{-# LANGUAGE DuplicateRecordFields #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PartialTypeSignatures #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE TupleSections #-} {-| Module: Database.Dpi Copyright: (c) Daniel YU License: BSD3 Maintainer: leptonyu@gmail.com Stability: experimental Portability: portable FFI raw bindings to <https://oracle.github.io/odpi/doc ODPI-C> @ import Database.Dpi username = "username" password = "password" connstr = "localhost:1521/dbname" {-# INLINE main #-} main :: IO () main = do withContext $ \\cxt -> withPool cxt username password connstr "utf-8" "utf-8" 2 $ \\pool -> withPoolConnection pool $ \\conn -> withStatement conn False "SELECT SYSDATE FROM DUAL" $ \\st -> do r <- executeStatement st ModeExecDefault f <- fetch st mapM (getQueryValue st) [1..r] >>= print @ -} module Database.Dpi ( module Database.Dpi , DpiException(..) , AuthMode(..) , ConnCloseMode(..) , CreateMode(..) , DeqMode(..) , DeqNavigation(..) , EventType(..) , ExecMode(..) , FetchMode(..) , MessageDeliveryMode(..) , MessageState(..) , NativeTypeNum(..) , OpCode(..) , OracleTypeNum(..) , PoolCloseMode(..) , PoolGetMode(..) , Purity(..) , ShutdownMode(..) , StartupMode(..) , StatementType(..) , SubscrNamespace(..) , SubscrProtocol(..) , SubscrQOS(..) , Visibility(..) , PtrConn , PtrPool , PtrStmt , PtrVar , PtrLob , PtrObject , PtrObjectAttr , PtrObjectType , PtrRowid , PtrSubscr , PtrDeqOptions , PtrEnqOptions , PtrMsgProps , PtrContext , Data_AppContext(..) , Data_CommonCreateParams(..) , Data_ConnCreateParams(..) , Data(..) , DataValue(..) , Data_Bytes(..) , Data_Timestamp(..) , Data_IntervalDS(..) , Data_IntervalYM(..) , Data_DataTypeInfo(..) , Data_EncodingInfo(..) , Data_ErrorInfo(..) , Data_ObjectAttrInfo(..) , Data_ObjectTypeInfo(..) , Data_PoolCreateParams(..) , Data_QueryInfo(..) , Data_ShardingKeyColumn(..) , Data_StmtInfo(..) , Data_SubscrCreateParams(..) , Data_SubscrMessage(..) , Data_SubscrMessageQuery(..) , Data_SubscrMessageRow(..) , Data_SubscrMessageTable(..) , Data_VersionInfo(..) , PtrAppContext , PtrCommonCreateParams , PtrConnCreateParams , PtrData , PtrDataTypeInfo , PtrEncodingInfo , PtrErrorInfo , PtrObjectAttrInfo , PtrObjectTypeInfo , PtrPoolCreateParams , PtrQueryInfo , PtrShardingKeyColumn , PtrStmtInfo , PtrSubscrCreateParams , PtrSubscrMessage , PtrSubscrMessageQuery , PtrSubscrMessageRow , PtrSubscrMessageTable , PtrVersionInfo , getContextError ) where import Database.Dpi.Internal import Database.Dpi.Prelude import Database.Dpi.Util import Control.Exception import Data.Maybe (fromMaybe) import qualified Data.Text as T -- * Context Interface -- $context -- Context handles are the top level handles created by the library and are used for all -- error handling as well as creating pools and standalone connections to the database. -- The first call to ODPI-C by any application must be 'createContext' which will create the context -- as well as validate the version used by the application. Context handles are destroyed by -- using the function 'destroyContext'. -- | Creates a new context for interaction with the library. -- This is the first function that must be called and it must have completed successfully -- before any other functions can be called, including in other threads. {-# INLINE createContext #-} createContext :: IO PtrContext createContext = libContextCreate & inInt majorVersion & inInt minorVersion & go where {-# INLINE go #-} go :: (Ptr PtrContext -> PtrErrorInfo -> IO CInt) -> IO PtrContext go f = withPtrs $ \(pc,pe) -> do i <- f pc pe if isOk i then peek pc else peek pe >>= throw . ErrorInfoException -- | Destroys the context that was earlier created with the function 'createContext'. {-# INLINE destroyContext #-} destroyContext :: PtrContext -> IO Bool destroyContext p = runBool libContextDestroy (p, p) -- | With Context, 'PtrContext' will be destroyed after run withContext :: (PtrContext -> IO a) -> IO a withContext = bracket createContext destroyContext -- ** Information from Context -- | Return information about the version of the Oracle Client that is being used. {-# INLINE getClientVersion #-} getClientVersion :: PtrContext -> IO Data_VersionInfo getClientVersion p = libContextGetClientVersion p & outValue p peek -- * Connection Interface -- $connection -- Connection handles are used to represent connections to the database. -- These can be standalone connections created by calling the function 'createConnection'. -- They can be closed by calling the function 'closeConnection' or releasing the last reference -- to the connection by calling the function 'releaseConnection'. -- Connection handles are used to create all handles other than session pools and context handles. -- | Creates a standalone connection to a database or acquires a connection from a session pool and returns a reference to the connection. {-# INLINE createConnection #-} createConnection :: PtrContext -- ^ Context -> Text -- ^ the name of the user used for authenticating the user -> Text -- ^ the password to use for authenticating the user -> Text -- ^ the connect string identifying the database to which a connection is to be established -> (Data_CommonCreateParams -> Data_CommonCreateParams) -- ^ custom 'Data_CommonCreateParams' -> (Data_ConnCreateParams -> Data_ConnCreateParams) -- ^ custom 'Data_ConnCreateParams' -> IO PtrConn -- ^ a reference to the connection that is created. -- If a value is returned, a call to 'releaseConnection' must be made in order to release the reference. -- This should be done after the error information has been retrieved. createConnection cxt username password connstr hcmp hccp = libConnCreate cxt & inStrLen username & inStrLen password & inStrLen connstr & inPtr (\c -> libContextInitCommonCreateParams cxt c >> peek c >>= poke c . hcmp) & inPtr (\c -> libContextInitConnCreateParams cxt c >> peek c >>= poke c . hccp) & outCxtPtr (cxt,cxt) -- | Closes the connection and makes it unusable for further activity. close connection, but not release resource, plese use 'releaseConnection' to release and close connection {-# INLINE closeConnection #-} closeConnection :: ConnCloseMode -> PtrConn -> IO Bool closeConnection mode p = isOk <$> libConnClose (snd p) (fe mode) nullPtr 0 -- | Releases a reference to the connection. A count of the references to the connection is maintained -- and when this count reaches zero, the memory associated with the connection is freed and -- the connection is closed or released back to the session pool if that has not already taken place -- using the function 'closeConnection'. {-# INLINE releaseConnection #-} releaseConnection :: PtrConn -> IO Bool releaseConnection = runBool libConnRelease -- | Commits the current active transaction. {-# INLINE commitConnection #-} commitConnection :: PtrConn -> IO Bool commitConnection = runBool libConnCommit -- | Rolls back the current active transaction. {-# INLINE rollbackConnection #-} rollbackConnection :: PtrConn -> IO Bool rollbackConnection = runBool libConnRollback -- | Pings the database to verify that the connection is still alive. {-# INLINE pingConnection #-} pingConnection :: PtrConn -> IO Bool pingConnection = runBool libConnPing -- | with connection withConnection :: PtrContext -- ^ Context -> Text -- ^ the name of the user used for authenticating the user -> Text -- ^ the password to use for authenticating the user -> Text -- ^ the connect string identifying the database to which a connection is to be established -> Text -- ^ NLS_LANG encoding -> Text -- ^ NLS_NCHAR encoding -> (PtrConn -> IO a) -- ^ action use connection -> IO a withConnection p username password connstr lang nchar = bracket (createConnection p username password connstr (set lang nchar) id) (\c -> closeConnection ModeConnCloseDefault c `finally` releaseConnection c) where set l n v = v { encoding = l, nencoding = n} :: Data_CommonCreateParams -- ** Transaction Interface -- | Begins a distributed transaction using the specified transaction id (XID) made up of the formatId, transactionId and branchId. {-# INLINE beginDistributedTransaction #-} beginDistributedTransaction :: PtrConn -- ^ Connection -> Int64 -- ^ the identifier of the format of the XID. A value of -1 indicates that the entire XID is null. -> Text -- ^ the global transaction id of the XID as a byte string. The maximum length permitted is 64 bytes. -> Text -- ^ the branch id of the XID as a byte string. The maximum length permitted is 64 bytes. -> IO Bool beginDistributedTransaction p formatId transId branchId = libConnBeginDistribTrans (snd p) (fromIntegral formatId) & inStrLen transId & inStrLen branchId & outBool -- | Prepares a distributed transaction for commit. -- This function should only be called after 'beginTransaction' is called and before 'commitConnection' is called. {-# INLINE prepareDistributedTransaction #-} prepareDistributedTransaction :: PtrConn -> IO Bool prepareDistributedTransaction (cxt,p) = libConnPrepareDistribTrans p & outValue cxt peekBool -- ** Information from Connection -- | Returns the current schema that is being used by the connection. {-# INLINE getCurrentSchema #-} getCurrentSchema :: PtrConn -> IO Text getCurrentSchema = runText libConnGetCurrentSchema -- | Sets the current schema to be used on the connection. -- This has the same effect as the SQL statement ALTER SESSION SET CURRENT_SCHEMA. -- The value be changed when the next call requiring a round trip to the server is performed. -- If the new schema name does not exist, the same error is returned as when the alter session statement is executed. -- The new schema name is placed before database objects in statement that you execute that do not already have a schema. {-# INLINE setCurrentSchema #-} setCurrentSchema :: PtrConn -> Text -> IO Bool setCurrentSchema = setText libConnSetCurrentSchema -- | Returns the edition that is being used by the connection. {-# INLINE getEdition #-} getEdition :: PtrConn -> IO Text getEdition = runText libConnGetEdition -- | Returns the external name that is being used by the connection. This value is used when logging distributed transactions. {-# INLINE getExternalName #-} getExternalName :: PtrConn -> IO Text