shell bypass 403
GrazzMean Shell
: /proc/thread-self/root/proc/thread-self/root/usr/local/instantclient_12_2/lib/sdk/include/ [ drwxr-xr-x ]
/* Copyright (c) 1996, 2015, Oracle and/or its affiliates.
All rights reserved.*/
/*
NAME
ociap.h
DESCRIPTION
Oracle Call Interface - Ansi Prototypes
RELATED DOCUMENTS
INSPECTION STATUS
Inspection date:
Inspection status:
Estimated increasing cost defects per page:
Rule sets:
ACCEPTANCE REVIEW STATUS
Review date:
Review status:
Reviewers:
PUBLIC FUNCTION(S)
OCIAttrGet
OCIAttrSet
OCIBindArrayOfStruct
OCIBindByName
OCIBindByPos
OCIBindDynamic
OCIBindObject
OCIBreak
OCIConnectionPoolCreate
OCISessionPoolCreate
OCISessionGet
OCISessionRelease
OCIDateTimeAssign
OCIDateTimeCheck
OCIDateTimeCompare
OCIDateTimeConvert
OCIDateTimeFromText
OCIDateTimeGetDate
OCIDateTimeGetTime
OCIDateTimeGetTime
OCIDateTimeGetTimeZoneOffset
OCIDateTimeSysTimeStamp
OCIDateTimeIntervalAdd
OCIDateTimeIntervalSub
OCIDateTimeConstruct
OCIDateTimeSubtract
OCIDateTimeToText
OCIDateTimeGetTimeZoneName
OCIDateTimeToArray
OCIDateTimeFromArray
OCIRowidToChar
OCIDefineArrayOfStruct
OCIDefineByPos
OCIDefineDynamic
OCIDefineObject
OCIDescAlloc
OCIDescFree
OCIDescribeAny
OCIEnvCreate
OCIEnvNlsCreate
OCIEnvInit
OCIErrorGet
OCIExtractSetKey
OCIExtractFromFile
OCIIntervalSubtract
OCIIntervalMultiply
OCIIntervalToNumber
OCIIntervalToText
OCIIntervalFromTZ
OCIKerbAttrSet
OCILdaToSvcCtx
OCILobAppend
OCILobAssign
OCILobCharSetForm
OCILobCharSetId
OCILobCopy
OCILobCreateTemporary
OCILobDisableBuffering
OCILobEnableBuffering
OCILobErase
OCILobOpen
OCILobClose
OCILobFileClose
OCILobFileCLoseAll
OCILobFileExists
OCILobFileGetName
OCILobFileIsOpen
OCILobFileOpen
OCILobFileSetName
OCILobFlushBuffer
OCILobFreeTemporary
OCILobGetChunkSize
OCILobGetLength
OCILobIsEqual
OCILobIsTemporary
OCILobLoadFromFile
OCILobLocatorAssign
OCILobLocatorIsInit
OCILobRead
OCILobTrim
OCILobWrite
OCILobWriteAppend
OCILobGetStorageLimit
OCILobGetOptions
OCILobSetOptions
OCILobGetContentType
OCILobSetContentType
OCILogoff
OCILogon
OCILogon2
OCIMemoryFree
OCIParamGet
OCIParamGet
OCIPasswordChange
OCIRequestBegin
OCIRequestEnd
OCIRequestDisableReplay
OCIReset
OCIResultSetToStmt
OCIServerAttach
OCIServerDetach
OCIServerVersion
OCISessionBegin
OCISessionEnd
OCIStmtExecute
OCIStmtFetch
OCIStmtFetch2
OCIStmtGetPieceInfo
OCIStmtPrepare
OCIStmtPrepare2
OCIStmtRelease
OCIStmtSetPieceInfo
OCIFormatString
OCISvcCtxToLda
OCITransCommit
OCITransDetach
OCITransForget
OCITransMultiPrepare
OCITransPrepare
OCITransRollback
OCITransStart
OCIInitialize
OCIEnvCreate
OCIEnvNlsCreate
OCIFEnvCreate
OCIHandleAlloc
OCIDescriptorAlloc
OCIDescriptorFree
OCIArrayDescriptorAlloc
OCIArrayDescriptorFree
OCIEnvInit
OCIServerAttach
OCISessionBegin
OCISessionEnd
OCILogon
OCILogon2
OCIPasswordChange
OCIStmtPrepare
OCIStmtPrepare2
OCIStmtRelease
OCIBindByPos
OCIBindByName
OCIBindObject
OCIBindDynamic
OCIBindArrayOfStruct
OCIStmtGetPieceInfo
OCIStmtSetPieceInfo
OCIStmtExecute
OCIDefineByPos
OCIDefineObject
OCIDefineDynamic
OCIRowidToChar
OCIDefineArrayOfStruct
OCIStmtFetch
OCIStmtFetch2
OCIStmtGetBindInfo
OCIDescribeAny
OCIParamGet
OCIParamSet
OCITransStart
OCITransMultiPrepare
OCIErrorGet
OCILobAppend
OCILobAssign
OCILobCharSetForm
OCILobCharSetId
OCILobCopy
OCILobCreateTemporary
OCILobClose
OCILobDisableBuffering
OCILobEnableBuffering
OCILobErase
OCILobFileClose
OCILobFileExists
OCILobFileGetName
OCILobFileIsOpen
OCILobFileOpen
OCILobFileSetName
OCILobFlushBuffer
OCILobFreeTemporary
OCILobGetChunkSize
OCILobGetLength
OCILobIsEqual
OCILobIsOpen
OCILobIsTemporary
OCILobLoadFromFile
OCILobLocatorAssign
OCILobLocatorIsInit
OCILobOpen
OCILobRead
OCILobTrim
OCILobWrite
OCILobWriteAppend
OCIServerVersion
OCIServerRelease
OCIAttrGet
OCIAttrSet
OCIUserCallbackRegister
OCIUserCallbackGet
OCIShardingKeyColumnAdd
OCIShardingKeyReset
OCIShardInstancesGet
OCISharedLibInit
OCIFileExists
OCIFileGetLength
OCIFileOpen
OCIFileRead
OCIFileSeek
OCIFileWrite
OCILobCopy2
OCILobErase2
OCILobGetLength2
OCILobLoadFromFile2
OCILobRead2
OCILobArrayRead
OCILobTrim2
OCILobWrite2
OCILobArrayWrite
OCILobWriteAppend2
OCILobGetStorageLimit
OCISecurityOpenWallet
OCISecurityCloseWallet
OCISecurityCreateWallet
OCISecurityDestroyWallet
OCISecurityStorePersona
OCISecurityOpenPersona
OCISecurityClosePersona
OCISecurityRemovePersona
OCISecurityCreatePersona
OCISecuritySetProtection
OCISecurityGetProtection
OCISecurityRemoveIdentity
OCISecurityCreateIdentity
OCISecurityAbortIdentity
OCISecurityFreeIdentity
OCISecurityStoreTrustedIdentity
OCISecuritySign
OCISecuritySignExpansion
OCISecurityVerify
OCISecurityValidate
OCISecuritySignDetached
OCISecuritySignDetExpansion
OCISecurityVerifyDetached
OCISecurity_PKEncrypt
OCISecurityPKEncryptExpansion
OCISecurityPKDecrypt
OCISecurityEncrypt
OCISecurityEncryptExpansion
OCISecurityDecrypt
OCISecurityEnvelope
OCISecurityDeEnvelope
OCISecurityKeyedHash
OCISecurityKeyedHashExpansion
OCISecurityHash
OCISecurityHashExpansion
OCISecuritySeedRandom
OCISecurityRandomBytes
OCISecurityRandomNumber
OCISecurityInitBlock
OCISecurityReuseBlock
OCISecurityPurgeBlock
OCISecuritySetBlock
OCISecurityGetIdentity
OCIAQEnq
OCIAQDeq
OCIAQEnqArray
OCIAQEnqStreaming
OCIAQDeqArray
OCIAQListen
OCIAQListen2
OCIExtractSetKey
OCIExtractFromFile
OCIExtractToInt
OCIExtractToBool
OCIExtractToStr
OCIExtractToOCINum
OCIExtractFromList
OCIMemoryAlloc
OCIMemoryResize
OCIContextSetValue
OCIContextGetValue
OCIContextClearValue
OCIMemorySetCurrentIDs
OCIPicklerTdsCtxInit
OCIPicklerTdsInit
OCIPicklerTdsCreateElementNumber
OCIPicklerTdsCreateElementChar
OCIPicklerTdsCreateElementVarchar
OCIPicklerTdsCreateElementRaw
OCIPicklerTdsCreateElement
OCIPicklerTdsAddAttr
OCIPicklerTdsGenerate
OCIPicklerTdsGetAttr
OCIPicklerFdoInit
OCIPicklerFdoFree
OCIPicklerImageInit
OCIPicklerImageFree
OCIPicklerImageAddScalar
OCIPicklerImageAddNullScalar
OCIPicklerImageGenerate
OCIPicklerImageGetScalarSize
OCIPicklerImageGetScalar
OCIPicklerImageCollBegin
OCIPicklerImageCollAddScalar
OCIPicklerImageCollEnd
OCIPicklerImageCollBeginScan
OCIPicklerImageCollGetScalarSize
OCIPicklerImageCollGetScalar
OCIAnyDataGetType
OCIAnyDataIsNull
OCIAnyDataConvert
OCIAnyDataBeginCreate
OCIAnyDataAttrSet
OCIAnyDataCollAddElem
OCIAnyDataEndCreate
OCIAnyDataAccess
OCIAnyDataGetCurrAttrNum
OCIAnyDataAttrGet
OCIAnyDataCollGetElem
OCIPicklerTdsCtxInit
OCIPicklerTdsInit
OCIPicklerTdsCreateElementNumber
OCIPicklerTdsCreateElementChar
OCIPicklerTdsCreateElementVarchar
OCIPicklerTdsCreateElementRaw
OCIPicklerTdsCreateElement
OCIPicklerTdsAddAttr
OCIPicklerTdsGenerate
OCIPicklerTdsGetAttr
OCIPicklerFdoInit
OCIPicklerFdoFree
OCIPicklerImageInit
OCIPicklerImageFree
OCIPicklerImageAddScalar
OCIPicklerImageAddNullScalar
OCIPicklerImageGenerate
OCIPicklerImageGetScalarSize
OCIPicklerImageGetScalar
OCIPicklerImageCollBegin
OCIPicklerImageCollAddScalar
OCIPicklerImageCollEnd
OCIPicklerImageCollBeginScan
OCIPicklerImageCollGetScalarSize
OCIPicklerImageCollGetScalar
OCIAnyDataGetType
OCIAnyDataIsNull
OCIAnyDataConvert
OCIAnyDataBeginCreate
OCIAnyDataAttrSet
OCIAnyDataCollAddElem
OCIAnyDataEndCreate
OCIAnyDataAccess
OCIAnyDataGetCurrAttrNum
OCIAnyDataAttrGet
OCIAnyDataCollGetElem
OCIPicklerTdsCtxInit
OCIPicklerTdsInit
OCIPicklerTdsCreateElementNumber
OCIPicklerTdsCreateElementChar
OCIPicklerTdsCreateElementVarchar
OCIPicklerTdsCreateElementRaw
OCIPicklerTdsCreateElement
OCIPicklerTdsAddAttr
OCIPicklerTdsGenerate
OCIPicklerTdsGetAttr
OCIPicklerFdoInit
OCIPicklerFdoFree
OCIPicklerImageInit
OCIPicklerImageFree
OCIPicklerImageAddScalar
OCIPicklerImageAddNullScalar
OCIPicklerImageGenerate
OCIPicklerImageGetScalarSize
OCIPicklerImageGetScalar
OCIPicklerImageCollBegin
OCIPicklerImageCollAddScalar
OCIPicklerImageCollEnd
OCIPicklerImageCollBeginScan
OCIPicklerImageCollGetScalarSize
OCIPicklerImageCollGetScalar
OCIAnyDataGetType
OCIAnyDataIsNull
OCIAnyDataConvert
OCIAnyDataBeginCreate
OCIAnyDataAttrSet
OCIAnyDataCollAddElem
OCIAnyDataEndCreate
OCIAnyDataAccess
OCIAnyDataGetCurrAttrNum
OCIAnyDataAttrGet
OCIAnyDataCollGetElem
OCIAnyDataSetBeginCreate
OCIAnyDataSetDestroy
OCIAnyDataSetAddInstance
OCIAnyDataSetEndCreate
OCIAnyDataSetGetType
OCIAnyDataSetGetCount
OCIAnyDataSetGetInstance
OCIFormatString
OCINlsGetInfo
OCINlsNameMap
OCIMultiByteToWideChar
OCIMultiByteInSizeToWideChar
OCIWideCharToMultiByte
OCIWideCharInSizeToMultiByte
OCIWideCharStrcmp
OCIWideCharStrncmp
OCIWideCharStrcat
*OCIWideCharStrchr
OCIWideCharStrcpy
OCIWideCharStrncat
OCIWideCharStrncpy
*OCIWideCharStrrchr
OCIWideCharStrCaseConversion
OCIMultiByteStrcmp
OCIMultiByteStrncmp
OCIMultiByteStrcat
OCIMultiByteStrcpy
OCIMultiByteStrncat
OCIMultiByteStrncpy
OCIMultiByteStrnDisplayLength
OCIMultiByteStrCaseConversion
OCICharSetToUnicode
OCIUnicodeToCharSet
OCINlsCharSetConvert
OCINlsEnvironmentVariableGet
OCIMessageOpen
OCIMessageGet
OCIThreadMutexInit
OCIThreadMutexDestroy
OCIThreadMutexAcquire
OCIThreadMutexRelease
OCIThreadKeyInit
OCIThreadKeyDestroy
OCIThreadKeyGet
OCIThreadKeySet
OCIThreadIdSet
OCIThreadIdSetNull
OCIThreadIdGet
OCIThreadIdSame
OCIThreadIdNull
OCIThreadHndInit
OCIThreadHndDestroy
OCIThreadCreate
OCIThreadHandleGet
OCIThreadMutexInit
OCIThreadMutexDestroy
OCIThreadMutexAcquire
OCIThreadMutexRelease
OCIThreadKeyInit
OCIThreadKeyDestroy
OCIThreadKeyGet
OCIThreadKeySet
OCIThreadIdSet
OCIThreadIdSame
OCIThreadIdNull
OCIThreadCreate
OCISubscriptionRegister
OCISubscriptionPost
OCISubscriptionUnRegister
OCISubscriptionDisable
OCISubscriptionEnable
OCIDateTimeGetTime
OCIDateTimeGetDate
OCIDateTimeGetTimeZoneOffset
OCIDateTimeConstruct
OCIDateTimeSysTimeStamp
OCIDateTimeAssign
OCIDateTimeToText
OCIDateTimeFromText
OCIDateTimeCompare
OCIDateTimeCheck
OCIDateTimeConvert
OCIDateTimeSubtract
OCIDateTimeIntervalAdd
OCIDateTimeIntervalSub
OCIIntervalSubtract
OCIIntervalAdd
OCIIntervalMultiply
OCIIntervalDivide
OCIIntervalCompare
OCIIntervalFromNumber
OCIIntervalFromText
OCIIntervalToText
OCIIntervalToNumber
OCIIntervalCheck
OCIIntervalAssign
OCIIntervalSetYearMonth
OCIIntervalGetYearMonth
OCIIntervalSetDaySecond
OCIIntervalGetDaySecond
OCIDateTimeToArray
OCIDateTimeFromArray
OCIDateTimeGetTimeZoneName
OCIIntervalFromTZ
OCIConnectionPoolCreate
OCIConnectionPoolDestroy
OCISessionPoolCreate
OCISessionPoolDestroy
OCISessionGet
OCISessionRelease
OCIAppCtxSet
OCIAppCtxClearAll
OCIMemStats
OCIKerbAttrSet
OCIDBStartup
OCIDBShutdown
OCIClientVersion
OCIInitEventHandle
OCIStmtBindByPos
OCIStmtBindByName
OCIShardingKeyColumnAdd
OCIShardingKeyReset
OCIShardInstancesGet
PRIVATE FUNCTION(S)
EXAMPLES
NOTES
MODIFIED (MM/DD/YY)
kkverma 02/19/15 - proj 56337: OCI Sharding
nikeda 07/19/14 - support OCIRequest calls for OCI-based drivers
ssubrama 11/02/11 - bug 13505135 OCIAQEnq2 and OCIAQDeq2 private
ssubrama 10/31/11 - fix lint issues with OCIAQDeq2
ssubrama 09/12/11 - streaming support for OCIAQEnq2 and OCIAQDeq2
amadan 09/12/11 - add OCIAQEnq2 OCIAQDeq2
rtati 09/12/11 - proj 34391: add OCISubscriptionFailure
rpang 06/02/11 - add OCITranslatedErrorGet
shiyer 04/09/11 - #36904: add OCIStmtGetNextResult
slari 03/24/11 - OCIRoundTripCallback
rpingte 11/29/10 - remove OCIStmtBindByPos/OCIStmtBindByName
jstewart 11/15/10 - 32K VARCHAR support
slynn 03/18/08 - OCILobSet/SetContenttype->OCILobGet/SetContentType
amullick 02/11/08 - add OCILobGet/SetContenttype APIs
schoi 02/27/07 - OCILobGet/SetOptions API change
slynn 07/28/06 - Migrate to new 11g LOB terminology
hqian 05/22/06 - add OCI_SYSASM
slynn 06/21/06 - Add Lob Get Shared Regions Functionality
slynn 05/25/06 - New NG Lob Functionality.
jawilson 05/22/06 - add TDO out parameter for streaming enq callback
aramappa 01/19/06 - Added OCIArrayDescriptorAlloc,
OCIArrayDescriptorFree
jawilson 02/09/06 - add OCIAQEnqStreaming
mxu 03/08/06 - Fix bug 5037807
srseshad 09/12/05 - stmtcache: callback
mbastawa 09/16/05 - dbhygiene
dmukhin 06/29/05 - ANSI prototypes; miscellaneous cleanup
nbhatt 06/17/04 - merge conflicts
nbhatt 05/24/04 - merge conflicts
weiwang 05/06/04 - add OCIAQListen2
rvissapr 06/21/04 - add OCIAppCtx API
debanerj 05/17/04 - 13064: LOB array Read and Write
aahluwal 06/02/04 - [OCI Events]: add OCIInitEventHandle
nikeda 05/28/04 - grabtrans 'nikeda_oci_events_copy'
nikeda 05/13/04 - [OCI Events] Rename HACBK->EVTCBK, HACTX->EVTCTX
nikeda 05/10/04 - [OCI Events] code review changes
aahluwal 04/09/04 - [OCI Events]: add OCIHAServerHandleGet
nikeda 03/18/04 - [OCI Events] New Server Handle Callback
dfrumkin 12/04/03 - Add OCIDBStartup, OCIDBShutdown
jciminsk 12/12/03 - merge from RDBMS_MAIN_SOLARIS_031209
sgollapu 06/26/03 - Change OCIPing prototype
sgollapu 05/05/03 - Add OCIPing
debanerj 01/16/03 - Bug 2753018: Lob Locator parameter for
OCILobGetStorageLimit
rpingte 05/06/04 - add OCIClientVersion
debanerj 08/26/03 - 6003: Lob interface changes
sgollapu 06/23/03 - Add OCIPing
debanerj 01/16/03 - Bug 2753018: Lob Locator parameter for
OCILobGetStorageLimit
tkeefe 02/17/03 - bug-2773794: Add new interface for setting Kerb attrs
ataracha 01/03/03 - Move OCIXMLType functions to ocixml.h
akatti 11/28/02 - [2521361]:add OCIRowidToChar prototype
chliang 10/23/02 - add OCIFetchRowCallback
cparampa 10/13/02 - Fix the prototype of OCIAQListen(ansi prototype)
chliang 10/12/02 - add OCIBindRowCallback
debanerj 09/30/02 - Unlimited size LOB 6003
thoang 09/25/02 - Add csid to XMLType create functions
thoang 04/19/02 - Add OCIXMLTypeGetNS
aahluwal 08/09/02 - adding OCIAQDeqArray
aahluwal 06/03/02 - bug 2360115
skabraha 04/16/02 - fix compiler warnings
sichandr 02/12/02 - fix OCIXMLTypeExists
gayyappa 02/01/02 - fix 2210776 : change Dom to DOM
sichandr 10/24/01 - OCISvcCtx for XMLType create routines
schandir 09/14/01 - Add prototypes for Stmt Caching
abande 09/04/01 - Add Prototypes for Session Pooling Methods
stakeda 09/12/01 - add OCINlsCharSetConvert
whe 08/28/01 - add OCIEnvNlsCreate
wzhang 08/22/01 - Add OCINlsCharSetNameToId.
whe 10/05/01 - add prototype for OCIXMLType functions
mdmehta 04/06/01 - Bug 1683763, OCIDateTimeToText: buf_size to ub4*
schandir 12/12/00 - modify the ociconnectionpoolcreate() interface.
porangas 12/04/00 - Forward merge bug#974710 to 9i
rpingte 11/29/00 - Fix bug# 1485795.
gtarora 11/30/00 - fix comment for OCILobIsTemporary
akatti 11/07/00 - [1198379]:add OCIRowidToChar
bpalaval 10/15/00 - Forward merge 892654.
kmohan 09/18/00 - add OCILogon2
etucker 07/28/00 - add OCIIntervalFromTZ
vjayaram 07/18/00 - add connection pooling changes
etucker 07/13/00 - add dls apis for oci
hmasaki 07/05/00 - fix 1230846: forward merge into 8.2
mbastawa 06/05/00 - add OCIStmtFetch2
rxgovind 06/07/00 - update OCIAnyData interfaces
rxgovind 05/04/00 - add OCIAnyDataSet interfaces
rkasamse 05/01/00 - remove attrno from OCIAnyDataAttrGet
rkasamse 03/13/00 - add prototype s for OCCIAnyData
slari 09/01/99 - remove OCIEnvCallback
slari 08/23/99 - add OCIUcb in user callback functions
dsaha 07/07/99 - Add OCIFEnvCreate for forms
vyanaman 06/21/99 - Change OCI DateTime/Interval APIs.
esoyleme 07/01/99 - expose MTS performance enhancements
whe 06/14/99 - bug727872:add CONST to match definitions
kkarun 02/23/99 - Fix OCIDateTime APIs
jiyang 12/07/98 - Add comments for OCI_NLS_DUAL_CURRENCY
aroy 12/01/98 - add OCIEnvCreate
slari 11/23/98 - use ORASTDARG
slari 11/21/98 - replace ellipsis by arglist in OCIUserCallback
thchang 10/20/98 - correct comment on OCILobCreateTemporary
slari 09/08/98 - allow envh to receive error info also in CallbackReg/
kkarun 09/02/98 - Change const to CONST
aroy 08/04/98 - add OCITerminate calls
nramakri 06/25/98 - remove CONST from some OCIPickler APIs
jiyang 06/22/98 - Fix a lint error
nmallava 06/08/98 - ociistemporary -> envhp
jhasenbe 05/27/98 - Remove definitions for U-Calls (Unicode)
nmallava 05/18/98 - add comments
sgollapu 05/19/98 - Change text to OraText
aroy 04/20/98 - merge forward 8.0.5 -> 8.1.3
nbhatt 05/14/98 - aq listen call
lchidamb 03/02/98 - Client Notification prototypes
vyanaman 04/19/98 - System Timestamp
kkarun 04/17/98 - Add more Interval functions
vyanaman 04/17/98 - Fix min (proc error)
vyanaman 04/16/98 - Add get/set TZ
kkarun 04/13/98 - Add Datetime prototypes
rkasamse 04/13/98 - change OCIEnv* to dvoid* for context/memory cart serv
rkasamse 04/15/98 - chage pickler cart interface
slari 03/20/98 - change proto of OCIUserCallback
slari 02/17/98 - add OCIUserCallback
jiyang 04/02/98 - Accept both env and user handles for NLS
rkasamse 03/20/98 - remove prototypes for OCIMemoryDuration* functions.
tsaulys 03/20/98 - use environment or session handle
nmallava 04/09/98 - OCILobLocatorAssign
nmallava 04/07/98 - lobgetchunksize and writeappend apis
jhasenbe 04/06/98 - Add new interfaces for Unicode support
nmallava 03/17/98 - add interfaces
nmallava 03/16/98 - add open/close apis
nmallava 03/10/98 - add temporary lobs apis
sgollapu 07/10/97 - Add OCIReset
sgollapu 02/09/98 - OCI non-blocking
nramakri 01/16/98 - remove #ifdef NEVER clause for OCIExtract
rmurthy 01/08/98 - OCIContextGenerateKey: change ub1 to ub4
ewaugh 12/18/97 - Turn type wrappers into functions.
skabraha 12/02/97 - adding OCIFile functions
rhwu 12/02/97 - add OCI Thread
nramakri 12/15/97 - move to core4
nramakri 12/11/97 - modify OCIExtract prototype
ewaugh 12/10/97 - add OCIFormat prototypes
nmallava 12/17/97 - Add ilob open and close apis
rkasamse 12/03/97 - Change some of the function names for pickler cartrid
nramakri 11/12/97 - add OCIExtract prototypes
rkasamse 11/21/97 - add prototypes for memory cartridge services and cont
rkasamse 11/03/97 - Add pickler cartridge interfaces.
jiyang 11/11/97 - Add NLS service for cartridge
tanguyen 08/19/97 -
cxcheng 07/30/97 - replace OCISvcCtx with OCISvcCtx
schandra 06/25/97 - AQ OCI interface
bnainani 07/21/97 - add prototypes for Oracle XA extensions
esoyleme 05/13/97 - move failover callback prototype
skmishra 05/06/97 - stdc compiler fixes
skmishra 04/24/97 - C++ Compatibility changes
skotsovo 04/21/97 - make lob parameter names consistent
rwhitman 04/16/97 - Fix LOB prototypes - Olint OCI 8.0.3
ramkrish 04/15/97 - Add free flag to OCILobFlushBuffer
dchatter 04/10/97 - add nzt.h inclusion
cxcheng 04/09/97 - change objnamp from CONST text* to dvoid*
cxcheng 04/08/97 - fix prototype of OCIDescribeAny()
skotsovo 03/31/97 - remove OCILobLocatorSize
skotsovo 03/27/97 - add OCILobLoadFromFile
bcchang 02/18/97 - Fix syntax error
dchatter 01/13/97 - fix comments on LOB calls
aroy 01/10/97 - remove ocilobfilecreate delete
sgollapu 12/27/96 - Correct OCILogon prototype
dchatter 01/04/97 - comments to describe the functions
sgollapu 11/25/96 - Change OCILobFileIsExistent
schandra 11/18/96 - Remove xa.h include
sgollapu 11/09/96 - Change prototype of OCIDescribeAny
dchatter 10/31/96 - delete CONST from lob write cb fn
dchatter 10/30/96 - more changes
dchatter 10/26/96 - lob/file long name corrections
slari 10/16/96 - delete unused calls
rwessman 10/29/96 - Fixed OCISecurityGetIdentity prototype
bcchang 10/25/96 - Fix syntax error
sgollapu 10/22/96 - Add OCILogon and OCILogoff
rwessman 10/16/96 - Added cryptographic and digital signature functions
sgollapu 10/10/96 - Add ocibdp and ocibdn
rxgovind 10/07/96 - add oci file calls
skotsovo 10/01/96 - move orl lob fnts to oci
skotsovo 09/20/96 - in OCILobGetLength(), remove the 'isnull' parameter.
aroy 08/29/96 - change prototype for Nchar Lob support
dchatter 08/21/96 - OCIResultSetToStmt prototype change
sthakur 08/14/96 - add OCIParamSet
schandra 07/26/96 - TX OCI return values - sb4->sword
aroy 07/17/96 - terminology change: OCILobLocator => OCILobLocator
dchatter 07/01/96 - create ANSI prototypes
dchatter 07/01/96 - Creation
*/
#ifndef OCIAP_ORACLE
# define OCIAP_ORACLE
# ifndef ORATYPES
# include <oratypes.h>
# endif
#ifndef ORASTDARG
#include <stdarg.h>
#define ORASTDARG
#endif
#ifndef OCIDFN
#include <ocidfn.h>
#endif
#ifndef NZT_ORACLE
#include <nzt.h>
#endif /* NZT_ORACLE */
#ifndef OCI_ORACLE
#include <oci.h>
#endif
#ifndef ORT_ORACLE
#include <ort.h>
#endif
/*---------------------------------------------------------------------------
PUBLIC TYPES AND CONSTANTS
---------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------
PRIVATE TYPES AND CONSTANTS
---------------------------------------------------------------------------*/
/*---------------------------------------------------------------------------
PUBLIC FUNCTIONS
---------------------------------------------------------------------------*/
/*****************************************************************************
DESCRIPTION
******************************************************************************
Note: the descriptions of the functions are alphabetically arranged. Please
maintain the arrangement when adding a new function description. The actual
prototypes are below this comment section and donot follow any alphabetical
ordering.
--------------------------------OCIAttrGet------------------------------------
OCIAttrGet()
Name
OCI Attribute Get
Purpose
This call is used to get a particular attribute of a handle.
Syntax
sword OCIAttrGet ( const void *trgthndlp,
ub4 trghndltyp,
void *attributep,
ub4 *sizep,
ub4 attrtype,
OCIError *errhp );
Comments
This call is used to get a particular attribute of a handle.
See Appendix B, "Handle Attributes", for a list of handle types and their
readable attributes.
Parameters
trgthndlp (IN) - is the pointer to a handle type.
trghndltyp (IN) - is the handle type.
attributep (OUT) - is a pointer to the storage for an attribute value. The
attribute value is filled in.
sizep (OUT) - is the size of the attribute value.
This can be passed in as NULL for most parameters as the size is well known.
For text* parameters, a pointer to a ub4 must be passed in to get the length
of the string.
attrtype (IN) - is the type of attribute.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
Related Functions
OCIAttrSet()
--------------------------------OCIAttrSet------------------------------------
OCIAttrSet()
Name
OCI Attribute Set
Purpose
This call is used to set a particular attribute of a handle or a descriptor.
Syntax
sword OCIAttrSet ( void *trgthndlp,
ub4 trghndltyp,
void *attributep,
ub4 size,
ub4 attrtype,
OCIError *errhp );
Comments
This call is used to set a particular attribute of a handle or a descriptor.
See Appendix B for a list of handle types and their writeable attributes.
Parameters
trghndlp (IN/OUT) - the pointer to a handle type whose attribute gets
modified.
trghndltyp (IN/OUT) - is the handle type.
attributep (IN) - a pointer to an attribute value.
The attribute value is copied into the target handle. If the attribute value
is a pointer, then only the pointer is copied, not the contents of the pointer.
size (IN) - is the size of an attribute value. This can be passed in as 0 for
most attributes as the size is already known by the OCI library. For text*
attributes, a ub4 must be passed in set to the length of the string.
attrtype (IN) - the type of attribute being set.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
Related Functions
OCIAttrGet()
--------------------------------OCIBindArrayOfStruct--------------------------
OCIBindArrayOfStruct()
Name
OCI Bind for Array of Structures
Purpose
This call sets up the skip parameters for a static array bind.
