis a
- class MonadRedis m => RedisCtx m f | m -> f where
- returnDecode :: RedisResult a => Reply -> m (f a)
- class Monad m => MonadRedis m where
- data Connection
- data ConnectError
- connect :: ConnectInfo -> IO Connection
- checkedConnect :: ConnectInfo -> IO Connection
- disconnect :: Connection -> IO ()
- withConnect :: ConnectInfo -> (Connection -> IO c) -> IO c
- withCheckedConnect :: ConnectInfo -> (Connection -> IO c) -> IO c
- data ConnectInfo = ConnInfo {}
- defaultConnectInfo :: ConnectInfo
- parseConnectInfo :: String -> Either String ConnectInfo
- data PortID
- auth :: ByteString -> Redis (Either Reply Status)
- echo :: RedisCtx m f => ByteString -> m (f ByteString)
- ping :: RedisCtx m f => m (f Status)
- quit :: RedisCtx m f => m (f Status)
- select :: RedisCtx m f => Integer -> m (f Status)
- del :: RedisCtx m f => [ByteString] -> m (f Integer)
- dump :: RedisCtx m f => ByteString -> m (f ByteString)
- exists :: RedisCtx m f => ByteString -> m (f Bool)
- expire :: RedisCtx m f => ByteString -> Integer -> m (f Bool)
- expireat :: RedisCtx m f => ByteString -> Integer -> m (f Bool)
- keys :: RedisCtx m f => ByteString -> m (f [ByteString])
- data MigrateOpts = MigrateOpts {}
- defaultMigrateOpts :: MigrateOpts
- migrate :: RedisCtx m f => ByteString -> ByteString -> ByteString -> Integer -> Integer -> m (f Status)
- migrateMultiple :: RedisCtx m f => ByteString -> ByteString -> Integer -> Integer -> MigrateOpts -> [ByteString] -> m (f Status)
- move :: RedisCtx m f => ByteString -> Integer -> m (f Bool)
- objectRefcount :: RedisCtx m f => ByteString -> m (f Integer)
- objectEncoding :: RedisCtx m f => ByteString -> m (f ByteString)
- objectIdletime :: RedisCtx m f => ByteString -> m (f Integer)
- persist :: RedisCtx m f => ByteString -> m (f Bool)
- pexpire :: RedisCtx m f => ByteString -> Integer -> m (f Bool)
- pexpireat :: RedisCtx m f => ByteString -> Integer -> m (f Bool)
- pttl :: RedisCtx m f => ByteString -> m (f Integer)
- randomkey :: RedisCtx m f => m (f (Maybe ByteString))
- rename :: RedisCtx m f => ByteString -> ByteString -> m (f Status)
- renamenx :: RedisCtx m f => ByteString -> ByteString -> m (f Bool)
- restore :: RedisCtx m f => ByteString -> Integer -> ByteString -> m (f Status)
- restoreReplace :: RedisCtx m f => ByteString -> Integer -> ByteString -> m (f Status)
- data Cursor
- cursor0 :: Cursor
- data ScanOpts = ScanOpts {}
- defaultScanOpts :: ScanOpts
- scan :: RedisCtx m f => Cursor -> m (f (Cursor, [ByteString]))
- scanOpts :: RedisCtx m f => Cursor -> ScanOpts -> m (f (Cursor, [ByteString]))
- data SortOpts = SortOpts {}
- defaultSortOpts :: SortOpts
- data SortOrder
- sort :: RedisCtx m f => ByteString -> SortOpts -> m (f [ByteString])
- sortStore :: RedisCtx m f => ByteString -> ByteString -> SortOpts -> m (f Integer)
- ttl :: RedisCtx m f => ByteString -> m (f Integer)
- data RedisType
- getType :: RedisCtx m f => ByteString -> m (f RedisType)
- wait :: RedisCtx m f => Integer -> Integer -> m (f Integer)
- hdel :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- hexists :: RedisCtx m f => ByteString -> ByteString -> m (f Bool)
- hget :: RedisCtx m f => ByteString -> ByteString -> m (f (Maybe ByteString))
- hgetall :: RedisCtx m f => ByteString -> m (f [(ByteString, ByteString)])
- hincrby :: RedisCtx m f => ByteString -> ByteString -> Integer -> m (f Integer)
- hincrbyfloat :: RedisCtx m f => ByteString -> ByteString -> Double -> m (f Double)
- hkeys :: RedisCtx m f => ByteString -> m (f [ByteString])
- hlen :: RedisCtx m f => ByteString -> m (f Integer)
- hmget :: RedisCtx m f => ByteString -> [ByteString] -> m (f [Maybe ByteString])
- hmset :: RedisCtx m f => ByteString -> [(ByteString, ByteString)] -> m (f Status)
- hscan :: RedisCtx m f => ByteString -> Cursor -> m (f (Cursor, [(ByteString, ByteString)]))
- hscanOpts :: RedisCtx m f => ByteString -> Cursor -> ScanOpts -> m (f (Cursor, [(ByteString, ByteString)]))
- hset :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Bool)
- hsetnx :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Bool)
- hstrlen :: RedisCtx m f => ByteString -> ByteString -> m (f Integer)
- hvals :: RedisCtx m f => ByteString -> m (f [ByteString])
- pfadd :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- pfcount :: RedisCtx m f => [ByteString] -> m (f Integer)
- pfmerge :: RedisCtx m f => ByteString -> [ByteString] -> m (f ByteString)
- blpop :: RedisCtx m f => [ByteString] -> Integer -> m (f (Maybe (ByteString, ByteString)))
- brpop :: RedisCtx m f => [ByteString] -> Integer -> m (f (Maybe (ByteString, ByteString)))
- brpoplpush :: RedisCtx m f => ByteString -> ByteString -> Integer -> m (f (Maybe ByteString))
- lindex :: RedisCtx m f => ByteString -> Integer -> m (f (Maybe ByteString))
- linsertBefore :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Integer)
- linsertAfter :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Integer)
- llen :: RedisCtx m f => ByteString -> m (f Integer)
- lpop :: RedisCtx m f => ByteString -> m (f (Maybe ByteString))
- lpush :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- lpushx :: RedisCtx m f => ByteString -> ByteString -> m (f Integer)
- lrange :: RedisCtx m f => ByteString -> Integer -> Integer -> m (f [ByteString])
- lrem :: RedisCtx m f => ByteString -> Integer -> ByteString -> m (f Integer)
- lset :: RedisCtx m f => ByteString -> Integer -> ByteString -> m (f Status)
- ltrim :: RedisCtx m f => ByteString -> Integer -> Integer -> m (f Status)
- rpop :: RedisCtx m f => ByteString -> m (f (Maybe ByteString))
- rpoplpush :: RedisCtx m f => ByteString -> ByteString -> m (f (Maybe ByteString))
- rpush :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- rpushx :: RedisCtx m f => ByteString -> ByteString -> m (f Integer)
- eval :: (RedisCtx m f, RedisResult a) => ByteString -> [ByteString] -> [ByteString] -> m (f a)
- evalsha :: (RedisCtx m f, RedisResult a) => ByteString -> [ByteString] -> [ByteString] -> m (f a)
- data DebugMode
- scriptDebug :: RedisCtx m f => DebugMode -> m (f Bool)
- scriptExists :: RedisCtx m f => [ByteString] -> m (f [Bool])
- scriptFlush :: RedisCtx m f => m (f Status)
- scriptKill :: RedisCtx m f => m (f Status)
- scriptLoad :: RedisCtx m f => ByteString -> m (f ByteString)
- bgrewriteaof :: RedisCtx m f => m (f Status)
- bgsave :: RedisCtx m f => m (f Status)
- clientGetname :: RedisCtx m f => m (f Status)
- clientList :: RedisCtx m f => m (f [ByteString])
- clientPause :: RedisCtx m f => Integer -> m (f Status)
- data ReplyMode
- clientReply :: RedisCtx m f => ReplyMode -> m (f Bool)
- clientSetname :: RedisCtx m f => ByteString -> m (f ByteString)
- commandCount :: RedisCtx m f => m (f Integer)
- commandInfo :: RedisCtx m f => [ByteString] -> m (f [ByteString])
- configGet :: RedisCtx m f => ByteString -> m (f [(ByteString, ByteString)])
- configResetstat :: RedisCtx m f => m (f Status)
- configRewrite :: RedisCtx m f => m (f Status)
- configSet :: RedisCtx m f => ByteString -> ByteString -> m (f Status)
- dbsize :: RedisCtx m f => m (f Integer)
- debugObject :: RedisCtx m f => ByteString -> m (f ByteString)
- flushall :: RedisCtx m f => m (f Status)
- flushdb :: RedisCtx m f => m (f Status)
- info :: RedisCtx m f => m (f ByteString)
- infoSection :: RedisCtx m f => ByteString -> m (f ByteString)
- lastsave :: RedisCtx m f => m (f Integer)
- save :: RedisCtx m f => m (f Status)
- slaveof :: RedisCtx m f => ByteString -> ByteString -> m (f Status)
- data Slowlog = Slowlog {}
- slowlogGet :: RedisCtx m f => Integer -> m (f [Slowlog])
- slowlogLen :: RedisCtx m f => m (f Integer)
- slowlogReset :: RedisCtx m f => m (f Status)
- time :: RedisCtx m f => m (f (Integer, Integer))
- sadd :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- scard :: RedisCtx m f => ByteString -> m (f Integer)
- sdiff :: RedisCtx m f => [ByteString] -> m (f [ByteString])
- sdiffstore :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- sinter :: RedisCtx m f => [ByteString] -> m (f [ByteString])
- sinterstore :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- sismember :: RedisCtx m f => ByteString -> ByteString -> m (f Bool)
- smembers :: RedisCtx m f => ByteString -> m (f [ByteString])
- smove :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Bool)
- spop :: RedisCtx m f => ByteString -> m (f (Maybe ByteString))
- spopN :: RedisCtx m f => ByteString -> Integer -> m (f [ByteString])
- srandmember :: RedisCtx m f => ByteString -> m (f (Maybe ByteString))
- srandmemberN :: RedisCtx m f => ByteString -> Integer -> m (f [ByteString])
- srem :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- sscan :: RedisCtx m f => ByteString -> Cursor -> m (f (Cursor, [ByteString]))
- sscanOpts :: RedisCtx m f => ByteString -> Cursor -> ScanOpts -> m (f (Cursor, [ByteString]))
- sunion :: RedisCtx m f => [ByteString] -> m (f [ByteString])
- sunionstore :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- data ZaddOpts = ZaddOpts {}
- defaultZaddOpts :: ZaddOpts
- zadd :: RedisCtx m f => ByteString -> [(Double, ByteString)] -> m (f Integer)
- zaddOpts :: RedisCtx m f => ByteString -> [(Double, ByteString)] -> ZaddOpts -> m (f Integer)
- zcard :: RedisCtx m f => ByteString -> m (f Integer)
- zcount :: RedisCtx m f => ByteString -> Double -> Double -> m (f Integer)
- zincrby :: RedisCtx m f => ByteString -> Integer -> ByteString -> m (f Double)
- data Aggregate
- zinterstore :: RedisCtx m f => ByteString -> [ByteString] -> Aggregate -> m (f Integer)
- zinterstoreWeights :: RedisCtx m f => ByteString -> [(ByteString, Double)] -> Aggregate -> m (f Integer)
- zlexcount :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Integer)
- zrange :: RedisCtx m f => ByteString -> Integer -> Integer -> m (f [ByteString])
- zrangeWithscores :: RedisCtx m f => ByteString -> Integer -> Integer -> m (f [(ByteString, Double)])
- data RangeLex a
- zrangebylex :: RedisCtx m f => ByteString -> RangeLex ByteString -> RangeLex ByteString -> m (f [ByteString])
- zrangebylexLimit :: RedisCtx m f => ByteString -> RangeLex ByteString -> RangeLex ByteString -> Integer -> Integer -> m (f [ByteString])
- zrangebyscore :: RedisCtx m f => ByteString -> Double -> Double -> m (f [ByteString])
- zrangebyscoreWithscores :: RedisCtx m f => ByteString -> Double -> Double -> m (f [(ByteString, Double)])