getExternalName = runText libConnGetExternalName -- | Sets the external name that is being used by the connection. This value is used when logging distributed transactions. {-# INLINE setExternalName #-} setExternalName :: PtrConn -> Text -> IO Bool setExternalName = setText libConnSetExternalName -- | Returns the internal name that is being used by the connection. This value is used when logging distributed transactions. {-# INLINE getInternalName #-} getInternalName :: PtrConn -> IO Text getInternalName = runText libConnGetInternalName -- | Sets the internal name that is being used by the connection. This value is used when logging distributed transactions. {-# INLINE setInternalName #-} setInternalName :: PtrConn -> Text -> IO Bool setInternalName = setText libConnSetInternalName -- | Returns the logical transaction id for the connection. -- This value is used in Transaction Guard to determine if the last failed call was completed -- and if the transaction was committed using the procedure call dbms_app_cont.get_ltxid_outcome(). {-# INLINE getLTXID #-} getLTXID :: PtrConn -> IO Text getLTXID = runText libConnGetLTXID -- | Returns the version information of the Oracle Database to which the connection has been made. {-# INLINE getServerVersion #-} getServerVersion :: PtrConn -> IO (Text, Data_VersionInfo) getServerVersion (cxt,p) = libConnGetServerVersion p & out3Value cxt go where {-# INLINE go #-} go (pl,pv) = (,) <$> peekCStrLen pl <*> peek pv -- | Looks up an object type by name in the database and returns a reference to it. -- The reference should be released as soon as it is no longer needed. {-# INLINE getObjectType #-} getObjectType :: PtrConn -> Text -> IO PtrObjectType getObjectType p name = libConnGetObjectType & inCxtPtr p & inStrLen name & outCxtPtr p -- | Returns the encoding information used by the connection. -- This will be equivalent to the values passed when the standalone connection or session pool was created, -- or the values retrieved from the environment variables NLS_LANG and NLS_NCHAR. {-# INLINE getEncodingInfo #-} getEncodingInfo :: PtrConn -> IO Data_EncodingInfo getEncodingInfo = runVar libConnGetEncodingInfo -- | Returns the size of the statement cache, in number of statements. {-# INLINE getStmtCacheSize #-} getStmtCacheSize :: PtrConn -> IO Int getStmtCacheSize = runInt libConnGetStmtCacheSize -- | Sets the size of the statement cache. {-# INLINE setStmtCacheSize #-} setStmtCacheSize :: PtrConn -> Int -> IO Bool setStmtCacheSize (cxt,p) size = libConnSetStmtCacheSize p & inInt size & outBool -- | Sets the client info attribute on the connection. -- This is one of the end-to-end tracing attributes that can be tracked in database views, -- shown in audit trails and seen in tools such as Enterprise Manager. {-# INLINE setClientInfo #-} setClientInfo :: PtrConn -> Text -> IO Bool setClientInfo = setText libConnSetClientInfo -- | Sets the client identifier attribute on the connection. -- This is one of the end-to-end tracing attributes that can be tracked in database views, -- shown in audit trails and seen in tools such as Enterprise Manager. {-# INLINE setClientIdentifier #-} setClientIdentifier :: PtrConn -> Text -> IO Bool setClientIdentifier = setText libConnSetClientIdentifier -- | Sets the action attribute on the connection. This is one of the end-to-end tracing attributes -- that can be tracked in database views, shown in audit trails and seen in tools such as Enterprise Manager. {-# INLINE setAction #-} setAction :: PtrConn -> Text -> IO Bool setAction = setText libConnSetAction -- | Sets the database operation attribute on the connection. -- This is one of the end-to-end tracing attributes that can be tracked in database views, -- shown in audit trails and seen in tools such as Enterprise Manager. {-# INLINE setDbOp #-} setDbOp :: PtrConn -> Text -> IO Bool setDbOp = setText libConnSetDbOp -- | Sets the module attribute on the connection. -- This is one of the end-to-end tracing attributes that can be tracked in database views, -- shown in audit trails and seen in tools such as Enterprise Manager. {-# INLINE setModule #-} setModule :: PtrConn -> Text -> IO Bool setModule = setText libConnSetModule -- | Returns the OCI service context handle in use by the connection. {-# INLINE getHandler #-} getHandler :: PtrConn -> IO (Ptr ()) getHandler = runVar libConnGetHandle -- ** Connection Management -- | Adds a reference to the connection. -- This is intended for situations where a reference to the connection needs to be maintained independently of -- the reference returned when the connection was created. {-# INLINE connectionAddRef #-} connectionAddRef :: PtrConn -> IO Bool connectionAddRef = runBool libConnAddRef -- | Performs an immediate (asynchronous) termination of any currently executing function on the server associated with the connection. {-# INLINE breakException #-} breakException :: PtrConn -> IO Bool breakException = runBool libConnBreakExecution -- | Changes the password of the specified user. {-# INLINE changePassword #-} changePassword :: PtrConn -- ^ Connection -> Text -- ^ the name of the user whose password is to be changed -> Text -- ^ the old password of the user whose password is to be changed -> Text -- ^ the new password of the user whose password is to be changed -> IO Bool changePassword (cxt,p) username oldPassword newPassword = libConnChangePassword p & inStrLen username & inStrLen oldPassword & inStrLen newPassword & outBool -- | Shuts down the database. This function must be called twice for the database to be shut down successfully. -- After calling this function the first time, the SQL statements “alter database close normal” -- and “alter database dismount” must be executed. -- Once that is complete this function should be called again with the mode 'ModeShutdownFinal' -- in order to complete the orderly shutdown of the database. {-# INLINE shutdownDatabase #-} shutdownDatabase :: PtrConn -- ^ a reference to the connection to the database which is to be shut down. -- The connection needs to have been established at least with authorization mode set -- to 'ModeAuthSysdba' or 'ModeAuthSysoper'. -> ShutdownMode -> IO Bool shutdownDatabase (cxt,p) sm = libConnShutdownDatabase p & inEnum sm & outBool -- | Starts up a database. {-# INLINE startupDatabase #-} startupDatabase :: PtrConn -- ^ a reference to the connection to the database which is to be started up. -- A connection like this can only be created with the authorization mode set to 'ModeAuthPrelim' along with -- one of 'ModeAuthSysdba' or 'ModeAuthSysoper'. -> StartupMode -- ^ one of the values from the enumeration 'StartupMode' -> IO Bool startupDatabase (cxt,p) sm = libConnStartupDatabase p & inEnum sm & outBool -- * ConnectionPool Interace -- $pool -- Pool handles are used to represent session pools. -- They are created using the function 'createPool' and can be closed by calling the function 'closePool' -- or releasing the last reference to the pool by calling the function 'releasePool'. -- Pools can be used to create connections by calling the function 'acquiredConnection'. -- | Acquires a connection from the pool and returns a reference to it. This reference should be released as soon as it is no longer needed. {-# INLINE acquiredConnection #-} acquiredConnection :: PtrPool -> IO PtrConn acquiredConnection ps@(_,p) = libPoolAcquireConnection p nullPtr 0 nullPtr 0 nullPtr & outCxtPtr ps -- | Adds a reference to the pool. This is intended for situations where a reference to -- the pool needs to be maintained independently of the reference returned when the pool was created. {-# INLINE poolAddRef #-} poolAddRef :: PtrPool -> IO Bool poolAddRef = runBool libPoolAddRef -- | Creates a session pool which creates and maintains a group of stateless sessions to the database. -- The main benefit of session pooling is performance since making a connection to the database is a time-consuming activity, -- especially when the database is remote. {-# INLINE createPool #-} createPool :: PtrContext -- ^ Context -> Text -- ^ the name of the user used for authenticating the user -> Text -- ^ the password to use for authenticating the user -> Text -- ^ the connect string identifying the database to which a connection is to be established -> (Data_CommonCreateParams -> Data_CommonCreateParams) -- ^ custom 'Data_CommonCreateParams' -> (Data_PoolCreateParams -> Data_PoolCreateParams) -> IO PtrPool createPool cxt username password connstr hcmp hpcp = libPoolCreate cxt & inStrLen username & inStrLen password & inStrLen connstr & inPtr (\c -> libContextInitCommonCreateParams cxt c >> peek c >>= poke c . hcmp) & inPtr (\c -> libContextInitPoolCreateParams cxt c >> peek c >>= poke c . hpcp) & outCxtPtr (cxt,cxt) -- | Closes the pool and makes it unusable for further activity. {-# INLINE closePool #-} closePool :: PtrPool -> PoolCloseMode -> IO Bool closePool (cxt,p) mode = libPoolClose p & inEnum mode & outBool -- | Releases a reference to the pool. A count of the references to the pool is maintained -- and when this count reaches zero, the memory associated with the pool is freed -- and the session pool is closed if that has not already taken place using the function 'closePool'. {-# INLINE releasePool #-} releasePool :: PtrPool -> IO Bool releasePool = runBool libPoolRelease -- | with pool withPool :: PtrContext -- ^ Context -> Text -- ^ the name of the user used for authenticating the user -> Text -- ^ the password to use for authenticating the user -> Text -- ^ the connect string identifying the database to which a connection is to be established -> Text -- ^ NLS_LANG encoding -> Text -- ^ NLS_NCHAR encoding -> Int -> (PtrPool -> IO a) -- ^ action use connection -> IO a withPool p username password connstr lang nchar thread = bracket (createPool p username password connstr (set lang nchar) (setP thread)) (\c -> closePool c ModePoolCloseDefault `finally` releasePool c) where set l n v = v { encoding = if T.null l then encoding (v :: Data_CommonCreateParams) else l , nencoding = if T.null n then nencoding (v :: Data_CommonCreateParams) else n} :: Data_CommonCreateParams setP t v = v { maxSessions = fromIntegral