Syntax
sword OCIBindArrayOfStruct ( OCIBind *bindp,
OCIError *errhp,
ub4 pvskip,
ub4 indskip,
ub4 alskip,
ub4 rcskip );
Comments
This call sets up the skip parameters necessary for a static array bind.
This call follows a call to OCIBindByName() or OCIBindByPos(). The bind
handle returned by that initial bind call is used as a parameter for the
OCIBindArrayOfStruct() call.
For information about skip parameters, see the section "Arrays of Structures"
on page 4-16.
Parameters
bindp (IN) - the handle to a bind structure.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
pvskip (IN) - skip parameter for the next data value.
indskip (IN) - skip parameter for the next indicator value or structure.
alskip (IN) - skip parameter for the next actual length value.
rcskip (IN) - skip parameter for the next column-level return code value.
Related Functions
OCIAttrGet()
--------------------------------OCIBindByName---------------------------------
OCIBindByName()
Name
OCI Bind by Name
Purpose
Creates an association between a program variable and a placeholder in a SQL
statement or PL/SQL block.
Syntax
sword OCIBindByName (
OCIStmt *stmtp,
OCIBind **bindp,
OCIError *errhp,
const OraText *placeholder,
sb4 placeh_len,
void *valuep,
sb4 value_sz,
ub2 dty,
void *indp,
ub2 *alenp,
ub2 *rcodep,
ub4 maxarr_len,
ub4 *curelep,
ub4 mode );
Description
This call is used to perform a basic bind operation. The bind creates an
association between the address of a program variable and a placeholder in a
SQL statement or PL/SQL block. The bind call also specifies the type of data
which is being bound, and may also indicate the method by which data will be
provided at runtime.
This function also implicitly allocates the bind handle indicated by the bindp
parameter.
Data in an OCI application can be bound to placeholders statically or
dynamically. Binding is static when all the IN bind data and the OUT bind
buffers are well-defined just before the execute. Binding is dynamic when the
IN bind data and the OUT bind buffers are provided by the application on
demand at execute time to the client library. Dynamic binding is indicated by
setting the mode parameter of this call to OCI_DATA_AT_EXEC.
Related Functions: For more information about dynamic binding, see
the section "Runtime Data Allocation and Piecewise Operations" on
page 5-16.
Both OCIBindByName() and OCIBindByPos() take as a parameter a bind handle,
which is implicitly allocated by the bind call A separate bind handle is
allocated for each placeholder the application is binding.
Additional bind calls may be required to specify particular attributes
necessary when binding certain data types or handling input data in certain
ways:
If arrays of structures are being utilized, OCIBindArrayOfStruct() must
be called to set up the necessary skip parameters.
If data is being provided dynamically at runtime, and the application
will be using user-defined callback functions, OCIBindDynamic() must
be called to register the callbacks.
If a named data type is being bound, OCIBindObject() must be called to
specify additional necessary information.
Parameters
stmth (IN/OUT) - the statement handle to the SQL or PL/SQL statement
being processed.
bindp (IN/OUT) - a pointer to a pointer to a bind handle which is implicitly
allocated by this call. The bind handle maintains all the bind information
for this particular input value. The handle is feed implicitly when the
statement handle is deallocated.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
placeholder (IN) - the placeholder attributes are specified by name if
ocibindn() is being called.
placeh_len (IN) - the length of the placeholder name specified in placeholder.
valuep (IN/OUT) - a pointer to a data value or an array of data values of the
type specified in the dty parameter. An array of data values can be specified
for mapping into a PL/SQL table or for providing data for SQL multiple-row
operations. When an array of bind values is provided, this is called an array
bind in OCI terms. Additional attributes of the array bind (not bind to a
column of ARRAY type) are set up in OCIBindArrayOfStruct() call.
For a REF, named data type bind, the valuep parameter is used only for IN
bind data. The pointers to OUT buffers are set in the pgvpp parameter
initialized by OCIBindObject(). For named data type and REF binds, the bind
values are unpickled into the Object Cache. The OCI object navigational calls
can then be used to navigate the objects and the refs in the Object Cache.
If the OCI_DATA_AT_EXEC mode is specified in the mode parameter, valuep
is ignored for all data types. OCIBindArrayOfStruct() cannot be used and
OCIBindDynamic() must be invoked to provide callback functions if desired.
value_sz (IN) - the size of a data value. In the case of an array bind, this is
the maximum size of any element possible with the actual sizes being specified
in the alenp parameter.
If the OCI_DATA_AT_EXEC mode is specified, valuesz defines the maximum
size of the data that can be ever provided at runtime for data types other than
named data types or REFs.
dty (IN) - the data type of the value(s) being bound. Named data types
(SQLT_NTY) and REFs (SQLT_REF) are valid only if the application has been
initialized in object mode. For named data types, or REFs, additional calls
must be made with the bind handle to set up the datatype-specific attributes.
indp (IN/OUT) - pointer to an indicator variable or array. For scalar data
types, this is a pointer to sb2 or an array of sb2s. For named data types,
this pointer is ignored and the actual pointer to the indicator structure or
an array of indicator structures is initialized by OCIBindObject().
Ignored for dynamic binds.
See the section "Indicator Variables" on page 2-43 for more information about
indicator variables.
alenp (IN/OUT) - pointer to array of actual lengths of array elements. Each
element in alenp is the length of the data in the corresponding element in the
bind value array before and after the execute. This parameter is ignored for
dynamic binds.
rcodep (OUT) - pointer to array of column level return codes. This parameter
is ignored for dynamic binds.
maxarr_len (IN) - the maximum possible number of elements of type dty in a
PL/SQL binds. This parameter is not required for non-PL/SQL binds. If
maxarr_len is non-zero, then either OCIBindDynamic() or
OCIBindArrayOfStruct() can be invoked to set up additional bind attributes.
curelep(IN/OUT) - a pointer to the actual number of elements. This parameter
is only required for PL/SQL binds.
mode (IN) - the valid modes for this parameter are:
OCI_DEFAULT. This is default mode.
OCI_DATA_AT_EXEC. When this mode is selected, the value_sz
parameter defines the maximum size of the data that can be ever
provided at runtime. The application must be ready to provide the OCI
library runtime IN data buffers at any time and any number of times.
Runtime data is provided in one of the two ways:
callbacks using a user-defined function which must be registered
with a subsequent call to OCIBindDynamic().
a polling mechanism using calls supplied by the OCI. This mode
is assumed if no callbacks are defined.
For more information about using the OCI_DATA_AT_EXEC mode, see
the section "Runtime Data Allocation and Piecewise Operations" on
page 5-16.
When the allocated buffers are not required any more, they should be
freed by the client.
Related Functions
OCIBindDynamic(), OCIBindObject(), OCIBindArrayOfStruct(), OCIAttrGet()
-------------------------------OCIBindByPos-----------------------------------
OCIBindByPos()
Name
OCI Bind by Position
Purpose
Creates an association between a program variable and a placeholder in a SQL
statement or PL/SQL block.
Syntax
sword OCIBindByPos (
OCIStmt *stmtp,
OCIBind **bindp,
OCIError *errhp,
ub4 position,
void *valuep,
sb4 value_sz,
ub2 dty,
void *indp,
ub2 *alenp,
ub2 *rcodep,
ub4 maxarr_len,
ub4 *curelep,
ub4 mode);
Description
This call is used to perform a basic bind operation. The bind creates an
association between the address of a program variable and a placeholder in a
SQL statement or PL/SQL block. The bind call also specifies the type of data
which is being bound, and may also indicate the method by which data will be
provided at runtime.
This function also implicitly allocates the bind handle indicated by the bindp
parameter.
Data in an OCI application can be bound to placeholders statically or
dynamically. Binding is static when all the IN bind data and the OUT bind
buffers are well-defined just before the execute. Binding is dynamic when the
IN bind data and the OUT bind buffers are provided by the application on
demand at execute time to the client library. Dynamic binding is indicated by
setting the mode parameter of this call to OCI_DATA_AT_EXEC.
Related Functions: For more information about dynamic binding, see
the section "Runtime Data Allocation and Piecewise Operations" on
page 5-16
Both OCIBindByName() and OCIBindByPos() take as a parameter a bind handle,
which is implicitly allocated by the bind call A separate bind handle is
allocated for each placeholder the application is binding.
Additional bind calls may be required to specify particular attributes
necessary when binding certain data types or handling input data in certain
ways:
If arrays of structures are being utilized, OCIBindArrayOfStruct() must
be called to set up the necessary skip parameters.
If data is being provided dynamically at runtime, and the application
will be using user-defined callback functions, OCIBindDynamic() must
be called to register the callbacks.
If a named data type is being bound, OCIBindObject() must be called to
specify additional necessary information.
Parameters
stmth (IN/OUT) - the statement handle to the SQL or PL/SQL statement
being processed.
bindp (IN/OUT) - a pointer to a pointer to a bind handle which is implicitly
allocated by this call. The bind handle maintains all the bind information
for this particular input value. The handle is feed implicitly when the
statement handle is deallocated.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
position (IN) - the placeholder attributes are specified by position if
ocibindp() is being called.
valuep (IN/OUT) - a pointer to a data value or an array of data values of the
type specified in the dty parameter. An array of data values can be specified
for mapping into a PL/SQL table or for providing data for SQL multiple-row
operations. When an array of bind values is provided, this is called an array
bind in OCI terms. Additional attributes of the array bind (not bind to a
column of ARRAY type) are set up in OCIBindArrayOfStruct() call.
For a REF, named data type bind, the valuep parameter is used only for IN
bind data. The pointers to OUT buffers are set in the pgvpp parameter
initialized by OCIBindObject(). For named data type and REF binds, the bind
values are unpickled into the Object Cache. The OCI object navigational calls
can then be used to navigate the objects and the refs in the Object Cache.
If the OCI_DATA_AT_EXEC mode is specified in the mode parameter, valuep
is ignored for all data types. OCIBindArrayOfStruct() cannot be used and
OCIBindDynamic() must be invoked to provide callback functions if desired.
value_sz (IN) - the size of a data value. In the case of an array bind, this is
the maximum size of any element possible with the actual sizes being specified
in the alenp parameter.
If the OCI_DATA_AT_EXEC mode is specified, valuesz defines the maximum
size of the data that can be ever provided at runtime for data types other than
named data types or REFs.
dty (IN) - the data type of the value(s) being bound. Named data types
(SQLT_NTY) and REFs (SQLT_REF) are valid only if the application has been
initialized in object mode. For named data types, or REFs, additional calls
must be made with the bind handle to set up the datatype-specific attributes.
indp (IN/OUT) - pointer to an indicator variable or array. For scalar data
types, this is a pointer to sb2 or an array of sb2s. For named data types,
this pointer is ignored and the actual pointer to the indicator structure or
an array of indicator structures is initialized by OCIBindObject(). Ignored
for dynamic binds.
See the section "Indicator Variables" on page 2-43 for more information about
indicator variables.
alenp (IN/OUT) - pointer to array of actual lengths of array elements. Each
element in alenp is the length of the data in the corresponding element in the
bind value array before and after the execute. This parameter is ignored for
dynamic binds.
rcodep (OUT) - pointer to array of column level return codes. This parameter
is ignored for dynamic binds.
maxarr_len (IN) - the maximum possible number of elements of type dty in a
PL/SQL binds. This parameter is not required for non-PL/SQL binds. If
maxarr_len is non-zero, then either OCIBindDynamic() or
OCIBindArrayOfStruct() can be invoked to set up additional bind attributes.
curelep(IN/OUT) - a pointer to the actual number of elements. This parameter
is only required for PL/SQL binds.
mode (IN) - the valid modes for this parameter are:
OCI_DEFAULT. This is default mode.
OCI_DATA_AT_EXEC. When this mode is selected, the value_sz
parameter defines the maximum size of the data that can be ever
provided at runtime. The application must be ready to provide the OCI
library runtime IN data buffers at any time and any number of times.
Runtime data is provided in one of the two ways:
callbacks using a user-defined function which must be registered
with a subsequent call to OCIBindDynamic() .
a polling mechanism using calls supplied by the OCI. This mode
is assumed if no callbacks are defined.
For more information about using the OCI_DATA_AT_EXEC mode, see
the section "Runtime Data Allocation and Piecewise Operations" on
page 5-16.
When the allocated buffers are not required any more, they should be
freed by the client.
Related Functions
OCIBindDynamic(), OCIBindObject(), OCIBindArrayOfStruct(), OCIAttrGet()
-------------------------------OCIBindDynamic---------------------------------
OCIBindDynamic()
Name
OCI Bind Dynamic Attributes
Purpose
This call is used to register user callbacks for dynamic data allocation.
Syntax
sword OCIBindDynamic( OCIBind *bindp,
OCIError *errhp,
void *ictxp,
OCICallbackInBind (icbfp)(
void *ictxp,
OCIBind *bindp,
ub4 iter,
ub4 index,
void **bufpp,
ub4 *alenp,
ub1 *piecep,
void **indp ),
void *octxp,
OCICallbackOutBind (ocbfp)(
void *octxp,
OCIBind *bindp,
ub4 iter,
ub4 index,
void **bufp,
ub4 **alenpp,
ub1 *piecep,
void **indpp,
ub2 **rcodepp) );
Comments
This call is used to register user-defined callback functions for providing
data for an UPDATE or INSERT if OCI_DATA_AT_EXEC mode was specified in a
previous call to OCIBindByName() or OCIBindByPos().
The callback function pointers must return OCI_CONTINUE if it the call is
successful. Any return code other than OCI_CONTINUE signals that the client
wishes to abort processing immediately.
For more information about the OCI_DATA_AT_EXEC mode, see the section
"Runtime Data Allocation and Piecewise Operations" on page 5-16.
Parameters
bindp (IN/OUT) - a bind handle returned by a call to OCIBindByName() or
OCIBindByPos().
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
ictxp (IN) - the context pointer required by the call back function icbfp.
icbfp (IN) - the callback function which returns a pointer to the IN bind
value or piece at run time. The callback takes in the following parameters.
ictxp (IN/OUT) - the context pointer for this callback function.
bindp (IN) - the bind handle passed in to uniquely identify this bind
variable.
iter (IN) - 1-based execute iteration value.
index (IN) - index of the current array, for an array bind. 1 based not
greater than curele parameter of the bind call.
index (IN) - index of the current array, for an array bind. This parameter
is 1-based, and may not be greater than curele parameter of the bind call.
bufpp (OUT) - the pointer to the buffer.
piecep (OUT) - which piece of the bind value. This can be one of the
following values - OCI_ONE_PIECE, OCI_FIRST_PIECE,
OCI_NEXT_PIECE and OCI_LAST_PIECE.
indp (OUT) - contains the indicator value. This is apointer to either an
sb2 value or a pointer to an indicator structure for binding named data
types.
indszp (OUT) - contains the indicator value size. A pointer containing
the size of either an sb2 or an indicator structure pointer.
octxp (IN) - the context pointer required by the callback function ocbfp.
ocbfp (IN) - the callback function which returns a pointer to the OUT bind
value or piece at run time. The callback takes in the following parameters.
octxp (IN/OUT) - the context pointer for this call back function.
bindp (IN) - the bind handle passed in to uniquely identify this bind
variable.
iter (IN) - 1-based execute iteration value.
index (IN) - index of the current array, for an array bind. This parameter
is 1-based, and must not be greater than curele parameter of the bind call.
bufpp (OUT) - a pointer to a buffer to write the bind value/piece.
buflp (OUT) - returns the buffer size.
alenpp (OUT) - a pointer to a storage for OCI to fill in the size of the bind
value/piece after it has been read.
piecep (IN/OUT) - which piece of the bind value. It will be set by the
library to be one of the following values - OCI_ONE_PIECE or
OCI_NEXT_PIECE. The callback function can leave it unchanged or set
it to OCI_FIRST_PIECE or OCI_LAST_PIECE. By default -
OCI_ONE_PIECE.
indpp (OUT) - returns a pointer to contain the indicator value which
either an sb2 value or a pointer to an indicator structure for named data
types.
indszpp (OUT) - returns a pointer to return the size of the indicator
value which is either size of an sb2 or size of an indicator structure.
rcodepp (OUT) - returns a pointer to contains the return code.
Related Functions
OCIAttrGet()
---------------------------------OCIBindObject--------------------------------
OCIBindObject()
Name
OCI Bind Object
Purpose
This function sets up additional attributes which are required for a named
data type (object) bind.
Syntax
sword OCIBindObject ( OCIBind *bindp,
OCIError *errhp,
const OCIType *type,
void **pgvpp,
ub4 *pvszsp,
void **indpp,
ub4 *indszp, );
Comments
This function sets up additional attributes which binding a named data type
or a REF. An error will be returned if this function is called when the OCI
environment has been initialized in non-object mode.
This call takes as a paramter a type descriptor object (TDO) of datatype
OCIType for the named data type being defined. The TDO can be retrieved
with a call to OCITypeByName().
If the OCI_DATA_AT_EXEC mode was specified in ocibindn() or ocibindp(), the
pointers to the IN buffers are obtained either using the callback icbfp
registered in the OCIBindDynamic() call or by the OCIStmtSetPieceInfo() call.
The buffers are dynamically allocated for the OUT data and the pointers to
these buffers are returned either by calling ocbfp() registered by the
OCIBindDynamic() or by setting the pointer to the buffer in the buffer passed
in by OCIStmtSetPieceInfo() called when OCIStmtExecute() returned
OCI_NEED_DATA. The memory of these client library- allocated buffers must be
freed when not in use anymore by using the OCIObjectFreee() call.
Parameters
bindp ( IN/OUT) - the bind handle returned by the call to OCIBindByName()
or OCIBindByPos().
errhp ( IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
type ( IN) - points to the TDO which describes the type of the program
variable being bound. Retrieved by calling OCITypeByName().
pgvpp ( IN/OUT) - points to a pointer to the program variable buffer. For an
array, pgvpp points to an array of pointers. When the bind variable is also an
OUT variable, the OUT Named Data Type value or REF is allocated
(unpickled) in the Object Cache, and a pointer to the value or REF is returned,
At the end of execute, when all OUT values have been received, pgvpp points
to an array of pointer(s) to these newly allocated named data types in the
object cache.
pgvpp is ignored if the OCI_DATA_AT_EXEC mode is set. Then the Named
Data Type buffers are requested at runtime. For static array binds, skip
factors may be specified using the OCIBindArrayOfStruct() call. The skip
factors are used to compute the address of the next pointer to the value, the
indicator structure and their sizes.
pvszsp ( IN/OUT) - points to the size of the program variable. The size of the
named data type is not required on input. For an array, pvszsp is an array of
ub4s. On return, for OUT bind variables, this points to size(s) of the Named
Data Types and REFs received. pvszsp is ignored if the OCI_DATA_AT_EXEC
mode is set. Then the size of the buffer is taken at runtime.
indpp ( IN/OUT) - points to a pointer to the program variable buffer
containing the parallel indicator structure. For an array, points to an array
of pointers. When the bind variable is also an OUT bind variable, memory is
allocated in the object cache, to store the unpickled OUT indicator values. At
the end of the execute when all OUT values have been received, indpp points
to the pointer(s) to these newly allocated indicator structure(s).
indpp is ignored if the OCI_DATA_AT_EXEC mode is set. Then the indicator
is requested at runtime.
indszp ( IN/OUT) - points to the size of the IN indicator structure program
variable. For an array, it is an array of sb2s. On return for OUT bind
variables, this points to size(s) of the received OUT indicator structures.
indszp is ignored if the OCI_DATA_AT_EXEC mode is set. Then the indicator
size is requested at runtime.
Related Functions
OCIAttrGet()
----------------------------------OCIBreak------------------------------------
OCIBreak()
Name
OCI Break
Purpose
This call performs an immediate (asynchronous) abort of any currently
executing OCI function that is associated with a server .
Syntax
sword OCIBreak ( void *hndlp,
OCIError *errhp);
Comments
This call performs an immediate (asynchronous) abort of any currently
executing OCI function that is associated with a server. It is normally used
to stop a long-running OCI call being processed on the server.
This call can take either the service context handle or the server context
handle as a parameter to identify the function to be aborted.
Parameters
hndlp (IN) - the service context handle or the server context handle.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
Related Functions
-----------------------------OCIConnectionPoolCreate --------------------------
Name:
OCIConnectionPoolCreate
Purpose:
Creates the connections in the pool
Syntax:
OCIConnectionPoolCreate (OCIEnv *envhp, OCIError *errhp, OCICPool *poolhp,
OraText **poolName, sb4 *poolNameLen,
const Oratext *dblink, sb4 dblinkLen,
ub4 connMin, ub4 connMax, ub4 connIncr,
const OraText *poolUsername, sb4 poolUserLen,
const OraText *poolPassword, sb4 poolPassLen,
ub4 mode)
Comments:
This call is used to create a connection pool. conn_min connections
to the database are started on calling OCIConnectionPoolCreate.
Parameters:
envhp (IN/OUT) - A pointer to the environment where the Conencton Pool
is to be created
errhp (IN/OUT) - An error handle which can be passed to OCIErrorGet().
poolhp (IN/OUT) - An uninitialiazed pool handle.
poolName (OUT) - The connection pool name.
poolNameLen (OUT) - The length of the connection pool name
dblink (IN/OUT) - Specifies the database(server) to connect. This will also
be used as the default pool name.
dblinkLen (IN) - The length of the string pointed to by dblink.
connMin (IN) - Specifies the minimum number of connections in the
Connection Pool at any instant.
connMin number of connections are started when
OCIConnectionPoolCreate() is called.
connMax (IN) - Specifies the maximum number of connections that can be
opened to the database. Once this value is reached, no
more connections are opened.
connIncr (IN) - Allows application to set the next increment for
connections to be opened to the database if the current
number of connections are less than conn_max.
poolUsername (IN/OUT) - Connection pooling requires an implicit proxy
session and this attribute provides a username
for that session.
poolUserLen (IN) - This represents the length of pool_username.
poolPassword (IN/OUT) - The password for the parameter pool_username passed
above.
poolPassLen (IN) - This represents the length of pool_password.
mode (IN) - The modes supported are OCI_DEFAULT and
OCI_CPOOL_REINITIALIZE
Related Functions
OCIConnectionPoolDestroy()
---------------------------------------------------------------------------
----------------------------OCIConnectionPoolDestroy-------------------------
Name:
OCIConnectionPoolDestroy
Purpose:
Terminates the connections in the pool
Syntax:
OCIConnectionPoolDestroy (OCICPool *poolhp, OCIError *errhp, ub4 mode)
Comments:
On calling OCIConnectionPoolDestroy, all the open connections in the pool
are closed and the pool is destroyed.
Parameters:
poolhp (IN/OUT) - An initialiazed pool handle.
errhp (IN/OUT) - An error handle which can be passed to OCIErrorGet().
mode (IN) - Currently, OCIConnectionPoolDestroy() will support only
the OCI_DEFAULT mode.
Related Functions:
OCIConnectionPoolCreate()
-----------------------------------------------------------------------------
----------------------------OCISessionPoolCreate-----------------------------
Name:
OCISessionPoolCreate
Purpose:
Creates the sessions in the session pool.
Syntax:
sword OCISessionPoolCreate (OCIEnv *envhp, OCIError *errhp, OCISpool *spoolhp,
OraText **poolName, ub4 *poolNameLen,
const OraText *connStr, ub4 connStrLen,
ub4 sessMin, ub4 sessMax, ub4 sessIncr,
OraText *userid, ub4 useridLen,
OraText *password, ub4 passwordLen,
ub4 mode)
Comments:
When OCISessionPoolCreate is called, a session pool is initialized for
the associated environment and the database specified by the
connStr parameter. This pool is named uniquely and the name
is returned to the user in the poolname parameter.
Parameters:
envhp (IN/OUT) - A pointer to the environment handle in which the session
pool needs to be created.
errhp (IN/OUT) - An error handle which can be passed to OCIErrorGet().
spoolhp (IN/OUT) - A pointer to the session pool handle that is created.
poolName (OUT) - Session pool name returned to the user.
poolNameLen (OUT) - Length of the PoolName
connStr (IN) - The TNS alias of the database to connect to.
connStrLen (IN) - Length of the connStr.
sessMin (IN) - Specifies the minimum number of sessions in the Session Pool.
These are the number of sessions opened in the beginning, if
in Homogeneous mode. Else, the parameter is ignored.
sessMax (IN) - Specifies the maximum number of sessions in the Session Pool.
Once this value is reached, no more sessions are opened,
unless the OCI_ATTR_SPOOL_FORCEGET is set.
userid (IN) - Specifies the userid with which to start up the sessions.
useridLen (IN) - Length of userid.
password (IN) - Specifies the password for the corresponding userid.
passwordLen (IN) - Specifies the length of the password
mode(IN) - May be OCI_DEFAULT, OCI_SPC_SPOOL_REINITIALIZE, or
OCI_SPC_SPOOL_HOMOGENEOUS.
Returns:
SUCCESS - If pool could be allocated and created successfully.
ERROR - If above conditions could not be met.
Related Functions:
OCISessionPoolDestroy()
-----------------------------------------------------------------------------
-----------------------------OCISessionPoolDestroy---------------------------
Name:
OCISessionPoolDestroy
Purpose:
Terminates all the sessions in the session pool.
Syntax:
sword OCISessionPoolDestroy (OCISPool *spoolhp, OCIError *errhp, ub4 mode)
Comments:
spoolhp (IN/OUT) - The pool handle of the session pool to be destroyed.
errhp (IN/OUT) - An error handle which can be passed to OCIErrorGet().
mode (IN) - Currently only OCI_DEFAULT mode is supported.
Returns:
SUCCESS - All the sessions could be closed.
ERROR - If the above condition is not met.
Related Functions:
OCISessionPoolCreate()
-----------------------------------------------------------------------------
-------------------------------OCISessionGet---------------------------------
Name:
OCISessionGet
Purpose:
Get a session. This could be from a session pool, connection pool or
a new standalone session.
Syntax:
sword OCISessionGet(OCIenv *envhp, OCIError *errhp, OCISvcCtx **svchp,
OCIAuthInfo *authhp,
OraText *poolName, ub4 poolName_len,
const OraText *tagInfo, ub4 tagInfo_len,
OraText **retTagInfo, ub4 *retTagInfo_len,
boolean *found,
ub4 mode)
Comments:
envhp (IN/OUT) - OCI environment handle.
errhp (IN/OUT) - OCI error handle to be passed to OCIErrorGet().
svchp (IN/OUT) - Address of an OCI service context pointer. This will be
filled with a server and session handle, attached to the
pool.
authhp (IN/OUT) - OCI Authentication Information handle.
poolName (IN) - This indicates the session/connection pool to get the
session/connection from in the OCI_SPOOL/OCI_CPOOL mode.
In the OCI_DEFAULT mode it refers to the connect string.
poolName_len (IN) - length of poolName.
tagInfo (IN) - indicates the tag of the session that the user wants. If the
user wants a default session, he must specify a NULL here.
Only used for Session Pooling.
tagInfo_len (IN) - the length of tagInfo.
retTagInfo (OUT) - This indicates the type of session that is returned to
the user. Only used for Session Pooling.
retTagInfo_len (OUT) - the length of retTagInfo.
found (OUT) - set to true if the user gets a session he had requested, else
set to false. Only used for Session Pooling.
mode (IN) - The supported modes are OCI_DEFAULT, OCI_CRED_PROXY and
OCI_GET_SPOOL_MATCHANY, OCI_SPOOL and OCI_CPOOL. OCI_SPOOL and
OCI_CPOOL are mutually exclusive.
Returns:
SUCCESS - if a session was successfully returned into svchp.
SUCCESS_WITH_INFO - if a session was successfully returned into svchp and the
total number of sessions > maxsessions. Only valid for
Session Pooling.
ERROR - If a session could not be retrieved.
Related Functions:
OCISessionRelease()
-----------------------------------------------------------------------------
---------------------------OCISessionRelease---------------------------------
Name:
OCISessionRelease
Purpose:
Release the session.
Syntax:
sword OCISessionRelease ( OCISvcCtx *svchp, OCIError *errhp,
OraText *tag, ub4 tag_len,
ub4 mode);
Comments:
svchp (IN/OUT) - The service context associated with the session/connection.
errhp (IN/OUT) - OCI error handle to be passed to OCIErrorGet().
tag (IN) - Only used for Session Pooling.
This parameter will be ignored unless mode OCI_RLS_SPOOL_RETAG is
specified. In this case, the session is labelled with this tag and
returned to the pool. If this is NULL, then the session is untagged.
tag_len (IN) - Length of the tag. This is ignored unless mode
OCI_RLS_SPOOL_RETAG is set.
mode (IN) - The supported modes are OCI_DEFAULT, OCI_RLS_SPOOL_DROPSESS,
OCI_RLS_SPOOL_RETAG. The last 2 are only valid for Session Pooling.
When OCI_RLS_SPOOL_DROPSESS is specified, the session
will be removed from the session pool. If OCI_RLS_SPOOL_RETAG
is set, the tag on the session will be altered. If this mode is
not set, the tag and tag_len parameters will be ignored.
Returns:
ERROR - If the session could not be released successfully.
SUCCESS - In all other cases.
Related Functions:
OCISessionGet().
-----------------------------------------------------------------------------
------------------------------OCIDateTimeAssign --------------------------
sword OCIDateTimeAssign(void *hndl, OCIError *err, const OCIDateTime *from,
OCIDateTime *to);
NAME: OCIDateTimeAssign - OCIDateTime Assignment
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
from (IN) - datetime to be assigned
to (OUT) - lhs of assignment
DESCRIPTION:
Performs date assignment. The type of the output will be same as that
of input
------------------------------OCIDateTimeCheck----------------------------
sword OCIDateTimeCheck(void *hndl, OCIError *err, const OCIDateTime *date,
ub4 *valid );
NAME: OCIDateTimeCheck - OCIDateTime CHecK if the given date is valid
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
date (IN) - date to be checked
valid (OUT) - returns zero for a valid date, otherwise
the ORed combination of all error bits specified below:
Macro name Bit number Error
---------- ---------- -----
OCI_DATE_INVALID_DAY 0x1 Bad day
OCI_DATE_DAY_BELOW_VALID 0x2 Bad DAy Low/high bit (1=low)
OCI_DATE_INVALID_MONTH 0x4 Bad MOnth
OCI_DATE_MONTH_BELOW_VALID 0x8 Bad MOnth Low/high bit (1=low)
OCI_DATE_INVALID_YEAR 0x10 Bad YeaR
OCI_DATE_YEAR_BELOW_VALID 0x20 Bad YeaR Low/high bit (1=low)
OCI_DATE_INVALID_HOUR 0x40 Bad HouR
OCI_DATE_HOUR_BELOW_VALID 0x80 Bad HouR Low/high bit (1=low)
OCI_DATE_INVALID_MINUTE 0x100 Bad MiNute
OCI_DATE_MINUTE_BELOW_VALID 0x200 Bad MiNute Low/high bit (1=low)
OCI_DATE_INVALID_SECOND 0x400 Bad SeCond
OCI_DATE_SECOND_BELOW_VALID 0x800 bad second Low/high bit (1=low)
OCI_DATE_DAY_MISSING_FROM_1582 0x1000 Day is one of those "missing"
from 1582
OCI_DATE_YEAR_ZERO 0x2000 Year may not equal zero
OCI_DATE_INVALID_TIMEZONE 0x4000 Bad Timezone
OCI_DATE_INVALID_FORMAT 0x8000 Bad date format input
So, for example, if the date passed in was 2/0/1990 25:61:10 in
(month/day/year hours:minutes:seconds format), the error returned
would be OCI_DATE_INVALID_DAY | OCI_DATE_DAY_BELOW_VALID |
OCI_DATE_INVALID_HOUR | OCI_DATE_INVALID_MINUTE
DESCRIPTION:
Check if the given date is valid.