- zrangebyscoreLimit :: RedisCtx m f => ByteString -> Double -> Double -> Integer -> Integer -> m (f [ByteString])
- zrangebyscoreWithscoresLimit :: RedisCtx m f => ByteString -> Double -> Double -> Integer -> Integer -> m (f [(ByteString, Double)])
- zrank :: RedisCtx m f => ByteString -> ByteString -> m (f (Maybe Integer))
- zrem :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- zremrangebylex :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Integer)
- zremrangebyrank :: RedisCtx m f => ByteString -> Integer -> Integer -> m (f Integer)
- zremrangebyscore :: RedisCtx m f => ByteString -> Double -> Double -> m (f Integer)
- zrevrange :: RedisCtx m f => ByteString -> Integer -> Integer -> m (f [ByteString])
- zrevrangeWithscores :: RedisCtx m f => ByteString -> Integer -> Integer -> m (f [(ByteString, Double)])
- zrevrangebyscore :: RedisCtx m f => ByteString -> Double -> Double -> m (f [ByteString])
- zrevrangebyscoreWithscores :: RedisCtx m f => ByteString -> Double -> Double -> m (f [(ByteString, Double)])
- zrevrangebyscoreLimit :: RedisCtx m f => ByteString -> Double -> Double -> Integer -> Integer -> m (f [ByteString])
- zrevrangebyscoreWithscoresLimit :: RedisCtx m f => ByteString -> Double -> Double -> Integer -> Integer -> m (f [(ByteString, Double)])
- zrevrank :: RedisCtx m f => ByteString -> ByteString -> m (f (Maybe Integer))
- zscan :: RedisCtx m f => ByteString -> Cursor -> m (f (Cursor, [(ByteString, Double)]))
- zscanOpts :: RedisCtx m f => ByteString -> Cursor -> ScanOpts -> m (f (Cursor, [(ByteString, Double)]))
- zscore :: RedisCtx m f => ByteString -> ByteString -> m (f (Maybe Double))
- zunionstore :: RedisCtx m f => ByteString -> [ByteString] -> Aggregate -> m (f Integer)
- zunionstoreWeights :: RedisCtx m f => ByteString -> [(ByteString, Double)] -> Aggregate -> m (f Integer)
- append :: RedisCtx m f => ByteString -> ByteString -> m (f Integer)
- bitcount :: RedisCtx m f => ByteString -> m (f Integer)
- bitcountRange :: RedisCtx m f => ByteString -> Integer -> Integer -> m (f Integer)
- bitopAnd :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- bitopOr :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- bitopXor :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- bitopNot :: RedisCtx m f => ByteString -> ByteString -> m (f Integer)
- bitpos :: RedisCtx m f => ByteString -> Integer -> Integer -> Integer -> m (f Integer)
- decr :: RedisCtx m f => ByteString -> m (f Integer)
- decrby :: RedisCtx m f => ByteString -> Integer -> m (f Integer)
- get :: RedisCtx m f => ByteString -> m (f (Maybe ByteString))
- getbit :: RedisCtx m f => ByteString -> Integer -> m (f Integer)
- getrange :: RedisCtx m f => ByteString -> Integer -> Integer -> m (f ByteString)
- getset :: RedisCtx m f => ByteString -> ByteString -> m (f (Maybe ByteString))
- incr :: RedisCtx m f => ByteString -> m (f Integer)
- incrby :: RedisCtx m f => ByteString -> Integer -> m (f Integer)
- incrbyfloat :: RedisCtx m f => ByteString -> Double -> m (f Double)
- mget :: RedisCtx m f => [ByteString] -> m (f [Maybe ByteString])
- mset :: RedisCtx m f => [(ByteString, ByteString)] -> m (f Status)
- msetnx :: RedisCtx m f => [(ByteString, ByteString)] -> m (f Bool)
- psetex :: RedisCtx m f => ByteString -> Integer -> ByteString -> m (f Status)
- data Condition
- data SetOpts = SetOpts {}
- set :: RedisCtx m f => ByteString -> ByteString -> m (f Status)
- setOpts :: RedisCtx m f => ByteString -> ByteString -> SetOpts -> m (f Status)
- setbit :: RedisCtx m f => ByteString -> Integer -> ByteString -> m (f Integer)
- setex :: RedisCtx m f => ByteString -> Integer -> ByteString -> m (f Status)
- setnx :: RedisCtx m f => ByteString -> ByteString -> m (f Bool)
- setrange :: RedisCtx m f => ByteString -> Integer -> ByteString -> m (f Integer)
- strlen :: RedisCtx m f => ByteString -> m (f Integer)
- data XReadOpts = XReadOpts {}
- defaultXreadOpts :: XReadOpts
- data XReadResponse = XReadResponse {
- stream :: ByteString
- records :: [StreamsRecord]
- data StreamsRecord = StreamsRecord {
- recordId :: ByteString
- keyValues :: [(ByteString, ByteString)]
- data TrimOpts
- xadd :: RedisCtx m f => ByteString -> ByteString -> [(ByteString, ByteString)] -> m (f ByteString)
- xaddOpts :: RedisCtx m f => ByteString -> ByteString -> [(ByteString, ByteString)] -> TrimOpts -> m (f ByteString)
- xread :: RedisCtx m f => [(ByteString, ByteString)] -> m (f (Maybe [XReadResponse]))
- xreadOpts :: RedisCtx m f => [(ByteString, ByteString)] -> XReadOpts -> m (f (Maybe [XReadResponse]))
- xreadGroup :: RedisCtx m f => ByteString -> ByteString -> [(ByteString, ByteString)] -> m (f (Maybe [XReadResponse]))
- xreadGroupOpts :: RedisCtx m f => ByteString -> ByteString -> [(ByteString, ByteString)] -> XReadOpts -> m (f (Maybe [XReadResponse]))
- xack :: RedisCtx m f => ByteString -> ByteString -> [ByteString] -> m (f Integer)
- xgroupCreate :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Status)
- xgroupSetId :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Status)
- xgroupDestroy :: RedisCtx m f => ByteString -> ByteString -> m (f Bool)
- xgroupDelConsumer :: RedisCtx m f => ByteString -> ByteString -> ByteString -> m (f Integer)
- xrange :: RedisCtx m f => ByteString -> ByteString -> ByteString -> Maybe Integer -> m (f [StreamsRecord])
- xrevRange :: RedisCtx m f => ByteString -> ByteString -> ByteString -> Maybe Integer -> m (f [StreamsRecord])
- xlen :: RedisCtx m f => ByteString -> m (f Integer)
- data XPendingSummaryResponse = XPendingSummaryResponse {}
- xpendingSummary :: RedisCtx m f => ByteString -> ByteString -> Maybe ByteString -> m (f XPendingSummaryResponse)
- data XPendingDetailRecord = XPendingDetailRecord {}
- xpendingDetail :: RedisCtx m f => ByteString -> ByteString -> ByteString -> ByteString -> Integer -> Maybe ByteString -> m (f [XPendingDetailRecord])
- data XClaimOpts = XClaimOpts {}
- defaultXClaimOpts :: XClaimOpts
- xclaim :: RedisCtx m f => ByteString -> ByteString -> ByteString -> Integer -> XClaimOpts -> [ByteString] -> m (f [StreamsRecord])
- xclaimJustIds :: RedisCtx m f => ByteString -> ByteString -> ByteString -> Integer -> XClaimOpts -> [ByteString] -> m (f [ByteString])
- data XInfoConsumersResponse = XInfoConsumersResponse {}
- xinfoConsumers :: RedisCtx m f => ByteString -> ByteString -> m (f [XInfoConsumersResponse])
- data XInfoGroupsResponse = XInfoGroupsResponse {}
- xinfoGroups :: RedisCtx m f => ByteString -> m (f [XInfoGroupsResponse])
- data XInfoStreamResponse = XInfoStreamResponse {}
- xinfoStream :: RedisCtx m f => ByteString -> m (f XInfoStreamResponse)
- xdel :: RedisCtx m f => ByteString -> [ByteString] -> m (f Integer)
- xtrim :: RedisCtx m f => ByteString -> TrimOpts -> m (f Integer)
- inf :: RealFloat a => a
- watch :: [ByteString] -> Redis (Either Reply Status)
- unwatch :: Redis (Either Reply Status)
- multiExec :: RedisTx (Queued a) -> Redis (TxResult a)
- data Queued a
- data TxResult a
- data RedisTx a
- publish :: RedisCtx m f => ByteString -> ByteString -> m (f Integer)
- pubSub :: PubSub -> (Message -> IO PubSub) -> Redis ()
- data Message
- data PubSub
- subscribe :: [ByteString] -> PubSub
- unsubscribe :: [ByteString] -> PubSub
- psubscribe :: [ByteString] -> PubSub
- punsubscribe :: [ByteString] -> PubSub
- pubSubForever :: Connection -> PubSubController -> IO () -> IO ()
- type RedisChannel = ByteString
- type RedisPChannel = ByteString
- type MessageCallback = ByteString -> IO ()
- type PMessageCallback = RedisChannel -> ByteString -> IO ()
- data PubSubController
- newPubSubController :: MonadIO m => [(RedisChannel, MessageCallback)] -> [(RedisPChannel, PMessageCallback)] -> m PubSubController
- currentChannels :: MonadIO m => PubSubController -> m [RedisChannel]
- currentPChannels :: MonadIO m => PubSubController -> m [RedisPChannel]
- addChannels :: MonadIO m => PubSubController -> [(RedisChannel, MessageCallback)] -> [(RedisPChannel, PMessageCallback)] -> m UnregisterCallbacksAction
- addChannelsAndWait :: MonadIO m => PubSubController -> [(RedisChannel, MessageCallback)] -> [(RedisPChannel, PMessageCallback)] -> m UnregisterCallbacksAction
- removeChannels :: MonadIO m => PubSubController -> [RedisChannel] -> [RedisPChannel] -> m ()
- removeChannelsAndWait :: MonadIO m => PubSubController -> [RedisChannel] -> [RedisPChannel] -> m ()
- type UnregisterCallbacksAction = IO ()
- sendRequest :: (RedisCtx m f, RedisResult a) => [ByteString] -> m (f a)
- data Reply
- = SingleLine ByteString
- | Error ByteString
- | Integer Integer
- | Bulk (Maybe ByteString)
- | MultiBulk (Maybe [Reply])
- data Status
- = Ok
- | Pong
- | Status ByteString
- class RedisResult a where
- data ConnectionLostException = ConnectionLost
How To Use This Module
Connect to a Redis server:
-- connects to localhost:6379 conn <-checkedConnect
defaultConnectInfo
Connect to a Redis server using TLS:
-- connects to foobar.redis.cache.windows.net:6380 import Network.TLS import Network.TLS.Extra.Cipher import Data.X509.CertificateStore import Data.Default.Class (def) (Just certStore) <- readCertificateStore "azure-redis.crt" let tlsParams = (defaultParamsClient "foobar.redis.cache.windows.net" "") { clientSupported = def { supportedCiphers = ciphersuite_strong }, clientShared = def { sharedCAStore = certStore } } let redisConnInfo = defaultConnectInfo { connectHost = "foobar.redis.cache.windows.net", connectPort = PortNumber 6380, connectTLSParams = Just tlsParams, connectAuth = Just "Foobar!" } conn <- checkedConnect redisConnInfo
Send commands to the server:
{-# LANGUAGE OverloadedStrings #-} ...runRedis
conn $ doset
"hello" "hello" set "world" "world" hello <-get
"hello" world <- get "world" liftIO $ print (hello,world)
disconnect all idle resources in the connection pool:
disconnect
conn
Command Type Signatures
Redis commands behave differently when issued in- or outside of a transaction. To make them work in both contexts, most command functions have a type signature similar to the following:
echo
:: (RedisCtx
m f) => ByteString -> m (f ByteString)
Here is how to interpret this type signature:
- The argument types are independent of the execution context.
echo
always takes aByteString
parameter, whether in- or outside of a transaction. This is true for all command functions. - All Redis commands return their result wrapped in some "container".