t, sessionIncrement = 1 } :: Data_PoolCreateParams -- | with pool provide a connection will released after action {-# INLINE withPoolConnection #-} withPoolConnection :: PtrPool -> (PtrConn -> IO a) -> IO a withPoolConnection p = bracket (acquiredConnection p) releaseConnection -- | Returns the number of sessions in the pool that are busy. {-# INLINE getPoolBusyCount #-} getPoolBusyCount :: PtrPool -> IO Int getPoolBusyCount = runInt libPoolGetBusyCount -- | Returns the encoding information used by the pool. -- This will be equivalent to the values passed when the pool was created, -- or the values retrieved from the environment variables NLS_LANG and NLS_NCHAR. {-# INLINE getPoolEncodingInfo #-} getPoolEncodingInfo :: PtrPool -> IO Data_EncodingInfo getPoolEncodingInfo = runVar libPoolGetEncodingInfo -- | Returns the mode used for acquiring or getting connections from the pool. {-# INLINE getPoolMode #-} getPoolMode :: PtrPool -> IO PoolGetMode getPoolMode (cxt,p) = libPoolGetGetMode p & outValue cxt peekEnum -- | Returns the maximum lifetime of all sessions in the pool, in seconds. -- Sessions in the pool are terminated when this value has been reached, -- but only when another session is released back to the pool. {-# INLINE getPoolMaxLifetimeSession #-} getPoolMaxLifetimeSession :: PtrPool -> IO Int getPoolMaxLifetimeSession = runInt libPoolGetMaxLifetimeSession -- | Returns the number of sessions in the pool that are open. {-# INLINE getPoolOpenCount #-} getPoolOpenCount :: PtrPool -> IO Int getPoolOpenCount = runInt libPoolGetOpenCount -- | Returns the default size of the statement cache for sessions in the pool, in number of statements. {-# INLINE getPoolStmtCacheSize #-} getPoolStmtCacheSize :: PtrPool -> IO Int getPoolStmtCacheSize = runInt libPoolGetStmtCacheSize -- | Returns the amount of time, in seconds, after which idle sessions in the pool are terminated, -- but only when another session is released back to the pool. {-# INLINE getPoolTimeout #-} getPoolTimeout :: PtrPool -> IO Int getPoolTimeout = runInt libPoolGetTimeout -- | Sets the mode used for acquiring or getting connections from the pool. {-# INLINE setPoolGetMode #-} setPoolGetMode :: PtrPool -> PoolGetMode -> IO Bool setPoolGetMode (cxt,p) mode = libPoolSetGetMode p & inEnum mode & outBool -- | Sets the maximum lifetime of all sessions in the pool, in seconds. -- Sessions in the pool are terminated when this value has been reached, -- but only when another session is released back to the pool. {-# INLINE setPoolMaxLifetimeSession #-} setPoolMaxLifetimeSession :: PtrPool -> Int -> IO Bool setPoolMaxLifetimeSession (cxt,p) maxLifetimeSession = libPoolSetMaxLifetimeSession p & inInt maxLifetimeSession & outBool -- | Sets the default size of the statement cache for sessions in the pool. {-# INLINE setPoolStmtCacheSize #-} setPoolStmtCacheSize :: PtrPool -> Int -> IO Bool setPoolStmtCacheSize (cxt,p) stmtCacheSize = libPoolSetStmtCacheSize p & inInt stmtCacheSize & outBool -- | Sets the amount of time, in seconds, after which idle sessions in the pool are terminated, -- but only when another session is released back to the pool. {-# INLINE setPoolTimeout #-} setPoolTimeout :: PtrPool -> Int -> IO Bool setPoolTimeout (cxt,p) timeout = libPoolSetTimeout p & inInt timeout & outBool -- * Statement Interface -- $statement -- Statement handles are used to represent statements of all types (queries, DML, DDL and PL/SQL). -- They are created by calling the function 'prepareStatement'. -- They are also created implicitly when a variable of type 'OracleTypeStmt' is created. -- Statement handles can be closed by calling the function 'closeStatement' -- or by releasing the last reference to the statement by calling the function 'releaseStatement'. -- | Returns a reference to a statement prepared for execution. -- The reference should be released as soon as it is no longer needed. {-# INLINE prepareStatement #-} prepareStatement :: PtrConn -- ^ Connection -> Bool -- ^ a boolean indicating if the statement is scrollable or not. -- If it is scrollable, 'scrollStatement' can be used to reposition the cursor; -- otherwise, rows are retrieved in order from the statement until the rows are exhausted. -- This value is ignored for statements that do not refer to a query. -> Text -- ^ SQL String, not allow to use multi lines or semicolon as end of sql. -- use 'normalize' use normalize sql text. -> IO PtrStmt prepareStatement p scrollable sql = libConnPrepareStmt & inCxtPtr p & inBool scrollable & inStrLen sql & (\f -> f nullPtr 0) & outCxtPtr p -- | Normalize SQL, replace newline characters with space characters. and remove semicolon in the end of sql {-# INLINE normalize #-} normalize :: Text -> Text normalize = T.dropWhileEnd (==';') . T.strip . T.map (\c -> if c == '\n' || c == '\r' then ' ' else c) {-# INLINE escapeName #-} escapeName :: Text -> Text escapeName name = "\"" <> T.replace "\"" "\"\"" name <> "\"" -- | Closes the statement and makes it unusable for further work immediately, -- rather than when the reference count reaches zero. {-# INLINE closeStatement #-} closeStatement :: PtrStmt -> IO Bool closeStatement (cxt, p) = isOk <$> libStmtClose p nullPtr 0 -- | Releases a reference to the statement. A count of the references to the statement is maintained -- and when this count reaches zero, the memory associated with the statement is freed -- and the statement is closed if that has not already taken place using the function 'closeStatement'. {-# INLINE releaseStatement #-} releaseStatement :: PtrStmt -> IO Bool releaseStatement = runBool libStmtRelease -- | with statement provide a prepared statement will released after action withStatement :: PtrConn -- ^ Connection -> Bool -- ^ a boolean indicating if the statement is scrollable or not. -- If it is scrollable, 'scrollStatement' can be used to reposition the cursor; -- otherwise, rows are retrieved in order from the statement until the rows are exhausted. -- This value is ignored for statements that do not refer to a query. -> Text -- ^ SQL String, not allow to use multi lines or semicolon as end of sql. -- use 'normalize' use normalize sql text. -> (PtrStmt -> IO a) -> IO a withStatement p scrollable sql f = bracket (prepareStatement p scrollable sql) releaseStatement $ \s -> do a <- f s a `seq` return a -- | Scrolls the statement to the position in the cursor specified by the mode and offset. {-# INLINE scrollStatement #-} scrollStatement :: PtrStmt -> FetchMode -> Int -> Int -> IO Bool scrollStatement (cxt,p) mode offset rowOffset = libStmtScroll p & inEnum mode & inInt offset & inInt rowOffset & outBool -- | Adds a reference to the statement. -- This is intended for situations where a reference to the statement needs to be maintained independently of -- the reference returned when the statement was created. {-# INLINE statementAddRef #-} statementAddRef :: PtrStmt -> IO Bool statementAddRef = runBool libStmtAddRef -- ** Statement Bind Vars -- | Binds a variable to a named placeholder in the statement. -- A reference to the variable is retained by the library and is released when the statement itself is released or a new variable is bound to the same name. {-# INLINE bindByName #-} bindByName :: PtrStmt -- ^ Statement -> Text -- ^ a byte string in the encoding used for CHAR data giving the name of the placeholder which is to be bound. -> PtrVar -- ^ a reference to the variable which is to be bound. -> IO Bool bindByName (cxt,p) name (_,var) = libStmtBindByName p & inStrLen name & inVar var & outBool -- | Binds a variable to a placeholder in the statement by position. -- A reference to the variable is retained by the library and is released when the statement itself is released or a new variable is bound to the same position. {-# INLINE bindByPosition #-} bindByPosition :: PtrStmt -- ^ Statement -> Int -- ^ the position which is to be bound. -- The position of a placeholder is determined by its location in the statement. -- Placeholders are numbered from left to right, starting from 1, and duplicate names do not count as additional placeholders. -> PtrVar -- ^ a reference to the variable which is to be bound. -> IO Bool bindByPosition (cxt,p) pos (_,var) = libStmtBindByPos p & inInt pos & inVar var & outBool -- | Binds a value to a named placeholder in the statement without the need to create a variable directly. -- One is created implicitly and released when the statement is released or a new value is bound to the same name. {-# INLINE bindValueByName #-} bindValueByName :: PtrStmt -- ^ Statement -> Text -- ^ a byte string in the encoding used for CHAR data giving the name of the placeholder which is to be bound. -> DataValue -- ^ Value -- Once the statement has been executed, this new variable will be released. -> IO Bool bindValueByName (cxt,p) name dv = do (ntn, ot, dt) <- newData dv libStmtBindValueByName p & inStrLen name & inEnum ntn & inVar dt & outBool -- | Binds a value to a placeholder in the statement without the need to create a variable directly. -- One is created implicitly and released when the statement is released or a new value is bound to the same position. {-# INLINE bindValueByPosition #-} bindValueByPosition :: PtrStmt -- ^ Statement -> Int -- ^ the position which is to be bound. -- The position of a placeholder is determined by its location in the statement. -- Placeholders are numbered from left to right, starting from 1, -- and duplicate names do not count as additional placeholders. -> DataValue -- ^ Value -- Once the statement has been executed, this new variable will be released. -> IO Bool bindValueByPosition (cxt,p) pos dv = do (ntn, _, dt) <- newData dv libStmtBindValueByPos p & inInt pos & inEnum ntn & inVar dt & outBool -- | Defines the variable that will be used to fetch rows from the statement. -- A reference to the variable will be retained until the next define is performed on the same position -- or the statement is closed. {-# INLINE define #-} define :: PtrStmt -- ^ Statement -> Int -- ^ the position which is to be defined. The first position is 1. -> PtrVar -- ^ a reference to the variable which is to be used for fetching rows from the statement at