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
'date' and 'valid' pointers are NULL pointers
------------------------------- OCIDateTimeCompare----------------------------
sword OCIDateTimeCompare(void *hndl, OCIError *err, const OCIDateTime *date1,
const OCIDateTime *date2, sword *result );
NAME: OCIDateTimeCompare - OCIDateTime CoMPare dates
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
date1, date2 (IN) - dates to be compared
result (OUT) - comparison result, 0 if equal, -1 if date1 < date2,
1 if date1 > date2
DESCRIPTION:
The function OCIDateCompare compares two dates. It returns -1 if
date1 is smaller than date2, 0 if they are equal, and 1 if date1 is
greater than date2.
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
invalid date
input dates are not mutually comparable
------------------------------OCIDateTimeConvert----------------------
sword OCIDateTimeConvert(void *hndl, OCIError *err, OCIDateTime *indate,
OCIDateTime *outdate);
NAME: OCIDateTimeConvert - Conversion between different DATETIME types
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
indate (IN) - pointer to input date
outdate (OUT) - pointer to output datetime
DESCRIPTION: Converts one datetime type to another. The result type is
the type of the 'outdate' descriptor.
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
conversion not possible.
---------------------------- OCIDateTimeFromText-----------------------
sword OCIDateTimeFromText(void *hndl, OCIError *err, const OraText *date_str,
size_t d_str_length, const OraText *fmt, ub1 fmt_length,
const OraText *lang_name, size_t lang_length, OCIDateTime *date );
NAME: OCIDateTimeFromText - OCIDateTime convert String FROM Date
PARAMETERS:
hndl (IN) - Session/Env handle. If Session Handle is passed, the
conversion takes place in session NLS_LANGUAGE and
session NLS_CALENDAR, otherwise the default is used.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
date_str (IN) - input string to be converted to Oracle date
d_str_length (IN) - size of the input string, if the length is -1
then 'date_str' is treated as a null terminated string
fmt (IN) - conversion format; if 'fmt' is a null pointer, then
the string is expected to be in the default format for
the datetime type.
fmt_length (IN) - length of the 'fmt' parameter
lang_name (IN) - language in which the names and abbreviations of
days and months are specified, if null i.e. (OraText *)0,
the default language of session is used,
lang_length (IN) - length of the 'lang_name' parameter
date (OUT) - given string converted to date
DESCRIPTION:
Converts the given string to Oracle datetime type set in the
OCIDateTime descriptor according to the specified format. Refer to
"TO_DATE" conversion function described in "Oracle SQL Language
Reference Manual" for a description of format.
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
invalid format
unknown language
invalid input string
--------------------------- OCIDateTimeGetDate-------------------------
sword OCIDateTimeGetDate(void *hndl, OCIError *err, const OCIDateTime *date,
sb2 *year, ub1 *month, ub1 *day );
NAME: OCIDateTimeGetDate - OCIDateTime Get Date (year, month, day)
portion of DATETIME.
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
datetime (IN) - Pointer to OCIDateTime
year (OUT) - year value
month (OUT) - month value
day (OUT) - day value
--------------------------- OCIDateTimeGetTime ------------------------
sword OCIDateTimeGetTime(void *hndl, OCIError *err, OCIDateTime *datetime,
ub1 *hour, ub1 *minute, ub1 *sec, ub4 *fsec);
NAME: OCIDateTimeGetTime - OCIDateTime Get Time (hour, min, second,
fractional second) of DATETIME.
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
datetime (IN) - Pointer to OCIDateTime
hour (OUT) - hour value
minute (OUT) - minute value
sec (OUT) - second value
fsec (OUT) - Fractional Second value
--------------------------- OCIDateTimeGetTimeZoneOffset ----------------------
sword OCIDateTimeGetTimeZoneOffset(void *hndl,OCIError *err,const
OCIDateTime *datetime,sb1 *hour,sb1 *minute);
NAME: OCIDateTimeGetTimeZoneOffset - OCIDateTime Get TimeZone (hour, minute)
portion of DATETIME.
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
datetime (IN) - Pointer to OCIDateTime
hour (OUT) - TimeZone Hour value
minute (OUT) - TimeZone Minute value
--------------------------- OCIDateTimeSysTimeStamp---------------------
sword OCIDateTimeSysTimeStamp(void *hndl, OCIError *err,
OCIDateTime *sys_date );
NAME: OCIDateTimeSysTimeStamp - Returns system date/time as a TimeStamp with
timezone
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
sys_date (OUT) - Pointer to output timestamp
DESCRIPTION:
Gets the system current date and time as a timestamp with timezone
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
------------------------------OCIDateTimeIntervalAdd----------------------
sword OCIDateTimeIntervalAdd(void *hndl, OCIError *err, OCIDateTime *datetime,
OCIInterval *inter, OCIDateTime *outdatetime);
NAME: OCIDateTimeIntervalAdd - Adds an interval to datetime
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
datetime (IN) - pointer to input datetime
inter (IN) - pointer to interval
outdatetime (IN) - pointer to output datetime. The output datetime
will be of same type as input datetime
DESCRIPTION:
Adds an interval to a datetime to produce a resulting datetime
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if:
resulting date is before Jan 1, -4713
resulting date is after Dec 31, 9999
------------------------------OCIDateTimeIntervalSub----------------------
sword OCIDateTimeIntervalSub(void *hndl, OCIError *err, OCIDateTime *datetime,
OCIInterval *inter, OCIDateTime *outdatetime);
NAME: OCIDateTimeIntervalSub - Subtracts an interval from a datetime
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
datetime (IN) - pointer to input datetime
inter (IN) - pointer to interval
outdatetime (IN) - pointer to output datetime. The output datetime
will be of same type as input datetime
DESCRIPTION:
Subtracts an interval from a datetime and stores the result in a
datetime
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if:
resulting date is before Jan 1, -4713
resulting date is after Dec 31, 9999
--------------------------- OCIDateTimeConstruct-------------------------
sword OCIDateTimeConstruct(void *hndl,OCIError *err,OCIDateTime *datetime,
sb2 year,ub1 month,ub1 day,ub1 hour,ub1 min,ub1 sec,ub4 fsec,
OraText *timezone,size_t timezone_length);
NAME: OCIDateTimeConstruct - Construct an OCIDateTime. Only the relevant
fields for the OCIDateTime descriptor types are used.
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
datetime (IN) - Pointer to OCIDateTime
year (IN) - year value
month (IN) - month value
day (IN) - day value
hour (IN) - hour value
min (IN) - minute value
sec (IN) - second value
fsec (IN) - Fractional Second value
timezone (IN) - Timezone string
timezone_length(IN) - Length of timezone string
DESCRIPTION:
Constructs a DateTime descriptor. The type of the datetime is the
type of the OCIDateTime descriptor. Only the relevant fields based
on the type are used. For Types with timezone, the date and time
fields are assumed to be in the local time of the specified timezone.
If timezone is not specified, then session default timezone is
assumed.
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_ERROR if datetime is not valid.
------------------------------OCIDateTimeSubtract-----------------------
sword OCIDateTimeSubtract(void *hndl, OCIError *err, OCIDateTime *indate1,
OCIDateTime *indate2, OCIInterval *inter);
NAME: OCIDateTimeSubtract - subtracts two datetimes to return an interval
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
indate1(IN) - pointer to subtrahend
indate2(IN) - pointer to minuend
inter (OUT) - pointer to output interval
DESCRIPTION:
Takes two datetimes as input and stores their difference in an
interval. The type of the interval is the type of the 'inter'
descriptor.
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
datetimes are not comparable.
--------------------------- OCIDateTimeToText--------------------------
sword OCIDateTimeToText(void *hndl, OCIError *err, const OCIDateTime *date,
const OraText *fmt, ub1 fmt_length, ub1 fsprec,
const OraText *lang_name, size_t lang_length,
ub4 *buf_size, OraText *buf );
NAME: OCIDateTimeToText - OCIDateTime convert date TO String
PARAMETERS:
hndl (IN) - Session/Env handle. If Session Handle is passed, the
conversion takes place in session NLS_LANGUAGE and
session NLS_CALENDAR, otherwise the default is used.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
date (IN) - Oracle datetime to be converted
fmt (IN) - conversion format, if null string pointer (OraText*)0, then
the date is converted to a character string in the
default format for that type.
fmt_length (IN) - length of the 'fmt' parameter
fsprec (IN) - specifies the fractional second precision in which the
fractional seconds is returned.
lang_name (IN) - specifies the language in which the names and
abbreviations of months and days are returned;
default language of session is used if 'lang_name'
is null i.e. (OraText *)0
lang_length (IN) - length of the 'nls_params' parameter
buf_size (IN/OUT) - size of the buffer; size of the resulting string
is returned via this parameter
buf (OUT) - buffer into which the converted string is placed
DESCRIPTION:
Converts the given date to a string according to the specified format.
Refer to "TO_DATE" conversion function described in
"Oracle SQL Language Reference Manual" for a description of format
and NLS arguments. The converted null-terminated date string is
stored in the buffer 'buf'.
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
buffer too small
invalid format
unknown language
overflow error
----------------------------OCIDateTimeGetTimeZoneName------------------------
sword OCIDateTimeGetTimeZoneName(void *hndl,
OCIError *err,
const OCIDateTime *datetime,
ub1 *buf,
ub4 *buflen);
NAME OCIDateTimeGetTimeZoneName - OCI DateTime Get the Time Zone Name
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
datetime (IN) - Pointer to an OCIDateTime.
buf (OUT) - User allocated storage for name string.
buflen (IN/OUT) - length of buf on input, length of name on out
DESCRIPTION:
Returns either the timezone region name or the absolute hour and minute
offset. If the DateTime was created with a region id then the region
name will be returned in the buf. If the region id is zero, then the
hour and minute offset is returned as "[-]HH:MM".
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
buffer too small
error retrieving timezone data
invalid region
invalid LdiDateTime type
---------------------------------OCIDateTimeToArray----------------------------
sword OCIDateTimeToArray(void *hndl,
OCIError *err,
const OCIDateTime *datetime,
const OCIInterval *reftz,
ub1 *outarray,
ub4 *len
ub1 *fsprec);
NAME OCIDateTimeToArray - OCI DateTime convert To Array format
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
datetime (IN) - Pointer to OCIDateTime to be converted.
outarray (OUT) - Result array storage
len (OUT) - pointer to length of outarray.
fsprec (IN) - Number of fractional seconds digits.
DESCRIPTION:
Returns an array representing the input DateTime descriptor.
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
buffer too small
error retrieving timezone data
invalid region
invalid LdiDateTime type
--------------------------------OCIDateTimeFromArray---------------------------
sword OCIDateTimeFromArray(void *hndl,
OCIError *err,
ub1 *inarray,
ub4 len
ub1 type
OCIDateTime *datetime,
OCIInterval *reftz,
ub1 fsprec);
NAME OCIDateTimeFromArray - OCI DateTime convert From Array format
PARAMETERS:
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
inarray (IN) - Pointer to input array representtion of DateTime
len (IN) - len of inarray.
type (IN) - One of SQLT_DATE, SQLT_TIME, SQLT_TIME_TZ, SQLT_TIMESTAMP,
SQLT_TIMESTAMP_TZ, or SQLT_TIMESTAMP_LTZ.
datetime (OUT) - Pointer to the result OCIDateTime.
reftz (IN) - timezone interval used with SQLT_TIMESTAMP_LTZ.
fsprec (IN) - fractionl seconds digits of precision (0-9).
DESCRIPTION:
Returns a pointer to an OCIDateTime of type type converted from
the inarray.
RETURNS:
OCI_SUCCESS if the function completes successfully.
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
buffer too small
error retrieving timezone data
invalid region
invalid LdiDateTime type
----------------------------------OCIRowidToChar-----------------------------
Name
OCIRowidToChar
Purpose
Converts physical/logical (universal) ROWID to chracter extended (Base 64)
representation into user provided buffer outbfp of length outbflp. After
execution outbflp contains amount of bytes converted.In case of truncation
error, outbflp contains required size to make this conversion successful
and returns ORA-1405.
Syntax
sword OCIRowidToChar( OCIRowid *rowidDesc,
OraText *outbfp,
ub2 *outbflp,
OCIError *errhp)
Comments
After this conversion, ROWID in character format can be bound using
OCIBindByPos or OCIBindByName call and used to query a row at a
desired ROWID.
Parameters
rowidDesc (IN) - rowid DESCriptor which is allocated from OCIDescritorAlloc
and populated by a prior SQL statement execution
outbfp (OUT) - pointer to the buffer where converted rowid in character
representation is stored after successful execution.
outbflp (IN/OUT) - pointer to output buffer length variable.
Before execution (IN mode) *outbflp contains the size of
outbfp, after execution (OUT mode) *outbflp contains amount
of bytes converted. In an event of truncation during
conversion *outbflp contains the required length to make
conversion successful.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
------------------------------OCIDefineArrayOfStruct--------------------------
OCIDefineArrayOfStruct()
Name
OCI Define for Array of Structures
Purpose
This call specifies additional attributes necessary for a static array define.
Syntax
sword OCIDefineArrayOfStruct ( OCIDefine *defnp,
OCIError *errhp,
ub4 pvskip,
ub4 indskip,
ub4 rlskip,
ub4 rcskip );
Comments
This call specifies additional attributes necessary for an array define,
used in an array of structures (multi-row, multi-column) fetch.
For more information about skip parameters, see the section "Skip Parameters"
on page 4-17.
Parameters
defnp (IN) - the handle to the define structure which was returned by a call
to OCIDefineByPos().
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
pvskip (IN) - skip parameter for the next data value.
indskip (IN) - skip parameter for the next indicator location.
rlskip (IN) - skip parameter for the next return length value.
rcskip (IN) - skip parameter for the next return code.
Related Functions
OCIAttrGet()
OCIDefineByPos()
Name
OCI Define By Position
Purpose
Associates an item in a select-list with the type and output data buffer.
Syntax
sb4 OCIDefineByPos (
OCIStmt *stmtp,
OCIDefine **defnp,
OCIError *errhp,
ub4 position,
void *valuep,
sb4 value_sz,
ub2 dty,
void *indp,
ub2 *rlenp,
ub2 *rcodep,
ub4 mode );
Comments
This call defines an output buffer which will receive data retreived from
Oracle. The define is a local step which is necessary when a SELECT statement
returns data to your OCI application.
This call also implicitly allocates the define handle for the select-list item.
Defining attributes of a column for a fetch is done in one or more calls. The
first call is to OCIDefineByPos(), which defines the minimal attributes
required to specify the fetch.
This call takes as a parameter a define handle, which must have been
previously allocated with a call to OCIHandleAlloc().
Following the call to OCIDefineByPos() additional define calls may be
necessary for certain data types or fetch modes:
A call to OCIDefineArrayOfStruct() is necessary to set up skip parameters
for an array fetch of multiple columns.
A call to OCIDefineObject() is necessary to set up the appropriate
attributes of a named data type fetch. In this case the data buffer pointer
in ocidefn() is ignored.
Both OCIDefineArrayOfStruct() and OCIDefineObject() must be called
after ocidefn() in order to fetch multiple rows with a column of named
data types.
For a LOB define, the buffer pointer must be a lob locator of type
OCILobLocator , allocated by the OCIDescAlloc() call. LOB locators, and not
LOB values, are always returned for a LOB column. LOB values can then be
fetched using OCI LOB calls on the fetched locator.
For NCHAR (fixed and varying length), the buffer pointer must point to an
array of bytes sufficient for holding the required NCHAR characters.
Nested table columns are defined and fetched like any other named data type.
If the mode parameter is this call is set to OCI_DYNAMIC_FETCH, the client
application can fetch data dynamically at runtime.
Runtime data can be provided in one of two ways:
callbacks using a user-defined function which must be registered with a
subsequent call to OCIDefineDynamic(). When the client library needs a
buffer to return the fetched data, the callback will be invoked and the
runtime buffers provided will return a piece or the whole data.
a polling mechanism using calls supplied by the OCI. This mode is
assumed if no callbacks are defined. In this case, the fetch call returns the
OCI_NEED_DATA error code, and a piecewise polling method is used
to provide the data.
Related Functions: For more information about using the
OCI_DYNAMIC_FETCH mode, see the section "Runtime Data
Allocation and Piecewise Operations" on page 5-16 of Volume 1..
For more information about the define step, see the section "Defining"
on page 2-30.
Parameters
stmtp (IN) - a handle to the requested SQL query operation.
defnp (IN/OUT) - a pointer to a pointer to a define handle which is implicitly
allocated by this call. This handle is used to store the define information
for this column.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
position (IN) - the position of this value in the select list. Positions are
1-based and are numbered from left to right. For example, in the SELECT
statement
SELECT empno, ssn, mgrno FROM employees;
empno is at position 1, ssn is at position 2, and mgrno is at position 3.
valuep (IN/OUT) - a pointer to a buffer or an array of buffers of the type
specified in the dty parameter. A number of buffers can be specified when
results for more than one row are desired in a single fetch call.
value_sz (IN) - the size of each valuep buffer in bytes. If the data is stored
internally in VARCHAR2 format, the number of characters desired, if different
from the buffer size in bytes, may be additionally specified by the using
OCIAttrSet().
In an NLS conversion environment, a truncation error will be generated if the
number of bytes specified is insufficient to handle the number of characters
desired.
dty (IN) - the data type. Named data type (SQLT_NTY) and REF (SQLT_REF)
are valid only if the environment has been intialized with in object mode.
indp - pointer to an indicator variable or array. For scalar data types,
pointer to sb2 or an array of sb2s. Ignored for named data types. For named
data types, a pointer to a named data type indicator structure or an array of
named data type indicator structures is associated by a subsequent
OCIDefineObject() call.
See the section "Indicator Variables" on page 2-43 for more information about
indicator variables.
rlenp (IN/OUT) - pointer to array of length of data fetched. Each element in
rlenp is the length of the data in the corresponding element in the row after
the fetch.
rcodep (OUT) - pointer to array of column-level return codes
mode (IN) - the valid modes are:
OCI_DEFAULT. This is the default mode.
OCI_DYNAMIC_FETCH. For applications requiring dynamically
allocated data at the time of fetch, this mode must be used. The user may
additionally call OCIDefineDynamic() to set up a callback function that
will be invoked to receive the dynamically allocated buffers and to set
up the memory allocate/free callbacks and the context for the callbacks.
valuep and value_sz are ignored in this mode.
Related Functions
OCIDefineArrayOfStruct(), OCIDefineDynamic(), OCIDefineObject()
OCIDefineDynamic()
Name
OCI Define Dynamic Fetch Attributes
Purpose
This call is used to set the additional attributes required if the
OCI_DYNAMIC_FETCH mode was selected in OCIDefineByPos().
Syntax
sword OCIDefineDynamic( OCIDefine *defnp,
OCIError *errhp,
void *octxp,
OCICallbackDefine (ocbfp)(
void *octxp,
OCIDefine *defnp,
ub4 iter,
void **bufpp,
ub4 **alenpp,
ub1 *piecep,
void **indpp,
ub2 **rcodep) );
Comments
This call is used to set the additional attributes required if the
OCI_DYNAMIC_FETCH mode has been selected in a call to
OCIDefineByPos().
When the OCI_DYNAMIC_FETCH mode is selected, buffers will be
dynamically allocated for REF, and named data type, values to receive the
data. The pointers to these buffers will be returned.
If OCI_DYNAMIC_FETCH mode was selected, and the call to
OCIDefineDynamic() is skipped, then the application can fetch data piecewise
using OCI calls.
For more information about OCI_DYNAMIC_FETCH mode, see the section
"Runtime Data Allocation and Piecewise Operations" on page 5-16.
Parameters
defnp (IN/OUT) - the handle to a define structure returned by a call to
OCIDefineByPos().
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
octxp (IN) - points to a context for the callback function.
ocbfp (IN) - points to a callback function. This is invoked at runtime to get
a pointer to the buffer into which the fetched data or a piece of it will be
retreived. The callback also specifies the indicator, the return code and the
lengths of the data piece and indicator. The callback has the following
parameters:
octxp (IN) - a context pointer passed as an argument to all the callback
functions.
defnp (IN) - the define handle.
iter (IN) - which row of this current fetch.
bufpp (OUT) - returns a pointer to a buffer to store the column value, ie.
*bufp points to some appropriate storage for the column value.
alenpp (OUT) - returns a pointer to the length of the buffer. *alenpp
contains the size of the buffer after return from callback. Gets set to
actual data size after fetch.
piecep (IN/OUT) - returns a piece value, as follows:
The IN value can be OCI_ONE_PIECE, OCI_FIRST_PIECE or
OCI_NEXT_PIECE.
The OUT value can be OCI_ONE_PIECE if the IN value was
OCI_ONE_PIECE.
The OUT value can be OCI_ONE_PIECE or OCI_FIRST_PIECE if
the IN value was OCI_FIRST_PIECE.
The OUT value can only be OCI_NEXT_PIECE or
OCI_LAST_PIECE if the IN value was OCI_NEXT_PIECE.
indpp (IN) - indicator variable pointer
rcodep (IN) - return code variable pointer
Related Functions
OCIAttrGet()
OCIDefineObject()
OCIDefineObject()
Name
OCI Define Named Data Type attributes
Purpose
Sets up additional attributes necessary for a Named Data Type define.
Syntax
sword OCIDefineObject ( OCIDefine *defnp,
OCIError *errhp,
const OCIType *type,
void **pgvpp,
ub4 *pvszsp,
void **indpp,
ub4 *indszp );
Comments
This call sets up additional attributes necessary for a Named Data Type define.
An error will be returned if this function is called when the OCI environment
has been initialized in non-Object mode.
This call takes as a paramter a type descriptor object (TDO) of datatype
OCIType for the named data type being defined. The TDO can be retrieved
with a call to OCITypeByName().
See the description of OCIInitialize() on page 13 - 43 for more information
about initializing the OCI process environment.
Parameters
defnp (IN/OUT) - a define handle previously allocated in a call to
OCIDefineByPos().
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
type (IN, optional) - points to the Type Descriptor Object (TDO) which
describes the type of the program variable. Only used for program variables
of type SQLT_NTY. This parameter is optional, and may be passed as NULL
if it is not being used.
pgvpp (IN/OUT) - points to a pointer to a program variable buffer. For an
array, pgvpp points to an array of pointers. Memory for the fetched named data
type instance(s) is dynamically allocated in the object cache. At the end of
the fetch when all the values have been received, pgvpp points to the
pointer(s) to these newly allocated named data type instance(s). The
application must call OCIObjectMarkDel() to deallocate the named data type
instance(s) when they are no longer needed.
pvszsp (IN/OUT) - points to the size of the program variable. For an array, it
is an array of ub4s. On return points to the size(s) of unpickled fetched
values.
indpp (IN/OUT) - points to a pointer to the program variable buffer
containing the parallel indicator structure. For an array, points to an array
of pointers. Memory is allocated to store the indicator structures in the
object cache. At the end of the fetch when all values have been received,
indpp points to the pointer(s) to these newly allocated indicator structure(s).
indszp (IN/OUT) - points to the size(s) of the indicator structure program
variable. For an array, it is an array of ub4s. On return points to the size(s)
of the unpickled fetched indicator values.
Related Functions
OCIAttrGet()
OCIDescAlloc()
Name
OCI Get DESCriptor or lob locator
Purpose
Allocates storage to hold certain data types. The descriptors can be used as
bind or define variables.
Syntax
sword OCIDescAlloc ( const void *parenth,
void **descpp,
ub4 type,
size_t xtramem_sz,
void **usrmempp);
Comments
Returns a pointer to an allocated and initialized structure, corresponding to
the type specified in type. A non-NULL descriptor or LOB locator is returned
on success. No diagnostics are available on error.
This call returns OCI_SUCCESS if successful, or OCI_INVALID_HANDLE if
an out-of-memory error occurs.
Parameters
parenth (IN) - an environment handle.
descpp (OUT) - returns a descriptor or LOB locator of desired type.
type (IN) - specifies the type of descriptor or LOB locator to be allocated.
The specific types are:
OCI_DTYPE_SNAP - specifies generation of snapshot descriptor of C
type - OCISnapshot
OCI_DTYPE_LOB - specifies generation of a LOB data type locator of C
type - OCILobLocator
OCI_DTYPE_RSET - specifies generation of a descriptor of C type
OCIResult that references a result set (a number of rows as a result of a
query). This descriptor is bound to a bind variable of data type
SQLT_RSET (result set). The descriptor has to be converted into a
statement handle using a function - OCIResultSetToStmt() - which can
then be passed to OCIDefineByPos() and OCIStmtFetch() to retrieve the
rows of the result set.
OCI_DTYPE_ROWID - specifies generation of a ROWID descriptor of C
type OCIRowid.
OCI_DTYPE_COMPLEXOBJECTCOMP - specifies generation of a
complex object retrieval descriptor of C type
OCIComplexObjectComp.
xtramemsz (IN) - specifies an amount of user memory to be allocated for use
by the application.
usrmempp (OUT) - returns a pointer to the user memory of size xtramemsz
allocated by the call for the user.
Related Functions
OCIDescFree()
OCIDescFree()
Name
OCI Free DESCriptor
Purpose
Deallocates a previously allocated descriptor.
Syntax
sword OCIDescFree ( void *descp,
ub4 type);
Comments
This call frees up storage associated with the descriptor, corresponding to the
type specified in type. Returns OCI_SUCCESS or OCI_INVALID_HANDLE.
All descriptors must be explicitly deallocated. OCI will not deallocate a
descriptor if the environment handle is deallocated.
Parameters
descp (IN) - an allocated descriptor.
type (IN) - specifies the type of storage to be freed. The specific types are:
OCI_DTYPE_SNAP - snapshot descriptor
OCI_DTYPE_LOB - a LOB data type descriptor
OCI_DTYPE_RSET - a descriptor that references a result set (a number
of rows as a result of a query).
OCI_DTYPE_ROWID - a ROWID descriptor
OCI_DTYPE_COMPLEXOBJECTCOMP - a complex object retrieval
descriptor
Related Functions
OCIDescAlloc()
OCIDescribeAny()
Name
OCI DeSCribe Any
Purpose
Describes existing schema objects.
Syntax
sword OCIDescribeAny ( OCISvcCtx *svchp,
OCIError *errhp,
void *objptr,
ub4 objnm_len,
ub1 objptr_typ,
ub1 info_level,
ub1 objtype,
OCIDesc *dschp );
Comments
This is a generic describe call that describes existing schema objects: tables,
views, synonyms, procedures, functions, packages, sequences, and types. As a
result of this call, the describe handle is populated with the object-specific
attributes which can be obtained through an OCIAttrGet() call.
An OCIParamGet() on the describe handle returns a parameter descriptor for a
specified position. Parameter positions begin with 1. Calling OCIAttrGet() on
the parameter descriptor returns the specific attributes of a stored procedure
or function parameter or a table column descriptor as the case may be.
These subsequent calls do not need an extra round trip to the server because
the entire schema object description cached on the client side by
OCIDescribeAny(). Calling OCIAttrGet() on the describe handle can also return
the total number of positions.
See the section "Describing" on page 2-33 for more information about describe
operations.
Parameters
TO BE UPDATED
svchp (IN/OUT) - a service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
objptr (IN) - the name of the object (a null-terminated string) to be
described. Only procedure or function names are valid when connected to an
Oracle7 Server.
objptr_len (IN) - the length of the string. Must be non-zero.
objptr_typ (IN) - Must be OCI_OTYPE_NAME, OCI_OTYPE_REF, or OCI_OTYPE_PTR.
info_level (IN) - reserved for future extensions. Pass OCI_DEFAULT.
objtype (IN/OUT) - object type.
dschp (IN/OUT) - a describe handle that is populated with describe
information about the object after the call.
Related Functions
OCIAttrGet()
OCIEnvCreate()
Name
OCI ENVironment CREATE
Purpose
This function creates and initializes an environment for the rest of
the OCI functions to work under. This call is a replacement for both
the OCIInitialize and OCIEnvInit calls.
Syntax
sword OCIEnvCreate ( OCIEnv **envhpp,
ub4 mode,
const void *ctxp,
const void *(*malocfp)
(void *ctxp,
size_t size),
const void *(*ralocfp)
(void *ctxp,
void *memptr,
size_t newsize),
const void (*mfreefp)
( void *ctxp,
void *memptr))
size_t xtramemsz,
void **usrmempp );
Comments
This call creates an environment for all the OCI calls using the modes
specified by the user. This call can be used instead of the two calls
OCIInitialize and OCIEnvInit. This function returns an environment handle
which is then used by the remaining OCI functions. There can be multiple
environments in OCI each with its own environment modes. This function
also performs any process level initialization if required by any mode.
For example if the user wants to initialize an environment as OCI_THREADED,
then all libraries that are used by OCI are also initialized in the
threaded mode.
This call should be invoked before anny other OCI call and should be used
instead of the OCIInitialize and OCIEnvInit calls. This is the recommended
call, although OCIInitialize and OCIEnvInit calls will still be supported
for backward compatibility.
envpp (OUT) - a pointer to a handle to the environment.
mode (IN) - specifies initialization of the mode. The valid modes are:
OCI_DEFAULT - default mode.
OCI_THREADED - threaded environment. In this mode, internal data
structures are protected from concurrent accesses by multiple threads.
OCI_OBJECT - will use navigational object interface.
ctxp (IN) - user defined context for the memory call back routines.
malocfp (IN) - user-defined memory allocation function. If mode is
OCI_THREADED, this memory allocation routine must be thread safe.
ctxp - context pointer for the user-defined memory allocation function.
size - size of memory to be allocated by the user-defined memory
allocation function
ralocfp (IN) - user-defined memory re-allocation function. If mode is
OCI_THREADED, this memory allocation routine must be thread safe.
ctxp - context pointer for the user-defined memory reallocation
function.
memp - pointer to memory block
newsize - new size of memory to be allocated
mfreefp (IN) - user-defined memory free function. If mode is
OCI_THREADED, this memory free routine must be thread safe.
ctxp - context pointer for the user-defined memory free function.
memptr - pointer to memory to be freed
xtramemsz (IN) - specifies the amount of user memory to be allocated.
usrmempp (OUT) - returns a pointer to the user memory of size xtramemsz
allocated by the call for the user.