The type
f
of this container depends on the commands execution contextm
. TheByteString
return type in the example is specific to theecho
command. For other commands, it will often be another type. - In the "normal" context
Redis
, outside of any transactions, results are wrapped in an
.Either
Reply
- Inside a transaction, in the
RedisTx
context, results are wrapped in aQueued
.
In short, you can view any command with a RedisCtx
constraint in the
type signature, to "have two types". For example echo
"has both
types":
echo :: ByteString -> Redis (Either Reply ByteString) echo :: ByteString -> RedisTx (Queued ByteString)
Lua Scripting
Lua values returned from the eval
and evalsha
functions will be
converted to Haskell values by the decode
function from the
RedisResult
type class.
Lua Type | Haskell Type | Conversion Example --------------|--------------------|----------------------------- Number | Integer | 1.23 => 1 String | ByteString, Double | "1.23" => "1.23" or 1.23 Boolean | Bool | false => False Table | List | {1,2} => [1,2]
Additionally, any of the Haskell types from the table above can be
wrapped in a Maybe
:
42 => Just 42 :: Maybe Integer nil => Nothing :: Maybe Integer
Note that Redis imposes some limitations on the possible conversions:
- Lua numbers can only be converted to Integers. Only Lua strings can be interpreted as Doubles.
- Associative Lua tables can not be converted at all. Returned tables must be "arrays", i.e. indexed only by integers.
The Redis Scripting website (http://redis.io/commands/eval) documents the exact semantics of the scripting commands and value conversion.
Automatic Pipelining
Commands are automatically pipelined as much as possible. For example, in the above "hello world" example, all four commands are pipelined. Automatic pipelining makes use of Haskell's laziness. As long as a previous reply is not evaluated, subsequent commands can be pipelined.
Automatic pipelining is limited to the scope of runRedis
call and
it is guaranteed that every reply expected as a part of runRedis
execution gets received after runRedis
invocation.
To keep memory usage low, the number of requests "in the pipeline" is limited (per connection) to 1000. After that number, the next command is sent only when at least one reply has been received. That means, command functions may block until there are less than 1000 outstanding replies.
Error Behavior
- Operations against keys holding the wrong kind of value:
- Outside of a
transaction, if the Redis server returns an
Error
, command functions will returnLeft
theReply
. The library user can inspect the error message to gain information on what kind of error occured. - Connection to the server lost:
- In case of a lost connection, command
functions throw a
ConnectionLostException
. It can only be caught outside ofrunRedis
. - Trying to connect to an unreachable server:
- When trying to connect to
a server that does not exist or can't be reached, the connection pool
only starts the first connection when actually executing a call to
the server. This can lead to discovering very late that the server is
not available, for example when running a server that logs to Redis.
To prevent this, run a
ping
command directly after connecting or use thecheckedConnect
function which encapsulates this behavior. - Exceptions:
- Any exceptions can only be caught outside of
runRedis
. This way the connection pool can properly close the connection, making sure it is not left in an unusable state, e.g. closed or inside a transaction.
The Redis Monad
Context for normal command execution, outside of transactions. Use
runRedis
to run actions of this type.
In this context, each result is wrapped in an Either
to account for the
possibility of Redis returning an Error
reply.
Instances
Monad Redis Source # | |
Functor Redis Source # | |
MonadFail Redis Source # | |
Defined in Database.Redis.Core.Internal | |
Applicative Redis Source # | |
MonadIO Redis Source # | |
Defined in Database.Redis.Core.Internal | |
MonadRedis Redis Source # | |
RedisCtx Redis (Either Reply) Source # | |
Defined in Database.Redis.Core returnDecode :: RedisResult a => Reply -> Redis (Either Reply a) Source # |
runRedis :: Connection -> Redis a -> IO a Source #
Interact with a Redis datastore specified by the given Connection
.
Each call of runRedis
takes a network connection from the Connection
pool and runs the given Redis
action. Calls to runRedis
may thus block
while all connections from the pool are in use.
class MonadRedis m => RedisCtx m f | m -> f where Source #
This class captures the following behaviour: In a context m
, a command
will return its result wrapped in a "container" of type f
.
Please refer to the Command Type Signatures section of this page for more information.
returnDecode :: RedisResult a => Reply -> m (f a) Source #
Instances
RedisCtx RedisTx Queued Source # | |
Defined in Database.Redis.Transactions returnDecode :: RedisResult a => Reply -> RedisTx (Queued a) Source # | |
RedisCtx Redis (Either Reply) Source # | |
Defined in Database.Redis.Core returnDecode :: RedisResult a => Reply -> Redis (Either Reply a) Source # |
class Monad m => MonadRedis m where Source #
Instances
MonadRedis Redis Source # | |
MonadRedis RedisTx Source # | |
Connection
data Connection Source #
A threadsafe pool of network connections to a Redis server. Use the
connect
function to create one.
data ConnectError Source #
Instances
Eq ConnectError Source # | |
Defined in Database.Redis.Core (==) :: ConnectError -> ConnectError -> Bool # (/=) :: ConnectError -> ConnectError -> Bool # | |
Show ConnectError Source # | |
Defined in Database.Redis.Core showsPrec :: Int -> ConnectError -> ShowS # show :: ConnectError -> String # showList :: [ConnectError] -> ShowS # | |
Exception ConnectError Source # | |
Defined in Database.Redis.Core |
connect :: ConnectInfo -> IO Connection Source #
Constructs a Connection
pool to a Redis server designated by the
given ConnectInfo
. The first connection is not actually established
until the first call to the server.
checkedConnect :: ConnectInfo -> IO Connection Source #
Constructs a Connection
pool to a Redis server designated by the
given ConnectInfo
, then tests if the server is actually there.
Throws an exception if the connection to the Redis server can't be
established.
disconnect :: Connection -> IO () Source #
Destroy all idle resources in the pool.
withConnect :: ConnectInfo -> (Connection -> IO c) -> IO c Source #
Memory bracket around connect
and disconnect
.
withCheckedConnect :: ConnectInfo -> (Connection -> IO c) -> IO c Source #
Memory bracket around checkedConnect
and disconnect
data ConnectInfo Source #
Information for connnecting to a Redis server.
It is recommended to not use the ConnInfo
data constructor directly.
Instead use defaultConnectInfo
and update it with record syntax. For
example to connect to a password protected Redis server running on localhost
and listening to the default port:
myConnectInfo :: ConnectInfo myConnectInfo = defaultConnectInfo {connectAuth = Just "secret"}
ConnInfo | |
|
Instances
Show ConnectInfo Source # | |
Defined in Database.Redis.Core showsPrec :: Int -> ConnectInfo -> ShowS # show :: ConnectInfo -> String # showList :: [ConnectInfo] -> ShowS # |
defaultConnectInfo :: ConnectInfo Source #
Default information for connecting:
connectHost = "localhost" connectPort = PortNumber 6379 -- Redis default port connectAuth = Nothing -- No password connectDatabase = 0 -- SELECT database 0 connectMaxConnections = 50 -- Up to 50 connections connectMaxIdleTime = 30 -- Keep open for 30 seconds connectTimeout = Nothing -- Don't add timeout logic connectTLSParams = Nothing -- Do not use TLS
parseConnectInfo :: String -> Either String ConnectInfo Source #
Parse a
from a URLConnectInfo
Username is ignored, path is used to specify the database:
>>>
parseConnectInfo "redis://username:password@host:42/2"
Right (ConnInfo {connectHost = "host", connectPort = PortNumber 42, connectAuth = Just "password", connectDatabase = 2, connectMaxConnections = 50, connectMaxIdleTime = 30s, connectTimeout = Nothing, connectTLSParams = Nothing})
>>>
parseConnectInfo "redis://username:password@host:42/db"
Left "Invalid port: db"
The scheme is validated, to prevent mixing up configurations:
>>>
parseConnectInfo "postgres://"
Left "Wrong scheme"
Beyond that, all values are optional. Omitted values are taken from
:defaultConnectInfo
>>>
parseConnectInfo "redis://"
Right (ConnInfo {connectHost = "localhost", connectPort = PortNumber 6379, connectAuth = Nothing, connectDatabase = 0, connectMaxConnections = 50, connectMaxIdleTime = 30s, connectTimeout = Nothing, connectTLSParams = Nothing})
Commands
Connection
Authenticate to the server (http://redis.io/commands/auth). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | message |
-> m (f ByteString) |
Echo the given string (http://redis.io/commands/echo). Since Redis 1.0.0
Ping the server (http://redis.io/commands/ping). Since Redis 1.0.0
Close the connection (http://redis.io/commands/quit). Since Redis 1.0.0
Change the selected database for the current connection (http://redis.io/commands/select). Since Redis 1.0.0
Keys
Delete a key (http://redis.io/commands/del). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f ByteString) |
Return a serialized version of the value stored at the specified key (http://redis.io/commands/dump). Since Redis 2.6.0
Determine if a key exists (http://redis.io/commands/exists). Since Redis 1.0.0
Set a key's time to live in seconds (http://redis.io/commands/expire). Since Redis 1.0.0
Set the expiration for a key as a UNIX timestamp (http://redis.io/commands/expireat). Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | pattern |
-> m (f [ByteString]) |
Find all keys matching the given pattern (http://redis.io/commands/keys). Since Redis 1.0.0
data MigrateOpts Source #
Options for the migrate
command.
Instances
Eq MigrateOpts Source # | |
Defined in Database.Redis.ManualCommands (==) :: MigrateOpts -> MigrateOpts -> Bool # (/=) :: MigrateOpts -> MigrateOpts -> Bool # | |
Show MigrateOpts Source # | |
Defined in Database.Redis.ManualCommands showsPrec :: Int -> MigrateOpts -> ShowS # show :: MigrateOpts -> String # showList :: [MigrateOpts] -> ShowS # |
defaultMigrateOpts :: MigrateOpts Source #
Redis default MigrateOpts
. Equivalent to omitting all optional parameters.