the given position. -> IO Bool define (cxt,p) pos (_,var) = libStmtDefine p & inInt pos & inVar var & outBool -- | Defines the type of data that will be used to fetch rows from the statement. -- This is intended for use with the function 'getQueryValue', when the default data type -- derived from the column metadata needs to be overridden by the application. -- Internally, a variable is created with the specified data type and size. {-# INLINE defineValue #-} defineValue :: PtrStmt -- ^ Statement -> Int -- ^ the position which is to be defined. The first position is 1. -> OracleTypeNum -- ^ the type of Oracle data that is to be used. -> NativeTypeNum -- ^ the type of native C data that is to be used. -> Int -- ^ the maximum size of the buffer used for transferring data to/from Oracle. -- This value is only used for variables transferred as byte strings. -- Size is either in characters or bytes depending on the value of the sizeIsBytes parameter. -- If the value is in characters, internally the value will be multipled by the maximum number of bytes -- for each character and that value used instead when determining the necessary buffer size. -> Bool -- ^ boolean value indicating if the size parameter refers to characters or bytes. -- This flag is only used if the variable refers to character data. -> PtrObjectType -- ^ a reference to the object type of the object that is being bound or fetched. -- This value is only used if the Oracle type is 'OracleTypeObject'. -> IO Bool defineValue (cxt,p) pos otn ntn size isSizeInByte (_,ot) = libStmtDefineValue p & inInt pos & inEnum otn & inEnum ntn & inInt size & inBool isSizeInByte & inVar ot & outBool -- | Returns the number of bind variables in the prepared statement. -- In SQL statements this is the total number of bind variables whereas in PL/SQL statements -- this is the count of the unique bind variables. {-# INLINE getBindCount #-} getBindCount :: PtrStmt -> IO Int getBindCount = runInt libStmtGetBindCount -- | Returns the names of the unique bind variables in the prepared statement. {-# INLINE getBindNames #-} getBindNames :: PtrStmt -> IO [Text] getBindNames ps@(cxt,p) = do c <- getBindCount ps alloca $ \pn -> allocaArray c $ \pan -> alloca $ \panl -> do ok <- isOk <$> libStmtGetBindNames p pn pan panl if ok then do n <- peek pn ac <- peekArray (fromIntegral n) pan al <- peek panl mapM (`ts` al) ac else throwContextError cxt -- | Returns information about the statement. {-# INLINE getStatementInfo #-} getStatementInfo :: PtrStmt -> IO Data_StmtInfo getStatementInfo = runVar libStmtGetInfo -- | Gets the array size used for performing fetches. {-# INLINE getFetchArraySize #-} getFetchArraySize :: PtrStmt -> IO Int getFetchArraySize = runInt libStmtGetFetchArraySize -- | Sets the array size used for performing fetches. -- All variables defined for fetching must have this many (or more) elements allocated for them. -- The higher this value is the less network round trips are required to fetch rows from the database -- but more memory is also required. A value of zero will reset the array size to -- the default value of DPI_DEFAULT_FETCH_ARRAY_SIZE. {-# INLINE setFetchArraySize #-} setFetchArraySize :: PtrStmt -> Int -> IO Bool setFetchArraySize (cxt,p) pos = libStmtSetFetchArraySize p & inInt pos & outBool -- | Returns the next implicit result available from the last execution of the statement. -- Implicit results are only available when both the client and server are 12.1 or higher. {-# INLINE getImplicitResult #-} getImplicitResult :: PtrStmt -> IO (Maybe PtrStmt) getImplicitResult p@(cxt,_) = do ps <- runMaybeVar libStmtGetImplicitResult p return $ fmap (cxt,) ps -- | Returns the number of columns that are being queried. {-# INLINE getNumberQueryColumns #-} getNumberQueryColumns :: PtrStmt -> IO Int getNumberQueryColumns = runInt libStmtGetNumQueryColumns -- | Returns information about the column that is being queried. {-# INLINE getQueryInfo #-} getQueryInfo :: PtrStmt -- ^ Statement -> Int -- ^ the position of the column whose metadata is to be retrieved. The first position is 1. -> IO Data_QueryInfo getQueryInfo (cxt,p) pos = libStmtGetQueryInfo p & inInt pos & outValue cxt peek -- | Returns the value of the column at the given position for the currently fetched row, -- without needing to provide a variable. If the data type of the column needs to be overridden, -- the function 'defineValue' can be called to specify a different type after executing -- the statement but before fetching any data. {-# INLINE getQueryValue #-} getQueryValue :: PtrStmt -- ^ Statement -> Int -- ^ the position of the column whose metadata is to be retrieved. The first position is 1. -> IO DataValue getQueryValue ps@(cxt,p) pos = libStmtGetQueryValue p & inInt pos & out2Value cxt (go ps pos) where {-# INLINE go #-} go p pos (pt,pd) = do Data_QueryInfo{..} <- getQueryInfo p pos let Data_DataTypeInfo{..} = typeInfo t <- te <$> peek pt peek pd >>= _get oracleTypeNum t -- ** Execute Statement -- | Executes the statement using the bound values. -- For queries this makes available metadata which can be acquired using the function 'getQueryInfo'. -- For non-queries, out and in-out variables are populated with their values. {-# INLINE executeStatement #-} executeStatement :: PtrStmt -> ExecMode -> IO Int executeStatement ps@(cxt,p) mode = libStmtExecute p & inEnum mode & outValue cxt peekInt {-# INLINE executeMany #-} executeMany :: PtrStmt -> ExecMode -> Int -> IO Bool executeMany (_,p) mode count = libStmtExecuteMany p & inEnum mode & inInt count & outBool -- | Fetches a single row from the statement. If the statement does not refer to a query an error is returned. -- All columns that have not been defined prior to this call are implicitly defined using the metadata made available when the statement was executed. {-# INLINE fetch #-} fetch :: PtrStmt -> IO (Maybe PageOffset) fetch (cxt,p) = libStmtFetch p & out2Value cxt go where {-# INLINE go #-} go (pf,pr) = do found <- toBool <$> peek pf if found then Just <$> peekInt pr else return Nothing -- Index, RowNum type PageOffset = Int64 type PageLimit = Int64 type Page = (PageOffset, PageLimit) type FetchRows a = PtrStmt -> Page -> IO a -- | Returns the number of rows that are available in the buffers defined for the query. -- If no rows are currently available in the buffers, an internal fetch takes place in order to populate them, -- if rows are available. If the statement does not refer to a query an error is returned. -- All columns that have not been defined prior to this call are implicitly defined using -- the metadata made available when the statement was executed. {-# INLINE fetchRows #-} fetchRows :: PtrStmt -- ^ Statement -> Int -- ^ the maximum number of rows to fetch. If the number of rows available exceeds this value only this number will be fetched. -> IO (Bool, [DataValue]) fetchRows ps@(cxt,p) maxRow = libStmtFetchRows p & inInt maxRow & out3Value cxt (go ps) where {-# INLINE go #-} go ps ((pri,prf), pmr) = do index <- peekInt pri num <- peekInt prf vs <- fetch ps index num more <- toBool <$> peek pmr return (more, vs) {-# INLINE fetch #-} fetch p offset limit = do count <- getRowCount p mapM (getQueryValue p) [1..count] -- | Returns the number of rows affected by the last DML statement that was executed -- or the number of rows currently fetched from a query. In all other cases 0 is returned. {-# INLINE getRowCount #-} getRowCount :: PtrStmt -> IO Int getRowCount = runInt libStmtGetRowCount -- | Returns an array of row counts affected by the last invocation of 'executeMany' -- with the array DML rowcounts mode enabled. -- This feature is only available if both client and server are at 12.1. {-# INLINE getRowCounts #-} getRowCounts :: PtrStmt -> IO [Int] getRowCounts (cxt,p) = libStmtGetRowCounts p & out2Value cxt go where {-# INLINE go #-} go (pc, pac) = do c <- peekInt pc pcs <- peekArray c pac mapM peekInt pcs -- | Returns the id of the query that was just registered on the subscription by calling 'executeStatement' -- on a statement prepared by calling 'prepareStatement'. {-# INLINE getSubscrQueryId #-} getSubscrQueryId :: PtrStmt -> IO Word64 getSubscrQueryId = runInt libStmtGetSubscrQueryId {-# INLINE getBatchErrorCount #-} getBatchErrorCount :: PtrStmt -> IO Int getBatchErrorCount = runInt libStmtGetBatchErrorCount {-# INLINE getBatchErrors #-} getBatchErrors :: PtrStmt -> IO [Data_ErrorInfo] getBatchErrors ps@(cxt,p) = do c <- getBatchErrorCount ps if c <= 0 then return [] else allocaArray c $ \par -> do ok <- libStmtGetBatchErrors p & inInt c & inVar par & outBool if ok then peekArray c par else throwContextError cxt -- * Lob Interface -- $lob -- LOB handles are used to represent large objects (CLOB, BLOB, NCLOB, BFILE). -- Both persistent and temporary large objects can be represented. -- LOB handles can be created by calling the function 'newTempLob' or are created implicitly -- when a variable of type 'OracleTypeClob', 'OracleTypeNclob', 'OracleTypeBlob' or 'OracleTypeBfile' -- is created and are destroyed when the last reference is released by calling the function 'releaseLob'. -- They are used for reading and writing data to the database in smaller pieces than is contained in the large object. -- | Adds a reference to the LOB. -- This is intended for situations where a reference to the LOB needs to be maintained independently of -- the reference returned when the LOB was created. {-# INLINE lobAddRef #-} lobAddRef :: PtrLob -> IO Bool lobAddRef = runBool libLobAddRef -- | Returns a reference to a new temporary LOB which may subsequently be written and bound to a statement. -- The reference should be released as soon as it is no longer needed. {-# INLINE newTempLob #-} newTempLob :: PtrConn -> OracleTypeNum -> IO PtrLob newTempLob p otn = libConnNewTempLob & inCxtPtr p & inEnum otn & outCxtPtr p -- | close lob {-# INLINE closeLob #-} closeLob :: PtrLob -> IO Bool closeLob = runBool libLobClose -- | Releases a reference to the LOB. -- A count of the references to the LOB is maintained and when this count reaches zero, -- the memory associated with the LOB is freed. -- The LOB is also closed unless that has