Example
Related Functions
OCIInitialize, OCIEnvInit
OCIEnvNlsCreate()
Name
OCI ENVironment CREATE with NLS info
Purpose
This function does almost everything OCIEnvCreate does, plus enabling setting
of charset and ncharset programmatically, except OCI_UTF16 mode.
Syntax
sword OCIEnvNlsCreate(OCIEnv **envhpp,
ub4 mode,
void *ctxp,
void *(*malocfp)
(void *ctxp,
size_t size),
void *(*ralocfp)
(void *ctxp,
void *memptr,
size_t newsize),
void (*mfreefp)
(void *ctxp,
void *memptr),
size_t xtramemsz,
void **usrmempp,
ub2 charset,
ub2 ncharset)
Comments
The charset and ncharset must be both zero or non-zero.
The parameters have the same meaning as the ones in OCIEnvCreate().
When charset or ncharset is non-zero, the corresponding character set will
be used to replace the ones specified in NLS_LANG or NLS_NCHAR. Moreover,
OCI_UTF16ID is allowed to be set as charset and ncharset.
On the other hand, OCI_UTF16 mode is deprecated with this function.
Applications can achieve the same effects by setting
both charset and ncharset as OCI_UTF16ID.
OCIEnvInit()
Name
OCI INITialize environment
Purpose
This call initializes the OCI environment handle.
Syntax
sword OCIEnvInit ( OCIEnv **envp,
ub4 mode,
size_t xtramemsz,
void **usrmempp );
Comments
Initializes the OCI environment handle. No changes are done on an initialized
handle. If OCI_ERROR or OCI_SUCCESS_WITH_INFO is returned, the
environment handle can be used to obtain ORACLE specific errors and
diagnostics.
This call is processed locally, without a server round-trip.
Parameters
envpp (OUT) - a pointer to a handle to the environment.
mode (IN) - specifies initialization of an environment mode. The only valid
mode is OCI_DEFAULT for default mode
xtramemsz (IN) - specifies the amount of user memory to be allocated.
usrmempp (OUT) - returns a pointer to the user memory of size xtramemsz
allocated by the call for the user.
Example
See the description of OCISessionBegin() on page 13-84 for an example showing
the use of OCIEnvInit().
Related Functions
OCIErrorGet()
Name
OCI Get Diagnostic Record
Purpose
Returns an error message in the buffer provided and an ORACLE error.
Syntax
sword OCIErrorGet ( void *hndlp,
ub4 recordno,
OraText *sqlstate,
ub4 *errcodep,
OraText *bufp,
ub4 bufsiz,
ub4 type );
Comments
Returns an error message in the buffer provided and an ORACLE error.
Currently does not support SQL state. This call can be called a multiple
number of times if there are more than one diagnostic record for an error.
The error handle is originally allocated with a call to OCIHandleAlloc().
Parameters
hndlp (IN) - the error handle, in most cases, or the environment handle (for
errors on OCIEnvInit(), OCIHandleAlloc()).
recordno (IN) - indicates the status record from which the application seeks
info. Starts from 1.
sqlstate (OUT) - Not supported in Version 8.0.
errcodep (OUT) - an ORACLE Error is returned.
bufp (OUT) - the error message text is returned.
bufsiz (IN) - the size of the buffer provide to get the error message.
type (IN) - the type of the handle.
Related Functions
OCIHandleAlloc()
OCIExtractInit
Name
OCI Extract Initialize
Purpose
This function initializes the parameter manager.
Syntax
sword OCIExtractInit(void *hndl, OCIError *err);
Comments
It must be called before calling any other parameter manager routine. The NLS
information is stored inside the parameter manager context and used in
subsequent calls to OCIExtract routines.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
Related Functions
OCIExtractTerm()
OCIExtractTerm
Name
OCI Extract Terminate
Purpose
This function releases all dynamically allocated storage and may perform
other internal bookkeeping functions.
Syntax
sword OCIExtractTerm(void *hndl, OCIError *err);
Comments
It must be called when the parameter manager is no longer being used.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
Related Functions
OCIExtractInit()
OCIExtractReset
Name
OCI Extract Reset
Purpose
The memory currently used for parameter storage, key definition storage, and
parameter value lists is freed and the structure is reinitialized.
Syntax
sword OCIExtractReset(void *hndl, OCIError *err);
Comments
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
Related Functions
OCIExtractSetNumKeys
Name
OCI Extract Set Number of Keys
Purpose
Informs the parameter manager of the number of keys that will be registered.
Syntax
sword OCIExtractSetNumKeys(void *hndl, OCIError *err, uword numkeys);
Comments
This routine must be called prior to the first call of OCIExtractSetKey().
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
numkeys (IN) - The number of keys that will be registered with
OCIExtractSetKey().
Related Functions
OCIExtractSetKey()
OCIExtractSetKey
Name
OCI Extract Set Key definition
Purpose
Registers information about a key with the parameter manager.
Syntax
sword OCIExtractSetKey(void *hndl, OCIError *err, const OraText *name,
ub1 type, ub4 flag, const void *defval,
const sb4 *intrange, const OraText *const *strlist);
Comments
This routine must be called after calling OCIExtractSetKey() and before
calling OCIExtractFromFile() or OCIExtractFromStr().
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
name (IN) - The name of the key.
type (IN) - The type of the key (OCI_EXTRACT_TYPE_INTEGER,
OCI_EXTRACT_TYPE_OCINUM, OCI_EXTRACT_TYPE_STRING, or
OCI_EXTRACT_TYPE_BOOLEAN).
flag (IN) - Set to OCI_EXTRACT_MULTIPLE if the key can take multiple values
or 0 otherwise.
defval (IN) - Set to the default value for the key. May be NULL if there is
no default. A string default must be a (text*) type, an
integer default must be an (sb4*) type, and a boolean default
must be a (ub1*) type.
intrange (IN) - Starting and ending values for the allowable range of integer
values. May be NULL if the key is not an integer type or if
all integer values are acceptable.
strlist (IN) - List of all acceptable text strings for the key. May be NULL
if the key is not a string type or if all text values are
acceptable.
Related Functions
OCIExtractSetNumKeys()
OCIExtractFromFile
Name
OCI Extract parameters From File
Purpose
The keys and their values in the given file are processed.
Syntax
sword OCIExtractFromFile(void *hndl, OCIError *err, ub4 flag,
OraText *filename);
Comments
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
flag (IN) - Zero or has one or more of the following bits set:
OCI_EXTRACT_CASE_SENSITIVE, OCI_EXTRACT_UNIQUE_ABBREVS, or
OCI_EXTRACT_APPEND_VALUES.
filename (IN) - Null-terminated filename string.
Related Functions
OCIExtractFromStr
Name
OCI Extract parameters From String
Purpose
The keys and their values in the given string are processed.
Syntax
sword OCIExtractFromStr(void *hndl, OCIError *err, ub4 flag, OraText *input);
Comments
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
flag (IN) - Zero or has one or more of the following bits set:
OCI_EXTRACT_CASE_SENSITIVE, OCI_EXTRACT_UNIQUE_ABBREVS, or
OCI_EXTRACT_APPEND_VALUES.
input (IN) - Null-terminated input string.
Related Functions
OCIExtractToInt
Name
OCI Extract To Integer
Purpose
Gets the integer value for the specified key.
Syntax
sword OCIExtractToInt(void *hndl, OCIError *err, OraText *keyname,
uword valno, sb4 *retval);
Comments
The valno'th value (starting with 0) is returned.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, OCI_NO_DATA, or OCI_ERROR.
OCI_NO_DATA means that there is no valno'th value for this key.
Parameters
hndl (IN) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
keyname (IN) - Key name.
valno (IN) - Which value to get for this key.
retval (OUT) - The actual integer value.
Related Functions
OCIExtractToBool
Name
OCI Extract To Boolean
Purpose
Gets the boolean value for the specified key.
Syntax
sword OCIExtractToBool(void *hndl, OCIError *err, OraText *keyname,
uword valno, ub1 *retval);
Comments
The valno'th value (starting with 0) is returned.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, OCI_NO_DATA, or OCI_ERROR.
OCI_NO_DATA means that there is no valno'th value for this key.
Parameters
hndl (IN) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
keyname (IN) - Key name.
valno (IN) - Which value to get for this key.
retval (OUT) - The actual boolean value.
Related Functions
OCIExtractToStr
Name
OCI Extract To String
Purpose
Gets the string value for the specified key.
Syntax
sword OCIExtractToStr(void *hndl, OCIError *err, OraText *keyname,
uword valno, OraText *retval, uword buflen);
Comments
The valno'th value (starting with 0) is returned.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, OCI_NO_DATA, or OCI_ERROR.
OCI_NO_DATA means that there is no valno'th value for this key.
Parameters
hndl (IN) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
keyname (IN) - Key name.
valno (IN) - Which value to get for this key.
retval (OUT) - The actual null-terminated string value.
buflen (IN) - The length of the buffer for retval.
Related Functions
Note: The following OCIExtract functions are unavailable in this release
OCIExtractToOCINum
Name
OCI Extract To OCI Number
Purpose
Gets the OCINumber value for the specified key.
Syntax
sword OCIExtractToOCINum(void *hndl, OCIError *err, OraText *keyname,
uword valno, OCINumber *retval);
Comments
The valno'th value (starting with 0) is returned.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, OCI_NO_DATA, or OCI_ERROR.
OCI_NO_DATA means that there is no valno'th value for this key.
Parameters
hndl (IN) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
keyname (IN) - Key name.
valno (IN) - Which value to get for this key.
retval (OUT) - The actual OCINumber value.
Related Functions
OCIExtractToList
Name
OCI Extract To parameter List
Purpose
Generates a list of parameters from the parameter structures that are stored
in memory.
Syntax
sword OCIExtractToList(void *hndl, OCIError *err, uword *numkeys);
Comments
Must be called before OCIExtractValues() is called.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
numkeys (OUT) - Number of distinct keys stored in memory.
Related Functions
OCIExtractFromList()
OCIExtractFromList
Name
OCI Extract From parameter List
Purpose
Generates a list of values for the a parameter in the parameter list.
Syntax
sword OCIExtractFromList(void *hndl, OCIError *err, uword index,
OraText *name, ub1 *type, uword *numvals,
void ***values);
Comments
Parameters are specified by an index. OCIExtractToList() must be called prior
to calling this routine to generate the parameter list from the parameter
structures that are stored in memory.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN) - The OCI environment or session handle.
err (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information
can be obtained by calling OCIErrorGet().
name (OUT) - Name of the key for the current parameter.
type (OUT) - Type of the current parameter (OCI_EXTRACT_TYPE_STRING,
OCI_EXTRACT_TYPE_INTEGER, OCI_EXTRACT_TYPE_OCINUM, or
OCI_EXTRACT_TYPE_BOOLEAN)
numvals (OUT) - Number of values for this parameter.
values (OUT) - The values for this parameter.
Related Functions
OCIExtractToList()
************************ OCIFileClose() ***********************************
Name
OCIFileClose - Oracle Call Interface FILE i/o CLOSE
Purpose
Close a previously opened file.
Syntax
sword OCIFileClose ( void *hndl,
OCIError *err,
OCIFileObject *filep )
Comments
This function will close a previously opened file. If the function succeeds
then OCI_SUCCESS will be returned, else OCI_ERROR.
Parameters
hndl (IN) - the OCI environment or session handle.
err (OUT) - the OCI error handle
filep (IN) - the OCIFile file object
Related Functions
OCIFileOpen.
********************* OCIFileExists() **************************************
Name
OCIFileExists - Oracle Call Interface FILE i/o EXIST
Purpose
Check to see if the file exists.
Syntax
sword OCIFileExists ( void *hndl,
OCIError *err,
OraText *filename,
OraText *path,
ub1 *flag )
Comments
This function will set the flag to TRUE if the file exists else it will
be set to FALSE.
The function will return OCI_ERROR if any error is encountered, else
it will return OCI_ERROR.
Parameters
hndl(IN) - OCI environment or session handle
err(OUT) - OCI error handle
filename(IN) - filename
path(IN) - path of the file
flag(OUT) - whether the file exists or not
Related Functions.
None.
**************************** OCIFileFlush() ******************************
Name
OCIFileFlush - Oracle Call Interface File i/o FLUSH
Purpose
Flush the buffers associated with the file to the disk.
Syntax
sword OCIFileFlush ( void *hndl,
OCIError *err,
OCIFileObject *filep )
Comments
The function will return OCI_ERROR if any error is encountered, else
it will return OCI_ERROR.
Parameters
hndl (IN) - the OCI environment or session handle.
err (OUT) - the OCI error handle
filep (IN) - the OCIFile file object
Related Functions
OCIFileOpen, OCIFileWrite
*************************** OCIFileGetLength() ****************************
Name
OCIFileGetLength - Oracle Call Interface FILE i/o GET file LENGTH
Purpose
Get the length of a file.
Syntax
OCIFileGetLength(void *hndl,
OCIError *err,
OraText *filename,
OraText *path,
ubig_ora *lenp )
Comments
The length of the file will be returned in lenp.
The function will return OCI_ERROR if any error is encountered, else
it will return OCI_ERROR.
Parameters
hndl (IN) - the OCI environment or session handle.
err (OUT) - the OCI error handle. If there is an error, it is recorded
in err and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
filename (IN) - file name.
path (IN) - path of the file.
lenp (OUT) - On output, it is the length of the file in bytes.
is the number of bytes in the file.
Related Functions
None.
******************************** OCIFileInit() *****************************
Name
OCIFileInit - Oracle Call Interface FILE i/o INITialize
Purpose
Initialize the OCI File I/O package and create the OCIFile context.
Syntax
sword OCIFileInit ( void *hndl,
OCIError *err)
Comments
This function should be called before any of the OCIFile functions are
used.
The function will return OCI_ERROR if any error is encountered, else
it will return OCI_ERROR.
Parameters
hndl(IN) - OCI environment or session handle.
err(OUT) - OCI error structure.
Related Functions
OCIFileTerm
********************************* OCIFileOpen() *****************************
Name
OCIFileOpen - Oracle Call Interface File i/o OPEN
Purpose
Open a file.
Syntax
sword OCIFileOpen ( void *hndl,
OCIError *err,
OCIFileObject **filep,
OraText *filename,
OraText *path,
ub4 mode,
ub4 create,
ub4 type )
Comments
OCIFileOpen returns a handle to the open file in filep if the file is
successfully opened.
If one wants to use the standard file objects (stdin, stdout & stderr)
then OCIFileOpen whould be called with the type filed containing the
appropriate type (see the parameter type). If any of the standard files
are specified then filename, path, mode and create are ignored.
The function will return OCI_ERROR if any error is encountered, else
it will return OCI_ERROR.
Parameters
hndl (OUT) - the OCI environment or session handle.
err (OUT) - the OCI error handle. If there is an error, it is recorded
in err and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
filep (OUT) - the file object to be returned.
filename (IN) - file name (NULL terminated string).
path (IN) - path of the file (NULL terminated string).
mode - mode in which to open the file (valid modes are OCI_FILE_READONLY,
OCI_FILE_WRITEONLY, OCI_FILE_READ_WRITE).
create - should the file be created if it does not exist. Valid values
are:
OCI_FILE_TRUNCATE - create a file regardless of whether or not it exists.
If the file already exists overwrite it.
OCI_FILE_EXIST - open it if it exists, else fail.
OCI_FILE_EXCL - fail if the file exists, else create.
OCI_FILE_CREATE - open the file if it exists, and create it if it doesn't.
OCI_FILE_APPEND - set the file pointer to the end of the file prior to
writing(this flag can be OR'ed with OCI_FILE_EXIST or
OCI_FILE_CREATE).
type - file type. Valid values are OCI_FILE_TEXT, OCI_FILE_BIN,
OCI_FILE_STDIN, OCI_FILE_STDOUT and OCI_FILE_STDERR.
If any of the standard files are specified then filename, path, mode
and create are ignored.
Related Functions.
OCIFileClose
************************** OCIFileRead() ************************************
Name
OCIFileRead - Oracle Call Interface FILE i/o READ
Purpose
Read from a file into a buffer.
Syntax
sword OCIFileRead ( void *hndl,
OCIError *err,
OCIFileObject *filep,
void *bufp,
ub4 bufl,
ub4 *bytesread )
Comments
Upto bufl bytes from the file will be read into bufp. The user should
allocate memory for the buffer.
The number of bytes read would be in bytesread.
The function will return OCI_ERROR if any error is encountered, else
it will return OCI_ERROR.
Parameters
hndl (IN) - the OCI environment or session handle.
err (OUT) - the OCI error handle. If there is an error, it is recorded
in err and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
filep (IN/OUT) - a File Object that uniquely references the file.
bufp (IN) - the pointer to a buffer into which the data will be read. The
length of the allocated memory is assumed to be bufl.
bufl - the length of the buffer in bytes.
bytesread (OUT) - the number of bytes read.
Related Functions
OCIFileOpen, OCIFileSeek, OCIFileWrite
****************************** OCIFileSeek() ******************************
Name
OCIFileSeek - Oracle Call Interface FILE i/o SEEK
Purpose
Perfom a seek to a byte position.
Syntax
sword OCIFileSeek ( void *hndl,
OCIError *err,
OCIFileObject *filep,
uword origin,
ubig_ora offset,
sb1 dir)
Comments
The function will return OCI_ERROR if any error is encountered, else
it will return OCI_ERROR.
Parameters
hndl (IN) - the OCI environment or session handle.
err (OUT) - the OCI error handle. If there is an error, it is recorded
in err and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
filep (IN/OUT) - a file handle that uniquely references the file.
origin - The starting point we want to seek from. NOTE: The starting
point may be OCI_FILE_SEEK_BEGINNING (beginning), OCI_FILE_SEEK_CURRENT
(current position), or OCI_FILE_SEEK_END (end of file).
offset - The number of bytes from the origin we want to start reading from.
dir - The direction we want to go from the origin. NOTE: The direction
can be either OCI_FILE_FORWARD or OCI_FILE_BACKWARD.
Related Function
OCIFileOpen, OCIFileRead, OCIFileWrite
*************************** OCIFileTerm() **********************************
Name
OCIFileTerm - Oracle Call Interface FILE i/o TERMinate
Purpose
Terminate the OCI File I/O package and destroy the OCI File context.
Syntax
sword OCIFileTerm ( void *hndl,
OCIError *err )
Comments
After this function has been called no OCIFile function should be used.
The function will return OCI_ERROR if any error is encountered, else
it will return OCI_ERROR.
Parameters
hndl(IN) - OCI environment or session handle.
err(OUT) - OCI error structure.
Related Functions
OCIFileInit
********************************* OCIFileWrite() ****************************
Name
OCIFileWrite - Oracle Call Interface FILE i/o WRITE
Purpose
Write data from buffer into a file.
Syntax
sword OCIFileWrite ( void *hndl,
OCIError *err,
OCIFileObject *filep,
void *bufp,
ub4 buflen
ub4 *byteswritten )
Comments
The number of bytes written will be in *byteswritten.
The function will return OCI_ERROR if any error is encountered, else
it will return OCI_ERROR.
Parameters
hndl (IN) - the OCI environment or session handle.
err (OUT) - the OCI error handle. If there is an error, it is recorded
in err and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
filep (IN/OUT) - a file handle that uniquely references the file.
bufp (IN) - the pointer to a buffer from which the data will be written.
The length of the allocated memory is assumed to be the value passed
in bufl.
bufl - the length of the buffer in bytes.
byteswritten (OUT) - the number of bytes written.
Related Functions
OCIFileOpen, OCIFileSeek, OCIFileRead
OCIHandleAlloc()
Name
OCI Get HaNDLe
Purpose
This call returns a pointer to an allocated and initialized handle.
Syntax
sword OCIHandleAlloc ( const void *parenth,
void **hndlpp,
ub4 type,
size_t xtramem_sz,
void **usrmempp);
Comments
Returns a pointer to an allocated and initialized structure, corresponding to
the type specified in type. A non-NULL handle is returned on success. Bind
handle and define handles are allocated with respect to a statement handle. All
other handles are allocated with respect to an environment handle which is
passed in as a parent handle.
No diagnostics are available on error. This call returns OCI_SUCCESS if
successful, or OCI_INVALID_HANDLE if an out-of-memory error occurs.
Handles must be allocated using OCIHandleAlloc() before they can be passed
into an OCI call.
Parameters
parenth (IN) - an environment or a statement handle.
hndlpp (OUT) - returns a handle to a handle type.
type (IN) - specifies the type of handle to be allocated. The specific types
are:
OCI_HTYPE_ERROR - specifies generation of an error report handle of
C type OCIError
OCI_HTYPE_SVCCTX - specifies generation of a service context handle
of C type OCISvcCtx
OCI_HTYPE_STMT - specifies generation of a statement (application
request) handle of C type OCIStmt
OCI_HTYPE_BIND - specifies generation of a bind information handle
of C type OCIBind
OCI_HTYPE_DEFINE - specifies generation of a column definition
handle of C type OCIDefine
OCI_HTYPE_DESCRIBE - specifies generation of a select list
description handle of C type OCIDesc
OCI_HTYPE_SERVER - specifies generation of a server context handle
of C type OCIServer
OCI_HTYPE_SESSION - specifies generation of an authentication
context handle of C type OCISession
OCI_HTYPE_TRANS - specifies generation of a transaction context
handle of C type OCITrans
OCI_HTYPE_COMPLEXOBJECT - specifies generation of a complex
object retrieval handle of C type OCIComplexObject
OCI_HTYPE_SECURITY - specifies generation of a security handle of C
type OCISecurity
xtramem_sz (IN) - specifies an amount of user memory to be allocated.
usrmempp (OUT) - returns a pointer to the user memory of size xtramemsz
allocated by the call for the user.
Related Functions
OCIHandleFree()
OCIHandleFree()
Name
OCI Free HaNDLe
Purpose
This call explicitly deallocates a handle.
Syntax
sword OCIHandleFree ( void *hndlp,
ub4 type);
Comments
This call frees up storage associated with a handle, corresponding to the type
specified in the type parameter.
This call returns either OCI_SUCCESS or OCI_INVALID_HANDLE.
All handles must be explicitly deallocated. OCI will not deallocate a child
handle if the parent is deallocated.
Parameters
hndlp (IN) - an opaque pointer to some storage.
type (IN) - specifies the type of storage to be allocated. The specific types
are:
OCI_HTYPE_ENV - an environment handle
OCI_HTYPE_ERROR - an error report handle
OCI_HTYPE_SVCCTX - a service context handle
OCI_HTYPE_STMT - a statement (application request) handle
OCI_HTYPE_BIND - a bind information handle
OCI_HTYPE_DEFINE - a column definition handle
OCI_HTYPE_DESCRIBE - a select list description handle
OCI_HTYPE_SERVER - a server handle
OCI_HTYPE_SESSION - a user authentication handle
OCI_HTYPE_TRANS - a transaction handle
OCI_HTYPE_COMPLEXOBJECT - a complex object retrieval handle
OCI_HTYPE_SECURITY - a security handle
Related Functions
OCIHandleAlloc()
OCIInitialize()
Name
OCI Process Initialize
Purpose
Initializes the OCI process environment.
Syntax
sword OCIInitialize ( ub4 mode,
const void *ctxp,
const void *(*malocfp)
( void *ctxp,
size_t size ),
const void *(*ralocfp)
( void *ctxp,
void *memp,
size_t newsize ),
const void (*mfreefp)
( void *ctxp,
void *memptr ));
Comments
This call initializes the OCI process environment.
OCIInitialize() must be invoked before any other OCI call.
Parameters
mode (IN) - specifies initialization of the mode. The valid modes are:
OCI_DEFAULT - default mode.
OCI_THREADED - threaded environment. In this mode, internal data
structures are protected from concurrent accesses by multiple threads.
OCI_OBJECT - will use navigational object interface.
ctxp (IN) - user defined context for the memory call back routines.
malocfp (IN) - user-defined memory allocation function. If mode is
OCI_THREADED, this memory allocation routine must be thread safe.
ctxp - context pointer for the user-defined memory allocation function.
size - size of memory to be allocated by the user-defined memory
allocation function
ralocfp (IN) - user-defined memory re-allocation function. If mode is
OCI_THREADED, this memory allocation routine must be thread safe.
ctxp - context pointer for the user-defined memory reallocation
function.
memp - pointer to memory block
newsize - new size of memory to be allocated
mfreefp (IN) - user-defined memory free function. If mode is
OCI_THREADED, this memory free routine must be thread safe.
ctxp - context pointer for the user-defined memory free function.
memptr - pointer to memory to be freed
Example
See the description of OCIStmtPrepare() on page 13-96 for an example showing
the use of OCIInitialize().
Related Functions
-------------------------------OCITerminate------------------------------------
OCITerminate()
Name
OCI process Terminate
Purpose
Do cleanup before process termination
Syntax
sword OCITerminate (ub4 mode);
Comments
This call performs OCI related clean up before the OCI process terminates.
If the process is running in shared mode then the OCI process is disconnected
from the shared memory subsystem.
OCITerminate() should be the last OCI call in any process.
Parameters
mode (IN) - specifies different termination modes.
OCI_DEFAULT - default mode.
Example
Related Functions
OCIInitialize()
------------------------ OCIAppCtxSet--------------------------------------
Name
OCI Application context Set
Purpose
Set an attribute and its value for a particular application context
namespace
Syntax
(sword) OCIAppCtxSet((void *) sesshndl, (void *)nsptr,(ub4) nsptrlen,
(void *)attrptr, (ub4) attrptrlen, (void *)valueptr,
(ub4) valueptrlen, errhp, (ub4)mode);
Comments
Please note that the information set on the session handle is sent to the
server during the next OCIStatementExecute or OCISessionBegin.
This information is cleared from the session handle, once the information
has been sent over to the server,and should be setup again if needed.
Parameters
sesshndl (IN/OUT) - Pointer to a session handle
nsptr (IN) - Pointer to namespace string
nsptrlen (IN) - length of the nsptr
attrptr (IN) - Pointer to attribute string
attrptrlen (IN) - length of the attrptr
valueptr (IN) - Pointer to value string
valueptrlen(IN) - length of the valueptr
errhp (OUT) - Error from the API
mode (IN) - mode of operation (OCI_DEFAULT)
Returns
error if any
Example
Related Functions
OCIAppCtxClearAll
------------------------ OCIAppCtxClearAll---------------------------------
Name
OCI Application Context Clear all attributes in a namespace
Purpose
To clear the values all attributes in a namespace
Syntax
(sword) OCIAppCtxClearAll((void *) sesshndl, (void *)nsptr, (ub4) nsptrlen,
(OCIError *)errhp, (ub4)mode);
Comments
This will clean up the context information on the server side during the
next piggy-back to the server.
Parameters
sesshndl (IN/OUT) - Pointer to a session handle
nsptr (IN) - Pointer to namespace string where the values of all
attributes are cleared
nsptrlen (IN) - length of the nsptr
errhp (OUT) - Error from the API
mode (IN) - mode of operation (OCI_DEFAULT)
Example
Returns
error if any
Related Functions
OCIAppCtxSet
---------------------- OCIIntervalAssign ---------------------------------
sword OCIIntervalAssign(void *hndl, OCIError *err,
const OCIInterval *inpinter, OCIInterval *outinter );
DESCRIPTION
Copies one interval to another to create a replica
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
(IN) inpinter - Input Interval
(OUT) outinter - Output Interval
RETURNS
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_SUCCESS otherwise
---------------------- OCIIntervalCheck ------------------------------------
sword OCIIntervalCheck(void *hndl, OCIError *err, const OCIInterval *interval,
ub4 *valid );
DESCRIPTION
Checks the validity of an interval
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
(IN) interval - Interval to be checked
(OUT) valid - Zero if the interval is valid, else returns an Ored
combination of the following codes.
Macro name Bit number Error
---------- ---------- -----
OCI_INTER_INVALID_DAY 0x1 Bad day
OCI_INTER_DAY_BELOW_VALID 0x2 Bad DAy Low/high bit (1=low)
OCI_INTER_INVALID_MONTH 0x4 Bad MOnth
OCI_INTER_MONTH_BELOW_VALID 0x8 Bad MOnth Low/high bit (1=low)
OCI_INTER_INVALID_YEAR 0x10 Bad YeaR
OCI_INTER_YEAR_BELOW_VALID 0x20 Bad YeaR Low/high bit (1=low)
OCI_INTER_INVALID_HOUR 0x40 Bad HouR
OCI_INTER_HOUR_BELOW_VALID 0x80 Bad HouR Low/high bit (1=low)
OCI_INTER_INVALID_MINUTE 0x100 Bad MiNute
OCI_INTER_MINUTE_BELOW_VALID 0x200 Bad MiNute Low/high bit(1=low)
OCI_INTER_INVALID_SECOND 0x400 Bad SeCond
OCI_INTER_SECOND_BELOW_VALID 0x800 bad second Low/high bit(1=low)
OCI_INTER_INVALID_FRACSEC 0x1000 Bad Fractional second
OCI_INTER_FRACSEC_BELOW_VALID 0x2000 Bad fractional second Low/High
RETURNS
OCI_SUCCESS if interval is okay
OCI_INVALID_HANDLE if 'err' is NULL.
---------------------- OCIIntervalCompare -----------------------------------
sword OCIIntervalCompare(void *hndl, OCIError *err, OCIInterval *inter1,
OCIInterval *inter2, sword *result );
DESCRIPTION
Compares two intervals, returns 0 if equal, -1 if inter1 < inter2,
1 if inter1 > inter2
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
inter1 (IN) - Interval to be compared
inter2 (IN) - Interval to be compared
result (OUT) - comparison result, 0 if equal, -1 if inter1 < inter2,
1 if inter1 > inter2
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
the two input datetimes are not mutually comparable.
---------------------- OCIIntervalDivide ------------------------------------
sword OCIIntervalDivide(void *hndl, OCIError *err, OCIInterval *dividend,
OCINumber *divisor, OCIInterval *result );
DESCRIPTION
Divides an interval by an Oracle Number to produce an interval
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
dividend (IN) - Interval to be divided
divisor (IN) - Oracle Number dividing `dividend'
result (OUT) - resulting interval (dividend / divisor)
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
---------------------- OCIIntervalFromNumber --------------------
sword OCIIntervalFromNumber(void *hndl, OCIError *err,
OCIInterval *inter, OCINumber *number);
DESCRIPTION
Converts an interval to an Oracle Number
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
(OUT) interval - Interval to be converted
(IN) number - Oracle number result (in years for YEARMONTH interval
and in days for DAYSECOND)
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR on error.