MigrateOpts { migrateCopy = False -- remove the key from the local instance , migrateReplace = False -- don't replace existing key on the remote instance }
:: RedisCtx m f | |
=> ByteString | host |
-> ByteString | port |
-> ByteString | key |
-> Integer | destinationDb |
-> Integer | timeout |
-> m (f Status) |
Atomically transfer a key from a Redis instance to another one (http://redis.io/commands/migrate). The Redis command MIGRATE
is split up into migrate
, migrateMultiple
. Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | host |
-> ByteString | port |
-> Integer | destinationDb |
-> Integer | timeout |
-> MigrateOpts | |
-> [ByteString] | keys |
-> m (f Status) |
Atomically transfer a key from a Redis instance to another one (http://redis.io/commands/migrate). The Redis command MIGRATE
is split up into migrate
, migrateMultiple
. Since Redis 2.6.0
Move a key to another database (http://redis.io/commands/move). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f Integer) |
Inspect the internals of Redis objects (http://redis.io/commands/object). The Redis command OBJECT
is split up into objectRefcount
, objectEncoding
, objectIdletime
. Since Redis 2.2.3
:: RedisCtx m f | |
=> ByteString | key |
-> m (f ByteString) |
Inspect the internals of Redis objects (http://redis.io/commands/object). The Redis command OBJECT
is split up into objectRefcount
, objectEncoding
, objectIdletime
. Since Redis 2.2.3
:: RedisCtx m f | |
=> ByteString | key |
-> m (f Integer) |
Inspect the internals of Redis objects (http://redis.io/commands/object). The Redis command OBJECT
is split up into objectRefcount
, objectEncoding
, objectIdletime
. Since Redis 2.2.3
Remove the expiration from a key (http://redis.io/commands/persist). Since Redis 2.2.0
Set a key's time to live in milliseconds (http://redis.io/commands/pexpire). Since Redis 2.6.0
Set the expiration for a key as a UNIX timestamp specified in milliseconds (http://redis.io/commands/pexpireat). Since Redis 2.6.0
Get the time to live for a key in milliseconds (http://redis.io/commands/pttl). Since Redis 2.6.0
Return a random key from the keyspace (http://redis.io/commands/randomkey). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | newkey |
-> m (f Status) |
Rename a key (http://redis.io/commands/rename). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | newkey |
-> m (f Bool) |
Rename a key, only if the new key does not exist (http://redis.io/commands/renamenx). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | timeToLive |
-> ByteString | serializedValue |
-> m (f Status) |
Create a key using the provided serialized value, previously obtained using DUMP (http://redis.io/commands/restore). The Redis command RESTORE
is split up into restore
, restoreReplace
. Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | timeToLive |
-> ByteString | serializedValue |
-> m (f Status) |
Create a key using the provided serialized value, previously obtained using DUMP (http://redis.io/commands/restore). The Redis command RESTORE
is split up into restore
, restoreReplace
. Since Redis 2.6.0
defaultScanOpts :: ScanOpts Source #
Redis default ScanOpts
. Equivalent to omitting all optional parameters.
ScanOpts
{ scanMatch = Nothing -- don't match any pattern
, scanCount = Nothing -- don't set any requirements on number elements returned (works like value COUNT 10
)
}
Incrementally iterate the keys space (http://redis.io/commands/scan). The Redis command SCAN
is split up into scan
, scanOpts
. Since Redis 2.8.0
:: RedisCtx m f | |
=> Cursor | |
-> ScanOpts | |
-> m (f (Cursor, [ByteString])) | next cursor and values |
Incrementally iterate the keys space (http://redis.io/commands/scan). The Redis command SCAN
is split up into scan
, scanOpts
. Since Redis 2.8.0
defaultSortOpts :: SortOpts Source #
Redis default SortOpts
. Equivalent to omitting all optional parameters.
SortOpts { sortBy = Nothing -- omit the BY option , sortLimit = (0,-1) -- return entire collection , sortGet = [] -- omit the GET option , sortOrder = Asc -- sort in ascending order , sortAlpha = False -- sort numerically, not lexicographically }
:: RedisCtx m f | |
=> ByteString | key |
-> SortOpts | |
-> m (f [ByteString]) |
Sort the elements in a list, set or sorted set (http://redis.io/commands/sort). The Redis command SORT
is split up into sort
, sortStore
. Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | destination |
-> SortOpts | |
-> m (f Integer) |
Sort the elements in a list, set or sorted set (http://redis.io/commands/sort). The Redis command SORT
is split up into sort
, sortStore
. Since Redis 1.0.0
Get the time to live for a key (http://redis.io/commands/ttl). Since Redis 1.0.0
Determine the type stored at key (http://redis.io/commands/type). Since Redis 1.0.0
Wait for the synchronous replication of all the write commands sent in the context of the current connection (http://redis.io/commands/wait). Since Redis 3.0.0
Hashes
:: RedisCtx m f | |
=> ByteString | key |
-> [ByteString] | field |
-> m (f Integer) |
Delete one or more hash fields (http://redis.io/commands/hdel). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | field |
-> m (f Bool) |
Determine if a hash field exists (http://redis.io/commands/hexists). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | field |
-> m (f (Maybe ByteString)) |
Get the value of a hash field (http://redis.io/commands/hget). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f [(ByteString, ByteString)]) |
Get all the fields and values in a hash (http://redis.io/commands/hgetall). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | field |
-> Integer | increment |
-> m (f Integer) |
Increment the integer value of a hash field by the given number (http://redis.io/commands/hincrby). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | field |
-> Double | increment |
-> m (f Double) |
Increment the float value of a hash field by the given amount (http://redis.io/commands/hincrbyfloat). Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f [ByteString]) |
Get all the fields in a hash (http://redis.io/commands/hkeys). Since Redis 2.0.0
Get the number of fields in a hash (http://redis.io/commands/hlen). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> [ByteString] | field |
-> m (f [Maybe ByteString]) |
Get the values of all the given hash fields (http://redis.io/commands/hmget). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> [(ByteString, ByteString)] | fieldValue |
-> m (f Status) |
Set multiple hash fields to multiple values (http://redis.io/commands/hmset). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Cursor | |
-> m (f (Cursor, [(ByteString, ByteString)])) | next cursor and values |
Incrementally iterate hash fields and associated values (http://redis.io/commands/hscan). The Redis command HSCAN
is split up into hscan
, hscanOpts
. Since Redis 2.8.0
:: RedisCtx m f | |
=> ByteString | key |
-> Cursor | |
-> ScanOpts | |
-> m (f (Cursor, [(ByteString, ByteString)])) | next cursor and values |
Incrementally iterate hash fields and associated values (http://redis.io/commands/hscan). The Redis command HSCAN
is split up into hscan
, hscanOpts
. Since Redis 2.8.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | field |
-> ByteString | value |
-> m (f Bool) |
Set the string value of a hash field (http://redis.io/commands/hset). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | field |
-> ByteString | value |
-> m (f Bool) |
Set the value of a hash field, only if the field does not exist (http://redis.io/commands/hsetnx). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | field |
-> m (f Integer) |
Get the length of the value of a hash field (http://redis.io/commands/hstrlen). Since Redis 3.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f [ByteString]) |
Get all the values in a hash (http://redis.io/commands/hvals). Since Redis 2.0.0
HyperLogLogs
:: RedisCtx m f | |
=> ByteString | key |
-> [ByteString] | value |
-> m (f Integer) |
Adds all the elements arguments to the HyperLogLog data structure stored at the variable name specified as first argument (http://redis.io/commands/pfadd). Since Redis 2.8.9
Return the approximated cardinality of the set(s) observed by the HyperLogLog at key(s) (http://redis.io/commands/pfcount). Since Redis 2.8.9
:: RedisCtx m f | |
=> ByteString | destkey |
-> [ByteString] | sourcekey |
-> m (f ByteString) |
Merge N different HyperLogLogs into a single one (http://redis.io/commands/pfmerge). Since Redis 2.8.9
Lists
:: RedisCtx m f | |
=> [ByteString] | key |
-> Integer | timeout |
-> m (f (Maybe (ByteString, ByteString))) |
Remove and get the first element in a list, or block until one is available (http://redis.io/commands/blpop). Since Redis 2.0.0
:: RedisCtx m f | |
=> [ByteString] | key |
-> Integer | timeout |
-> m (f (Maybe (ByteString, ByteString))) |
Remove and get the last element in a list, or block until one is available (http://redis.io/commands/brpop). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | source |
-> ByteString | destination |
-> Integer | timeout |
-> m (f (Maybe ByteString)) |
Pop a value from a list, push it to another list and return it; or block until one is available (http://redis.io/commands/brpoplpush). Since Redis 2.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | index |
-> m (f (Maybe ByteString)) |
Get an element from a list by its index (http://redis.io/commands/lindex). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | pivot |
-> ByteString | value |
-> m (f Integer) |
Insert an element before or after another element in a list (http://redis.io/commands/linsert). The Redis command LINSERT
is split up into linsertBefore
, linsertAfter
. Since Redis 2.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | pivot |
-> ByteString | value |
-> m (f Integer) |
Insert an element before or after another element in a list (http://redis.io/commands/linsert). The Redis command LINSERT
is split up into linsertBefore
, linsertAfter
. Since Redis 2.2.0
Get the length of a list (http://redis.io/commands/llen). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f (Maybe ByteString)) |
Remove and get the first element in a list (http://redis.io/commands/lpop). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> [ByteString] | value |
-> m (f Integer) |
Prepend one or multiple values to a list (http://redis.io/commands/lpush). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | value |
-> m (f Integer) |
Prepend a value to a list, only if the list exists (http://redis.io/commands/lpushx). Since Redis 2.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | start |
-> Integer | stop |
-> m (f [ByteString]) |
Get a range of elements from a list (http://redis.io/commands/lrange). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | count |
-> ByteString | value |
-> m (f Integer) |
Remove elements from a list (http://redis.io/commands/lrem). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | index |
-> ByteString | value |
-> m (f Status) |
Set the value of an element in a list by its index (http://redis.io/commands/lset). Since Redis 1.0.0
Trim a list to the specified range (http://redis.io/commands/ltrim). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f (Maybe ByteString)) |
Remove and get the last element in a list (http://redis.io/commands/rpop). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | source |
-> ByteString | destination |
-> m (f (Maybe ByteString)) |
Remove the last element in a list, prepend it to another list and return it (http://redis.io/commands/rpoplpush). Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> [ByteString] | value |
-> m (f Integer) |
Append one or multiple values to a list (http://redis.io/commands/rpush). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | value |
-> m (f Integer) |
Append a value to a list, only if the list exists (http://redis.io/commands/rpushx). Since Redis 2.2.0
Scripting
:: (RedisCtx m f, RedisResult a) | |
=> ByteString | script |
-> [ByteString] | keys |
-> [ByteString] | args |
-> m (f a) |
Execute a Lua script server side (http://redis.io/commands/eval). Since Redis 2.6.0
:: (RedisCtx m f, RedisResult a) | |
=> ByteString | script |
-> [ByteString] | keys |
-> [ByteString] | args |
-> m (f a) |
Execute a Lua script server side (http://redis.io/commands/evalsha). Since Redis 2.6.0
Set the debug mode for executed scripts (http://redis.io/commands/script-debug). Since Redis 3.2.0
:: RedisCtx m f | |
=> [ByteString] | script |
-> m (f [Bool]) |
Check existence of scripts in the script cache (http://redis.io/commands/script-exists). Since Redis 2.6.0
scriptFlush :: RedisCtx m f => m (f Status) Source #
Remove all the scripts from the script cache (http://redis.io/commands/script-flush). Since Redis 2.6.0
scriptKill :: RedisCtx m f => m (f Status) Source #
Kill the script currently in execution (http://redis.io/commands/script-kill). Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | script |
-> m (f ByteString) |
Load the specified Lua script into the script cache (http://redis.io/commands/script-load). Since Redis 2.6.0
Server
bgrewriteaof :: RedisCtx m f => m (f Status) Source #
Asynchronously rewrite the append-only file (http://redis.io/commands/bgrewriteaof). Since Redis 1.0.0
Asynchronously save the dataset to disk (http://redis.io/commands/bgsave). Since Redis 1.0.0
clientGetname :: RedisCtx m f => m (f Status) Source #
Get the current connection name (http://redis.io/commands/client-getname). Since Redis 2.6.9
clientList :: RedisCtx m f => m (f [ByteString]) Source #
Get the list of client connections (http://redis.io/commands/client-list). Since Redis 2.4.0
Stop processing commands from clients for some time (http://redis.io/commands/client-pause). Since Redis 2.9.50
Instruct the server whether to reply to commands (http://redis.io/commands/client-reply). Since Redis 3.2
:: RedisCtx m f | |
=> ByteString | connectionName |
-> m (f ByteString) |
Set the current connection name (http://redis.io/commands/client-setname). Since Redis 2.6.9
commandCount :: RedisCtx m f => m (f Integer) Source #
Get total number of Redis commands (http://redis.io/commands/command-count). Since Redis 2.8.13
:: RedisCtx m f | |
=> [ByteString] | commandName |
-> m (f [ByteString]) |
Get array of specific Redis command details (http://redis.io/commands/command-info). Since Redis 2.8.13
:: RedisCtx m f | |
=> ByteString | parameter |
-> m (f [(ByteString, ByteString)]) |
Get the value of a configuration parameter (http://redis.io/commands/config-get). Since Redis 2.0.0
configResetstat :: RedisCtx m f => m (f Status) Source #
Reset the stats returned by INFO (http://redis.io/commands/config-resetstat). Since Redis 2.0.0
configRewrite :: RedisCtx m f => m (f Status) Source #
Rewrite the configuration file with the in memory configuration (http://redis.io/commands/config-rewrite). Since Redis 2.8.0
:: RedisCtx m f | |
=> ByteString | parameter |
-> ByteString | value |
-> m (f Status) |
Set a configuration parameter to the given value (http://redis.io/commands/config-set). Since Redis 2.0.0
Return the number of keys in the selected database (http://redis.io/commands/dbsize). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f ByteString) |
Get debugging information about a key (http://redis.io/commands/debug-object). Since Redis 1.0.0
Remove all keys from all databases (http://redis.io/commands/flushall). Since Redis 1.0.0
Remove all keys from the current database (http://redis.io/commands/flushdb). Since Redis 1.0.0
info :: RedisCtx m f => m (f ByteString) Source #
Get information and statistics about the server (http://redis.io/commands/info). The Redis command INFO
is split up into info
, infoSection
. Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | section |
-> m (f ByteString) |
Get information and statistics about the server (http://redis.io/commands/info). The Redis command INFO
is split up into info
, infoSection
. Since Redis 1.0.0
Get the UNIX time stamp of the last successful save to disk (http://redis.io/commands/lastsave). Since Redis 1.0.0
Synchronously save the dataset to disk (http://redis.io/commands/save). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | host |
-> ByteString | port |
-> m (f Status) |
Make the server a slave of another instance, or promote it as master (http://redis.io/commands/slaveof). Since Redis 1.0.0
A single entry from the slowlog.