already taken place using the function 'closeLob'. {-# INLINE releaseLob #-} releaseLob :: PtrLob -> IO Bool releaseLob = runBool libLobRelease -- | Trims the data in the LOB so that it only contains the specified amount of data. {-# INLINE trimLob #-} trimLob :: PtrLob -> Int64 -> IO Bool trimLob (cxt,p) size = libLobTrim p & inInt size & outBool -- | Closes the LOB resource. -- This should be done when a batch of writes has been completed so that the indexes associated with the LOB can be updated. -- It should only be performed if a call to function 'openLobResource' has been performed. {-# INLINE closeLobResource #-} closeLobResource :: PtrLob -> IO Bool closeLobResource = runBool libLobCloseResource -- | Opens the LOB resource for writing. -- This will improve performance when writing to the LOB in chunks -- and there are functional or extensible indexes associated with the LOB. -- If this function is not called, the LOB resource will be opened and closed for each write that is performed. -- A call to the function 'closeLobResource' should be done before performing a call to the function 'commitConnection'. {-# INLINE openLobResource #-} openLobResource :: PtrLob -> IO Bool openLobResource = runBool libLobOpenResource -- | Returns a boolean value indicating if the LOB resource has been opened by making -- a call to the function 'openLobResource' (1) or not (0). {-# INLINE isLobResourceOpen #-} isLobResourceOpen :: PtrLob -> IO Bool isLobResourceOpen (cxt,p) = libLobGetIsResourceOpen p & outValue cxt peekBool -- | Creates an independent copy of a LOB and returns a reference to the newly created LOB. -- This reference should be released as soon as it is no longer needed. {-# INLINE copyLob #-} copyLob :: PtrLob -> IO PtrLob copyLob p@(cxt,_)= (cxt,) <$> runVar libLobCopy p -- | Flush or write all buffers for this LOB to the server. {-# INLINE flushLob #-} flushLob :: PtrLob -> IO Bool flushLob = runBool libLobFlushBuffer -- | Returns the size of the buffer needed to hold the number of characters specified for a buffer of the type -- associated with the LOB. If the LOB does not refer to a character LOB the value is returned unchanged. {-# INLINE getLobBufferSize #-} getLobBufferSize :: PtrLob -> Word64 -> IO Word64 getLobBufferSize (cxt,p) size = libLobGetBufferSize p & inInt size & outValue cxt peekInt -- | Returns the chunk size of the internal LOB. Reading and writing to the LOB in multiples of this size will improve performance. {-# INLINE getLobChunkSize #-} getLobChunkSize :: PtrLob -> IO Int64 getLobChunkSize = runInt libLobGetChunkSize -- | Returns the directory alias name and file name for a BFILE type LOB. {-# INLINE getLobDirectoryAndFileName #-} getLobDirectoryAndFileName :: PtrLob -> IO (FilePath, String) getLobDirectoryAndFileName (cxt,p) = libLobGetDirectoryAndFileName p & out4Value cxt go where {-# INLINE go #-} go ((pd, pdlen), (pn, pnlen)) = do d <- peek pd dlen <- peek pdlen n <- peek pn nlen <- peek pnlen fp <- ts d dlen name <- ts n nlen return (T.unpack fp, T.unpack name) -- | Sets the directory alias name and file name for a BFILE type LOB. {-# INLINE setLobDirectoryAndFileName #-} setLobDirectoryAndFileName :: PtrLob -> (FilePath, String) -> IO Bool setLobDirectoryAndFileName (cxt,p) (fp, name) = libLobSetDirectoryAndFileName p & inStrLen fp & inStrLen name & outBool -- | Returns a boolean value indicating if the file referenced by the BFILE type LOB exists (1) or not (0). {-# INLINE lobFileExists #-} lobFileExists :: PtrLob -> IO Bool lobFileExists (cxt,p) = libLobGetFileExists p & outValue cxt peekBool -- | Returns the size of the data stored in the LOB. -- For character LOBs the size is in characters; for binary LOBs the size is in bytes. {-# INLINE getLobSize #-} getLobSize :: PtrLob -> IO Int64 getLobSize = runInt libLobGetSize -- | Replaces all of the data in the LOB with the contents of the provided buffer. -- The LOB will first be cleared and then the provided data will be written. {-# INLINE setLobFromBytes #-} setLobFromBytes :: PtrLob -> Text -> IO Bool setLobFromBytes (cxt,p) buff = libLobSetFromBytes p & inStrLen buff & outBool type BufferSize = Int64 -- | Reads data from the LOB at the specified offset into the provided buffer. {-# INLINE readLobBytes #-} readLobBytes :: PtrLob -> Page -> BufferSize -> IO Text readLobBytes (cxt,p) (offset, num) bufferSize = libLobReadBytes p & inInt offset & inInt num & uncurry & outValue' cxt get (set bufferSize) where set bs (pb,pblen) = poke pblen (fromIntegral bs) get (pb,pblen) = do pl <- peek pblen ts pb (fromIntegral pl) -- | Write data to the LOB at the specified offset using the provided buffer as the source. -- If multiple calls to this function are planned, the LOB should first be opened using the function 'openLob'. {-# INLINE writeLobBytes #-} writeLobBytes :: PtrLob -> PageOffset -> Text -> IO Bool writeLobBytes (cxt,p) size buff = libLobWriteBytes p & inInt size & inStrLen buff & outBool -- * Object Interface -- $object -- Object handles are used to represent instances of the types created by the SQL command CREATE OR REPLACE TYPE. -- They are created by calling the function 'createObject' or calling the function 'copyObject' or implicitly by -- creating a variable of the type OracleTypeObject. -- The are destroyed when the last reference is released by calling the function 'releaseObject'. -- | Creates an object of the specified type and returns a reference to it. -- This reference should be released as soon as it is no longer needed. {-# INLINE createObject #-} createObject :: PtrObjectType -> IO PtrObject createObject p@(cxt,_)= (cxt,) <$> runVar libObjectTypeCreateObject p -- | Releases a reference to the object. -- A count of the references to the object is maintained and when this count reaches zero, -- the memory associated with the object is freed. {-# INLINE releaseObject #-} releaseObject :: PtrObject -> IO Bool releaseObject = runBool libObjectRelease -- | Adds a reference to the object. -- This is intended for situations where a reference to the object needs to be maintained independently of -- the reference returned when the object was created. {-# INLINE objectAddRef #-} objectAddRef :: PtrObject -> IO Bool objectAddRef = runBool libObjectAddRef -- | Sets the value of the element found at the specified index. {-# INLINE objectAppendElement #-} objectAppendElement :: PtrObject -> NativeTypeNum -> PtrData -> IO Bool objectAppendElement (cxt,p) ntn pd = libObjectAppendElement p & inEnum ntn & inVar pd & outBool -- | Creates an independent copy of an object and returns a reference to the newly created object. -- This reference should be released as soon as it is no longer needed. {-# INLINE copyObject #-} copyObject :: PtrObject -> IO PtrObject copyObject p@(cxt,_)= (cxt,) <$> runVar libObjectCopy p -- | Trims a number of elements from the end of a collection. {-# INLINE trimObject #-} trimObject :: PtrObject -> Int -> IO Bool trimObject (cxt,p) size = libObjectTrim p & inInt size & outBool -- | Deletes an element from the collection. -- Note that the position ordinals of the remaining elements are not changed. -- The delete operation creates holes in the collection. {-# INLINE objectDeleteElementByIndex #-} objectDeleteElementByIndex :: PtrObject -> Int -> IO Bool objectDeleteElementByIndex (cxt,p) pos = libObjectDeleteElementByIndex p & inInt pos & outBool -- | Sets the value of one of the object’s attributes. {-# INLINE setObjectAttributeValue #-} setObjectAttributeValue :: PtrObject -> PtrObjectAttr -> DataValue -> IO Bool setObjectAttributeValue (cxt,p) (_,poa) v = do (ntn, _, pd) <- newData v libObjectSetAttributeValue p poa & inEnum ntn & inVar pd & outBool -- | Returns the value of one of the object’s attributes. {-# INLINE getObjectAttributeValue #-} getObjectAttributeValue :: PtrObject -> PtrObjectAttr -> NativeTypeNum -> OracleTypeNum -> IO DataValue getObjectAttributeValue (cxt,p) (_,poa) ntn ot = libObjectGetAttributeValue p & inVar poa & inEnum ntn & outValue cxt (_get ot ntn) -- Returns whether an element exists at the specified index. {-# INLINE getObjectElementExistsByIndex #-} getObjectElementExistsByIndex :: PtrObject -> Int -> IO Bool getObjectElementExistsByIndex (cxt,p) ind = libObjectGetElementExistsByIndex p & inInt ind & outValue cxt peekBool -- | Sets the value of the element found at the specified index. {-# INLINE setObjectElementValueByIndex #-} setObjectElementValueByIndex :: PtrObject -> Int -> DataValue -> IO Bool setObjectElementValueByIndex (cxt,p) ind v = do (ntn, ot, pd) <- newData v libObjectSetElementValueByIndex p & inInt ind & inEnum ntn & inVar pd & outBool -- | Returns the value of the element found at the specified index. {-# INLINE getObjectElementValueByIndex #-} getObjectElementValueByIndex :: PtrObject -> Int -> NativeTypeNum -> OracleTypeNum -> IO DataValue getObjectElementValueByIndex (cxt,p) pos ntn ot = libObjectGetElementValueByIndex p & inInt pos & inEnum ntn & outValue cxt (_get ot ntn) -- | Returns the first index used in a collection. {-# INLINE getObjectFirstIndex #-} getObjectFirstIndex :: PtrObject -> IO (Maybe Int) getObjectFirstIndex = runIndex libObjectGetFirstIndex -- | Returns the last index used in a collection. {-# INLINE getObjectLastIndex #-} getObjectLastIndex :: PtrObject -> IO (Maybe Int) getObjectLastIndex = runIndex libObjectGetLastIndex -- | Returns the next index used in a collection following the specified index. {-# INLINE getObjectNextIndex #-} getObjectNextIndex :: PtrObject -> Int -> IO (Maybe Int) getObjectNextIndex p ind = runIndex (flip libObjectGetNextIndex $ fromIntegral ind) p -- | Returns the previous index used in a collection preceding the specified index. {-# INLINE getObjectPrevIndex #-} getObjectPrevIndex :: PtrObject -> Int -> IO (Maybe Int) getObjectPrevIndex p ind = runIndex (flip libObjectGetPrevIndex $ fromIntegral ind) p -- | Returns the number of elements in a collection. {-# INLINE getObjectSize #-} getObjectSize :: PtrObject -> IO Int getObjectSize = runInt libObjectGetSize -- ** ObjectAttr -- $objectattr -- Object attribute handles are used to represent the attributes of types such as those -- created by the