NOTES
Fractional portions of the date (for instance, minutes and seconds if
the unit chosen is hours) will be included in the Oracle number produced.
Excess precision will be truncated.
---------------------- OCIIntervalFromText ---------------------------------
sword OCIIntervalFromText( void *hndl, OCIError *err, const OraText *inpstr,
size_t str_len, OCIInterval *result );
DESCRIPTION
Given an interval string produce the interval represented by the string.
The type of the interval is the type of the 'result' descriptor.
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
(IN) inpstr - Input string
(IN) str_len - Length of input string
(OUT) result - Resultant interval
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if
there are too many fields in the literal string
the year is out of range (-4713 to 9999)
if the month is out of range (1 to 12)
if the day of month is out of range (1 to 28...31)
if hour is not in range (0 to 23)
if hour is not in range (0 to 11)
if minute is not in range (0 to 59)
if seconds in minute not in range (0 to 59)
if seconds in day not in range (0 to 86399)
if the interval is invalid
---------------------- OCIIntervalGetDaySecond --------------------
DESCRIPTION
Gets values of day second interval
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
day (OUT) - number of days
hour (OUT) - number of hours
min (OUT) - number of mins
sec (OUT) - number of secs
fsec (OUT) - number of fractional seconds
result (IN) - resulting interval
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
---------------------- OCIIntervalGetYearMonth --------------------
DESCRIPTION
Gets year month from an interval
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
year (OUT) - year value
month (OUT) - month value
result (IN) - resulting interval
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
-------------------------- OCIIntervalAdd ------------------------------
sword OCIIntervalAdd(void *hndl, OCIError *err, OCIInterval *addend1,
OCIInterval *addend2, OCIInterval *result );
NAME OCIIntervalAdd - Adds two intervals
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
addend1 (IN) - Interval to be added
addend2 (IN) - Interval to be added
result (OUT) - resulting interval (addend1 + addend2)
DESCRIPTION
Adds two intervals to produce a resulting interval
RETURNS
OCI_SUCCESS on success
OCI_ERROR if:
the two input intervals are not mutually comparable.
the resulting year would go above SB4MAXVAL
the resulting year would go below SB4MINVAL
OCI_INVALID_HANDLE if 'err' is NULL.
NOTES
The two input intervals must be mutually comparable
---------------------- OCIIntervalSubtract -------------------------------
sword OCIIntervalSubtract(void *hndl, OCIError *err, OCIInterval *minuend,
OCIInterval *subtrahend, OCIInterval *result );
NAME - OCIIntervalSubtract - subtracts two intervals
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
minuend (IN) - interval to be subtracted from
subtrahend (IN) - interval subtracted from minuend
result (OUT) - resulting interval (minuend - subtrahend)
DESCRIPTION
Subtracts two intervals and stores the result in an interval
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if:
the two input intervals are not mutually comparable.
the resulting leading field would go below SB4MINVAL
the resulting leading field would go above SB4MAXVAL
---------------------- OCIIntervalMultiply ---------------------------------
sword OCIIntervalMultiply(void *hndl, OCIError *err, const OCIInterval *inter,
OCINumber *nfactor, OCIInterval *result );
DESCRIPTION
Multiplies an interval by an Oracle Number to produce an interval
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
inter (IN) - Interval to be multiplied
nfactor (IN) - Oracle Number to be multiplied
result (OUT) - resulting interval (ifactor * nfactor)
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR if:
the resulting year would go above SB4MAXVAL
the resulting year would go below SB4MINVAL
---------------------- OCIIntervalSetDaySecond --------------------
DESCRIPTION
Sets day second interval
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
day (IN) - number of days
hour (IN) - number of hours
min (IN) - number of mins
sec (IN) - number of secs
fsec (IN) - number of fractional seconds
result (OUT) - resulting interval
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
---------------------- OCIIntervalSetYearMonth --------------------
DESCRIPTION
Sets year month interval
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
year (IN) - year value
month (IN) - month value
result (OUT) - resulting interval
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
----------------------- OCIIntervalToNumber ---------------------------------
sword OCIIntervalToNumber(void *hndl, OCIError *err, const OCIInterval *inter,
OCINumber *number);
DESCRIPTION
Converts an interval to an Oracle Number
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
(IN) inter - Interval to be converted
(OUT) number - Oracle number result (in years for YEARMONTH interval
and in days for DAYSECOND)
RETURNS
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_SUCCESS on success
NOTES
Fractional portions of the date (for instance, minutes and seconds if
the unit chosen is hours) will be included in the Oracle number produced.
Excess precision will be truncated.
------------------------------- OCIIntervalToText -------------------------
sword OCIIntervalToText( void *hndl, OCIError *err, const OCIInterval *inter,
ub1 lfprec, ub1 fsprec, OraText *buffer,
size_t buflen, size_t *resultlen );
DESCRIPTION
Given an interval, produces a string representing the interval.
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
(IN) inter - Interval to be converted
(IN) lfprec - Leading field precision. Number of digits used to
represent the leading field.
(IN) fsprec - Fractional second precision of the interval. Number of
digits used to represent the fractional seconds.
(OUT) buffer - buffer to hold result
(IN) buflen - length of above buffer
(OUT) resultlen - length of result placed into buffer
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR
if the buffer is not large enough to hold the result
NOTES
The interval literal will be output as `year' or `[year-]month' for
YEAR-MONTH intervals and as `seconds' or `minutes[:seconds]' or
`hours[:minutes[:seconds]]' or `days[ hours[:minutes[:seconds]]]' for
DAY-TIME intervals (where optional fields are surrounded by brackets).
---------------------- OCIIntervalFromTZ --------------------
sword OCIIntervalFromTZ(void *hndl, OCIError *err, const oratext *inpstring,
size_t str_len, OCIInterval *result);
DESCRIPTION
Retuns an OCI_DTYPE_INTERVAL_DS OCIInterval with the region id (if
the region is specified in the input string) set and the current
absolute offset or an absolut offset with the region id set to 0.
PARAMETERS
hndl (IN) - Session/Env handle.
err (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
inpstring (IN) - pointer to the input string
str_len (IN) - inpstring length
result - Output Interval
RETURNS
OCI_SUCCESS on success
OCI_INVALID_HANDLE if 'err' is NULL.
OCI_ERROR on error
Bad interval type
Timezone errors
NOTES
The input string must be of the form [+/-]TZH:TZM or 'TZR [TZD]'
----------------------- OCIKerbAttrSet ---------------------
sword OCIKerbAttrSet(OCISession *trgthndlp, ub4 auth_mode,
ub1 *ftgt_ticket, ub4 ftgt_ticket_len,
ub1 *ftgt_sesskey, ub4 ftgt_sesskey_len,
ub2 ftgt_keytype, ub4 ftgt_ticket_flags,
sb4 ftgt_auth_time, sb4 ftgt_start_time,
sb4 ftgt_end_time, sb4 ftgt_renew_time,
oratext *ftgt_principal, ub4 ftgt_principal_len,
oratext *ftgt_realm, ub4 ftgt_realm_len,
OCIError *errhp);
DESCRIPTION
This call sets the attributes required for Kerberos authentication
on the user handle.
PARAMETERS
trgthndlp (IN) - The pointer to a user handle.
auth_mode (IN) - Indicates what type of Kerberos credentials should
be set. Options are:
OCI_KERBCRED_PROXY
- Set Kerberos credentials for use with
proxy authentication.
OCI_KERBCRED_CLIENT_IDENTIFIER
- Set Kerberos credentials for use
with secure client identifier.
ftgt_ticket (IN) - Forwardable Ticket Granting Ticket (FTGT).
ftgt_ticket_len (IN) - Length of FTGT.
ftgt_sesskey(IN) - Session Key associated with FTGT.
ftgt_sesskey_len (IN) - Length of session key.
ftgt_keytype (IN) - Type of encryption key used to encrypt FTGT.
ftgt_ticket_flags (IN) - Flags associated with encryption of FTGT.
ftgt_auth_time (IN) - Authentication time compatible with that in FTGT.
ftgt_start_time (IN) - Start time compatible with that indicated in FTGT.
ftgt_end_time (IN) - End time compatible with that indicated in FTGT.
ftgt_renew_time (IN) - Renew time compatible with that indicated in FTGT.
ftgt_principal (IN) - Client principal name from FTGT.
ftgt_principal_len (IN) - Length of client principal name.
ftgt_realm (IN) - Client realm name from FTGT.
ftgt_realm_len (IN) - Client realm name length.
errhp (IN/OUT) - error handle. If there is an error, it is
recorded in 'err' and this function returns OCI_ERROR.
The error recorded in 'err' can be retrieved by calling
OCIErrorGet().
RETURNS
OCI_SUCCESS on success
OCI_ERROR on error
NOTES
OCILdaToSvcCtx()
Name
OCI toggle version 7 Lda_Def to SerVice context handle
Purpose
Converts a V7 Lda_Def to a V8 service context handle.
Syntax
sword OCILdaToSvcCtx ( OCISvcCtx **svchpp,
OCIError *errhp,
Lda_Def *ldap );
Comments
Converts a V7 Lda_Def to a V8 service context handle. The action of this call
can be reversed by passing the resulting service context handle to the
OCISvcCtxToLda() function.
Parameters
svchpp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
ldap (IN/OUT) - the V7 logon data area returned by OCISvcCtxToLda() from
this service context.
Related Functions
OCISvcCtxToLda()
OCILobAppend()
Name
OCI Lob APpend
Purpose
Appends a LOB value at the end of another LOB.
Syntax
sword OCILobAppend ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *dst_locp,
OCILobLocator *src_locp );
Comments
Appends a LOB value at the end of LOB. The data is
copied from the source to the destination at the end of the destination. The
source and the destination must already exist. The destination LOB is
extended to accommodate the newly written data.
It is an error to extend the destination LOB beyond the maximum length
allowed or to try to copy from a NULL LOB.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
dst_locp (IN/OUT) - a locator uniquely referencing the destination LOB.
src_locp (IN/OUT) - a locator uniquely referencing the source LOB.
Related Functions
OCILobTrim()
OCIErrorGet()
OCILobWrite()
OCILobCopy()
OCILobAssign()
Name
OCI Lob ASsiGn
Purpose
Assigns one LOB/FILE locator to another.
Syntax
sword OCILobAssign ( OCIEnv *envhp,
OCIError *errhp,
const OCILobLocator *src_locp,
OCILobLocator **dst_locpp );
Comments
Assign source locator to destination locator. After the assignment, both
locators refer to the same LOB data. For internal LOBs, the source locator's
LOB data gets copied to the destination locator's LOB data only when the
destination locator gets stored in the table. Therefore, issuing a flush of
the object containing the destination locator will copy the LOB data. For
FILEs only the locator that refers to the OS file is copied to the table. The
OS file is not copied.
Note: The only difference between this and OCILobLocatorAssign is that this
takes an environment handle whereas OCILobLocatorAssign takes an OCI service
handle
Parameters
envhp (IN/OUT) - OCI environment handle initialized in object mode.
errhp (IN/OUT) - The OCI error handle. If there is an error, it is recorded
in errhp and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
src_locp (IN) - LOB locator to copy from.
dst_locpp (IN/OUT) - LOB locator to copy to. The caller must allocate space
for the OCILobLocator by calling OCIDescriptorAlloc().
See also
OCIErrorGet()
OCILobIsEqual()
OCILobLocatorIsInit()
OCILobLocatorAssign()
OCILobCharSetForm()
Name
OCI Lob Get Character Set Form
Purpose
Gets the LOB locator's character set fpr,, if any.
Syntax
sword OCILobCharSetForm ( OCIEnv *envhp,
OCIError *errhp,
const OCILobLocator *locp,
ub1 *csfrm );
Comments
Returns the character set form of the input LOB locator in the csfrm output
parameter.
Parameters
envhp (IN/OUT) - OCI environment handle initialized in object mode.
errhp (IN/OUT) - error handle. The OCI error handle. If there is an error, it
is recorded in err and this function returns OCI_ERROR. Diagnostic
information can be obtained by calling OCIErrorGet().
locp (IN) - LOB locator for which to get the character set form.
csfrm(OUT) - character set form of the input LOB locator. If the input
locator is for a BLOB or a BFILE, csfrm is set to 0 since there is no concept
of a character set for binary LOBs/FILEs. The caller must allocate space for
the csfrm (ub1) and not write into the space.
See also
OCIErrorGet(), OCILobCharSetId(), OCILobLocatorIsInit
OCILobCharSetId()
Name
OCI Lob get Character Set IDentifier
Purpose
Gets the LOB locator's character set ID, if any.
Syntax
sword OCILobCharSetId ( OCIEnv *envhp,
OCIError *errhp,
const OCILobLocator *locp,
ub2 *csid );
Comments
Returns the character set ID of the input LOB locator in the cid output
parameter.
Parameters
envhp (IN/OUT) - OCI environment handle initialized in object mode.
errhp (IN/OUT) - error handle. The OCI error handle. If there is an error, it
is recorded in err and this function returns OCI_ERROR. Diagnostic
information can be obtained by calling OCIErrorGet().
locp (IN) - LOB locator for which to get the character set ID.
csid (OUT) - character set ID of the input LOB locator. If the input locator
is for a BLOB or a BFILE, csid is set to 0 since there is no concept of a
character set for binary LOBs/FILEs. The caller must allocate space for the
character set id of type ub2 and not write into the space.
See also
OCIErrorGet(), OCILobCharSetForm(), OCILobLocatorIsInit()
OCILobCopy()
Name
OCI Lob Copy
Purpose
Copies a portion of a LOB value into another LOB value.
Syntax
sword OCILobCopy ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *dst_locp,
OCILobLocator *src_locp,
ub4 amount,
ub4 dst_offset,
ub4 src_offset );
Comments
Copies a portion of a LOB value into another LOB as specified. The data
is copied from the source to the destination. The source (src_locp) and the
destination (dlopb) LOBs must already exist.
If the data already exists at the destination's start position, it is
overwritten with the source data. If the destination's start position is
beyond the end of the current data, a hole is created from the end of the data
to the beginning of the newly written data from the source. The destination
LOB is extended to accommodate the newly written data if it extends
beyond the current length of the destination LOB.
It is an error to extend the destination LOB beyond the maximum length
allowed or to try to copy from a NULL LOB.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
dst_locp (IN/OUT) - a locator uniquely referencing the destination LOB.
src_locp (IN/OUT) - a locator uniquely referencing the source LOB.
amount (IN) - the number of character or bytes, as appropriate, to be copied.
dst_offset (IN) - this is the absolute offset for the destination LOB.
For character LOBs it is the number of characters from the beginning of the
LOB at which to begin writing. For binary LOBs it is the number of bytes from
the beginning of the lob from which to begin reading. The offset starts at 1.
src_offset (IN) - this is the absolute offset for the source LOB.
For character LOBs it is the number of characters from the beginning of the
LOB, for binary LOBs it is the number of bytes. Starts at 1.
See Also
OCIErrorGet(), OCILobAppend(), OCILobWrite(), OCILobTrim()
OCILobCreateTemporary()
Name
OCI Lob Create Temporary
Purpose
Create a Temporary Lob
Syntax
sword OCILobCreateTemporary(OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub2 csid,
ub1 csfrm,
ub1 lobtype,
boolean cache,
OCIDuration duration);
Comments
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a locator which points to the temporary Lob
csid (IN) - the character set id
csfrm(IN) - the character set form
lobtype (IN) - the lob type - one of the three constants OCI_TEMP_BLOB,
OCI_TEMP_CLOB and OCI_TEMP_NCLOB
cache(IN)- TRUE if the temporary LOB goes through the cache; FALSE, if not.
duration(IN)- duration of the temporary LOB; Can be a valid duration id or one
of the values: OCI_DURATION_SESSION, OCI_DURATION_CALL
Note: OCI_DURATION_TRANSACTION is NOT supported in 8.1
Related functions
OCILobFreeTemporary()
OCILobIsTemporary()
OCILobDisableBuffering()
Name
OCI Lob Disable Buffering
Purpose
Disable lob buffering for the input locator.
Syntax
sword OCILobDisableBuffering ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp);
Comments
Disable lob buffering for the input locator. The next time data is
read/written from/to the lob through the input locator, the lob
buffering subsystem is *not* used. Note that this call does *not*
implicitly flush the changes made in the buffering subsystem. The
user must explicitly call OCILobFlushBuffer() to do this.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a locator uniquely referencing the LOB.
Related Functions
OCILobEnableBuffering()
OCIErrorGet()
OCILobFlushBuffer()
OCILobEnableBuffering()
Name
OCI Lob Enable Buffering
Purpose
Enable lob buffering for the input locator.
Syntax
sword OCILobEnableBuffering ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp);
Comments
Enable lob buffering for the input locator. The next time data is
read/written from/to the lob through the input locator, the lob
buffering subsystem is used.
Once lob buffering is enabled for a locator, if that locator is passed to
one of the following routines, an error is returned:
OCILobCopy, OCILobAppend, OCILobErase, OCILobGetLength, OCILobTrim
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a locator uniquely referencing the LOB.
Related Functions
OCILobDisableBuffering()
OCIErrorGet()
OCILobWrite()
OCILobRead()
OCILobFlushBuffer()
OCILobErase()
Name
OCI Lob ERase
Purpose
Erases a specified portion of the LOB data starting at a specified offset.
Syntax
sword OCILobErase ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 *amount,
ub4 offset );
Comments
Erases a specified portion of the LOB data starting at a specified offset.
The actual number of characters/bytes erased is returned. The actual number
of characters/bytes and the requested number of characters/bytes will differ
if the end of the LOB data is reached before erasing the requested number of
characters/bytes.
If a section of data from the middle of the LOB data is erased, a hole is
created. When data from that hole is read, 0's are returned. If the LOB is
NULL, this routine will indicate that 0 characters/bytes were erased.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - the LOB for which to erase a section of data.
amount (IN/OUT) - On IN, the number of characters/bytes to erase. On OUT,
the actual number of characters/bytes erased.
offset (IN) - absolute offset from the beginning of the LOB data from which
to start erasing data. Starts at 1.
See Also
OCIErrorGet(), OCILobRead(), OCILobWrite()
OCILobOpen()
Name
OCI Lob Open
Purpose
Opens an internal or external Lob.
Syntax
sword OCILobOpen( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub1 mode );
Comments
It is an error if the same lob is opened more than once in
the same transaction. Lobs are opened implicitly if they are
not opened before using them. A LOB has to be closed before
the transaction commits else the transaction is rolled back.
Open locators are closed if the transaction aborts. Multiple
users can open the same lob on different locators.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - locator points to the LOB to be opened
mode (IN) - mode in which to open the lob. The valid modes are
read-only - OCI_FILE_READONLY, read-write - OCI_FILE_READWRITE
OCILobClose()
Name
OCI Lob Close
Purpose
Closes an open internal or external Lob.
Syntax
sword OCILobClose( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp );
Comments
It is an error if the lob is not open at this time. All LOBs
that have been opened in a transaction have to be closed
before the transaction commits, else the transaction gets
rolled back.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN) - A locator that was opened using OCILobOpen()
OCILobFileClose()
Name
OCI Lob File CLoSe
Purpose
Closes a previously opened FILE.
Syntax
sword OCILobFileClose ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *filep );
Comments
Closes a previously opened FILE. It is an error if this function is called for
an internal LOB. No error is returned if the FILE exists but is not opened.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
filep (IN/OUT) - a pointer to a FILE locator to be closed.
See Also
OCIErrorGet(), OCILobFileOpen(), OCILobFileCloseAll(), OCILobFileIsOpen(),
OCILobFileExists(), CREATE DIRECTORY DDL
OCILobFileCloseAll()
Name
OCI LOB FILE Close All
Purpose
Closes all open FILEs on a given service context.
Syntax
sword OCILobFileCLoseAll ( OCISvcCtx *svchp,
OCIError *errhp );
Comments
Closes all open FILEs on a given service context.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
See also
OCILobFileClose(),
OCIErrorGet(), OCILobFileOpen(), OCILobFileIsOpen(),
OCILobFileExists(), CREATE DIRECTORY DDL
OCILobFileExists()
Name
OCI LOB FILE exists
Purpose
Tests to see if the FILE exists on the server
Syntax
sword OCILobFileExists ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *filep,
boolean *flag );
Comments
Checks to see if a FILE exists for on the server.
Parameters
svchp (IN) - the OCI service context handle.
errhp (IN/OUT) - error handle. The OCI error handle. If there is an error,
it is recorded in err and this function returns OCI_ERROR. Diagnostic
information can be obtained by calling OCIErrorGet().
filep (IN) - pointer to the FILE locator that refers to the file.
flag (OUT) - returns TRUE if the FILE exists; FALSE if it does not.
See also
OCIErrorGet, CREATE DIRECTORY (DDL)
OCILobFileGetName()
Name
OCI LOB FILE Get file Name
Purpose
Gets the FILE locator's directory alias and file name.
Syntax
sword OCILobFileGetName ( OCIEnv *envhp,
OCIError *errhp,
const OCILobLocator *filep,
OraText *dir_alias,
ub2 *d_length,
OraText *filename,
ub2 *f_length );
Comments
Returns the directory alias and file name associated with this file locator.
Parameters
envhp (IN/OUT) - OCI environment handle initialized in object mode.
errhp (IN/OUT) -The OCI error handle. If there is an error, it is recorded in
errhp and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
filep (IN) - FILE locator for which to get the directory alias and file name.
dir_alias (OUT) - buffer into which the directory alias name is placed. The
caller must allocate enough space for the directory alias name and must not
write into the space.
d_length (IN/OUT)
- IN: length of the input dir_alias string;
- OUT: length of the returned dir_alias string.
filename (OUT) - buffer into which the file name is placed. The caller must
allocate enough space for the file name and must not write into the space.
f_length (IN/OUT)
- IN: length of the input filename string;
- OUT: lenght of the returned filename string.
See also
OCILobFileSetName(), OCIErrorGet()
OCILobFileIsOpen()
Name
OCI LOB FILE Is Open?
Purpose
Tests to see if the FILE is open
Syntax
sword OCILobFileIsOpen ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *filep,
boolean *flag );
Comments
Checks to see if the FILE on the server is open for a given LobLocator.
Parameters
svchp (IN) - the OCI service context handle.
errhp (IN/OUT) - error handle. The OCI error handle. If there is an error, it
is recorded in err and this function returns OCI_ERROR. Diagnostic
information can be obtained by calling OCIErrorGet().
filep (IN) - pointer to the FILE locator being examined. If the input file
locator was never passed to OCILobFileOpen(), the file is considered not to
be opened by this locator. However, a different locator may have opened the
file. More than one file opens can be performed on the same file using
different locators.
flag (OUT) - returns TRUE if the FILE is opened using this locator; FALSE if
it is not.
See also
OCIErrorGet, OCILobFileOpen, OCILobFileClose, OCILobFileCloseAll, CREATE
DIRECTORY SQL command
OCILobFileOpen()
Name
OCI LOB FILE open
Purpose
Opens a FILE for read-only access
Syntax
sword OCILobFileOpen ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *filep,
ub1 mode );
Comments
Opens a FILE. The FILE can be opened for read-only access only. FILEs may not
be written to throough ORACLE.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
filep (IN/OUT) - the FILE to open. Error if the locator does not refer to a
FILE.
mode (IN) - mode in which to open the file. The only valid mode is
read-only - OCI_FILE_READONLY.
See Also
OCILobFileClose, OCIErrorGet, OCILobFileCloseAll, OCILobFileIsOpen,
OCILobFileSetName, CREATE DIRECTORY
OCILobFileSetName()
Name
OCI Lob File Set NaMe
Purpose
Sets directory alias and file name in the FILE locator.
Syntax
sword OCILobFileSetName ( OCIEnv *envhp,
OCIError *errhp,
OCILobLocator **filepp,
OraText *dir_alias,
ub2 d_length,
OraText *filename,
ub2 f_length );
Comments
Sets the directory alias and file name in the LOB file locator.
Parameters
envhp (IN/OUT) - OCI environment handle initialized in object mode.
errhp (IN/OUT) - The OCI error handle. If there is an error, it is recorded
in errhp and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
filepp (IN/OUT) - FILE locator for which to set the directory alias name.
The caller must have already allocated space for the locator by calling
OCIDescriptorAlloc().
dir_alias (IN) - buffer that contains the directory alias name to set in the
locator.
d_length (IN) - length of the input dir_alias parameter.
filename (IN) - buffer that contains the file name is placed.
f_length (IN) - length of the input filename parameter.
See also
OCILobFileGetName, OCIErrorGet, CREATE DIRECTORY
OCILobFlushBuffer()
Name
OCI Lob Flush all Buffers for this lob.
Purpose
Flush/write all buffers for this lob to the server.
Syntax
sword OCILobFlushBuffer ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 flag);
Comments
Flushes to the server, changes made to the buffering subsystem that
are associated with the lob referenced by the input locator. This
routine will actually write the data in the buffer to the lob in
the database. Lob buffering must have already been enabled for the
input lob locator.
This routine, by default, does not free the buffer resources for
reallocation to another buffered LOB operation. However, if you
want to free the buffer explicitly, you can set the flag parameter
to OCI_LOB_BUFFER_FREE.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a locator uniquely referencing the LOB.
flag (IN) - to indicate if the buffer resources need to be freed
after a flush. Default value is OCI_LOB_BUFFER_NOFREE.
Set it to OCI_LOB_BUFFER_FREE if you want the buffer
resources to be freed.
Related Functions
OCILobEnableBuffering()
OCILobDisableBuffering()
OCIErrorGet()
OCILobWrite()
OCILobRead()
OCILobFreeTemporary()
Name
OCI Lob Free Temporary
Purpose
Free a temporary LOB
Syntax
sword OCILobFreeTemporary(OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp);
Comments
Frees the contents of the temporary Lob this locator is pointing to. Note
that the locator itself is not freed until a OCIDescriptorFree is done.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a locator uniquely referencing the LOB
Related functions
OCILobCreateTemporary()
OCILobIsTemporary()
Name
OCI Lob/File Get Chunk Size
Purpose
When creating the table, the user can specify the chunking factor, which can
be a multiple of Oracle blocks. This corresponds to the chunk size used by the
LOB data layer when accessing/modifying the LOB value. Part of the chunk is
used to store system-related information and the rest stores the LOB value.
This function returns the amount of space used in the LOB chunk to store
the LOB value.
Syntax
sword OCILobGetChunkSize ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 *chunksizep );
Comments
Performance will be improved if the user issues read/write
requests using a multiple of this chunk size. For writes, there is an added
benefit since LOB chunks are versioned and, if all writes are done on chunk
basis, no extra/excess versioning is done nor duplicated. Users could batch
up the write until they have enough for a chunk instead of issuing several
write calls for the same chunk.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references the LOB. For internal
LOBs, this locator must be a locator that was obtained from the server
specified by svchp. For FILEs, this locator can be initialized by a Select or
OCILobFileSetName.
chunksizep (OUT) - On output, it is the length of the LOB if not NULL - for
character LOBs it is the number of characters, for binary LOBs it is the
number of bytes in the LOB.
Related Functions
OCILobGetLength()
Name
OCI Lob/File Length
Purpose
Gets the length of a LOB/FILE.
Syntax
sword OCILobGetLength ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 *lenp );
Comments
Gets the length of a LOB/FILE. If the LOB/FILE is NULL, the length is
undefined.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references the LOB. For internal
LOBs, this locator must be a locator that was obtained from the server
specified by svchp. For FILEs, this locator can be initialized by a Select or
OCILobFileSetName.
lenp (OUT) - On output, it is the length of the LOB if not NULL - for
character LOBs it is the number of characters, for binary LOBs it is the
number of bytes in the LOB.
Related Functions
OCIErrorGet, OCIFileSetName
OCILobIsEqual()
Name
OCI Lob Is Equal
Purpose
Compares two LOB locators for equality.
Syntax
sword OCILobIsEqual ( OCIEnv *envhp,
const OCILobLocator *x,
const OCILobLocator *y,
boolean *is_equal );
Comments
Compares the given LOB locators for equality. Two LOB locators are equal if
and only if they both refer to the same LOB data.
Two NULL locators are considered not equal by this function.
Parameters
envhp (IN) - the OCI environment handle.
x (IN) - LOB locator to compare.
y (IN) - LOB locator to compare.
is_equal (OUT) - TRUE, if the LOB locators are equal; FALSE if they are not.
See also
OCILobAssign, OCILobLocatorIsInit
OCILobLocatorAssign,
OCILobIsOpen()
Name
OCI Lob Is Open
sword OCILobIsOpen(svchp, errhp, locp, flag)
OCISvcCtx *svchp;
OCIError *errhp;
OCILobLocator *locp;
boolean *flag;
Comments
Checks if the LOB locator was opened before. flag is set to TRUE
if opened; FALSE otherwise
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN) - the locator to test for temporary LOB
flag(OUT) - TRUE, if the LOB locator points to is open
FALSE, if not.
OCILobIsTemporary()
Name
OCI Lob Is Temporary
Purpose
Tests if this locator points to a temporary LOB
Syntax
sword OCILobIsTemporary(OCIEnv *envhp,
OCIError *errhp,
OCILobLocator *locp,
boolean *is_temporary);
Comments
Tests the locator to determine if it points to a temporary LOB.
If so, is_temporary is set to TRUE. If not, is_temporary is set
to FALSE.
Parameters
envhp (IN) - the environment handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN) - the locator to test for temporary LOB
is_temporary(OUT) - TRUE, if the LOB locator points to a temporary LOB;
FALSE, if not.
See Also
OCILobCreateTemporary, OCILobFreeTemporary
OCILobLoadFromFile()
Name
OCI Lob Load From File
Purpose
Load/copy all or a portion of the file into an internal LOB.
Syntax
sword OCILobLoadFromFile ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *dst_locp,
OCILobLocator *src_filep,
ub4 amount,
ub4 dst_offset,
ub4 src_offset );
Comments
Loads/copies a portion or all of a file value into an internal LOB as
specified. The data is copied from the source file to the destination
internal LOB (BLOB/CLOB). No character set conversions are performed
when copying the bfile data to a clob/nclob. The bfile data must already
be in the same character set as the clob/nclob in the database. No
error checking is performed to verify this.
The source (src_filep) and the destination (dst_locp) LOBs must already exist.
If the data already exists at the destination's start position, it is
overwritten with the source data. If the destination's start position is
beyond the end of the current data, a hole is created from the end of the data
to the beginning of the newly written data from the source. The destination
LOB is extended to accommodate the newly written data if it extends
beyond the current length of the destination LOB.
It is an error to extend the destination LOB beyond the maximum length
allowed or to try to copy from a NULL LOB.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
dst_locp (IN/OUT) - a locator uniquely referencing the destination internal
LOB which may be of type blob, clob, or nclob.
src_filep (IN/OUT) - a locator uniquely referencing the source BFILE.
amount (IN) - the number of bytes to be copied.
dst_offset (IN) - this is the absolute offset for the destination LOB.