Slowlog | |
|
Manages the Redis slow queries log (http://redis.io/commands/slowlog). The Redis command SLOWLOG
is split up into slowlogGet
, slowlogLen
, slowlogReset
. Since Redis 2.2.12
slowlogLen :: RedisCtx m f => m (f Integer) Source #
Manages the Redis slow queries log (http://redis.io/commands/slowlog). The Redis command SLOWLOG
is split up into slowlogGet
, slowlogLen
, slowlogReset
. Since Redis 2.2.12
slowlogReset :: RedisCtx m f => m (f Status) Source #
Manages the Redis slow queries log (http://redis.io/commands/slowlog). The Redis command SLOWLOG
is split up into slowlogGet
, slowlogLen
, slowlogReset
. Since Redis 2.2.12
Return the current server time (http://redis.io/commands/time). Since Redis 2.6.0
Sets
:: RedisCtx m f | |
=> ByteString | key |
-> [ByteString] | member |
-> m (f Integer) |
Add one or more members to a set (http://redis.io/commands/sadd). Since Redis 1.0.0
Get the number of members in a set (http://redis.io/commands/scard). Since Redis 1.0.0
:: RedisCtx m f | |
=> [ByteString] | key |
-> m (f [ByteString]) |
Subtract multiple sets (http://redis.io/commands/sdiff). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | destination |
-> [ByteString] | key |
-> m (f Integer) |
Subtract multiple sets and store the resulting set in a key (http://redis.io/commands/sdiffstore). Since Redis 1.0.0
:: RedisCtx m f | |
=> [ByteString] | key |
-> m (f [ByteString]) |
Intersect multiple sets (http://redis.io/commands/sinter). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | destination |
-> [ByteString] | key |
-> m (f Integer) |
Intersect multiple sets and store the resulting set in a key (http://redis.io/commands/sinterstore). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | member |
-> m (f Bool) |
Determine if a given value is a member of a set (http://redis.io/commands/sismember). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f [ByteString]) |
Get all the members in a set (http://redis.io/commands/smembers). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | source |
-> ByteString | destination |
-> ByteString | member |
-> m (f Bool) |
Move a member from one set to another (http://redis.io/commands/smove). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f (Maybe ByteString)) |
Remove and return one or multiple random members from a set (http://redis.io/commands/spop). The Redis command SPOP
is split up into spop
, spopN
. Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | count |
-> m (f [ByteString]) |
Remove and return one or multiple random members from a set (http://redis.io/commands/spop). The Redis command SPOP
is split up into spop
, spopN
. Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f (Maybe ByteString)) |
Get one or multiple random members from a set (http://redis.io/commands/srandmember). The Redis command SRANDMEMBER
is split up into srandmember
, srandmemberN
. Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | count |
-> m (f [ByteString]) |
Get one or multiple random members from a set (http://redis.io/commands/srandmember). The Redis command SRANDMEMBER
is split up into srandmember
, srandmemberN
. Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> [ByteString] | member |
-> m (f Integer) |
Remove one or more members from a set (http://redis.io/commands/srem). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Cursor | |
-> m (f (Cursor, [ByteString])) | next cursor and values |
Incrementally iterate Set elements (http://redis.io/commands/sscan). The Redis command SSCAN
is split up into sscan
, sscanOpts
. Since Redis 2.8.0
:: RedisCtx m f | |
=> ByteString | key |
-> Cursor | |
-> ScanOpts | |
-> m (f (Cursor, [ByteString])) | next cursor and values |
Incrementally iterate Set elements (http://redis.io/commands/sscan). The Redis command SSCAN
is split up into sscan
, sscanOpts
. Since Redis 2.8.0
:: RedisCtx m f | |
=> [ByteString] | key |
-> m (f [ByteString]) |
Add multiple sets (http://redis.io/commands/sunion). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | destination |
-> [ByteString] | key |
-> m (f Integer) |
Add multiple sets and store the resulting set in a key (http://redis.io/commands/sunionstore). Since Redis 1.0.0
Sorted Sets
defaultZaddOpts :: ZaddOpts Source #
Redis default ZaddOpts
. Equivalent to omitting all optional parameters.
ZaddOpts { zaddCondition = Nothing -- omit NX and XX options , zaddChange = False -- don't modify the return value from the number of new elements added, to the total number of elements changed , zaddIncrement = False -- don't add like ZINCRBY }
:: RedisCtx m f | |
=> ByteString | key |
-> [(Double, ByteString)] | scoreMember |
-> m (f Integer) |
Add one or more members to a sorted set, or update its score if it already exists (http://redis.io/commands/zadd). The Redis command ZADD
is split up into zadd
, zaddOpts
. Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> [(Double, ByteString)] | scoreMember |
-> ZaddOpts | options |
-> m (f Integer) |
Add one or more members to a sorted set, or update its score if it already exists (http://redis.io/commands/zadd). The Redis command ZADD
is split up into zadd
, zaddOpts
. Since Redis 1.2.0
Get the number of members in a sorted set (http://redis.io/commands/zcard). Since Redis 1.2.0
Count the members in a sorted set with scores within the given values (http://redis.io/commands/zcount). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | increment |
-> ByteString | member |
-> m (f Double) |
Increment the score of a member in a sorted set (http://redis.io/commands/zincrby). Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | destination |
-> [ByteString] | keys |
-> Aggregate | |
-> m (f Integer) |
Intersect multiple sorted sets and store the resulting sorted set in a new key (http://redis.io/commands/zinterstore). The Redis command ZINTERSTORE
is split up into zinterstore
, zinterstoreWeights
. Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | destination |
-> [(ByteString, Double)] | weighted keys |
-> Aggregate | |
-> m (f Integer) |
Intersect multiple sorted sets and store the resulting sorted set in a new key (http://redis.io/commands/zinterstore). The Redis command ZINTERSTORE
is split up into zinterstore
, zinterstoreWeights
. Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | min |
-> ByteString | max |
-> m (f Integer) |
Count the number of members in a sorted set between a given lexicographical range (http://redis.io/commands/zlexcount). Since Redis 2.8.9
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | start |
-> Integer | stop |
-> m (f [ByteString]) |
Return a range of members in a sorted set, by index (http://redis.io/commands/zrange). The Redis command ZRANGE
is split up into zrange
, zrangeWithscores
. Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | start |
-> Integer | stop |
-> m (f [(ByteString, Double)]) |
Return a range of members in a sorted set, by index (http://redis.io/commands/zrange). The Redis command ZRANGE
is split up into zrange
, zrangeWithscores
. Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> RangeLex ByteString | min |
-> RangeLex ByteString | max |
-> m (f [ByteString]) |
:: RedisCtx m f | |
=> ByteString | key |
-> RangeLex ByteString | min |
-> RangeLex ByteString | max |
-> Integer | offset |
-> Integer | count |
-> m (f [ByteString]) |
Return a range of members in a sorted set, by lexicographical range (http://redis.io/commands/zrangebylex). Since Redis 2.8.9
:: RedisCtx m f | |
=> ByteString | key |
-> Double | min |
-> Double | max |
-> m (f [ByteString]) |
Return a range of members in a sorted set, by score (http://redis.io/commands/zrangebyscore). The Redis command ZRANGEBYSCORE
is split up into zrangebyscore
, zrangebyscoreWithscores
, zrangebyscoreLimit
, zrangebyscoreWithscoresLimit
. Since Redis 1.0.5
zrangebyscoreWithscores Source #
:: RedisCtx m f | |
=> ByteString | key |
-> Double | min |
-> Double | max |
-> m (f [(ByteString, Double)]) |
Return a range of members in a sorted set, by score (http://redis.io/commands/zrangebyscore). The Redis command ZRANGEBYSCORE
is split up into zrangebyscore
, zrangebyscoreWithscores
, zrangebyscoreLimit
, zrangebyscoreWithscoresLimit
. Since Redis 1.0.5
:: RedisCtx m f | |
=> ByteString | key |
-> Double | min |
-> Double | max |
-> Integer | offset |
-> Integer | count |
-> m (f [ByteString]) |
Return a range of members in a sorted set, by score (http://redis.io/commands/zrangebyscore). The Redis command ZRANGEBYSCORE
is split up into zrangebyscore
, zrangebyscoreWithscores
, zrangebyscoreLimit
, zrangebyscoreWithscoresLimit
. Since Redis 1.0.5
zrangebyscoreWithscoresLimit Source #
:: RedisCtx m f | |
=> ByteString | key |
-> Double | min |
-> Double | max |
-> Integer | offset |
-> Integer | count |
-> m (f [(ByteString, Double)]) |
Return a range of members in a sorted set, by score (http://redis.io/commands/zrangebyscore). The Redis command ZRANGEBYSCORE
is split up into zrangebyscore
, zrangebyscoreWithscores
, zrangebyscoreLimit
, zrangebyscoreWithscoresLimit
. Since Redis 1.0.5
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | member |
-> m (f (Maybe Integer)) |
Determine the index of a member in a sorted set (http://redis.io/commands/zrank). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> [ByteString] | member |
-> m (f Integer) |
Remove one or more members from a sorted set (http://redis.io/commands/zrem). Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | min |
-> ByteString | max |
-> m (f Integer) |
Remove all members in a sorted set between the given lexicographical range (http://redis.io/commands/zremrangebylex). Since Redis 2.8.9
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | start |
-> Integer | stop |
-> m (f Integer) |