SQL command CREATE OR REPLACE TYPE. -- They are created by calling the function 'getObjectTypeAttributes' -- and are destroyed when the last reference is released by calling the function 'releaseObjectAttr'. -- | Returns information about the attribute. {-# INLINE getObjectAttrInfo #-} getObjectAttrInfo :: PtrObjectAttr -> IO Data_ObjectAttrInfo getObjectAttrInfo = runVar libObjectAttrGetInfo -- | Adds a reference to the attribute. -- This is intended for situations where a reference to the attribute needs to be maintained independently of -- the reference returned when the attribute was created. {-# INLINE objectAttrAddRef #-} objectAttrAddRef :: PtrObjectAttr -> IO Bool objectAttrAddRef = runBool libObjectAttrAddRef -- | Releases a reference to the attribute. -- A count of the references to the attribute is maintained and when this count reaches zero, -- the memory associated with the attribute is freed. {-# INLINE releaseObjectAttr #-} releaseObjectAttr :: PtrObjectAttr -> IO Bool releaseObjectAttr = runBool libObjectAttrRelease -- ** ObjectType -- $objecttype -- Object type handles are used to represent types such as those created by the SQL command CREATE OR REPLACE TYPE. -- They are created using the function 'getObjectType' -- or implicitly when fetching from a column containing objects by calling the function 'getQueryInfo'. -- Object types are also retrieved when used as attributes in another object by calling the function 'getObjectAttrInfo' -- or as the element type of a collection by calling the function 'getObjectTypeInfo'. -- They are destroyed when the last reference is released by calling the function 'releaseObjectType'. -- | Adds a reference to the object type. -- This is intended for situations where a reference to the object type needs to be maintained independently of -- the reference returned when the object type was created. {-# INLINE objectTypeAddRef #-} objectTypeAddRef :: PtrObjectType-> IO Bool objectTypeAddRef = runBool libObjectTypeAddRef -- | Releases a reference to the object type. -- A count of the references to the object type is maintained and when this count reaches zero, -- the memory associated with the object type is freed. {-# INLINE releaseObjectType #-} releaseObjectType :: PtrObjectType -> IO Bool releaseObjectType = runBool libObjectTypeRelease -- | Returns the list of attributes that belong to the object type. {-# INLINE getObjectTypeAttributes #-} getObjectTypeAttributes :: PtrObjectType -> Int -> IO PtrObjectAttr getObjectTypeAttributes p num = libObjectTypeGetAttributes & inCxtPtr p & inInt num & outCxtPtr p -- | Returns information about the object type. {-# INLINE getObjectTypeInfo #-} getObjectTypeInfo :: PtrObjectType -> IO Data_ObjectTypeInfo getObjectTypeInfo = runVar libObjectTypeGetInfo -- * Rowid Interface -- $rowid -- Rowid handles are used to represent the unique identifier of a row in the database. -- They cannot be created or set directly but are created implicitly when a variable of type 'OracleTypeRowid' is created. -- They are destroyed when the last reference is released by a call to the function 'releaseRowid'. -- | Adds a reference to the rowid. This is intended for situations where a reference to the rowid needs to be maintained -- independently of the reference returned when the rowid was created. {-# INLINE rowidAddRef #-} rowidAddRef :: PtrRowid -> IO Bool rowidAddRef = runBool libRowidAddRef -- | Releases a reference to the rowid. -- A count of the references to the rowid is maintained and when this count reaches zero, -- the memory associated with the rowid is freed. {-# INLINE releaseRowid #-} releaseRowid :: PtrRowid -> IO Bool releaseRowid = runBool libRowidRelease -- | Returns the sting (base64) representation of the rowid. {-# INLINE rowidGetStringValue #-} rowidGetStringValue :: PtrRowid -> IO Text rowidGetStringValue (cxt,p) = libRowidGetStringValue p & out2Value cxt peekCStrLen -- * Var Interface -- $var -- Variable handles are used to represent memory areas used for transferring data to and from the database. -- They are created by calling the function 'newVar'. -- They are destroyed when the last reference to the variable is released by calling the function 'releaseVar'. -- They are bound to statements by calling the function 'bindByName' or the function 'bindByPosition'. -- They can also be used for fetching data from the database by calling the function 'define'. -- | Returns a reference to a new variable which can be used for binding data to a statement -- or providing a buffer for querying data from the database. -- The reference should be released as soon as it is no longer needed. {-# INLINE newVar #-} newVar :: PtrConn -- ^ Connection -> OracleTypeNum -- ^ the type of Oracle data that is to be used. -> NativeTypeNum -- ^ the type of native C data that is to be used. -> Int -- ^ the maximum number of rows that can be fetched or bound at one time from the database, -- or the maximum number of elements that can be stored in a PL/SQL array. -> Int -- ^ the maximum size of the buffer used for transferring data to/from Oracle. -- This value is only used for variables transferred as byte strings. -- Size is either in characters or bytes depending on the value of the sizeIsBytes parameter. -- If the value is in characters, internally the value will be multipled by -- the maximum number of bytes for each character and that value used instead -- when determining the necessary buffer size. -> Bool -- ^ boolean value indicating if the size parameter refers to characters or bytes. -- This flag is only used if the variable refers to character data. -> Bool -- ^ boolean value indicating if the variable refers to a PL/SQL array or simply to buffers used for binding or fetching data. -> PtrObjectType -- ^ a reference to the object type of the object that is being bound or fetched. -- This value is only used if the Oracle type is 'OracleTypeObject'. -> IO (PtrVar, [PtrData]) newVar (cxt,p) otn ntn maxArraySize size sizeIsBytes isArray (_,oto) = libConnNewVar p & inEnum otn & inEnum ntn & inInt maxArraySize & inInt size & inBool sizeIsBytes & inBool isArray & inVar oto & out2Value cxt (go cxt) where {-# INLINE go #-} go cxt (pv,pd) = do v <- peek pv d <- peekArray (fromIntegral maxArraySize) pd return ((cxt,v), d) -- | Adds a reference to the variable. -- This is intended for situations where a reference to the variable needs to be maintained independently of -- the reference returned when the variable was created. {-# INLINE varAddRef #-} varAddRef :: PtrVar -> IO Bool varAddRef = runBool libVarAddRef -- | Releases a reference to the variable. -- A count of the references to the variable is maintained and when this count reaches zero, -- the memory associated with the variable is freed. {-# INLINE releaseVar #-} releaseVar :: PtrVar -> IO Bool releaseVar = runBool libVarRelease -- | Copies the data from one variable to another variable. {-# INLINE copyVar #-} copyVar :: PtrVar -> Int -> PtrVar -> Int -> IO Bool copyVar (_,p) toPos (_,from) fromPos = libVarCopyData p & inInt toPos & inVar from & inInt fromPos & outBool -- | Returns a pointer to an array of dpiData structures used for transferring data to and from the database. -- These structures are allocated by the variable itself and are made available when the variable is first -- created using the function 'newVar'. If a DML returning statement is executed, however, -- the number of allocated elements can change in addition to the memory location. {-# INLINE getVarData #-} getVarData :: PtrVar -> IO [Data] getVarData (cxt,p) = libVarGetData p & out2Value cxt go where {-# INLINE go #-} go (pn, pd) = join $ peekArray <$> peekInt pn <*> peek pd -- | Returns the number of elements in a PL/SQL index-by table if the variable was created as an array -- by the function 'newVar'. -- If the variable is one of the output bind variables of a DML returning statement, however, -- the value returned will correspond to the number of rows returned by the DML returning statement. -- In all other cases, the value returned will be the number of elements the variable was created with. {-# INLINE getVarElementsSize #-} getVarElementsSize :: PtrVar -> IO Int getVarElementsSize = runInt libVarGetNumElementsInArray -- | Returns the size of the buffer used for one element of the array used for fetching/binding Oracle data {-# INLINE getVarSizeInBytes #-} getVarSizeInBytes :: PtrVar -> IO Int getVarSizeInBytes = runInt libVarGetSizeInBytes -- | Sets the variable value to the specified byte string. -- In the case of the variable’s Oracle type being 'OracleTypeNumber', -- the byte string is converted to an Oracle number during the call to this function. {-# INLINE setVarFromBytes #-} setVarFromBytes :: PtrVar -> Int -> Text -> IO Bool setVarFromBytes (cxt,p) pos bytes = libVarSetFromBytes p & inInt pos & inStrLen bytes & outBool -- | Sets the variable value to the specified LOB. {-# INLINE setVarFromLob #-} setVarFromLob :: PtrVar -> Int -> PtrLob -> IO Bool setVarFromLob (cxt,p) pos (_,lob) = libVarSetFromLob p & inInt pos & inVar lob & outBool -- | Sets the variable value to the specified object. {-# INLINE setVarFromObject #-} setVarFromObject :: PtrVar -> Int -> PtrObject -> IO Bool setVarFromObject (_,p) pos (_,obj) = libVarSetFromObject p & inInt pos & inVar obj & outBool -- | Sets the variable value to the specified rowid. {-# INLINE setVarFromRowid #-} setVarFromRowid :: PtrVar -> Int -> PtrRowid -> IO Bool setVarFromRowid (_,p) pos (_,row) = libVarSetFromRowid p & inInt pos & inVar row & outBool -- | Sets the variable value to the specified statement. {-# INLINE setVarFromStatement #-} setVarFromStatement :: PtrVar -> Int -> PtrStmt -> IO Bool setVarFromStatement (_,p) pos (_,st) = libVarSetFromStmt p & inInt pos & inVar st & outBool -- | Sets the number of elements in a PL/SQL index-by table. {-# INLINE setVarNumberOfElements #-} setVarNumberOfElements :: PtrVar -> Int -> IO Bool setVarNumberOfElements (_,p) num = libVarSetNumElementsInArray p & inInt num & outBool -- * DeqOptions Interface -- $ deqOptions -- Dequeue option handles are used to represent the options specified when dequeuing messages