For character LOBs it is the number of characters from the beginning of the
LOB at which to begin writing. For binary LOBs it is the number of bytes from
the beginning of the lob from which to begin reading. The offset starts at 1.
src_offset (IN) - this is the absolute offset for the source BFILE. It is
the number of bytes from the beginning of the LOB. The offset starts at 1.
See Also
OCIErrorGet(), OCILobAppend(), OCILobWrite(), OCILobTrim(), OCILobCopy()
OCILobLocatorAssign()
Name
OCI Lob LOCATOR ASsiGn
Purpose
Assigns one LOB/FILE locator to another.
Syntax
sword OCILobLocatorAssign ( OCISvcCtx *svchp,
OCIError *errhp,
const OCILobLocator *src_locp,
OCILobLocator **dst_locpp );
Comments
Assign source locator to destination locator. After the assignment, both
locators refer to the same LOB data. For internal LOBs, the source locator's
LOB data gets copied to the destination locator's LOB data only when the
destination locator gets stored in the table. Therefore, issuing a flush of
the object containing the destination locator will copy the LOB data. For
FILEs only the locator that refers to the OS file is copied to the table. The
OS file is not copied.
Note : the only difference between this and OCILobAssign is that this takes
a OCI service handle pointer instead of a OCI environment handle pointer
Parameters
svchp (IN/OUT) - OCI service handle initialized in object mode.
errhp (IN/OUT) - The OCI error handle. If there is an error, it is recorded
in errhp and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
src_locp (IN) - LOB locator to copy from.
dst_locpp (IN/OUT) - LOB locator to copy to. The caller must allocate space
for the OCILobLocator by calling OCIDescriptorAlloc().
See also
OCIErrorGet()
OCILobIsEqual()
OCILobLocatorIsInit()
OCILobAssign()
OCILobLocatorIsInit()
Name
OCI LOB locator is initialized?
Purpose
Tests to see if a given LOB locator is initialized.
Syntax
sword OCILobLocatorIsInit ( OCIEnv *envhp,
OCIError *errhp,
const OCILobLocator *locp,
boolean *is_initialized );
Comments
Tests to see if a given LOB locator is initialized.
Parameters
envhp (IN/OUT) - OCI environment handle initialized in object mode.
errhp (IN/OUT) - error handle. The OCI error handle. If there is an error, it
is recorded in err and this function returns OCI_ERROR. Diagnostic
information can be obtained by calling OCIErrorGet().
locp (IN) - the LOB locator being tested
is_initialized (OUT) - returns TRUE if the given LOB locator is initialized;
FALSE if it is not.
See also
OCIErrorGet, OCILobIsEqual
OCILobRead()
Name
OCI Lob/File ReaD
Purpose
Reads a portion of a LOB/FILE as specified by the call into a buffer.
Syntax
sword OCILobRead ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 offset,
ub4 *amtp,
void *bufp,
ub4 bufl,
void *ctxp,
OCICallbackLobRead cbfp,
ub2 csid,
ub1 csfrm );
Comments
Reads a portion of a LOB/FILE as specified by the call into a buffer. Data
read from a hole is returned as 0s. It is an error to try to read from a NULL
LOB/FILE. The OS FILE must already exist on the server and must have been
opened using the input locator. Oracle must hav epermission to read the OS
file and user must have read permission on the directory object.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references a LOB.
offset (IN) - On input, it is the absolute offset, for character LOBs in the
number of characters from the beginning of the LOB, for binary LOBs it is the
number of bytes. Starts from 1.
amtp (IN/OUT) - On input, the number of character or bytes to be read. On
output, the actual number of bytes or characters read.
If the amount of bytes to be read is larger than the buffer length it is
assumed that the LOB is being read in a streamed mode. On input if this value
is 0, then the data shall be read in streamed mode from the LOB until the end
of LOB. If the data is read in pieces, *amtp always contains the length of
the last piece read. If a callback function is defined, then this callback
function will be invoked each time bufl bytes are read off the pipe. Each
piece will be written into bufp.
If the callback function is not defined, then OCI_NEED_DATA error code will
be returned. The application must invoke the LOB read over and over again to
read more pieces of the LOB until the OCI_NEED_DATA error code is not
returned. The buffer pointer and the length can be different in each call
if the pieces are being read into different sizes and location.
bufp (IN) - the pointer to a buffer into which the piece will be read. The
length of the allocated memory is assumed to be bufl.
bufl (IN) - the length of the buffer in octets.
ctxp (IN) - the context for the call back function. Can be NULL.
cbfp (IN) - a callback that may be registered to be called for each piece. If
this is NULL, then OCI_NEED_DATA will be returned for each piece.
The callback function must return OCI_CONTINUE for the read to continue.
If any other error code is returned, the LOB read is aborted.
ctxp (IN) - the context for the call back function. Can be NULL.
bufp (IN) - a buffer pointer for the piece.
len (IN) - the length of length of current piece in bufp.
piece (IN) - which piece - OCI_FIRST_PIECE, OCI_NEXT_PIECE or
OCI_LAST_PIECE.
csid - the character set ID of the buffer data
csfrm - the character set form of the buffer data
Related Functions
OCIErrorGet, OCILobWrite, OCILobFileOpen, OCILobFileSetName, CREATE DIRECTORY
OCILobTrim()
Name
OCI Lob Trim
Purpose
Trims the lob value to a shorter length
Syntax
sword OCILobTrim ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 newlen );
Comments
Truncates LOB data to a specified shorter length.
Parameters
svchp (IN) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references the LOB. This locator
must be a locator that was obtained from the server specified by svchp.
newlen (IN) - the new length of the LOB data, which must be less than or equal
to the current length.
Related Functions
OCIErrorGet, OCILobWrite, OCiLobErase, OCILobAppend, OCILobCopy
OCILobWrite()
Name
OCI Lob Write
Purpose
Writes a buffer into a LOB
Syntax
sword OCILobWrite ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 offset,
ub4 *amtp,
void *bufp,
ub4 buflen,
ub1 piece,
void *ctxp,
OCICallbackLobWrite (cbfp)
(
void *ctxp,
void *bufp,
ub4 *lenp,
ub1 *piecep )
ub2 csid
ub1 csfrm );
Comments
Writes a buffer into a LOB as specified. If LOB data already exists
it is overwritten with the data stored in the buffer.
The buffer can be written to the LOB in a single piece with this call, or
it can be provided piecewise using callbacks or a standard polling method.
If this value of the piece parameter is OCI_FIRST_PIECE, data must be
provided through callbacks or polling.
If a callback function is defined in the cbfp parameter, then this callback
function will be invoked to get the next piece after a piece is written to
the pipe. Each piece will be written from bufp.
If no callback function is defined, then OCILobWrite() returns the
OCI_NEED_DATA error code. The application must all OCILobWrite() again
to write more pieces of the LOB. In this mode, the buffer pointer and the
length can be different in each call if the pieces are of different sizes and
from different locations. A piece value of OCI_LAST_PIECE terminates the
piecewise write.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references a LOB.
offset (IN) - On input, it is the absolute offset, for character LOBs in
the number of characters from the beginning of the LOB, for binary LOBs it
is the number of bytes. Starts at 1.
bufp (IN) - the pointer to a buffer from which the piece will be written. The
length of the allocated memory is assumed to be the value passed in bufl.
Even if the data is being written in pieces, bufp must contain the first
piece of the LOB when this call is invoked.
bufl (IN) - the length of the buffer in bytes.
Note: This parameter assumes an 8-bit byte. If your platform uses a
longer byte, the value of bufl must be adjusted accordingly.
piece (IN) - which piece of the buffer is being written. The default value for
this parameter is OCI_ONE_PIECE, indicating the buffer will be written in a
single piece.
The following other values are also possible for piecewise or callback mode:
OCI_FIRST_PIECE, OCI_NEXT_PIECE and OCI_LAST_PIECE.
amtp (IN/OUT) - On input, takes the number of character or bytes to be
written. On output, returns the actual number of bytes or characters written.
If the data is written in pieces, *amtp will contain the total length of the
pieces written at the end of the call (last piece written) and is undefined in
between.
(Note it is different from the piecewise read case)
ctxp (IN) - the context for the call back function. Can be NULL.
cbfp (IN) - a callback that may be registered to be called for each piece in
a piecewise write. If this is NULL, the standard polling method will be used.
The callback function must return OCI_CONTINUE for the write to continue.
If any other error code is returned, the LOB write is aborted. The
callback takes the following parameters:
ctxp (IN) - the context for the call back function. Can be NULL.
bufp (IN/OUT) - a buffer pointer for the piece.
lenp (IN/OUT) - the length of the buffer (in octets) and the length of
current piece in bufp (out octets).
piecep (OUT) - which piece - OCI_NEXT_PIECE or OCI_LAST_PIECE.
csid - the character set ID of the buffer data
csfrm - the character set form of the buffer data
Related Functions
OCILobWriteAppend()
Name
OCI Lob Write Append
Purpose
Writes data to the end of a LOB value. This call provides the ability
to get the length of the data and append it to the end of the LOB in
a single round trip to the server.
Syntax
sword OCILobWriteAppend ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 *amtp,
void *bufp,
ub4 buflen,
ub1 piece,
void *ctxp,
OCICallbackLobWrite (cbfp)
(
void *ctxp,
void *bufp,
ub4 *lenp,
ub1 *piecep )
ub2 csid
ub1 csfrm );
Comments
Writes a buffer to the end of a LOB as specified. If LOB data already exists
it is overwritten with the data stored in the buffer.
The buffer can be written to the LOB in a single piece with this call, or
it can be provided piecewise using callbacks or a standard polling method.
If this value of the piece parameter is OCI_FIRST_PIECE, data must be
provided through callbacks or polling.
If a callback function is defined in the cbfp parameter, then this callback
function will be invoked to get the next piece after a piece is written to the
pipe. Each piece will be written from bufp.
If no callback function is defined, then OCILobWriteAppend() returns the
OCI_NEED_DATA error code. The application must all OCILobWriteAppend() again
to write more pieces of the LOB. In this mode, the buffer pointer and the
length can be different in each call if the pieces are of different sizes and
from different locations. A piece value of OCI_LAST_PIECE terminates the
piecewise write.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references a LOB.
bufp (IN) - the pointer to a buffer from which the piece will be written. The
length of the allocated memory is assumed to be the value passed in bufl. Even
if the data is being written in pieces, bufp must contain the first piece of
the LOB when this call is invoked.
bufl (IN) - the length of the buffer in bytes.
Note: This parameter assumes an 8-bit byte. If your platform uses a
longer byte, the value of bufl must be adjusted accordingly.
piece (IN) - which piece of the buffer is being written. The default value for
this parameter is OCI_ONE_PIECE, indicating the buffer will be written in a
single piece.
The following other values are also possible for piecewise or callback mode:
OCI_FIRST_PIECE, OCI_NEXT_PIECE and OCI_LAST_PIECE.
amtp (IN/OUT) - On input, takes the number of character or bytes to be
written. On output, returns the actual number of bytes or characters written.
If the data is written in pieces, *amtp will contain the total length of the
pieces written at the end of the call (last piece written) and is undefined in
between.
(Note it is different from the piecewise read case)
ctxp (IN) - the context for the call back function. Can be NULL.
cbfp (IN) - a callback that may be registered to be called for each piece in a
piecewise write. If this is NULL, the standard polling method will be used.
The callback function must return OCI_CONTINUE for the write to continue.
If any other error code is returned, the LOB write is aborted. The
callback takes the following parameters:
ctxp (IN) - the context for the call back function. Can be NULL.
bufp (IN/OUT) - a buffer pointer for the piece.
lenp (IN/OUT) - the length of the buffer (in octets) and the length of
current piece in bufp (out octets).
piecep (OUT) - which piece - OCI_NEXT_PIECE or OCI_LAST_PIECE.
csid - the character set ID of the buffer data
csfrm - the character set form of the buffer data
Related Functions
OCILobGetStorageLimit()
Name
OCI Lob Get Storage Limit
Purpose
To get the maximum Length of a LOB in bytes that can be stored in the database.
Syntax
sword OCILobGetStorageLimit ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
oraub8 *limitp);
Comments
With unlimited size LOB support the limit for a LOB is no longer restricted
to 4GB.
This interface should be used to get the actual limit for storing data for
a specific
LOB locator. Note that if the compatibality is set to 9.2 or older the limit
would still be 4GB.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references a LOB.
limitp (OUT) - The storage limit for a LOB in bytes.
Related Functions
OCILobGetOptions()
Name
OCI Lob Get Options
Purpose
To get the current options set for the given SecureFile.
Syntax
sword OCILobGetOptions ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 optypes,
void *optionsp,
ub4 *optionslenp,
ub4 mode);
Comments
This function only works on SecureFiles. All others will get an error.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references a LOB.
optypes (IN) - the types of options flags to be retrieved.
optionsp (OUT) - the options flags or value for the given types.
optionslenp (IN/OUT) - the length of option_value buffer
mode (IN) - for future use (pass 0 for now).
Related Functions
OCISetOptions()
OCILobSetOptions()
Name
OCI Lob Set Options
Purpose
To set the options for the given SecureFile Lob.
Syntax
sword OCILobSetOptions ( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 optypes,
void *optionsp,
ub4 optionslen,
ub4 mode);
Comments
This function only works on SecureFile Lobs. All others will get an error.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references a LOB.
optypes (IN) - the types of options flags to be set.
optionsp (IN) - the options flags or value to be set for the given types.
optionslen (IN) - then length of option_value buffer
mode (IN) - for future use (pass 0 for now).
Related Functions
OCILobGetOptions()
OCILobGetContentType()
Name
OCI Lob Get Content Type
Purpose
To get the current contenttype set for the given SecureFile.
Syntax
sword OCILobGetContentType (OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
oratext *contenttypep,
ub4 *contenttypelenp,
ub4 mode);
Comments
This function only works on SecureFiles. All others will get an error.
If the securefile does not have a contenttype associated with it,
the contenttype length (= *contenttypelenp) is returned as 0 without
modifying the buffer contenttypep.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references a LOB.
contenttypep(IN/OUT)- pointer to the buffer where the contenttype is stored
after successful execution.
The caller needs to allocate the buffer before calling
this function. The size of the allocated buffer should
be >= OCI_LOB_CONTENTTYPE_MAXSIZE bytes
contenttypelenp(IN/OUT)- The caller should set this field to the size
of contenttypep buffer.
After the call successfully executes, it will hold the
size of the contenttype returned.
mode (IN) - for future use (pass 0 for now).
Related Functions
OCISetContentType()
OCILobSetContentType()
Name
OCI Lob Set Content Type
Purpose
To set the contenttype for the given SecureFile Lob.
Syntax
sword OCILobSetContentType (OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
const oratext *contenttypep,
ub4 contenttypelen,
ub4 mode);
Comments
This function only works on SecureFiles. All others will get an error.
To clear an existing contenttype set on a securefile, the user will
invoke OCILobSetContentType API with contenttypep set to (oratext *)0,
and contenttypelen set to 0.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
locp (IN/OUT) - a LOB locator that uniquely references a LOB.
contenttypep (IN) - the contenttype to be set for the given LOB.
contenttypelen(IN) - the size of contenttype in bytes. The size of the
contenttype should be <= OCI_LOB_CONTENTTYPE_MAXSIZE
bytes.
mode (IN) - for future use (pass 0 for now).
Related Functions
OCILobGetContentType()
OCILogoff()
Name
OCI simplified Logoff
Purpose
This function is used to terminate a session created with OCILogon() or
OCILogon2().
Syntax
sword OCILogoff ( OCISvcCtx *svchp
OCIError *errhp );
Comments
This call is used to terminate a session which was created with OCILogon() or
OCILogon2().
This call implicitly deallocates the server, authentication, and service
context handles.
Note: For more information on logging on and off in an application,
refer to the section "Application Initialization, Connection, and
Authorization" on page 2-16.
Parameters
svchp (IN) - the service context handle which was used in the call to
OCILogon() or OCILogon2().
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
See Also
OCILogon(), OCILogon2().
OCILogon()
Name
OCI Service Context Logon
Purpose
This function is used to create a simple logon session.
Syntax
sword OCILogon ( OCIEnv *envhp,
OCIError *errhp,
OCISvcCtx *svchp,
const OraText *username,
ub4 uname_len,
const OraText *password,
ub4 passwd_len,
const OraText *dbname,
ub4 dbname_len );
Comments
This function is used to create a simple logon session for an application.
Note: Users requiring more complex session (e.g., TP monitor
applications) should refer to the section "Application Initialization,
Connection, and Authorization" on page 2-16.
This call allocates the error and service context handles which are passed to
it. This call also implicitly allocates server and authentication handles
associated with the session. These handles can be retrieved by calling
OCIAttrGet() on the service context handle.
Parameters
envhp (IN) - the OCI environment handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
svchp (OUT) - the service context pointer.
username (IN) - the username.
uname_len (IN) - the length of username.
password (IN) - the user's password.
passwd_len (IN) - the length of password.
dbname (IN) - the name of the database to connect to.
dbname_len (IN) - the length of dbname.
See Also
OCILogoff()
OCILogon2()
Name
OCI Service Context Logon
Purpose
This function is used to create a logon session in connection pooling mode.
Syntax
sword OCILogon2 ( OCIEnv *envhp,
OCIError *errhp,
OCISvcCtx **svchp,
const OraText *username,
ub4 uname_len,
const OraText *password,
ub4 passwd_len,
const OraText *dbname,
ub4 dbname_len,
ub4 mode);
Comments
This function is used to create a simple logon session for an application in
Connection Pooling mode. The valid values for mode are currently OCI_POOL and
OCI_DEFAULT. Call to this function with OCI_DEFAULT mode is equivalent to
OCILogon() call.
This call allocates the error and service context handles which are passed to
it. This call also implicitly allocates server and authentication handles
associated with the session. These handles can be retrieved by calling
OCIAttrGet() on the service context handle. This call assumes that
OCIConnectionPoolCreate() has already been called for the same dbname.
Parameters
envhp (IN) - the OCI environment handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
svchp (OUT) - the service context pointer.
username (IN) - the username.
uname_len (IN) - the length of username.
password (IN) - the user's password. If this is null, it is assumed that a
proxy session has to be created and the required grants on
the database are already done.
passwd_len (IN) - the length of password.
dbname (IN) - the name of the database to connect to.
dbname_len (IN) - the length of dbname.
mode (IN) - the mode for doing the server attach. Should be OCI_POOL for
using Connection Pooling.
See Also
OCILogoff()
OCIMemoryFree()
Name
OCI FREE Memory
Purpose
Frees up storage associated with the pointer.
Syntax
void OCIMemoryFree ( const OCIStmt *stmhp,
void *memptr);
Comments
Frees up dynamically allocated data pointers associated with the pointer using
either the default memory free function or the registered memory free
function, as the case may be.
A user-defined memory free function can be registered during the initial call
to OCIInitialize().
This call is always successful.
Parameters
stmhp (IN) - statement handle which returned this data buffer.
memptr (IN) - pointer to data allocated by the client library.
Related Functions
OCIInitialize()
OCIParamGet()
Name
OCI Get PARaMeter
Purpose
Returns a descriptor of a parameter specified by position in the describe
handle or statement handle.
Syntax
sword OCIParamGet ( const void *hndlp,
ub4 htype,
OCIError *errhp,
void **parmdpp,
ub4 pos );
Comments
This call returns a descriptor of a parameter specified by position in the
describe handle or statement handle. Parameter descriptors are always
allocated internally by the OCI library. They are read-only.
OCI_NO_DATA may be returned if there are no parameter descriptors for this
position.
See Appendix B for more detailed information about parameter descriptor
attributes.
Parameters
hndlp (IN) - a statement handle or describe handle. The OCIParamGet()
function will return a parameter descriptor for this handle.
htype (IN) - the type of the handle passed in the handle parameter. Valid
types are OCI_HTYPE_DESCRIBE, for a describe handle OCI_HTYPE_STMT, for a
statement handle
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
parmdpp (OUT) - a descriptor of the parameter at the position given in the pos
parameter.
pos (IN) - position number in the statement handle or describe handle. A
parameter descriptor will be returned for this position.
Note: OCI_NO_DATA may be returned if there are no parameter
descriptors for this position.
Related Functions
OCIAttrGet(), OCIAttrSet()
OCIParamSet()
Name
OCI Parameter Set in handle
Purpose
Used to set a complex object retrieval descriptor into a complex object
retrieval handle.
Syntax
sword OCIParamGet ( void *hndlp,
ub4 htyp,
OCIError *errhp,
const void *dscp,
ub4 dtyp,
ub4 pos );
Comments
This call sets a given complex object retrieval descriptor into a complex
object retrieval handle.
The handle must have been previously allocated using OCIHandleAlloc(), and
the descriptor must have been previously allocated using OCIDescAlloc().
Attributes of the descriptor are set using OCIAttrSet().
Parameters
hndlp (IN/OUT) - handle pointer.
htype (IN) - handle type.
errhp (IN/OUT) - error handle.
dscp (IN) - complex object retrieval descriptor pointer.
dtyp (IN) -
pos (IN) - position number.
See Also
OCIPasswordChange()
Name
OCI Change PassWord
Purpose
This call allows the password of an account to be changed.
Syntax
sword OCIPasswordChange ( OCISvcCtx *svchp,
OCIError *errhp,
const OraText *user_name,
ub4 usernm_len,
const OraText *opasswd,
ub4 opasswd_len,
const OraText *npasswd,
sb4 npasswd_len,
ub4 mode);
Comments
This call allows the password of an account to be changed. This call is
similar to OCISessionBegin() with the following differences:
If the user authentication is already established, it authenticates
the account using the old password and then changes the
password to the new password
If the user authentication is not established, it establishes a user
authentication and authenticates the account using the old
password, then changes the password to the new password.
This call is useful when the password of an account is expired and
OCISessionBegin() returns an error or warning which indicates that the
password has expired.
Parameters
svchp (IN/OUT) - a handle to a service context. The service context handle
must be initialized and have a server context handle associated with it.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
user_name (IN) - specifies the user name. It points to a character string,
whose length is specified in usernm_len. This parameter must be NULL if the
service context has been initialized with an authentication handle.
usernm_len (IN) - the length of the user name string specified in user_name.
For a valid user name string, usernm_len must be non-zero.
opasswd (IN) - specifies the user's old password. It points to a character
string, whose length is specified in opasswd_len .
opasswd_len (IN) - the length of the old password string specified in opasswd.
For a valid password string, opasswd_len must be non-zero.
npasswd (IN) - specifies the user's new password. It points to a character
string, whose length is specified in npasswd_len which must be non-zero for a
valid password string. If the password complexity verification routine is
specified in the user's profile to verify the new password's complexity, the
new password must meet the complexity requirements of the verification
function.
npasswd_len (IN) - then length of the new password string specified in
npasswd. For a valid password string, npasswd_len must be non-zero.
mode - pass as OCI_DEFAULT.
Related Functions
OCISessionBegin()
OCIRequestBegin()
Name
OCI Begin a database request
Purpose
This call starts a database request, a unit of work often used to service a
web request that may consist of one or more transactions. When using
OCI Session Pool, a call to OCISessionGet() implicitly starts a database
request.
Syntax
sword OCIRequestBegin ( OCISvcCtx *svchp,
OCIError *errhp,
ub4 mode);
Comments
Parameters
svchp (IN/OUT) - a handle to a service context. The service context handle
must be initialized and have a session handle associcated
with it.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
mode (IN) - pass as OCI_DEFAULT.
Related Functions
OCIRequestEnd()
OCIRequestDisableReplay
OCIRequestEnd()
Name
OCI End a database request
Purpose
This call terminates a database request. When using OCI Session Pool, a
call to OCISessionRelease() implicitly ends a database request.
Syntax
sword OCIRequestEnd ( OCISvcCtx *svchp,
OCIError *errhp,
ub4 mode);
Comments
Parameters
svchp (IN/OUT) - a handle to a service context. The service context handle
must be initialized and have a session handle associated
with it.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
mode (IN) - pass as OCI_DEFAULT.
Related Functions
OCIRequestBegin()
OCIRequestDisableReplay
OCIRequestDisableReplay()
Name
OCI Disable AC Replay for a session
database
Purpose
This call disables AC/Replay for a seession for the duration of the current
database request.
Syntax
sword OCIRequestDisableReplay ( OCISvcCtx *svchp,
OCIError *errhp,
ub4 mode);
Comments
Parameters
svchp (IN/OUT) - a handle to a service context. The service context handle
must be initialized and have a session handle associated
with it.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
mode (IN) - pass as OCI_DEFAULT.
Related Functions
OCIRequestBegin()
OCIRequestEnd()
----------------------------------OCIReset------------------------------------
OCIReset()
Name
OCI Reset
Purpose
Resets the interrupted asynchronous operation and protocol. Must be called
if a OCIBreak call had been issued while a non-blocking operation was in
progress.
Syntax
sword OCIReset ( void *hndlp,
OCIError *errhp);
Comments
This call is called in non-blocking mode ONLY. Resets the interrupted
asynchronous operation and protocol. Must be called if a OCIBreak call
had been issued while a non-blocking operation was in progress.
Parameters
hndlp (IN) - the service context handle or the server context handle.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
Related Functions
OCIResultSetToStmt()
Name
OCI convert Result Set to Statement Handle
Purpose
Converts a descriptor to statement handle for fetching rows.
Syntax
sword OCIResultSetToStmt ( OCIResult *rsetdp,
OCIError *errhp );
Comments
Converts a descriptor to statement handle for fetching rows.
A result set descriptor can be allocated with a call to OCIDescAlloc().
Parameters
rsetdp (IN/OUT) - a result set descriptor pointer.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
Related Functions
OCIDescAlloc()
OCIServerAttach()
Name
OCI ATtaCH to server
Purpose
Creates an access path to a data source for OCI operations.
Syntax
sword OCIServerAttach ( OCIServer *srvhp,
OCIError *errhp,
const OraText *dblink,
sb4 dblink_len,
ub4 mode);
Comments
This call is used to create an association between an OCI application and a
particular server.
This call initializes a server context handle, which must have been previously
allocated with a call to OCIHandleAlloc().
The server context handle initialized by this call can be associated with a
service context through a call to OCIAttrSet(). Once that association has been
made, OCI operations can be performed against the server.
If an application is operating against multiple servers, multiple server
context handles can be maintained. OCI operations are performed against
whichever server context is currently associated with the service context.
Parameters
srvhp (IN/OUT) - an uninitialized server context handle, which gets
initialized by this call. Passing in an initialized server handle causes an
error.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
dblink (IN) - specifies the database (server) to use. This parameter points to
a character string which specifies a connect string or a service point. If the
connect string is NULL, then this call attaches to the default host. The length
of connstr is specified in connstr_len. The connstr pointer may be freed by the
caller on return.
dblink_len (IN) - the length of the string pointed to by connstr. For a valid
connect string name or alias, connstr_len must be non-zero.
mode (IN) - specifies the various modes of operation. For release 8.0, pass as
OCI_DEFAULT - in this mode, calls made to the server on this server context
are made in blocking mode.
Example
See the description of OCIStmtPrepare() on page 13-96 for an example showing
the use of OCIServerAttach().
Related Functions
OCIServerDetach()
OCIServerDetach()
Name
OCI DeTaCH server
Purpose
Deletes an access to a data source for OCI operations.
Syntax
sword OCIServerDetach ( OCIServer *svrhp,
OCIError *errhp,
ub4 mode);
Comments
This call deletes an access to data source for OCI operations, which was
established by a call to OCIServerAttach().
Parameters
srvhp (IN) - a handle to an initialized server context, which gets reset to
uninitialized state. The handle is not de-allocated.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
mode (IN) - specifies the various modes of operation. The only valid mode is
OCI_DEFAULT for the default mode.
Related Functions
OCIServerAttach()
OCIServerVersion()
Name
OCI VERSion
Purpose
Returns the version string of the Oracle server.
Syntax
sword OCIServerVersion ( void *hndlp,
OCIError *errhp,
OraText *bufp,
ub4 bufsz
ub1 hndltype );
Comments
This call returns the version string of the Oracle server.
For example, the following might be returned as the version string if your
application is running against a 7.3.2 server:
Oracle7 Server Release 7.3.2.0.0 - Production Release
PL/SQL Release 2.3.2.0.0 - Production
CORE Version 3.5.2.0.0 - Production
TNS for SEQUENT DYNIX/ptx: Version 2.3.2.0.0 - Production
NLSRTL Version 3.2.2.0.0 - Production
Parameters
hndlp (IN) - the service context handle or the server context handle.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
bufp (IN) - the buffer in which the version information is returned.
bufsz (IN) - the length of the buffer.
hndltype (IN) - the type of handle passed to the function.
Related Functions
OCISessionBegin()
Name
OCI Session Begin and authenticate user
Purpose
Creates a user authentication and begins a user session for a given server.
Syntax
sword OCISessionBegin ( OCISvcCtx *svchp,
OCIError *errhp,
OCISession *usrhp,
ub4 credt,
ub4 mode);
Comments
For Oracle8, OCISessionBegin() must be called for any given server handle
before requests can be made against it. Also, OCISessionBegin() only supports
authenticating the user for access to the Oracle server specified by the
server handle in the service context. In other words, after OCIServerAttach()
is called to initialize a server handle, OCISessionBegin() must be called to
authenticate the user for that given server.
When OCISessionBegin() is called for the first time for the given server
handle, the initialized authentication handle is called a primary
authentication context. A primary authentication context may not be created
with the OCI_MIGRATE mode. Also, only one primary authentication context can
be created for a given server handle and the primary authentication context c
an only ever be used with that server handle. If the primary authentication
context is set in a service handle with a different server handle, then an
error will result.
After OCISessionBegin() has been called for the server handle, and the primary
authentication context is set in the service handle, OCISessionBegin() may be
called again to initialize another authentication handle with different (or
the same) credentials. When OCISessionBegin() is called with a service handle
set with a primary authentication context, the returned authentication context
in authp is called a user authentication context. As many user authentication
contexts may be initialized as desired.
User authentication contexts may be created with the OCI_MIGRATE mode.
If the OCI_MIGRATE mode is not specified, then the user authentication
context can only ever be used with the same server handle set in svchp. If
OCI_MIGRATE mode is specified, then the user authentication may be set
with different server handles. However, the user authentication context is
restricted to use with only server handles which resolve to the same database
instance and that have equivalent primary authentication contexts. Equivalent
authentication contexts are those which were authenticated as the same
database user.
OCI_SYSDBA, OCI_SYSOPER, OCI_SYSASM, and OCI_PRELIM_AUTH may only be used
with a primary authentication context.
To provide credentials for a call to OCISessionBegin(), one of two methods are
supported. The first is to provide a valid username and password pair for
database authentication in the user authentication handle passed to
OCISessionBegin(). This involves using OCIAttrSet() to set the
OCI_ATTR_USERNAME and OCI_ATTR_PASSWORD attributes on the
authentication handle. Then OCISessionBegin() is called with
OCI_CRED_RDBMS.