Remove all members in a sorted set within the given indexes (http://redis.io/commands/zremrangebyrank). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Double | min |
-> Double | max |
-> m (f Integer) |
Remove all members in a sorted set within the given scores (http://redis.io/commands/zremrangebyscore). Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | start |
-> Integer | stop |
-> m (f [ByteString]) |
Return a range of members in a sorted set, by index, with scores ordered from high to low (http://redis.io/commands/zrevrange). The Redis command ZREVRANGE
is split up into zrevrange
, zrevrangeWithscores
. Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | start |
-> Integer | stop |
-> m (f [(ByteString, Double)]) |
Return a range of members in a sorted set, by index, with scores ordered from high to low (http://redis.io/commands/zrevrange). The Redis command ZREVRANGE
is split up into zrevrange
, zrevrangeWithscores
. Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> Double | max |
-> Double | min |
-> m (f [ByteString]) |
Return a range of members in a sorted set, by score, with scores ordered from high to low (http://redis.io/commands/zrevrangebyscore). The Redis command ZREVRANGEBYSCORE
is split up into zrevrangebyscore
, zrevrangebyscoreWithscores
, zrevrangebyscoreLimit
, zrevrangebyscoreWithscoresLimit
. Since Redis 2.2.0
zrevrangebyscoreWithscores Source #
:: RedisCtx m f | |
=> ByteString | key |
-> Double | max |
-> Double | min |
-> m (f [(ByteString, Double)]) |
Return a range of members in a sorted set, by score, with scores ordered from high to low (http://redis.io/commands/zrevrangebyscore). The Redis command ZREVRANGEBYSCORE
is split up into zrevrangebyscore
, zrevrangebyscoreWithscores
, zrevrangebyscoreLimit
, zrevrangebyscoreWithscoresLimit
. Since Redis 2.2.0
zrevrangebyscoreLimit Source #
:: RedisCtx m f | |
=> ByteString | key |
-> Double | max |
-> Double | min |
-> Integer | offset |
-> Integer | count |
-> m (f [ByteString]) |
Return a range of members in a sorted set, by score, with scores ordered from high to low (http://redis.io/commands/zrevrangebyscore). The Redis command ZREVRANGEBYSCORE
is split up into zrevrangebyscore
, zrevrangebyscoreWithscores
, zrevrangebyscoreLimit
, zrevrangebyscoreWithscoresLimit
. Since Redis 2.2.0
zrevrangebyscoreWithscoresLimit Source #
:: RedisCtx m f | |
=> ByteString | key |
-> Double | max |
-> Double | min |
-> Integer | offset |
-> Integer | count |
-> m (f [(ByteString, Double)]) |
Return a range of members in a sorted set, by score, with scores ordered from high to low (http://redis.io/commands/zrevrangebyscore). The Redis command ZREVRANGEBYSCORE
is split up into zrevrangebyscore
, zrevrangebyscoreWithscores
, zrevrangebyscoreLimit
, zrevrangebyscoreWithscoresLimit
. Since Redis 2.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | member |
-> m (f (Maybe Integer)) |
Determine the index of a member in a sorted set, with scores ordered from high to low (http://redis.io/commands/zrevrank). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Cursor | |
-> m (f (Cursor, [(ByteString, Double)])) | next cursor and values |
Incrementally iterate sorted sets elements and associated scores (http://redis.io/commands/zscan). The Redis command ZSCAN
is split up into zscan
, zscanOpts
. Since Redis 2.8.0
:: RedisCtx m f | |
=> ByteString | key |
-> Cursor | |
-> ScanOpts | |
-> m (f (Cursor, [(ByteString, Double)])) | next cursor and values |
Incrementally iterate sorted sets elements and associated scores (http://redis.io/commands/zscan). The Redis command ZSCAN
is split up into zscan
, zscanOpts
. Since Redis 2.8.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | member |
-> m (f (Maybe Double)) |
Get the score associated with the given member in a sorted set (http://redis.io/commands/zscore). Since Redis 1.2.0
:: RedisCtx m f | |
=> ByteString | destination |
-> [ByteString] | keys |
-> Aggregate | |
-> m (f Integer) |
Add multiple sorted sets and store the resulting sorted set in a new key (http://redis.io/commands/zunionstore). The Redis command ZUNIONSTORE
is split up into zunionstore
, zunionstoreWeights
. Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | destination |
-> [(ByteString, Double)] | weighted keys |
-> Aggregate | |
-> m (f Integer) |
Add multiple sorted sets and store the resulting sorted set in a new key (http://redis.io/commands/zunionstore). The Redis command ZUNIONSTORE
is split up into zunionstore
, zunionstoreWeights
. Since Redis 2.0.0
Strings
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | value |
-> m (f Integer) |
Append a value to a key (http://redis.io/commands/append). Since Redis 2.0.0
Count set bits in a string (http://redis.io/commands/bitcount). The Redis command BITCOUNT
is split up into bitcount
, bitcountRange
. Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | start |
-> Integer | end |
-> m (f Integer) |
Count set bits in a string (http://redis.io/commands/bitcount). The Redis command BITCOUNT
is split up into bitcount
, bitcountRange
. Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | destkey |
-> [ByteString] | srckeys |
-> m (f Integer) |
Perform bitwise operations between strings (http://redis.io/commands/bitop). The Redis command BITOP
is split up into bitopAnd
, bitopOr
, bitopXor
, bitopNot
. Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | destkey |
-> [ByteString] | srckeys |
-> m (f Integer) |
Perform bitwise operations between strings (http://redis.io/commands/bitop). The Redis command BITOP
is split up into bitopAnd
, bitopOr
, bitopXor
, bitopNot
. Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | destkey |
-> [ByteString] | srckeys |
-> m (f Integer) |
Perform bitwise operations between strings (http://redis.io/commands/bitop). The Redis command BITOP
is split up into bitopAnd
, bitopOr
, bitopXor
, bitopNot
. Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | destkey |
-> ByteString | srckey |
-> m (f Integer) |
Perform bitwise operations between strings (http://redis.io/commands/bitop). The Redis command BITOP
is split up into bitopAnd
, bitopOr
, bitopXor
, bitopNot
. Since Redis 2.6.0
Find first bit set or clear in a string (http://redis.io/commands/bitpos). Since Redis 2.8.7
Decrement the integer value of a key by one (http://redis.io/commands/decr). Since Redis 1.0.0
Decrement the integer value of a key by the given number (http://redis.io/commands/decrby). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> m (f (Maybe ByteString)) |
Get the value of a key (http://redis.io/commands/get). Since Redis 1.0.0
Returns the bit value at offset in the string value stored at key (http://redis.io/commands/getbit). Since Redis 2.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | start |
-> Integer | end |
-> m (f ByteString) |
Get a substring of the string stored at a key (http://redis.io/commands/getrange). Since Redis 2.4.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | value |
-> m (f (Maybe ByteString)) |
Set the string value of a key and return its old value (http://redis.io/commands/getset). Since Redis 1.0.0
Increment the integer value of a key by one (http://redis.io/commands/incr). Since Redis 1.0.0
Increment the integer value of a key by the given amount (http://redis.io/commands/incrby). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Double | increment |
-> m (f Double) |
Increment the float value of a key by the given amount (http://redis.io/commands/incrbyfloat). Since Redis 2.6.0
:: RedisCtx m f | |
=> [ByteString] | key |
-> m (f [Maybe ByteString]) |
Get the values of all the given keys (http://redis.io/commands/mget). Since Redis 1.0.0
:: RedisCtx m f | |
=> [(ByteString, ByteString)] | keyValue |
-> m (f Status) |
Set multiple keys to multiple values (http://redis.io/commands/mset). Since Redis 1.0.1
:: RedisCtx m f | |
=> [(ByteString, ByteString)] | keyValue |
-> m (f Bool) |
Set multiple keys to multiple values, only if none of the keys exist (http://redis.io/commands/msetnx). Since Redis 1.0.1
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | milliseconds |
-> ByteString | value |
-> m (f Status) |
Set the value and expiration in milliseconds of a key (http://redis.io/commands/psetex). Since Redis 2.6.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | value |
-> m (f Status) |
Set the string value of a key (http://redis.io/commands/set). The Redis command SET
is split up into set
, setOpts
. Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | value |
-> SetOpts | |
-> m (f Status) |
Set the string value of a key (http://redis.io/commands/set). The Redis command SET
is split up into set
, setOpts
. Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | offset |
-> ByteString | value |
-> m (f Integer) |
Sets or clears the bit at offset in the string value stored at key (http://redis.io/commands/setbit). Since Redis 2.2.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | seconds |
-> ByteString | value |
-> m (f Status) |
Set the value and expiration of a key (http://redis.io/commands/setex). Since Redis 2.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | value |
-> m (f Bool) |
Set the value of a key, only if the key does not exist (http://redis.io/commands/setnx). Since Redis 1.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> Integer | offset |
-> ByteString | value |
-> m (f Integer) |
Overwrite part of a string at key starting at the specified offset (http://redis.io/commands/setrange). Since Redis 2.2.0
Get the length of the value stored in a key (http://redis.io/commands/strlen). Since Redis 2.2.0
Streams
defaultXreadOpts :: XReadOpts Source #
Redis default XReadOpts
. Equivalent to omitting all optional parameters.