using advanced queueing. -- They are created by calling the function 'newDeqOptions' -- and are destroyed by releasing the last reference by calling the function 'releaseDeqOptions'. -- | Returns a reference to a new set of dequeue options, used in dequeuing objects from a queue. -- The reference should be released as soon as it is no longer needed. {-# INLINE newDeqOptions #-} newDeqOptions :: PtrConn -> IO PtrDeqOptions newDeqOptions p = libConnNewDeqOptions & inCxtPtr p & outCxtPtr p -- | Dequeues a message from a queue. {-# INLINE deqObject #-} deqObject :: PtrConn -- ^ a reference to the connection from which the message is to be dequeued -> Text -- ^ the name of the queue from which the message is to be dequeued -> PtrDeqOptions -- ^ a reference to the dequeue options that should be used when dequeuing the message from the queue. -> PtrMsgProps -- ^ a reference to the message properties that will be populated with information from the message that is dequeued. -> PtrObject -- ^ a reference to the object which will be populated with the message that is dequeued. -> IO (Maybe Text) -- ^ a pointer to a byte string which will be populated with the id of the message that is dequeued deqObject (cxt,p) queueName options props payload = libConnDeqObject p & inStrLen queueName & inCxtPtr options & inCxtPtr props & inCxtPtr payload & out2Value cxt peekMaybeCStrLen -- | Releases a reference to the dequeue options. -- A count of the references to the dequeue options is maintained and when this count reaches zero, -- the memory associated with the options is freed. {-# INLINE releaseDeqOptions #-} releaseDeqOptions :: PtrDeqOptions -> IO Bool releaseDeqOptions = runBool libDeqOptionsRelease -- | Adds a reference to the dequeue options. -- This is intended for situations where a reference to the dequeue options needs to be maintained independently of -- the reference returned when the handle was created. {-# INLINE deqOptionsAddRef #-} deqOptionsAddRef :: PtrDeqOptions -> IO Bool deqOptionsAddRef = runBool libDeqOptionsAddRef -- | Returns the condition that must be satisfied in order for a message to be dequeued. -- See function 'setDeqOptionsCondition' for more information. {-# INLINE getDeqOptionsCondition #-} getDeqOptionsCondition :: PtrDeqOptions -> IO Text getDeqOptionsCondition = runText libDeqOptionsGetCondition -- | Sets the condition which must be true for messages to be dequeued. -- The condition must be a valid boolean expression similar to the where clause of a SQL query. -- The expression can include conditions on message properties, user data properties and PL/SQL or SQL functions. -- User data properties must be prefixed with tab.user_data as a qualifier to indicate -- the specific column of the queue table that stores the message payload. {-# INLINE setDeqOptionsCondition #-} setDeqOptionsCondition :: PtrDeqOptions -> Text -> IO Bool setDeqOptionsCondition = setText libDeqOptionsSetCondition -- | Returns the name of the consumer that is dequeuing messages. -- See function 'setDeqOptionsConsumerName' for more information. {-# INLINE getDeqOptionsConsumerName #-} getDeqOptionsConsumerName :: PtrDeqOptions -> IO Text getDeqOptionsConsumerName = runText libDeqOptionsGetConsumerName -- | Sets the name of the consumer which will be dequeuing messages. -- This value should only be set if the queue is set up for multiple consumers. {-# INLINE setDeqOptionsConsumerName #-} setDeqOptionsConsumerName :: PtrDeqOptions -> Text -> IO Bool setDeqOptionsConsumerName = setText libDeqOptionsSetConsumerName -- | Returns the correlation of the message to be dequeued. -- See function 'setDeqOptionsCorrelation' for more information. {-# INLINE getDeqOptionsCorrelation #-} getDeqOptionsCorrelation :: PtrDeqOptions -> IO Text getDeqOptionsCorrelation = runText libDeqOptionsGetCorrelation -- | Sets the correlation of the message to be dequeued. -- Special pattern matching characters such as the percent sign (%) and the underscore (_) can be used. -- If multiple messages satisfy the pattern, the order of dequeuing is undetermined. {-# INLINE setDeqOptionsCorrelation #-} setDeqOptionsCorrelation :: PtrDeqOptions -> Text -> IO Bool setDeqOptionsCorrelation = setText libDeqOptionsSetCorrelation -- | Returns the mode that is to be used when dequeuing messages. {-# INLINE getDeqOptionsMode #-} getDeqOptionsMode :: PtrDeqOptions -> IO DeqMode getDeqOptionsMode (cxt,p) = libDeqOptionsGetMode p & outValue cxt peekEnum -- | Sets the mode that is to be used when dequeuing messages. {-# INLINE setDeqOptionsMode #-} setDeqOptionsMode :: PtrDeqOptions -> DeqMode -> IO Bool setDeqOptionsMode (cxt,p) mdm = libDeqOptionsSetMode p & inEnum mdm & outBool -- | Returns the identifier of the specific message that is to be dequeued. {-# INLINE getDeqOptionsMsgId #-} getDeqOptionsMsgId :: PtrDeqOptions -> IO Text getDeqOptionsMsgId = runText libDeqOptionsGetMsgId -- | Sets the identifier of the specific message to be dequeued. {-# INLINE setDeqOptionsMsgId #-} setDeqOptionsMsgId :: PtrDeqOptions -> Text -> IO Bool setDeqOptionsMsgId = setText libDeqOptionsSetMsgId -- | Returns the position of the message that is to be dequeued. {-# INLINE getDeqOptionsNavigation #-} getDeqOptionsNavigation :: PtrDeqOptions -> IO DeqNavigation getDeqOptionsNavigation (cxt,p) = libDeqOptionsGetNavigation p & outValue cxt peekEnum -- | Sets the position in the queue of the message that is to be dequeued. {-# INLINE setDeqOptionsNavigation #-} setDeqOptionsNavigation :: PtrDeqOptions -> DeqNavigation -> IO Bool setDeqOptionsNavigation (cxt,p) mdm = libDeqOptionsSetNavigation p & inEnum mdm & outBool -- | Returns the transformation of the message to be dequeued. -- See function 'setDeqOptionsTransformation' for more information. {-# INLINE getDeqOptionsTransformation #-} getDeqOptionsTransformation :: PtrDeqOptions -> IO Text getDeqOptionsTransformation = runText libDeqOptionsGetTransformation -- | Sets the transformation of the message to be dequeued. -- The transformation is applied after the message is dequeued but before it is returned to the application. -- It must be created using DBMS_TRANSFORM. {-# INLINE setDeqOptionsTransformation #-} setDeqOptionsTransformation :: PtrDeqOptions -> Text -> IO Bool setDeqOptionsTransformation = setText libDeqOptionsSetTransformation -- | Returns whether the message being dequeued is part of the current transaction or constitutes a transaction on its own. {-# INLINE getDeqOptionsVisibility #-} getDeqOptionsVisibility :: PtrDeqOptions -> IO Visibility getDeqOptionsVisibility (cxt,p) = libDeqOptionsGetVisibility p & outValue cxt peekEnum -- | Sets whether the message being dequeued is part of the current transaction or constitutes a transaction on its own. {-# INLINE setDeqOptionsVisibility #-} setDeqOptionsVisibility :: PtrDeqOptions -> Visibility -> IO Bool setDeqOptionsVisibility (cxt,p) mdm = libDeqOptionsSetVisibility p & inEnum mdm & outBool -- | Returns the time to wait, in seconds, for a message matching the search criteria. -- See function 'setDeqOptionsWait' for more information. {-# INLINE getDeqOptionsWait #-} getDeqOptionsWait :: PtrDeqOptions -> IO Int getDeqOptionsWait = runInt libDeqOptionsGetWait -- | Set the time to wait, in seconds, for a message matching the search criteria. {-# INLINE setDeqOptionsWait #-} setDeqOptionsWait :: PtrDeqOptions -> Int -> IO Bool setDeqOptionsWait (cxt,p) wait = libDeqOptionsSetWait p & inInt wait & outBool -- | Sets the message delivery mode that is to be used when dequeuing messages. {-# INLINE setDeqOptionsDeliveryMode #-} setDeqOptionsDeliveryMode :: PtrDeqOptions -> MessageDeliveryMode -> IO Bool setDeqOptionsDeliveryMode (cxt,p) mdm = libDeqOptionsSetDeliveryMode p & inEnum mdm & outBool -- * EnqOptions Interface -- $enq -- Enqueue option handles are used to represent the options specified when enqueuing messages using advanced queueing. -- They are created by calling the function 'newEnqOptions' -- and are destroyed by releasing the last reference by calling the function 'releaseEnqOptions'. -- | Returns a reference to a new set of enqueue options, used in enqueuing objects into a queue. -- The reference should be released as soon as it is no longer needed. {-# INLINE newEnqOptions #-} newEnqOptions :: PtrConn -> IO PtrEnqOptions newEnqOptions p = libConnNewEnqOptions & inCxtPtr p & outCxtPtr p -- | Enqueues a message to a queue. {-# INLINE enqObject #-} enqObject :: PtrConn -- ^ a reference to the connection from which the message is to be enqueued -> Text -- ^ the name of the queue from which the message is to be enqueued -> PtrEnqOptions -- ^ a reference to the enqueue options that should be used when enqueued the message from the queue. -> PtrMsgProps -- ^ a reference to the message properties that will be populated with information from the message that is enqueued. -> PtrObject -- ^ a reference to the object which will be populated with the message that is enqueued. -> IO (Maybe Text) -- ^ a pointer to a byte string which will be populated with the id of the message that is enqueued enqObject (cxt,p) queueName (_,options) (_,props) (_,payload) = libConnEnqObject p & inStrLen queueName & inVar options & inVar props & inVar payload & out2Value cxt peekMaybeCStrLen -- | Adds a reference to the enqueue options. -- This is intended for situations where a reference to the enqueue options needs to be maintained independently of -- the reference returned when the handle was created. {-# INLINE enqOptionsAddRef #-} enqOptionsAddRef :: PtrEnqOptions -> IO Bool enqOptionsAddRef = runBool libEnqOptionsAddRef -- | Releases a reference to the enqueue options. -- A count of the references to the enqueue options is maintained and when this count reaches zero, -- the memory associated with the options is freed. {-# INLINE releaseEnqOptions #-} releaseEnqOptions :: PtrEnqOptions -> IO Bool releaseEnqOptions = runBool libEnqOptionsRelease -- | Returns the transformation of the message to be enqueued. -- See function 'setEnqOptionsTransformation' for more information. {-# INLINE getEnqOptionsTransformation #-} getEnqOptionsTransformation :: PtrEnqOptions -> IO Text getEnqOptionsTransformation = runText libEnqOptionsGetTransformation -- | Sets the transformation of the message to be enqueued. -- The transformation is applied after the message is enqueued but before it is returned to the application. -- It must be created using DBMS_TRANSFORM. {-# INLINE setEnqOptionsTransformation #-} setEnqOptionsTransformation :: PtrEnqOptions -> Text -> IO Bool setEnqOptionsTransformation = setText libEnqOptionsSetTransformation -- | Returns whether the message being enqueued is part of the current transaction or constitutes a transaction on its own. {-# INLINE getEnqOptionsVisibility #-} getEnqOptionsVisibility :: PtrEnqOptions -> IO Visibility getEnqOptionsVisibility (cxt,p) = libEnqOptionsGetVisibility p & outValue cxt peekEnum -- | Sets whether the message being enqueued is part of the current transaction or constitutes a transaction on its own. {-# INLINE setEnqOptionsVisibility #-} setEnqOptionsVisibility :: PtrEnqOptions -> Visibility -> IO Bool setEnqOptionsVisibility (cxt,p) mdm = libEnqOptionsSetVisibility p & inEnum mdm & outBool -- | Sets the message delivery mode that is to be used when enqueuing messages. {-# INLINE setEnqOptionsDeliveryMode #-} setEnqOptionsDeliveryMode :: PtrEnqOptions -> MessageDeliveryMode -> IO Bool setEnqOptionsDeliveryMode (cxt,p) mdm = libEnqOptionsSetDeliveryMode p & inEnum mdm & outBool -- * MsgProps Interface -- $ msg -- Message properties handles are used to represent the properties of messages that are enqueued -- and dequeued using advanced queuing. -- They are created by calling the function 'newMsgProps' and are destroyed by releasing the last reference -- by calling the function 'releaseMsgProps'. -- | Returns a reference to a new set of message properties, used in enqueuing and dequeuing objects in a queue. -- The reference should be released as soon as it is no longer needed. {-# INLINE newMsgProps #-} newMsgProps :: PtrConn -> IO PtrMsgProps newMsgProps p = libConnNewMsgProps & inCxtPtr p & outCxtPtr p -- | Adds a reference to the message properties. -- This is intended for situations where a reference to the message properties -- needs to be maintained independently of the reference returned when the handle was created. {-# INLINE msgPropsAddRef #-} msgPropsAddRef :: PtrMsgProps -> IO Bool msgPropsAddRef = runBool libMsgPropsAddRef -- | Releases a reference to the message properties. -- A count of the references to the message properties is maintained and when this count reaches zero, -- the memory associated with the properties is freed. {-# INLINE releaseMsgProps #-} releaseMsgProps :: PtrMsgProps -> IO Bool releaseMsgProps = runBool libMsgPropsRelease -- | Returns the correlation supplied by the producer when the message was enqueued. {-# INLINE getMsgPropsCorrelation #-} getMsgPropsCorrelation :: PtrMsgProps -> IO Text getMsgPropsCorrelation = runText libMsgPropsGetCorrelation -- | Sets the correlation of the message to be dequeued. -- Special pattern matching characters such as the percent sign (%) and the underscore (_) can be used. -- If multiple messages satisfy the pattern, the order of dequeuing is undetermined. {-# INLINE setMsgPropsCorrelation #-} setMsgPropsCorrelation :: PtrMsgProps -> Text -> IO Bool setMsgPropsCorrelation = setText libMsgPropsSetCorrelation -- | Returns the number of attempts that have been made to dequeue a message. {-# INLINE getMsgPropsNumAttempts #-} getMsgPropsNumAttempts :: PtrMsgProps -> IO Int getMsgPropsNumAttempts = runInt libMsgPropsGetNumAttempts -- | Returns the number of seconds the enqueued message will be delayed. {-# INLINE getMsgPropsDelay #-} getMsgPropsDelay :: PtrMsgProps -> IO Int getMsgPropsDelay = runInt libMsgPropsGetDelay -- | Sets the number of seconds to delay the message before it can be dequeued. -- Messages enqueued with a delay are put into the 'MsgStateWaiting' state. -- When the delay expires the message is put into the 'MsgStateReady' state. -- Dequeuing directly by message id overrides this delay specification. -- Note that delay processing requires the queue monitor to be started. {-# INLINE setMsgPropsDelay #-} setMsgPropsDelay :: PtrMsgProps -> Int -> IO Bool setMsgPropsDelay (cxt,p) delay = libMsgPropsSetDelay p & inInt delay & outBool -- | Returns the mode that was used to deliver the message. {-# INLINE getMsgPropsDeliveryMode #-} getMsgPropsDeliveryMode :: PtrMsgProps -> IO MessageDeliveryMode getMsgPropsDeliveryMode (cxt,p) = libMsgPropsGetDeliveryMode p & outValue cxt peekEnum -- | Returns the time that the message was enqueued. {-# INLINE getMsgPropsEnqTime #-} getMsgPropsEnqTime :: PtrMsgProps -> IO Data_Timestamp getMsgPropsEnqTime = runVar libMsgPropsGetEnqTime -- | Returns the name of the queue to which the message is moved if it cannot be processed successfully. -- See function 'setMsgPropsExceptionQ' for more information. {-# INLINE getMsgPropsExceptionQ #-} getMsgPropsExceptionQ :: PtrMsgProps -> IO Text getMsgPropsExceptionQ = runText libMsgPropsGetExceptionQ -- | Sets the name of the queue to which the message is moved if it cannot be processed successfully. -- Messages are moved if the number of unsuccessful dequeue attempts has reached the maximum allowed number -- or if the message has expired. All messages in the exception queue are in the 'MsgStateExpired' state. {-# INLINE setMsgPropsExceptionQ #-} setMsgPropsExceptionQ :: PtrMsgProps -> Text -> IO Bool setMsgPropsExceptionQ = setText libMsgPropsSetExceptionQ -- | Returns the number of seconds the message is available to be dequeued. -- See function 'setMsgPropsExpiration' for more information. {-# INLINE getMsgPropsExpiration #-} getMsgPropsExpiration :: PtrMsgProps -> IO Int getMsgPropsExpiration = runInt libMsgPropsGetExpiration -- | Sets the number of seconds the message is available to be dequeued. -- This value is an offset from the delay. -- Expiration processing requires the queue monitor to be running. -- Until this time elapses, the messages are in the queue in the state 'MsgStateReady'. -- After this time elapses messages are moved to the exception queue in the 'MsgStateExpired' state. {-# INLINE setMsgPropsExpiration #-} setMsgPropsExpiration :: PtrMsgProps -> Int -> IO Bool setMsgPropsExpiration (cxt,p) delay = libMsgPropsSetExpiration p & inInt delay & outBool -- | Returns the id of the message in the last queue that generated this message. -- See function 'setMsgPropsOriginalMsgId' for more information. {-# INLINE getMsgPropsOriginalMsgId #-} getMsgPropsOriginalMsgId :: PtrMsgProps -> IO Text getMsgPropsOriginalMsgId = runText libMsgPropsGetOriginalMsgId -- | Sets the id of the message in the last queue that generated this message. {-# INLINE setMsgPropsOriginalMsgId #-} setMsgPropsOriginalMsgId :: PtrMsgProps -> Text -> IO Bool setMsgPropsOriginalMsgId = setText libMsgPropsSetOriginalMsgId -- | Returns the priority assigned to the message. -- See function 'setMsgPropsPriority' for more information. {-# INLINE getMsgPropsPriority #-} getMsgPropsPriority :: PtrMsgProps -> IO Int getMsgPropsPriority = runInt libMsgPropsGetPriority -- | Sets the priority assigned to the message. A smaller number indicates a higher priority. -- The priority can be any number, including negative numbers. {-# INLINE setMsgPropsPriority #-} setMsgPropsPriority :: PtrMsgProps -> Int -> IO Bool setMsgPropsPriority (cxt,p) delay = libMsgPropsSetPriority p & inInt delay & outBool -- | Returns the state of the message at the time of dequeue. {-# INLINE getMsgPropsState #-} getMsgPropsState :: PtrMsgProps -> IO MessageState getMsgPropsState (cxt,p) = libMsgPropsGetState p & outValue cxt peekEnum -- * Subscr Interface -- $subscr -- Subscription handles are used to represent subscriptions to events such as continuous query notification -- and object change notification. -- They are created by calling the function 'newSubscr' -- and are destroyed by calling the function 'closeSubscr' or releasing the last reference by calling -- the function 'releaseSubscr'. -- | Returns a reference to a subscription which is used for requesting notifications of changes on tables or queries -- that are made in the database. The reference should be released as soon as it is no longer needed. {-# INLINE newSubscr #-} newSubscr :: PtrConn -> (Data_SubscrCreateParams -> Data_SubscrCreateParams) -> IO PtrSubscr newSubscr (cxt,p) hcmp = libConnNewSubscription p & inPtr (\c -> libContextInitSubscrCreateParams cxt c >> peek c >>= poke c . hcmp) & out2Value cxt (go cxt) where {-# INLINE go #-} go cxt (p,_) = (cxt,) <$> peek p -- | Adds a reference to the subscription. -- This is intended for situations where a reference to the subscription -- needs to be maintained independently of the reference returned when the subscription was created. {-# INLINE subscrAddRef #-} subscrAddRef :: PtrSubscr -> IO Bool subscrAddRef = runBool libSubscrAddRef -- | Closes the subscription now, rather than when the last reference is released. -- This deregisters it so that notifications will no longer be sent. {-# INLINE closeSubscr #-} closeSubscr :: PtrSubscr -> IO Bool closeSubscr = runBool libSubscrClose -- | Releases a reference to the subscription. -- A count of the references to the subscription is maintained and when this count reaches zero, -- the memory associated with the subscription is freed. -- The subscription is also deregistered so that notifications are no longer sent, -- if this was not already done using the function 'closeSubscr'. {-# INLINE releaseSubscr #-} releaseSubscr :: PtrSubscr -> IO Bool releaseSubscr = runBool libSubscrRelease -- | Prepares a statement for registration on the subscription. -- The statement is then registered by calling the function 'prepareStatement'. -- The reference to the statement that is returned should be released as soon as it is no longer needed. {-# INLINE subscrPrepareStatement #-} subscrPrepareStatement :: PtrSubscr -- ^ a reference to the subscription on which the statement is to be prepared for registration. -> Text -- ^ the SQL that is to be prepared -> IO PtrStmt -- ^ a reference to the statement that was prepared subscrPrepareStatement p sql = libSubscrPrepareStmt & inCxtPtr p & inStrLen sql & outCxtPtr p