Note: When the authentication handle is terminated using
OCISessionEnd(), the username and password attributes remain
unchanged and thus can be re-used in a future call to OCISessionBegin().
Otherwise, they must be reset to new values before the next
OCISessionBegin() call.
The second type of credentials supported are external credentials. No
attributes need to be set on the authentication handle before calling
OCISessionBegin(). The credential type is OCI_CRED_EXT. This is equivalent
to the Oracle7 `connect /' syntax. If values have been set for
OCI_ATTR_USERNAME and OCI_ATTR_PASSWORD, then these are
ignored if OCI_CRED_EXT is used.
Parameters
svchp (IN) - a handle to a service context. There must be a valid server
handle set in svchp.
errhp (IN) - an error handle to the retrieve diagnostic information.
usrhp (IN/OUT) - a handle to an authentication context, which is initialized
by this call.
credt (IN) - specifies the type of credentials to use for authentication.
Valid values for credt are:
OCI_CRED_RDBMS - authenticate using a database username and
password pair as credentials. The attributes OCI_ATTR_USERNAME
and OCI_ATTR_PASSWORD should be set on the authentication
context before this call.
OCI_CRED_EXT - authenticate using external credentials. No username
or password is provided.
mode (IN) - specifies the various modes of operation. Valid modes are:
OCI_DEFAULT - in this mode, the authentication context returned may
only ever be set with the same server context specified in svchp. This
establishes the primary authentication context.
OCI_MIGRATE - in this mode, the new authentication context may be
set in a service handle with a different server handle. This mode
establishes the user authentication context.
OCI_SYSDBA - in this mode, the user is authenticated for SYSDBA
access.
OCI_SYSOPER - in this mode, the user is authenticated for SYSOPER
access.
OCI_SYSASM - in this mode, the user is authenticated for SYSASM
access. Note that only an ASM instance can grant SYSASM access.
OCI_PRELIM_AUTH - this mode may only be used with OCI_SYSDBA, OCI_SYSASM,
or OCI_SYSOPER to authenticate for certain administration tasks.
Related Functions
OCISessionEnd()
OCISessionEnd()
Name
OCI Terminate user Authentication Context
Purpose
Terminates a user authentication context created by OCISessionBegin()
Syntax
sword OCISessionEnd ( OCISvcCtx *svchp,
OCIError *errhp,
OCISession *usrhp,
ub4 mode);
Comments
The user security context associated with the service context is invalidated
by this call. Storage for the authentication context is not freed. The
transaction specified by the service context is implicitly committed. The
transaction handle, if explicitly allocated, may be freed if not being used.
Resources allocated on the server for this user are freed.
The authentication handle may be reused in a new call to OCISessionBegin().
Parameters
svchp (IN/OUT) - the service context handle. There must be a valid server
handle and user authentication handle associated with svchp.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
usrhp (IN) - de-authenticate this user. If this parameter is passed as NULL,
the user in the service context handle is de-authenticated.
mode (IN) - the only valid mode is OCI_DEFAULT.
Example
In this example, an authentication context is destroyed.
Related Functions
OCISessionBegin()
OCIStmtExecute()
Name
OCI EXECute
Purpose
This call associates an application request with a server.
Syntax
sword OCIStmtExecute ( OCISvcCtx *svchp,
OCIStmt *stmtp,
OCIError *errhp,
ub4 iters,
ub4 rowoff,
const OCISnapshot *snap_in,
OCISnapshot *snap_out,
ub4 mode );
Comments
This function is used to execute a prepared SQL statement.
Using an execute call, the application associates a request with a server. On
success, OCI_SUCCESS is returned.
If a SELECT statement is executed, the description of the select list follows
implicitly as a response. This description is buffered on the client side for
describes, fetches and define type conversions. Hence it is optimal to
describe a select list only after an execute.
Also for SELECT statements, some results are available implicitly. Rows will
be received and buffered at the end of the execute. For queries with small row
count, a prefetch causes memory to be released in the server if the end of
fetch is reached, an optimization that may result in memory usage reduction.
Set attribute call has been defined to set the number of rows to be prefetched
per result set.
For SELECT statements, at the end of the execute, the statement handle
implicitly maintains a reference to the service context on which it is
executed. It is the user's responsibility to maintain the integrity of the
service context. If the attributes of a service context is changed for
executing some operations on this service context, the service context must
be restored to have the same attributes, that a statement was executed with,
prior to a fetch on the statement handle. The implicit reference is maintained
until the statement handle is freed or the fetch is cancelled or an end of
fetch condition is reached.
Note: If output variables are defined for a SELECT statement before a
call to OCIStmtExecute(), the number of rows specified by iters will be
fetched directly into the defined output buffers and additional rows
equivalent to the prefetch count will be prefetched. If there are no
additional rows, then the fetch is complete without calling
OCIStmtFetch().
The execute call will return errors if the statement has bind data types that
are not supported in an Oracle7 server.
Parameters
svchp (IN/OUT) - service context handle.
stmtp (IN/OUT) - an statement handle - defines the statement and the
associated data to be executed at the server. It is invalid to pass in a
statement handle that has bind of data types only supported in release 8.0
when srvchp points to an Oracle7 server.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error. If the statement is being
batched and it is successful, then this handle will contain this particular
statement execution specific errors returned from the server when the batch is
flushed.
iters (IN) - the number of times this statement is executed for non-Select
statements. For Select statements, if iters is non-zero, then defines must
have been done for the statement handle. The execution fetches iters rows into
these predefined buffers and prefetches more rows depending upon the prefetch
row count. This function returns an error if iters=0 for non-SELECT
statements.
rowoff (IN) - the index from which the data in an array bind is relevant for
this multiple row execution.
snap_in (IN) - this parameter is optional. if supplied, must point to a
snapshot descriptor of type OCI_DTYPE_SNAP. The contents of this descriptor
must be obtained from the snap_out parameter of a previous call. The
descriptor is ignored if the SQL is not a SELECT. This facility allows
multiple service contexts to ORACLE to see the same consistent snapshot of the
database's committed data. However, uncommitted data in one context is not
visible to another context even using the same snapshot.
snap_out (OUT) - this parameter optional. if supplied, must point to a
descriptor of type OCI_DTYPE_SNAP. This descriptor is filled in with an
opaque representation which is the current ORACLE "system change
number" suitable as a snap_in input to a subsequent call to OCIStmtExecute().
This descriptor should not be used any longer than necessary in order to avoid
"snapshot too old" errors.
mode (IN) - The modes are:
If OCI_DEFAULT_MODE, the default mode, is selected, the request is
immediately executed. Error handle contains diagnostics on error if any.
OCI_EXACT_FETCH - if the statement is a SQL SELECT, this mode is
only valid if the application has set the prefetch row count prior to this
call. In this mode, the OCI library will get up to the number of rows
specified (i.e., prefetch row count plus iters). If the number of rows
returned by the query is greater than this value, OCI_ERROR will be
returned with ORA-01422 as the implementation specific error in a
diagnostic record. If the number of rows returned by the query is
smaller than the prefetch row count, OCI_SUCCESS_WITH_INFO will
be returned with ORA-01403 as the implementation specific error. The
prefetch buffer size is ignored and the OCI library tries to allocate all the
space required to contain the prefetched rows. The exact fetch semantics
apply to only the top level rows. No more rows can be fetched for this
query at the end of the call.
OCI_KEEP_FETCH_STATE - the result set rows (not yet fetched) of this
statement executed in this transaction will be maintained when the
transaction is detached for migration. By default, a query is cancelled
when a transaction is detached for migration. This mode is the default
mode when connected to a V7 server.
Related Functions
OCIStmtPrepare()
sword OCIStmtGetNextResult (OCIStmt *stmthp,
OCIError *errhp,
void **result,
ub4 *rtype,
ub4 mode)
PARAMETERS
stmthp - (IN) executed statement handle
errhp - (IN) error handle
result - (OUT) the next implicit
Result from the executed PL/SQL statement
rtype - (OUT) the type of the implicit result
mode - (IN) OCI_DEFAULT for now
DESCRIPTION
Returns the implicit results from a executed PL/SQL statement
handle. Each call to OCIStmtGetNextResult () retrieves a single
implicit Result in the order in which they were returned from
the PL/SQL procedure/block. If no more Results are available,
then OCI_NO_DATA is returned. If rtype is OCI_RESULT_TYPE_SELECT, then
the returned result can be cast as an OCI statement handle.
The OCI statement handles for implicit result-sets
are allocated by OCI. Applications can do normal OCI define
and fetch calls to fetch rows from the implicit result-sets. The
returned OCI statement handle cannot be freed explicitly. All implicit
result-sets are automatically closed and freed when the top-level
statement handle is freed or released.
RETURN
OCI_ERROR
OCI_SUCCESS
OCI_NO_DATA when all implicit ResultSets have been retrieved from
the top-level Statement handle
OCIStmtFetch()
Name
OCI FetCH
Purpose
Fetches rows from a query.
Syntax
sword OCIStmtFetch ( OCIStmt *stmtp,
OCIError *errhp,
ub4 nrows,
ub2 orientation,
ub4 mode);
Comments
The fetch call is a local call, if prefetched rows suffice. However, this is
transparent to the application. If LOB columns are being read, LOB locators
are fetched for subsequent LOB operations to be performed on these locators.
Prefetching is turned off if LONG columns are involved.
A fetch with nrows set to 0 rows effectively cancels the fetch for this
statement.
Parameters
stmtp (IN) - a statement (application request) handle.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
nrows (IN) - number of rows to be fetched from the current position.
orientation (IN) - for release 8.0, the only acceptable value is
OCI_FETCH_NEXT, which is also the default value.
mode (IN) - for release 8.0, beta-1, the following mode is defined.
OCI_DEFAULT - default mode
OCI_EOF_FETCH - indicates that it is the last fetch from the result set.
If nrows is non-zero, setting this mode effectively cancels fetching after
retrieving nrows, otherwise it cancels fetching immediately.
Related Functions
OCIAttrGet()
OCIStmtFetch2()
Name
OCI FetCH2
Purpose
Fetches rows from a query.
Syntax
sword OCIStmtFetch2 ( OCIStmt *stmtp,
OCIError *errhp,
ub4 nrows,
ub2 orientation,
ub4 scrollOffset,
ub4 mode);
Comments
The fetch call works similar to the OCIStmtFetch call with the
addition of the fetchOffset parameter. It can be used on any
statement handle, whether it is scrollable or not. For a
non-scrollable statement handle, the only acceptable value
will be OCI_FETCH_NEXT, and the fetchOffset parameter will be
ignored. Applications are encouraged to use this new call.
A fetchOffset with OCI_FETCH_RELATIVE is equivalent to
OCI_FETCH_CURRENT with a value of 0, is equivalent to
OCI_FETCH_NEXT with a value of 1, and equivalent to
OCI_FETCH_PRIOR with a value of -1. Note that the range of
accessible rows is [1,OCI_ATTR_ROW_COUNT] beyond which an
error could be raised if sufficient rows do not exist in
The fetch call is a local call, if prefetched rows suffice. However, this is
transparent to the application. If LOB columns are being read, LOB locators
are fetched for subsequent LOB operations to be performed on these locators.
Prefetching is turned off if LONG columns are involved.
A fetch with nrows set to 0 rows effectively cancels the fetch for this
statement.
Parameters
stmtp (IN) - a statement (application request) handle.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
nrows (IN) - number of rows to be fetched from the current position.
It defaults to 1 for orientation OCI_FETCH_LAST.
orientation (IN) - The acceptable values are as follows, with
OCI_FETCH_NEXT being the default value.
OCI_FETCH_CURRENT gets the current row,
OCI_FETCH_NEXT gets the next row from the current position,
OCI_FETCH_FIRST gets the first row in the result set,
OCI_FETCH_LAST gets the last row in the result set,
OCI_FETCH_PRIOR gets the previous row from the current row in the result set,
OCI_FETCH_ABSOLUTE will fetch the row number (specified by fetchOffset
parameter) in the result set using absolute positioning,
OCI_FETCH_RELATIVE will fetch the row number (specified by fetchOffset
parameter) in the result set using relative positioning.
scrollOffset(IN) - offset used with the OCI_FETCH_ABSOLUTE and
OCI_FETCH_RELATIVE orientation parameters only. It specify
the new current position for scrollable result set. It is
ignored for non-scrollable result sets.
mode (IN) - for release 8.0, beta-1, the following mode is defined.
OCI_DEFAULT - default mode
OCI_EOF_FETCH - indicates that it is the last fetch from the result set.
If nrows is non-zero, setting this mode effectively cancels fetching after
retrieving nrows, otherwise it cancels fetching immediately.
Related Functions
OCIAttrGet()
OCIStmtGetPieceInfo()
Name
OCI Get Piece Information
Purpose
Returns piece information for a piecewise operation.
Syntax
sword OCIStmtGetPieceInfo( const OCIStmt *stmtp,
OCIError *errhp,
void **hndlpp,
ub4 *typep,
ub1 *in_outp,
ub4 *iterp,
ub4 *idxp,
ub1 *piecep );
Comments
When an execute/fetch call returns OCI_NEED_DATA to get/return a
dynamic bind/define value or piece, OCIStmtGetPieceInfo() returns the
relevant information: bind/define handle, iteration or index number and
which piece.
See the section "Runtime Data Allocation and Piecewise Operations" on page
5-16 for more information about using OCIStmtGetPieceInfo().
Parameters
stmtp (IN) - the statement when executed returned OCI_NEED_DATA.
errhp (OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
hndlpp (OUT) - returns a pointer to the bind or define handle of the bind or
define whose runtime data is required or is being provided.
typep (OUT) - the type of the handle pointed to by hndlpp: OCI_HTYPE_BIND
(for a bind handle) or OCI_HTYPE_DEFINE (for a define handle).
in_outp (OUT) - returns OCI_PARAM_IN if the data is required for an IN bind
value. Returns OCI_PARAM_OUT if the data is available as an OUT bind
variable or a define position value.
iterp (OUT) - returns the row number of a multiple row operation.
idxp (OUT) - the index of an array element of a PL/SQL array bind operation.
piecep (OUT) - returns one of the following defined values -
OCI_ONE_PIECE, OCI_FIRST_PIECE, OCI_NEXT_PIECE and
OCI_LAST_PIECE. The default value is always OCI_ONE_PIECE.
Related Functions
OCIAttrGet(), OCIAttrGet(), OCIStmtExecute(), OCIStmtFetch(),
OCIStmtSetPieceInfo()
OCIStmtPrepare()
Name
OCI Statement REQuest
Purpose
This call defines the SQL/PLSQL statement to be executed.
Syntax
sword OCIStmtPrepare ( OCIStmt *stmtp,
OCIError *errhp,
const OraText *stmt,
ub4 stmt_len,
ub4 language,
ub4 mode);
Comments
This call is used to prepare a SQL or PL/SQL statement for execution. The
OCIStmtPrepare() call defines an application request.
This is a purely local call. Data values for this statement initialized in
subsequent bind calls will be stored in a bind handle which will hang off this
statement handle.
This call does not create an association between this statement handle and any
particular server.
See the section "Preparing Statements" on page 2-21 for more information
about using this call.
Parameters
stmtp (IN) - a statement handle.
errhp (IN) - an error handle to retrieve diagnostic information.
stmt (IN) - SQL or PL/SQL statement to be executed. Must be a null-terminated
string. The pointer to the OraText of the statement must be available as long
as the statement is executed.
stmt_len (IN) - length of the statement. Must not be zero.
language (IN) - V7, V8, or native syntax. Possible values are:
OCI_V7_SYNTAX - V7 ORACLE parsing syntax
OCI_V8_SYNTAX - V8 ORACLE parsing syntax
OCI_NTV_SYNTAX - syntax depending upon the version of the server.
mode (IN) - the only defined mode is OCI_DEFAULT for default mode.
Example
This example demonstrates the use of OCIStmtPrepare(), as well as the OCI
application initialization calls.
Related Functions
OCIAttrGet(), OCIStmtExecute()
OCIStmtPrepare2()
Name
OCI Statement REQuest with (a) early binding to svchp and/or
(b) stmt caching
Purpose
This call defines the SQL/PLSQL statement to be executed.
Syntax
sword OCIStmtPrepare2 ( OCISvcCtx *svchp,
OCIStmt **stmtp,
OCIError *errhp,
const OraText *stmt,
ub4 stmt_len,
const OraText *key,
ub4 key_len,
ub4 language,
ub4 mode);
Comments
This call is used to prepare a SQL or PL/SQL statement for execution. The
OCIStmtPrepare() call defines an application request.
This is a purely local call. Data values for this statement initialized in
subsequent bind calls will be stored in a bind handle which will hang off this
statement handle.
This call creates an association between the statement handle and a service
context. It differs from OCIStmtPrepare in that respect.It also supports
stmt caching. The stmt will automatically be cached if the authp of the stmt
has enabled stmt caching.
Parameters
svchp (IN) - the service context handle that contains the session that
this stmt handle belongs to.
stmtp (OUT) - an unallocated stmt handle must be pased in. An allocated
and prepared statement handle will be returned.
errhp (IN) - an error handle to retrieve diagnostic information.
stmt (IN) - SQL or PL/SQL statement to be executed. Must be a null-
terminated string. The pointer to the OraText of the statement
must be available as long as the statement is executed.
stmt_len (IN) - length of the statement. Must not be zero.
key (IN) - This is only Valid for OCI Stmt Caching. It indicates the
key to search with. It thus optimizes the search in the cache.
key_len (IN) - the length of the key. This, too, is onlly valid for stmt
caching.
language (IN) - V7, V8, or native syntax. Possible values are:
OCI_V7_SYNTAX - V7 ORACLE parsing syntax
OCI_V8_SYNTAX - V8 ORACLE parsing syntax
OCI_NTV_SYNTAX - syntax depending upon the version of the server.
mode (IN) - the defined modes are OCI_DEFAULT and OCI_PREP2_CACHE_SEARCHONLY.
Example
Related Functions
OCIStmtExecute(), OCIStmtRelease()
OCIStmtRelease()
Name
OCI Statement Release. This call is used to relesae the stmt that
was retreived using OCIStmtPrepare2(). If the stmt is release
using this call, OCIHandleFree() must not be called on the stmt
handle.
Purpose
This call releases the statement obtained by OCIStmtPrepare2
Syntax
sword OCIStmtRelease ( OCIStmt *stmtp,
OCIError *errhp,
cONST OraText *key,
ub4 key_len,
ub4 mode);
Comments
This call is used to release a handle obtained via OCIStmtPrepare2().
It also frees the memory associated with the handle.
This is a purely local call.
Parameters
stmtp (IN/OUT) - The statement handle to be released/freed.
errhp (IN) - an error handle to retrieve diagnostic information.
key (IN) - This is only Valid for OCI Stmt Caching. It indicates the
key to tag the stmt with.
key_len (IN) - the length of the key. This, too, is only valid for stmt
caching.
mode (IN) - the defined modes are OCI_DEFAULT for default mode and
OCI_STRLS_CACHE_DELETE (only used for Stmt Caching).
Example
Related Functions
OCIStmtExecute(), OCIStmtPrepare2()
OCIStmtSetPieceInfo()
Name
OCI Set Piece Information
Purpose
Sets piece information for a piecewise operation.
Syntax
sword OCIStmtSetPieceInfo ( void *hndlp,
ub4 type,
OCIError *errhp,
const void *bufp,
ub4 *alenp,
ub1 piece,
const void *indp,
ub2 *rcodep );
Comments
When an execute call returns OCI_NEED_DATA to get a dynamic IN/OUT
bind value or piece, OCIStmtSetPieceInfo() sets the piece information: the
buffer, the length, the indicator and which piece is currently being processed.
For more information about using OCIStmtSetPieceInfo() see the section
"Runtime Data Allocation and Piecewise Operations" on page 5-16.
Parameters
hndlp (IN/OUT) - the bind/define handle.
type (IN) - type of the handle.
errhp (OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
bufp (IN/OUT) - bufp is a pointer to a storage containing the data value or
the piece when it is an IN bind variable, otherwise bufp is a pointer to
storage for getting a piece or a value for OUT binds and define variables. For
named data types or REFs, a pointer to the object or REF is returned.
alenp (IN/OUT) - the length of the piece or the value.
piece (IN) - the piece parameter. The following are valid values:
OCI_ONE_PIECE, OCI_FIRST_PIECE, OCI_NEXT_PIECE, or
OCI_LAST_PIECE.
The default value is OCI_ONE_PIECE. This parameter is used for IN bind
variables only.
indp (IN/OUT) - indicator. A pointer to a sb2 value or pointer to an indicator
structure for named data types (SQLT_NTY) and REFs (SQLT_REF), i.e., *indp
is either an sb2 or a void * depending upon the data type.
rcodep (IN/OUT) - return code.
Related Functions
OCIAttrGet(), OCIAttrGet(), OCIStmtExecute(), OCIStmtFetch(),
OCIStmtGetPieceInfo()
OCIFormatInit
Name
OCIFormat Package Initialize
Purpose
Initializes the OCIFormat package.
Syntax
sword OCIFormatInit(void *hndl, OCIError *err);
Comments
This routine must be called before calling any other OCIFormat routine.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - OCI environment or session handle
err (IN/OUT) - OCI error handle
Related Functions
OCIFormatTerm()
OCIFormatString
Name
OCIFormat Package Format String
Purpose
Writes a text string into the supplied text buffer using the argument
list submitted to it and in accordance with the format string given.
Syntax
sword OCIFormatString(void *hndl, OCIError *err, OraText *buffer,
sbig_ora bufferLength, sbig_ora *returnLength,
const OraText *formatString, ...);
Comments
The first call to this routine must be preceded by a call to the
OCIFormatInit routine that initializes the OCIFormat package
for use. When this routine is no longer needed then terminate
the OCIFormat package by a call to the OCIFormatTerm routine.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - OCI environment or session handle
err (IN/OUT) - OCI error handle
buffer (OUT) - text buffer for the string
bufferLength (IN) - length of the text buffer
returnLength (OUT) - length of the formatted string
formatString (IN) - format specification string
... (IN) - variable argument list
Related Functions
OCIFormatTerm
Name
OCIFormat Package Terminate
Purpose
Terminates the OCIFormat package.
Syntax
sword OCIFormatTerm(void *hndl, OCIError *err);
Comments
It must be called after the OCIFormat package is no longer being used.
Returns OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
Parameters
hndl (IN/OUT) - OCI environment or session handle
err (IN/OUT) - OCI error handle
Related Functions
OCIFormatInit()
OCIFormatTUb1
Name
OCIFormat Package ub1 Type
Purpose
Return the type value for the ub1 type.
Syntax
sword OCIFormatTUb1(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTUb2
Name
OCIFormat Package ub2 Type
Purpose
Return the type value for the ub2 type.
Syntax
sword OCIFormatTUb2(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTUb4
Name
OCIFormat Package ub4 Type
Purpose
Return the type value for the ub4 type.
Syntax
sword OCIFormatTUb4(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTUword
Name
OCIFormat Package uword Type
Purpose
Return the type value for the uword type.
Syntax
sword OCIFormatTUword(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTUbig_ora
Name
OCIFormat Package ubig_ora Type
Purpose
Return the type value for the ubig_ora type.
Syntax
sword OCIFormatTUbig_ora(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTSb1
Name
OCIFormat Package sb1 Type
Purpose
Return the type value for the sb1 type.
Syntax
sword OCIFormatTSb1(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTSb2
Name
OCIFormat Package sb2 Type
Purpose
Return the type value for the sb2 type.
Syntax
sword OCIFormatTSb2(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTSb4
Name
OCIFormat Package sb4 Type
Purpose
Return the type value for the sb4 type.
Syntax
sword OCIFormatTSb4(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTSword
Name
OCIFormat Package sword Type
Purpose
Return the type value for the sword type.
Syntax
sword OCIFormatTSword(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTSbig_ora
Name
OCIFormat Package sbig_ora Type
Purpose
Return the type value for the sbig_ora type.
Syntax
sword OCIFormatTSbig_ora(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTEb1
Name
OCIFormat Package eb1 Type
Purpose
Return the type value for the eb1 type.
Syntax
sword OCIFormatTEb1(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTEb2
Name
OCIFormat Package eb2 Type
Purpose
Return the type value for the eb2 type.
Syntax
sword OCIFormatTEb2(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTEb4
Name
OCIFormat Package eb4 Type
Purpose
Return the type value for the eb4 type.
Syntax
sword OCIFormatTEb4(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTEword
Name
OCIFormat Package eword Type
Purpose
Return the type value for the eword type.
Syntax
sword OCIFormatTEword(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTChar
Name
OCIFormat Package text Type
Purpose
Return the type value for the text type.
Syntax
sword OCIFormatTChar(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTText
Name
OCIFormat Package *text Type
Purpose
Return the type value for the *text type.
Syntax
sword OCIFormatTText(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTDouble
Name
OCIFormat Package double Type
Purpose
Return the type value for the double type.
Syntax
sword OCIFormatTDouble(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatDvoid
Name
OCIFormat Package void Type
Purpose
Return the type value for the void type.
Syntax
sword OCIFormatTDvoid(void);
Comments
None
Parameters
None
Related Functions
None
OCIFormatTEnd
Name
OCIFormat Package end Type
Purpose
Return the list terminator's "type".
Syntax
sword OCIFormatTEnd(void);
Comments
None
Parameters
None
Related Functions
None
OCISvcCtxToLda()
Name
OCI toggle SerVice context handle to Version 7 Lda_Def
Purpose
Toggles between a V8 service context handle and a V7 Lda_Def.
Syntax
sword OCISvcCtxToLda ( OCISvcCtx *srvhp,
OCIError *errhp,
Lda_Def *ldap );
Comments
Toggles between an Oracle8 service context handle and an Oracle7 Lda_Def.
This function can only be called after a service context has been properly
initialized.
Once the service context has been translated to an Lda_Def, it can be used in
release 7.x OCI calls (e.g., obindps(), ofen()).
Note: If there are multiple service contexts which share the same server
handle, only one can be in V7 mode at any time.
The action of this call can be reversed by passing the resulting Lda_Def to
the OCILdaToSvcCtx() function.
Parameters
svchp (IN/OUT) - the service context handle.
errhp (IN/OUT) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
ldap (IN/OUT) - a Logon Data Area for V7-style OCI calls which is initialized
by this call.
Related Functions
OCILdaToSvcCtx()
OCITransCommit()
Name
OCI TX (transaction) CoMmit
Purpose
Commits the transaction associated with a specified service context.
Syntax
sword OCITransCommit ( OCISvcCtx *srvcp,
OCIError *errhp,
ub4 flags );
Comments
The transaction currently associated with the service context is committed. If
it is a distributed transaction that the server cannot commit, this call
additionally retrieves the state of the transaction from the database to be
returned to the user in the error handle.
If the application has defined multiple transactions, this function operates
on the transaction currently associated with the service context. If the
application is working with only the implicit local transaction created when
database changes are made, that implicit transaction is committed.
If the application is running in the object mode, then the modified or updated
objects in the object cache for this transaction are also committed.
The flags parameter is used for one-phase commit optimization in distributed
transactions. If the transaction is non-distributed, the flags parameter is
ignored, and OCI_DEFAULT can be passed as its value. OCI applications
managing global transactions should pass a value of
OCI_TRANS_TWOPHASE to the flags parameter for a two-phase commit. The
default is one-phase commit.
Under normal circumstances, OCITransCommit() returns with a status
indicating that the transaction has either been committed or rolled back. With
distributed transactions, it is possible that the transaction is now in-doubt
(i.e., neither committed nor aborted). In this case, OCITransCommit()
attempts to retrieve the status of the transaction from the server.
The status is returned.
Parameters
srvcp (IN) - the service context handle.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
flags -see the "Comments" section above.
Related Functions
OCITransRollback()
OCITransDetach()
Name
OCI TX (transaction) DeTach
Purpose
Detaches a transaction.
Syntax
sword OCITransDetach ( OCISvcCtx *srvcp,
OCIError *errhp,
ub4 flags);
Comments
Detaches a global transaction from the service context handle. The transaction
currently attached to the service context handle becomes inactive at the end
of this call. The transaction may be resumed later by calling OCITransStart(),
specifying a flags value of OCI_TRANS_RESUME.
When a transaction is detached, the value which was specified in the timeout
parameter of OCITransStart() when the transaction was started is used to
determine the amount of time the branch can remain inactive before being
deleted by the server's PMON process.
Note: The transaction can be resumed by a different process than the one
that detached it, provided that the transaction has the same
authorization.
Parameters
srvcp (IN) - the service context handle.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
flags (IN) - you must pass a value of OCI_DEFAULT for this parameter.
Related Functions
OCITransStart()
OCITransForget()
Name
OCI TX (transaction) ForGeT
Purpose
Causes the server to forget a heuristically completed global transaction.
Syntax
sword OCITransForget ( OCISvcCtx *svchp,
OCIError *errhp,
ub4 flags);
Comments
Forgets a heuristically completed global transaction. The server deletes the
status of the transaction from the system's pending transaction table.
The XID of the transaction to be forgotten is set as an attribute of the
transaction handle (OCI_ATTR_XID).
Parameters
srvcp (IN) - the service context handle - the transaction is rolled back.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
flags (IN) - you must pass OCI_DEFAULT for this parameter.
Related Functions
OCITransCommit(), OCITransRollback()
OCITransMultiPrepare()
Name
OCI Trans(action) Multi-Branch Prepare
Purpose
Prepares a transaction with multiple branches in a single call.
Syntax
sword OCITransMultiPrepare ( OCISvcCtx *svchp,
ub4 numBranches,
OCITrans **txns,
OCIError **errhp);
Comments
Prepares the specified global transaction for commit.
This call is valid only for distributed transactions.
This call is an advanced performance feature intended for use only in
situations where the caller is responsible for preparing all the branches
in a transaction.
Parameters
srvcp (IN) - the service context handle.
numBranches (IN) - This is the number of branches expected. It is also the
array size for the next two parameters.
txns (IN) - This is the array of transaction handles for the branches to
prepare. They should all have the OCI_ATTR_XID set. The global transaction
ID should be the same.
errhp (IN) - This is the array of error handles. If OCI_SUCCESS is not
returned, then these will indicate which branches received which errors.
Related Functions
OCITransPrepare()
OCITransPrepare()
Name
OCI TX (transaction) PREpare
Purpose
Prepares a transaction for commit.
Syntax
sword OCITransPrepare ( OCISvcCtx *svchp,
OCIError *errhp,
ub4 flags);
Comments
Prepares the specified global transaction for commit.
This call is valid only for distributed transactions.
The call returns OCI_SUCCESS_WITH_INFO if the transaction has not made
any changes. The error handle will indicate that the transaction is read-only.
The flag parameter is not currently used.
Parameters
srvcp (IN) - the service context handle.
errhp (IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
flags (IN) - you must pass OCI_DEFAULT for this parameter.