XReadOpts { block = Nothing -- Don't block waiting for more records , recordCount = Nothing -- no record count }
data XReadResponse Source #
Instances
Eq XReadResponse Source # | |
Defined in Database.Redis.ManualCommands (==) :: XReadResponse -> XReadResponse -> Bool # (/=) :: XReadResponse -> XReadResponse -> Bool # | |
Show XReadResponse Source # | |
Defined in Database.Redis.ManualCommands showsPrec :: Int -> XReadResponse -> ShowS # show :: XReadResponse -> String # showList :: [XReadResponse] -> ShowS # | |
RedisResult XReadResponse Source # | |
Defined in Database.Redis.ManualCommands |
data StreamsRecord Source #
StreamsRecord | |
|
Instances
Eq StreamsRecord Source # | |
Defined in Database.Redis.ManualCommands (==) :: StreamsRecord -> StreamsRecord -> Bool # (/=) :: StreamsRecord -> StreamsRecord -> Bool # | |
Show StreamsRecord Source # | |
Defined in Database.Redis.ManualCommands showsPrec :: Int -> StreamsRecord -> ShowS # show :: StreamsRecord -> String # showList :: [StreamsRecord] -> ShowS # | |
RedisResult StreamsRecord Source # | |
Defined in Database.Redis.ManualCommands |
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | id |
-> [(ByteString, ByteString)] | (field, value) |
-> m (f ByteString) |
Add a value to a stream (https://redis.io/commands/xadd). Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | key |
-> ByteString | id |
-> [(ByteString, ByteString)] | (field, value) |
-> TrimOpts | |
-> m (f ByteString) |
Add a value to a stream (https://redis.io/commands/xadd). The Redis command XADD
is split up into xadd
, xaddOpts
. Since Redis 5.0.0
:: RedisCtx m f | |
=> [(ByteString, ByteString)] | (stream, id) pairs |
-> m (f (Maybe [XReadResponse])) |
Read values from a stream (https://redis.io/commands/xread). The Redis command XREAD
is split up into xread
, xreadOpts
. Since Redis 5.0.0
:: RedisCtx m f | |
=> [(ByteString, ByteString)] | (stream, id) pairs |
-> XReadOpts | Options |
-> m (f (Maybe [XReadResponse])) |
Read values from a stream (https://redis.io/commands/xread). The Redis command XREAD
is split up into xread
, xreadOpts
. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | group name |
-> ByteString | consumer name |
-> [(ByteString, ByteString)] | (stream, id) pairs |
-> m (f (Maybe [XReadResponse])) |
Read values from a stream as part of a consumer group (https:/redis.iocommands/xreadgroup). The redis command XREADGROUP
is split up into xreadGroup
and xreadGroupOpts
. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | group name |
-> ByteString | consumer name |
-> [(ByteString, ByteString)] | (stream, id) pairs |
-> XReadOpts | Options |
-> m (f (Maybe [XReadResponse])) |
Read values from a stream as part of a consumer group (https:/redis.iocommands/xreadgroup). The redis command XREADGROUP
is split up into xreadGroup
and xreadGroupOpts
. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group name |
-> [ByteString] | message IDs |
-> m (f Integer) |
Acknowledge receipt of a message as part of a consumer group. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group name |
-> ByteString | start ID |
-> m (f Status) |
Create a consumer group. The redis command XGROUP
is split up into xgroupCreate
, xgroupSetId
, xgroupDestroy
, and xgroupDelConsumer
. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group |
-> ByteString | id |
-> m (f Status) |
Set the id for a consumer group. The redis command XGROUP
is split up into xgroupCreate
, xgroupSetId
, xgroupDestroy
, and xgroupDelConsumer
. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group |
-> m (f Bool) |
Destroy a consumer group. The redis command XGROUP
is split up into xgroupCreate
, xgroupSetId
, xgroupDestroy
, and xgroupDelConsumer
. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group |
-> ByteString | consumer |
-> m (f Integer) |
Delete a consumer. The redis command XGROUP
is split up into xgroupCreate
, xgroupSetId
, xgroupDestroy
, and xgroupDelConsumer
. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | start |
-> ByteString | end |
-> Maybe Integer | COUNT |
-> m (f [StreamsRecord]) |
Read values from a stream within a range (https:/redis.iocommands/xrange). Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | end |
-> ByteString | start |
-> Maybe Integer | COUNT |
-> m (f [StreamsRecord]) |
Read values from a stream within a range in reverse order (https:/redis.iocommands/xrevrange). Since Redis 5.0.0
Get the number of entries in a stream (https:/redis.iocommands/xlen). Since Redis 5.0.0
data XPendingSummaryResponse Source #
Instances
Eq XPendingSummaryResponse Source # | |
Defined in Database.Redis.ManualCommands | |
Show XPendingSummaryResponse Source # | |
Defined in Database.Redis.ManualCommands showsPrec :: Int -> XPendingSummaryResponse -> ShowS # show :: XPendingSummaryResponse -> String # showList :: [XPendingSummaryResponse] -> ShowS # | |
RedisResult XPendingSummaryResponse Source # | |
Defined in Database.Redis.ManualCommands |
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group |
-> Maybe ByteString | consumer |
-> m (f XPendingSummaryResponse) |
Get information about pending messages (https:/redis.iocommands/xpending). The Redis XPENDING
command is split into xpendingSummary
and xpendingDetail
. Since Redis 5.0.0
data XPendingDetailRecord Source #
Instances
Eq XPendingDetailRecord Source # | |
Defined in Database.Redis.ManualCommands (==) :: XPendingDetailRecord -> XPendingDetailRecord -> Bool # (/=) :: XPendingDetailRecord -> XPendingDetailRecord -> Bool # | |
Show XPendingDetailRecord Source # | |
Defined in Database.Redis.ManualCommands showsPrec :: Int -> XPendingDetailRecord -> ShowS # show :: XPendingDetailRecord -> String # showList :: [XPendingDetailRecord] -> ShowS # | |
RedisResult XPendingDetailRecord Source # | |
Defined in Database.Redis.ManualCommands |
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group |
-> ByteString | startId |
-> ByteString | endId |
-> Integer | count |
-> Maybe ByteString | consumer |
-> m (f [XPendingDetailRecord]) |
Get detailed information about pending messages (https:/redis.iocommands/xpending). The Redis XPENDING
command is split into xpendingSummary
and xpendingDetail
. Since Redis 5.0.0
data XClaimOpts Source #
XClaimOpts | |
|
Instances
Eq XClaimOpts Source # | |
Defined in Database.Redis.ManualCommands (==) :: XClaimOpts -> XClaimOpts -> Bool # (/=) :: XClaimOpts -> XClaimOpts -> Bool # | |
Show XClaimOpts Source # | |
Defined in Database.Redis.ManualCommands showsPrec :: Int -> XClaimOpts -> ShowS # show :: XClaimOpts -> String # showList :: [XClaimOpts] -> ShowS # |
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group |
-> ByteString | consumer |
-> Integer | min idle time |
-> XClaimOpts | optional arguments |
-> [ByteString] | message IDs |
-> m (f [StreamsRecord]) |
Change ownership of some messages to the given consumer, returning the updated messages. The Redis XCLAIM
command is split into xclaim
and xclaimJustIds
. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group |
-> ByteString | consumer |
-> Integer | min idle time |
-> XClaimOpts | optional arguments |
-> [ByteString] | message IDs |
-> m (f [ByteString]) |
Change ownership of some messages to the given consumer, returning only the changed message IDs. The Redis XCLAIM
command is split into xclaim
and xclaimJustIds
. Since Redis 5.0.0
data XInfoConsumersResponse Source #
Instances
Eq XInfoConsumersResponse Source # | |
Defined in Database.Redis.ManualCommands | |
Show XInfoConsumersResponse Source # | |
Defined in Database.Redis.ManualCommands showsPrec :: Int -> XInfoConsumersResponse -> ShowS # show :: XInfoConsumersResponse -> String # showList :: [XInfoConsumersResponse] -> ShowS # | |
RedisResult XInfoConsumersResponse Source # | |
Defined in Database.Redis.ManualCommands |
:: RedisCtx m f | |
=> ByteString | stream |
-> ByteString | group |
-> m (f [XInfoConsumersResponse]) |
Get info about consumers in a group. The Redis command XINFO
is split into xinfoConsumers
, xinfoGroups
, and xinfoStream
. Since Redis 5.0.0
data XInfoGroupsResponse Source #
Instances
Eq XInfoGroupsResponse Source # | |
Defined in Database.Redis.ManualCommands (==) :: XInfoGroupsResponse -> XInfoGroupsResponse -> Bool # (/=) :: XInfoGroupsResponse -> XInfoGroupsResponse -> Bool # | |
Show XInfoGroupsResponse Source # | |
Defined in Database.Redis.ManualCommands showsPrec :: Int -> XInfoGroupsResponse -> ShowS # show :: XInfoGroupsResponse -> String # showList :: [XInfoGroupsResponse] -> ShowS # | |
RedisResult XInfoGroupsResponse Source # | |
Defined in Database.Redis.ManualCommands |
:: RedisCtx m f | |
=> ByteString | stream |
-> m (f [XInfoGroupsResponse]) |
Get info about groups consuming from a stream. The Redis command XINFO
is split into xinfoConsumers
, xinfoGroups
, and xinfoStream
. Since Redis 5.0.0
data XInfoStreamResponse Source #
Instances
Eq XInfoStreamResponse Source # | |
Defined in Database.Redis.ManualCommands (==) :: XInfoStreamResponse -> XInfoStreamResponse -> Bool # (/=) :: XInfoStreamResponse -> XInfoStreamResponse -> Bool # | |
Show XInfoStreamResponse Source # | |
Defined in Database.Redis.ManualCommands showsPrec :: Int -> XInfoStreamResponse -> ShowS # show :: XInfoStreamResponse -> String # showList :: [XInfoStreamResponse] -> ShowS # | |
RedisResult XInfoStreamResponse Source # | |
Defined in Database.Redis.ManualCommands |
:: RedisCtx m f | |
=> ByteString | stream |
-> m (f XInfoStreamResponse) |
Get info about a stream. The Redis command XINFO
is split into xinfoConsumers
, xinfoGroups
, and xinfoStream
. Since Redis 5.0.0
:: RedisCtx m f | |
=> ByteString | stream |
-> [ByteString] | message IDs |
-> m (f Integer) |
Delete messages from a stream. Since Redis 5.0.0
Set the upper bound for number of messages in a stream. Since Redis 5.0.0
Constructor for inf
Redis argument values
Unimplemented Commands
These commands are not implemented, as of now. Library
users can implement these or other commands from
experimental Redis versions by using the sendRequest
function.
- COMMAND (http://redis.io/commands/command)
- COMMAND GETKEYS (http://redis.io/commands/command-getkeys)
- ROLE (http://redis.io/commands/role)
- CLIENT KILL (http://redis.io/commands/client-kill)
- ZREVRANGEBYLEX (http://redis.io/commands/zrevrangebylex)
- ZRANGEBYSCORE (http://redis.io/commands/zrangebyscore)
- ZREVRANGEBYSCORE (http://redis.io/commands/zrevrangebyscore)
- MONITOR (http://redis.io/commands/monitor)
- SYNC (http://redis.io/commands/sync)
- SHUTDOWN (http://redis.io/commands/shutdown)
- DEBUG SEGFAULT (http://redis.io/commands/debug-segfault)
Transactions
:: [ByteString] | key |
-> Redis (Either Reply Status) |
Watch the given keys to determine execution of the MULTI/EXEC block (http://redis.io/commands/watch).
unwatch :: Redis (Either Reply Status) Source #
Forget about all watched keys (http://redis.io/commands/unwatch).
multiExec :: RedisTx (Queued a) -> Redis (TxResult a) Source #
Run commands inside a transaction. For documentation on the semantics of Redis transaction see http://redis.io/topics/transactions.
Inside the transaction block, command functions return their result wrapped
in a Queued
. The Queued
result is a proxy object for the actual
command's result, which will only be available after EXEC
ing the
transaction.
Example usage (note how Queued
's Applicative
instance is used to
combine the two individual results):
runRedis conn $ do
set "hello" "hello"
set "world" "world"
helloworld <- multiExec
$ do
hello <- get "hello"
world <- get "world"
return $ (,) <$> hello <*> world
liftIO (print helloworld)
A Queued
value represents the result of a command inside a transaction. It
is a proxy object for the actual result, which will only be available
after returning from a multiExec
transaction.
Queued
values are composable by utilizing the Functor
, Applicative
or
Monad
interfaces.
Result of a multiExec
transaction.
TxSuccess a | Transaction completed successfully. The wrapped value corresponds to
the |
TxAborted | Transaction aborted due to an earlier |
TxError String | At least one of the commands returned an |
Instances
Eq a => Eq (TxResult a) Source # | |
Show a => Show (TxResult a) Source # | |
Generic (TxResult a) Source # | |
NFData a => NFData (TxResult a) Source # | |
Defined in Database.Redis.Transactions | |
type Rep (TxResult a) Source # | |
Defined in Database.Redis.Transactions type Rep (TxResult a) = D1 (MetaData "TxResult" "Database.Redis.Transactions" "hedis-0.12.11-3e3ok8GOdlt8nKL3HrAgwQ" False) (C1 (MetaCons "TxSuccess" PrefixI False) (S1 (MetaSel (Nothing :: Maybe Symbol) NoSourceUnpackedness NoSourceStrictness DecidedLazy) (Rec0 a)) :+: (C1 (MetaCons "TxAborted" PrefixI False) (U1 :: Type -> Type) :+: C1 (MetaCons "TxError" PrefixI False) (S1 (MetaSel (Nothing :: Maybe Symbol) NoSourceUnpackedness NoSourceStrictness DecidedLazy) (Rec0 String)))) |
Command-context inside of MULTI/EXEC transactions. Use multiExec
to run
actions of this type.
In the RedisTx
context, all commands return a Queued
value. It is a
proxy object for the actual result, which will only be available after
finishing the transaction.
Instances
Monad RedisTx Source # | |
Functor RedisTx Source # | |
Applicative RedisTx Source # | |
MonadIO RedisTx Source # | |
Defined in Database.Redis.Transactions | |
MonadRedis RedisTx Source # | |
RedisCtx RedisTx Queued Source # | |
Defined in Database.Redis.Transactions returnDecode :: RedisResult a => Reply -> RedisTx (Queued a) Source # |
Pub/Sub
:: RedisCtx m f | |
=> ByteString | channel |
-> ByteString | message |
-> m (f Integer) |
Post a message to a channel (http://redis.io/commands/publish).
Subscribing to channels
There are two Pub/Sub implementations. First, there is a single-threaded implementation pubSub
which is simpler to use but has the restriction that subscription changes can only be made in
response to a message. Secondly, there is a more complicated Pub/Sub controller pubSubForever
that uses concurrency to support changing subscriptions at any time but requires more setup.
You should only use one or the other. In addition, no types or utility functions (that are part
of the public API) are shared, so functions or types in one of the following sections cannot
be used for the other. In particular, be aware that they use different utility functions to subscribe
and unsubscribe to channels.
Single-thread Pub/Sub
Listens to published messages on subscribed channels and channels matching the subscribed patterns. For documentation on the semantics of Redis Pub/Sub see http://redis.io/topics/pubsub.
The given callback function is called for each received message.
Subscription changes are triggered by the returned PubSub
. To keep
subscriptions unchanged, the callback can return mempty
.
Example: Subscribe to the "news" channel indefinitely.
pubSub (subscribe ["news"]) $ \msg -> do putStrLn $ "Message from " ++ show (msgChannel msg) return mempty
Example: Receive a single message from the "chat" channel.
pubSub (subscribe ["chat"]) $ \msg -> do putStrLn $ "Message from " ++ show (msgChannel msg) return $ unsubscribe ["chat"]
It should be noted that Redis Pub/Sub by its nature is asynchronous
so returning unsubscribe
does not mean that callback won't be able
to receive any further messages. And to guarantee that you won't
won't process messages after unsubscription and won't unsubscribe
from the same channel more than once you need to use IORef
or
something similar
Encapsulates subscription changes. Use subscribe
, unsubscribe
,
psubscribe
, punsubscribe
or mempty
to construct a value. Combine
values by using the Monoid
interface, i.e. mappend
and mconcat
.
:: [ByteString] | channel |
-> PubSub |
Listen for messages published to the given channels (http://redis.io/commands/subscribe).
:: [ByteString] | channel |
-> PubSub |
Stop listening for messages posted to the given channels (http://redis.io/commands/unsubscribe).
:: [ByteString] | pattern |
-> PubSub |
Listen for messages published to channels matching the given patterns (http://redis.io/commands/psubscribe).
:: [ByteString] | pattern |
-> PubSub |
Stop listening for messages posted to channels matching the given patterns (http://redis.io/commands/punsubscribe).
Continuous Pub/Sub message controller
:: Connection | The connection pool |
-> PubSubController | The controller which keeps track of all subscriptions and handlers |
-> IO () | This action is executed once Redis acknowledges that all the subscriptions in
the controller are now subscribed. You can use this after an exception (such as
|
-> IO () |
Open a connection to the Redis server, register to all channels in the PubSubController
,
and process messages and subscription change requests forever. The only way this will ever
exit is if there is an exception from the network code or an unhandled exception
in a MessageCallback
or PMessageCallback
. For example, if the network connection to Redis
dies, pubSubForever
will throw a ConnectionLost
. When such an exception is
thrown, you can recall pubSubForever
with the same PubSubController
which will open a
new connection and resubscribe to all the channels which are tracked in the PubSubController
.
The general pattern is therefore during program startup create a PubSubController
and fork
a thread which calls pubSubForever
in a loop (using an exponential backoff algorithm
such as the retry package to not hammer the Redis
server if it does die). For example,
myhandler :: ByteString -> IO () myhandler msg = putStrLn $ unpack $ decodeUtf8 msg onInitialComplete :: IO () onInitialComplete = putStrLn "Redis acknowledged that mychannel is now subscribed" main :: IO () main = do conn <- connect defaultConnectInfo pubSubCtrl <- newPubSubController [("mychannel", myhandler)] [] forkIO $ forever $ pubSubForever conn pubSubCtrl onInitialComplete `catch` (\(e :: SomeException) -> do putStrLn $ "Got error: " ++ show e threadDelay $ 50*1000) -- TODO: use exponential backoff {- elsewhere in your program, use pubSubCtrl to change subscriptions -}
At most one active pubSubForever
can be running against a single PubSubController
at any time. If
two active calls to pubSubForever
share a single PubSubController
there will be deadlocks. If
you do want to process messages using multiple connections to Redis, you can create more than one
PubSubController
. For example, create one PubSubController for each getNumCapabilities
and then create a Haskell thread bound to each capability each calling pubSubForever
in a loop.
This will create one network connection per controller/capability and allow you to
register separate channels and callbacks for each controller, spreading the load across the capabilities.
type RedisChannel = ByteString Source #
A Redis channel name
type RedisPChannel = ByteString Source #
A Redis pattern channel name
type MessageCallback = ByteString -> IO () Source #
A handler for a message from a subscribed channel. The callback is passed the message content.
Messages are processed synchronously in the receiving thread, so if the callback
takes a long time it will block other callbacks and other messages from being
received. If you need to move long-running work to a different thread, we suggest
you use TBQueue
with a reasonable bound, so that if messages are arriving faster
than you can process them, you do eventually block.
If the callback throws an exception, the exception will be thrown from pubSubForever
which will cause the entire Redis connection for all subscriptions to be closed.
As long as you call pubSubForever
in a loop you will reconnect to your subscribed
channels, but you should probably add an exception handler to each callback to
prevent this.
type PMessageCallback = RedisChannel -> ByteString -> IO () Source #
A handler for a message from a psubscribed channel. The callback is passed the channel the message was sent on plus the message content.
Similar to MessageCallback
, callbacks are executed synchronously and any exceptions
are rethrown from pubSubForever
.
data PubSubController Source #
A controller that stores a set of channels, pattern channels, and callbacks.
It allows you to manage Pub/Sub subscriptions and pattern subscriptions and alter them at
any time throughout the life of your program.
You should typically create the controller at the start of your program and then store it
through the life of your program, using addChannels
and removeChannels
to update the
current subscriptions.
:: MonadIO m | |
=> [(RedisChannel, MessageCallback)] | the initial subscriptions |
-> [(RedisPChannel, PMessageCallback)] | the initial pattern subscriptions |
-> m PubSubController |
Create a new PubSubController
. Note that this does not subscribe to any channels, it just
creates the controller. The subscriptions will happen once pubSubForever
is called.
currentChannels :: MonadIO m => PubSubController -> m [RedisChannel] Source #
Get the list of current channels in the PubSubController
. WARNING! This might not
exactly reflect the subscribed channels in the Redis server, because there is a delay
between adding or removing a channel in the PubSubController
and when Redis receives
and processes the subscription change request.
currentPChannels :: MonadIO m => PubSubController -> m [RedisPChannel] Source #
Get the list of current pattern channels in the PubSubController
. WARNING! This might not
exactly reflect the subscribed channels in the Redis server, because there is a delay
between adding or removing a channel in the PubSubController
and when Redis receives
and processes the subscription change request.
:: MonadIO m | |
=> PubSubController | |
-> [(RedisChannel, MessageCallback)] | the channels to subscribe to |
-> [(RedisPChannel, PMessageCallback)] | the channels to pattern subscribe to |
-> m UnregisterCallbacksAction |
Add channels into the PubSubController
, and if there is an active pubSubForever
, send the subscribe
and psubscribe commands to Redis. The addChannels
function is thread-safe. This function
does not wait for Redis to acknowledge that the channels have actually been subscribed; use
addChannelsAndWait
for that.
You can subscribe to the same channel or pattern channel multiple times; the PubSubController
keeps
a list of callbacks and executes each callback in response to a message.
The return value is an action UnregisterCallbacksAction
which will unregister the callbacks,
which should typically used with bracket
.
:: MonadIO m | |
=> PubSubController | |
-> [(RedisChannel, MessageCallback)] | the channels to subscribe to |
-> [(RedisPChannel, PMessageCallback)] | the channels to psubscribe to |
-> m UnregisterCallbacksAction |
Call addChannels
and then wait for Redis to acknowledge that the channels are actually subscribed.
Note that this function waits for all pending subscription change requests, so if you for example call
addChannelsAndWait
from multiple threads simultaneously, they all will wait for all pending
subscription changes to be acknowledged by Redis (this is due to the fact that we just track the total
number of pending change requests sent to Redis and just wait until that count reaches zero).
This also correctly waits if the network connection dies during the subscription change. Say that the
network connection dies right after we send a subscription change to Redis. pubSubForever
will throw
ConnectionLost
and addChannelsAndWait
will continue to wait. Once you recall pubSubForever
with the same PubSubController
, pubSubForever
will open a new connection, send subscription commands
for all channels in the PubSubController
(which include the ones we are waiting for),
and wait for the responses from Redis. Only once we receive the response from Redis that it has subscribed
to all channels in PubSubController
will addChannelsAndWait
unblock and return.
removeChannels :: MonadIO m => PubSubController -> [RedisChannel] -> [RedisPChannel] -> m () Source #
Remove channels from the PubSubController
, and if there is an active pubSubForever
, send the
unsubscribe commands to Redis. Note that as soon as this function returns, no more callbacks will be
executed even if more messages arrive during the period when we request to unsubscribe from the channel
and Redis actually processes the unsubscribe request. This function is thread-safe.
If you remove all channels, the connection in pubSubForever
to redis will stay open and waiting for
any new channels from a call to addChannels
. If you really want to close the connection,
use killThread
or cancel
to kill the thread running
pubSubForever
.
removeChannelsAndWait :: MonadIO m => PubSubController -> [RedisChannel] -> [RedisPChannel] -> m () Source #
Call removeChannels
and then wait for all pending subscription change requests to be acknowledged
by Redis. This uses the same waiting logic as addChannelsAndWait
. Since removeChannels
immediately
notifies the PubSubController
to start discarding messages, you likely don't need this function and
can just use removeChannels
.
type UnregisterCallbacksAction = IO () Source #
An action that when executed will unregister the callbacks. It is returned from addChannels
or addChannelsAndWait
and typically you would use it in bracket
to guarantee that you
unsubscribe from channels. For example, if you are using websockets to distribute messages to
clients, you could use something such as:
websocketConn <- Network.WebSockets.acceptRequest pending let mycallback msg = Network.WebSockets.sendTextData websocketConn msg bracket (addChannelsAndWait ctrl [("hello", mycallback)] []) id $ const $ do {- loop here calling Network.WebSockets.receiveData -}
Low-Level Command API
sendRequest :: (RedisCtx m f, RedisResult a) => [ByteString] -> m (f a) Source #
sendRequest
can be used to implement commands from experimental
versions of Redis. An example of how to implement a command is given
below.
-- |Redis DEBUG OBJECT command debugObject :: ByteString ->Redis
(EitherReply
ByteString) debugObject key =sendRequest
["DEBUG", "OBJECT", key]
Low-level representation of replies from the Redis server.
SingleLine ByteString | |
Error ByteString | |
Integer Integer | |
Bulk (Maybe ByteString) | |
MultiBulk (Maybe [Reply]) |
Instances
Instances
Eq Status Source # | |
Show Status Source # | |
Generic Status Source # | |
NFData Status Source # | |
Defined in Database.Redis.Types | |
RedisResult Status Source # | |
type Rep Status Source # | |
Defined in Database.Redis.Types type Rep Status = D1 (MetaData "Status" "Database.Redis.Types" "hedis-0.12.11-3e3ok8GOdlt8nKL3HrAgwQ" False) (C1 (MetaCons "Ok" PrefixI False) (U1 :: Type -> Type) :+: (C1 (MetaCons "Pong" PrefixI False) (U1 :: Type -> Type) :+: C1 (MetaCons "Status" PrefixI False) (S1 (MetaSel (Nothing :: Maybe Symbol) NoSourceUnpackedness NoSourceStrictness DecidedLazy) (Rec0 ByteString)))) |
class RedisResult a where Source #
Instances
data ConnectionLostException Source #