Related Functions
OCITransCommit(), OCITransForget()
OCITransRollback()
Name
OCI TX (transaction) RoLlback
Purpose
Rolls back the current transaction.
Syntax
sword OCITransRollback ( void *svchp,
OCIError *errhp,
ub4 flags );
Comments
The current transaction- defined as the set of statements executed since the
last OCITransCommit() or since OCISessionBegin()-is rolled back.
If the application is running under object mode then the modified or updated
objects in the object cache for this transaction are also rolled back.
An error is returned if an attempt is made to roll back a global transaction
that is not currently active.
Parameters
svchp (IN) - a service context handle. The transaction currently set in the
service context handle is rolled back.
errhp -(IN) - an error handle which can be passed to OCIErrorGet() for
diagnostic information in the event of an error.
flags - you must pass a value of OCI_DEFAULT for this parameter.
Related Functions
OCITransCommit()
OCITransStart()
Name
OCI TX (transaction) STart
Purpose
Sets the beginning of a transaction.
Syntax
sword OCITransStart ( OCISvcCtx *svchp,
OCIError *errhp,
uword timeout,
ub4 flags);
Comments
This function sets the beginning of a global or serializable transaction. The
transaction context currently associated with the service context handle is
initialized at the end of the call if the flags parameter specifies that a new
transaction should be started.
The XID of the transaction is set as an attribute of the transaction handle
(OCI_ATTR_XID)
Parameters
svchp (IN/OUT) - the service context handle. The transaction context in the
service context handle is initialized at the end of the call if the flag
specified a new transaction to be started.
errhp (IN/OUT) - The OCI error handle. If there is an error, it is recorded in
err and this function returns OCI_ERROR. Diagnostic information can be
obtained by calling OCIErrorGet().
timeout (IN) - the time, in seconds, to wait for a transaction to become
available for resumption when OCI_TRANS_RESUME is specified. When
OCI_TRANS_NEW is specified, this value is stored and may be used later by
OCITransDetach().
flags (IN) - specifies whether a new transaction is being started or an
existing transaction is being resumed. Also specifies serializiability or
read-only status. More than a single value can be specified. By default,
a read/write transaction is started. The flag values are:
OCI_TRANS_NEW - starts a new transaction branch. By default starts a
tightly coupled and migratable branch.
OCI_TRANS_TIGHT - explicitly specifies a tightly coupled branch
OCI_TRANS_LOOSE - specifies a loosely coupled branch
OCI_TRANS_RESUME - resumes an existing transaction branch.
OCI_TRANS_READONLY - start a readonly transaction
OCI_TRANS_SERIALIZABLE - start a serializable transaction
Related Functions
OCITransDetach()
******************************************************************************/
/*-----------------------Dynamic Callback Function Pointers------------------*/
typedef sb4 (*OCICallbackInBind)(void *ictxp, OCIBind *bindp, ub4 iter,
ub4 index, void **bufpp, ub4 *alenp,
ub1 *piecep, void **indp);
typedef sb4 (*OCICallbackOutBind)(void *octxp, OCIBind *bindp, ub4 iter,
ub4 index, void **bufpp, ub4 **alenp,
ub1 *piecep, void **indp,
ub2 **rcodep);
typedef sb4 (*OCICallbackDefine)(void *octxp, OCIDefine *defnp, ub4 iter,
void **bufpp, ub4 **alenp, ub1 *piecep,
void **indp, ub2 **rcodep);
typedef sword (*OCIUserCallback)(void *ctxp, void *hndlp, ub4 type,
ub4 fcode, ub4 when, sword returnCode,
sb4 *errnop, va_list arglist);
typedef sword (*OCIEnvCallbackType)(OCIEnv *env, ub4 mode,
size_t xtramem_sz, void *usrmemp,
OCIUcb *ucbDesc);
typedef sb4 (*OCICallbackLobRead)(void *ctxp, const void *bufp,
ub4 len, ub1 piece);
typedef sb4 (*OCICallbackLobWrite)(void *ctxp, void *bufp,
ub4 *lenp, ub1 *piece);
#ifdef ORAXB8_DEFINED
typedef sb4 (*OCICallbackLobRead2)(void *ctxp, const void *bufp, oraub8 len,
ub1 piece, void **changed_bufpp,
oraub8 *changed_lenp);
typedef sb4 (*OCICallbackLobWrite2)(void *ctxp, void *bufp, oraub8 *lenp,
ub1 *piece, void **changed_bufpp,
oraub8 *changed_lenp);
typedef sb4 (*OCICallbackLobArrayRead)(void *ctxp, ub4 array_iter,
const void *bufp, oraub8 len,
ub1 piece, void **changed_bufpp,
oraub8 *changed_lenp);
typedef sb4 (*OCICallbackLobArrayWrite)(void *ctxp, ub4 array_iter,
void *bufp, oraub8 *lenp,
ub1 *piece, void **changed_bufpp,
oraub8 *changed_lenp);
#endif
typedef sb4 (*OCICallbackLobGetDeduplicateRegions)(void *ctxp,
OCILobRegion *regions,
ub4 count, ub1 piece,
OCILobRegion **changed_reg,
ub4 *changed_count);
typedef sb4 (*OCICallbackAQEnq)(void *ctxp, void **payload,
void **payload_ind);
typedef sb4 (*OCICallbackAQEnqStreaming)(void *ctxp, void **payload,
void **payload_ind,
OCIAQMsgProperties **msgprop,
OCIType **tdo);
typedef sb4 (*OCICallbackAQDeq)(void *ctxp, void **payload,
void **payload_ind);
/*--------------------------Failover Callback Structure ---------------------*/
typedef sb4 (*OCICallbackFailover)(void *svcctx, void *envctx,
void *fo_ctx, ub4 fo_type,
ub4 fo_event);
typedef struct
{
OCICallbackFailover callback_function;
void *fo_ctx;
}
OCIFocbkStruct;
/*---------------------Statement Cache callback function ------------------*/
typedef sword (*OCICallbackStmtCache)(void *ctx, OCIStmt *stmt, ub4 mode);
/*--------------------------HA Callback Structure ---------------------*/
typedef void (*OCIEventCallback)(void *evtctx, OCIEvent *eventhp);
/*------------------------- Round Trip Callback Structure --------------------*/
typedef sword (*OCIRoundTripCallback)(void *rtctx, OCISvcCtx *svch,
OCISession *userh);
/*****************************************************************************
ACTUAL PROTOTYPE DECLARATIONS
******************************************************************************/
sword OCIInitialize (ub4 mode, void *ctxp,
void *(*malocfp)(void *ctxp, size_t size),
void *(*ralocfp)(void *ctxp, void *memptr, size_t newsize),
void (*mfreefp)(void *ctxp, void *memptr) );
sword OCITerminate( ub4 mode);
sword OCIEnvCreate (OCIEnv **envp, ub4 mode, void *ctxp,
void *(*malocfp)(void *ctxp, size_t size),
void *(*ralocfp)(void *ctxp, void *memptr, size_t newsize),
void (*mfreefp)(void *ctxp, void *memptr),
size_t xtramem_sz, void **usrmempp);
sword OCIEnvNlsCreate (OCIEnv **envp, ub4 mode, void *ctxp,
void *(*malocfp)(void *ctxp, size_t size),
void *(*ralocfp)(void *ctxp, void *memptr, size_t newsize),
void (*mfreefp)(void *ctxp, void *memptr),
size_t xtramem_sz, void **usrmempp,
ub2 charset, ub2 ncharset);
sword OCIFEnvCreate (OCIEnv **envp, ub4 mode, void *ctxp,
void *(*malocfp)(void *ctxp, size_t size),
void *(*ralocfp)(void *ctxp, void *memptr, size_t newsize),
void (*mfreefp)(void *ctxp, void *memptr),
size_t xtramem_sz, void **usrmempp, void *fupg);
sword OCIHandleAlloc(const void *parenth, void **hndlpp, const ub4 type,
const size_t xtramem_sz, void **usrmempp);
sword OCIHandleFree(void *hndlp, const ub4 type);
sword OCIDescriptorAlloc(const void *parenth, void **descpp,
const ub4 type, const size_t xtramem_sz,
void **usrmempp);
sword OCIArrayDescriptorAlloc(const void *parenth, void **descpp,
const ub4 type, ub4 array_size,
const size_t xtramem_sz, void **usrmempp);
sword OCIDescriptorFree(void *descp, const ub4 type);
sword OCIArrayDescriptorFree(void **descp, const ub4 type);
sword OCIEnvInit (OCIEnv **envp, ub4 mode,
size_t xtramem_sz, void **usrmempp);
sword OCIServerAttach (OCIServer *srvhp, OCIError *errhp,
const OraText *dblink, sb4 dblink_len, ub4 mode);
sword OCIServerDetach (OCIServer *srvhp, OCIError *errhp, ub4 mode);
sword OCISessionBegin (OCISvcCtx *svchp, OCIError *errhp, OCISession *usrhp,
ub4 credt, ub4 mode);
sword OCISessionEnd (OCISvcCtx *svchp, OCIError *errhp, OCISession *usrhp,
ub4 mode);
sword OCILogon (OCIEnv *envhp, OCIError *errhp, OCISvcCtx **svchp,
const OraText *username, ub4 uname_len,
const OraText *password, ub4 passwd_len,
const OraText *dbname, ub4 dbname_len);
sword OCILogon2 (OCIEnv *envhp, OCIError *errhp, OCISvcCtx **svchp,
const OraText *username, ub4 uname_len,
const OraText *password, ub4 passwd_len,
const OraText *dbname, ub4 dbname_len,
ub4 mode);
sword OCILogoff (OCISvcCtx *svchp, OCIError *errhp);
sword OCIPasswordChange (OCISvcCtx *svchp, OCIError *errhp,
const OraText *user_name, ub4 usernm_len,
const OraText *opasswd, ub4 opasswd_len,
const OraText *npasswd, ub4 npasswd_len,
ub4 mode);
sword OCIRequestBegin (OCISvcCtx *svchp, OCIError *errhp, ub4 mode);
sword OCIRequestEnd (OCISvcCtx *svchp, OCIError *errhp, ub4 mode);
sword OCIRequestDisableReplay (OCISvcCtx *svchp, OCIError *errhp,
ub4 mode);
sword OCIStmtPrepare (OCIStmt *stmtp, OCIError *errhp, const OraText *stmt,
ub4 stmt_len, ub4 language, ub4 mode);
sword OCIStmtPrepare2 ( OCISvcCtx *svchp, OCIStmt **stmtp, OCIError *errhp,
const OraText *stmt, ub4 stmt_len, const OraText *key,
ub4 key_len, ub4 language, ub4 mode);
sword OCIStmtRelease ( OCIStmt *stmtp, OCIError *errhp, const OraText *key,
ub4 key_len, ub4 mode);
sword OCIBindByPos (OCIStmt *stmtp, OCIBind **bindp, OCIError *errhp,
ub4 position, void *valuep, sb4 value_sz,
ub2 dty, void *indp, ub2 *alenp, ub2 *rcodep,
ub4 maxarr_len, ub4 *curelep, ub4 mode);
sword OCIBindByPos2 (OCIStmt *stmtp, OCIBind **bindp, OCIError *errhp,
ub4 position, void *valuep, sb8 value_sz,
ub2 dty, void *indp, ub4 *alenp, ub2 *rcodep,
ub4 maxarr_len, ub4 *curelep, ub4 mode);
sword OCIBindByName (OCIStmt *stmtp, OCIBind **bindp, OCIError *errhp,
const OraText *placeholder, sb4 placeh_len,
void *valuep, sb4 value_sz, ub2 dty,
void *indp, ub2 *alenp, ub2 *rcodep,
ub4 maxarr_len, ub4 *curelep, ub4 mode);
sword OCIBindByName2 (OCIStmt *stmtp, OCIBind **bindp, OCIError *errhp,
const OraText *placeholder, sb4 placeh_len,
void *valuep, sb8 value_sz, ub2 dty,
void *indp, ub4 *alenp, ub2 *rcodep,
ub4 maxarr_len, ub4 *curelep, ub4 mode);
sword OCIBindObject (OCIBind *bindp, OCIError *errhp, const OCIType *type,
void **pgvpp, ub4 *pvszsp, void **indpp,
ub4 *indszp);
sword OCIBindDynamic (OCIBind *bindp, OCIError *errhp, void *ictxp,
OCICallbackInBind icbfp, void *octxp,
OCICallbackOutBind ocbfp);
sword OCIBindArrayOfStruct (OCIBind *bindp, OCIError *errhp,
ub4 pvskip, ub4 indskip,
ub4 alskip, ub4 rcskip);
sword OCIStmtGetPieceInfo (OCIStmt *stmtp, OCIError *errhp,
void **hndlpp, ub4 *typep,
ub1 *in_outp, ub4 *iterp, ub4 *idxp,
ub1 *piecep);
sword OCIStmtSetPieceInfo (void *hndlp, ub4 type, OCIError *errhp,
const void *bufp, ub4 *alenp, ub1 piece,
const void *indp, ub2 *rcodep);
sword OCIStmtExecute (OCISvcCtx *svchp, OCIStmt *stmtp, OCIError *errhp,
ub4 iters, ub4 rowoff, const OCISnapshot *snap_in,
OCISnapshot *snap_out, ub4 mode);
/*------------------------Implicit Result Interface-------------------------*/
sword OCIStmtGetNextResult(OCIStmt *stmthp, OCIError *errhp,
void **result, ub4 *rtype,
ub4 mode);
/*------------------------End Implicit Result-------------------------------*/
sword OCIDefineByPos (OCIStmt *stmtp, OCIDefine **defnp, OCIError *errhp,
ub4 position, void *valuep, sb4 value_sz, ub2 dty,
void *indp, ub2 *rlenp, ub2 *rcodep, ub4 mode);
sword OCIDefineByPos2 (OCIStmt *stmtp, OCIDefine **defnp, OCIError *errhp,
ub4 position, void *valuep, sb8 value_sz, ub2 dty,
void *indp, ub4 *rlenp, ub2 *rcodep, ub4 mode);
sword OCIDefineObject (OCIDefine *defnp, OCIError *errhp,
const OCIType *type, void **pgvpp,
ub4 *pvszsp, void **indpp, ub4 *indszp);
sword OCIDefineDynamic (OCIDefine *defnp, OCIError *errhp, void *octxp,
OCICallbackDefine ocbfp);
sword OCIRowidToChar (OCIRowid *rowidDesc, OraText *outbfp, ub2 *outbflp,
OCIError *errhp);
sword OCIDefineArrayOfStruct (OCIDefine *defnp, OCIError *errhp, ub4 pvskip,
ub4 indskip, ub4 rlskip, ub4 rcskip);
sword OCIStmtFetch (OCIStmt *stmtp, OCIError *errhp, ub4 nrows,
ub2 orientation, ub4 mode);
sword OCIStmtFetch2 (OCIStmt *stmtp, OCIError *errhp, ub4 nrows,
ub2 orientation, sb4 scrollOffset, ub4 mode);
sword OCIStmtGetBindInfo (OCIStmt *stmtp, OCIError *errhp, ub4 size,
ub4 startloc,
sb4 *found, OraText *bvnp[], ub1 bvnl[],
OraText *invp[], ub1 inpl[], ub1 dupl[],
OCIBind **hndl);
sword OCIDescribeAny (OCISvcCtx *svchp, OCIError *errhp,
void *objptr,
ub4 objnm_len, ub1 objptr_typ, ub1 info_level,
ub1 objtyp, OCIDescribe *dschp);
sword OCIParamGet (const void *hndlp, ub4 htype, OCIError *errhp,
void **parmdpp, ub4 pos);
sword OCIParamSet(void *hdlp, ub4 htyp, OCIError *errhp, const void *dscp,
ub4 dtyp, ub4 pos);
sword OCITransStart (OCISvcCtx *svchp, OCIError *errhp,
uword timeout, ub4 flags );
sword OCITransDetach (OCISvcCtx *svchp, OCIError *errhp, ub4 flags );
sword OCITransCommit (OCISvcCtx *svchp, OCIError *errhp, ub4 flags);
sword OCITransRollback (OCISvcCtx *svchp, OCIError *errhp, ub4 flags);
sword OCITransPrepare (OCISvcCtx *svchp, OCIError *errhp, ub4 flags);
sword OCITransMultiPrepare (OCISvcCtx *svchp, ub4 numBranches,
OCITrans **txns, OCIError **errhp);
sword OCITransForget (OCISvcCtx *svchp, OCIError *errhp, ub4 flags);
sword OCIErrorGet (void *hndlp, ub4 recordno, OraText *sqlstate,
sb4 *errcodep, OraText *bufp, ub4 bufsiz, ub4 type);
sword OCILobAppend (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *dst_locp,
OCILobLocator *src_locp);
sword OCILobAssign (OCIEnv *envhp, OCIError *errhp,
const OCILobLocator *src_locp,
OCILobLocator **dst_locpp);
sword OCILobCharSetForm (OCIEnv *envhp, OCIError *errhp,
const OCILobLocator *locp, ub1 *csfrm);
sword OCILobCharSetId (OCIEnv *envhp, OCIError *errhp,
const OCILobLocator *locp, ub2 *csid);
sword OCILobCopy (OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *dst_locp,
OCILobLocator *src_locp, ub4 amount, ub4 dst_offset,
ub4 src_offset);
sword OCILobCreateTemporary(OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub2 csid,
ub1 csfrm,
ub1 lobtype,
boolean cache,
OCIDuration duration);
sword OCILobClose( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp );
sword OCILobDisableBuffering (OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp);
sword OCILobEnableBuffering (OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp);
sword OCILobErase (OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *locp,
ub4 *amount, ub4 offset);
sword OCILobFileClose (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *filep);
sword OCILobFileCloseAll (OCISvcCtx *svchp, OCIError *errhp);
sword OCILobFileExists (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *filep,
boolean *flag);
sword OCILobFileGetName (OCIEnv *envhp, OCIError *errhp,
const OCILobLocator *filep,
OraText *dir_alias, ub2 *d_length,
OraText *filename, ub2 *f_length);
sword OCILobFileIsOpen (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *filep,
boolean *flag);
sword OCILobFileOpen (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *filep,
ub1 mode);
sword OCILobFileSetName (OCIEnv *envhp, OCIError *errhp,
OCILobLocator **filepp,
const OraText *dir_alias, ub2 d_length,
const OraText *filename, ub2 f_length);
sword OCILobFlushBuffer (OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 flag);
sword OCILobFreeTemporary(OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp);
sword OCILobGetChunkSize(OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub4 *chunksizep);
sword OCILobGetLength (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *locp,
ub4 *lenp);
sword OCILobIsEqual (OCIEnv *envhp, const OCILobLocator *x,
const OCILobLocator *y,
boolean *is_equal);
sword OCILobIsOpen( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
boolean *flag);
sword OCILobIsTemporary(OCIEnv *envp,
OCIError *errhp,
OCILobLocator *locp,
boolean *is_temporary);
sword OCILobLoadFromFile (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *dst_locp,
OCILobLocator *src_filep,
ub4 amount, ub4 dst_offset,
ub4 src_offset);
sword OCILobLocatorAssign (OCISvcCtx *svchp, OCIError *errhp,
const OCILobLocator *src_locp,
OCILobLocator **dst_locpp);
sword OCILobLocatorIsInit (OCIEnv *envhp, OCIError *errhp,
const OCILobLocator *locp,
boolean *is_initialized);
sword OCILobOpen( OCISvcCtx *svchp,
OCIError *errhp,
OCILobLocator *locp,
ub1 mode );
sword OCILobRead (OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *locp,
ub4 *amtp, ub4 offset, void *bufp, ub4 bufl, void *ctxp,
OCICallbackLobRead cbfp, ub2 csid, ub1 csfrm);
sword OCILobTrim (OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *locp,
ub4 newlen);
sword OCILobWrite (OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *locp,
ub4 *amtp, ub4 offset, void *bufp, ub4 buflen,
ub1 piece, void *ctxp, OCICallbackLobWrite cbfp,
ub2 csid, ub1 csfrm);
sword OCILobGetDeduplicateRegions(OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *locp,
OCILobRegion *regp, ub4 *count, ub1 piece,
void *ctxp,
OCICallbackLobGetDeduplicateRegions cbfp);
sword OCILobWriteAppend(OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *lobp,
ub4 *amtp, void *bufp, ub4 bufl, ub1 piece,
void *ctxp, OCICallbackLobWrite cbfp, ub2 csid,
ub1 csfrm);
sword OCIBreak (void *hndlp, OCIError *errhp);
sword OCIReset (void *hndlp, OCIError *errhp);
sword OCIServerVersion (void *hndlp, OCIError *errhp, OraText *bufp,
ub4 bufsz,
ub1 hndltype);
sword OCIServerRelease (void *hndlp, OCIError *errhp, OraText *bufp,
ub4 bufsz,
ub1 hndltype, ub4 *version);
sword OCIAttrGet (const void *trgthndlp, ub4 trghndltyp,
void *attributep, ub4 *sizep, ub4 attrtype,
OCIError *errhp);
sword OCIAttrSet (void *trgthndlp, ub4 trghndltyp, void *attributep,
ub4 size, ub4 attrtype, OCIError *errhp);
sword OCISvcCtxToLda (OCISvcCtx *svchp, OCIError *errhp, Lda_Def *ldap);
sword OCILdaToSvcCtx (OCISvcCtx **svchpp, OCIError *errhp, Lda_Def *ldap);
sword OCIResultSetToStmt (OCIResult *rsetdp, OCIError *errhp);
sword OCIFileClose ( void *hndl, OCIError *err, OCIFileObject *filep );
sword OCIUserCallbackRegister(void *hndlp, ub4 type, void *ehndlp,
OCIUserCallback callback, void *ctxp,
ub4 fcode, ub4 when, OCIUcb *ucbDesc);
sword OCIUserCallbackGet(void *hndlp, ub4 type, void *ehndlp,
ub4 fcode, ub4 when, OCIUserCallback *callbackp,
void **ctxpp, OCIUcb *ucbDesc);
sword OCISharedLibInit(void *metaCtx, void *libCtx, ub4 argfmt, sword argc,
void **argv, OCIEnvCallbackType envCallback);
sword OCIFileExists ( void *hndl, OCIError *err, OraText *filename,
OraText *path, ub1 *flag );
sword OCIFileFlush( void *hndl, OCIError *err, OCIFileObject *filep );
sword OCIFileGetLength( void *hndl, OCIError *err, OraText *filename,
OraText *path, ubig_ora *lenp );
sword OCIFileInit ( void *hndl, OCIError *err );
sword OCIFileOpen ( void *hndl, OCIError *err, OCIFileObject **filep,
OraText *filename, OraText *path, ub4 mode, ub4 create,
ub4 type );
sword OCIFileRead ( void *hndl, OCIError *err, OCIFileObject *filep,
void *bufp, ub4 bufl, ub4 *bytesread );
sword OCIFileSeek ( void *hndl, OCIError *err, OCIFileObject *filep,
uword origin, ubig_ora offset, sb1 dir );
sword OCIFileTerm ( void *hndl, OCIError *err );
sword OCIFileWrite ( void *hndl, OCIError *err, OCIFileObject *filep,
void *bufp, ub4 buflen, ub4 *byteswritten );
#ifdef ORAXB8_DEFINED
sword OCILobCopy2 (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *dst_locp,
OCILobLocator *src_locp, oraub8 amount,
oraub8 dst_offset,
oraub8 src_offset);
sword OCILobErase2 (OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *locp,
oraub8 *amount, oraub8 offset);
sword OCILobGetLength2 (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *locp, oraub8 *lenp);
sword OCILobLoadFromFile2 (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *dst_locp,
OCILobLocator *src_filep,
oraub8 amount, oraub8 dst_offset,
oraub8 src_offset);
sword OCILobRead2 (OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *locp,
oraub8 *byte_amtp, oraub8 *char_amtp, oraub8 offset,
void *bufp, oraub8 bufl, ub1 piece, void *ctxp,
OCICallbackLobRead2 cbfp, ub2 csid, ub1 csfrm);
sword OCILobArrayRead (OCISvcCtx *svchp, OCIError *errhp, ub4 *array_iter,
OCILobLocator **lobp_arr, oraub8 *byte_amt_arr,
oraub8 *char_amt_arr, oraub8 *offset_arr,
void **bufp_arr, oraub8 *bufl_arr, ub1 piece,
void *ctxp, OCICallbackLobArrayRead cbfp, ub2 csid,
ub1 csfrm);
sword OCILobTrim2 (OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *locp,
oraub8 newlen);
sword OCILobWrite2 (OCISvcCtx *svchp, OCIError *errhp, OCILobLocator *locp,
oraub8 *byte_amtp, oraub8 *char_amtp, oraub8 offset,
void *bufp, oraub8 buflen, ub1 piece, void *ctxp,
OCICallbackLobWrite2 cbfp, ub2 csid, ub1 csfrm);
sword OCILobArrayWrite (OCISvcCtx *svchp, OCIError *errhp, ub4 *array_iter,
OCILobLocator **lobp_arr, oraub8 *byte_amt_arr,
oraub8 *char_amt_arr, oraub8 *offset_arr,
void **bufp_arr, oraub8 *bufl_arr, ub1 piece,
void *ctxp, OCICallbackLobArrayWrite cbfp, ub2 csid,
ub1 csfrm);
sword OCILobWriteAppend2 (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *lobp,
oraub8 *byte_amtp, oraub8 *char_amtp, void *bufp,
oraub8 bufl, ub1 piece, void *ctxp,
OCICallbackLobWrite2 cbfp, ub2 csid, ub1 csfrm);
sword OCILobGetStorageLimit (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *lobp, oraub8 *limitp);
sword OCILobGetOptions (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *lobp,
ub4 optypes, void *optionsp, ub4 *optionslenp,
ub4 mode);
sword OCILobSetOptions (OCISvcCtx *svchp, OCIError *errhp,
OCILobLocator *lobp,
ub4 optypes, void *optionsp, ub4 optionslen,
ub4 mode);
sword OCILobGetContentType (OCISvcCtx *svchp,
OCIError *errhp, OCILobLocator *lobp,
oratext *contenttypep, ub4 *contenttypelenp,
ub4 mode);
sword OCILobSetContentType (OCISvcCtx *svchp,
OCIError *errhp, OCILobLocator *lobp,
const oratext *contenttypep, ub4 contenttypelen,
ub4 mode);
#endif
/*
** Initialize the security package
*/
sword OCISecurityInitialize (OCISecurity *sechandle, OCIError *error_handle);
sword OCISecurityTerminate (OCISecurity *sechandle, OCIError *error_handle);
sword OCISecurityOpenWallet(OCISecurity *osshandle,
OCIError *error_handle,
size_t wrllen,
OraText *wallet_resource_locator,
size_t pwdlen,
OraText *password,
nzttWallet *wallet);
sword OCISecurityCloseWallet(OCISecurity *osshandle,
OCIError *error_handle,
nzttWallet *wallet);
sword OCISecurityCreateWallet(OCISecurity *osshandle,
OCIError *error_handle,
size_t wrllen,
OraText *wallet_resource_locator,
size_t pwdlen,
OraText *password,
nzttWallet *wallet);
sword OCISecurityDestroyWallet(OCISecurity *osshandle,
OCIError *error_handle,
size_t wrllen,
OraText *wallet_resource_locator,
size_t pwdlen,
OraText *password);
sword OCISecurityStorePersona(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona **persona,
nzttWallet *wallet);
sword OCISecurityOpenPersona(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona);
sword OCISecurityClosePersona(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona);
sword OCISecurityRemovePersona(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona **persona);
sword OCISecurityCreatePersona(OCISecurity *osshandle,
OCIError *error_handle,
nzttIdentType identity_type,
nzttCipherType cipher_type,
nzttPersonaDesc *desc,
nzttPersona **persona);
sword OCISecuritySetProtection(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttcef crypto_engine_function,
nztttdufmt data_unit_format,
nzttProtInfo *protection_info);
sword OCISecurityGetProtection(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttcef crypto_engine_function,
nztttdufmt * data_unit_format_ptr,
nzttProtInfo *protection_info);
sword OCISecurityRemoveIdentity(OCISecurity *osshandle,
OCIError *error_handle,
nzttIdentity **identity_ptr);
sword OCISecurityCreateIdentity(OCISecurity *osshandle,
OCIError *error_handle,
nzttIdentType type,
nzttIdentityDesc *desc,
nzttIdentity **identity_ptr);
sword OCISecurityAbortIdentity(OCISecurity *osshandle,
OCIError *error_handle,
nzttIdentity **identity_ptr);
sword OCISecurityFreeIdentity(OCISecurity *osshandle,
OCIError *error_handle,
nzttIdentity **identity_ptr);
sword OCISecurityStoreTrustedIdentity(OCISecurity *osshandle,
OCIError *error_handle,
nzttIdentity **identity_ptr,
nzttPersona *persona);
sword OCISecuritySign(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces signature_state,
size_t input_length,
ub1 *input,
nzttBufferBlock *buffer_block);
sword OCISecuritySignExpansion(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t inputlen,
size_t *signature_length);
sword OCISecurityVerify(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces signature_state,
size_t siglen,
ub1 *signature,
nzttBufferBlock *extracted_message,
boolean *verified,
boolean *validated,
nzttIdentity **signing_party_identity);
sword OCISecurityValidate(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttIdentity *identity,
boolean *validated);
sword OCISecuritySignDetached(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces signature_state,
size_t input_length,
ub1 * input,
nzttBufferBlock *signature);
sword OCISecuritySignDetExpansion(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t input_length,
size_t *required_buffer_length);
sword OCISecurityVerifyDetached(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces signature_state,
size_t data_length,
ub1 *data,
size_t siglen,
ub1 *signature,
boolean *verified,
boolean *validated,
nzttIdentity **signing_party_identity);
sword OCISecurity_PKEncrypt(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t number_of_recipients,
nzttIdentity *recipient_list,
nzttces encryption_state,
size_t input_length,
ub1 *input,
nzttBufferBlock *encrypted_data);
sword OCISecurityPKEncryptExpansion(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t number_recipients,
size_t input_length,
size_t *buffer_length_required);
sword OCISecurityPKDecrypt(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces encryption_state,
size_t input_length,
ub1 *input,
nzttBufferBlock *encrypted_data);
sword OCISecurityEncrypt(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces encryption_state,
size_t input_length,
ub1 *input,
nzttBufferBlock *encrypted_data);
sword OCISecurityEncryptExpansion(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t input_length,
size_t *encrypted_data_length);
sword OCISecurityDecrypt(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces decryption_state,
size_t input_length,
ub1 *input,
nzttBufferBlock *decrypted_data);
sword OCISecurityEnvelope(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t number_of_recipients,
nzttIdentity *identity,
nzttces encryption_state,
size_t input_length,
ub1 *input,
nzttBufferBlock *enveloped_data);
sword OCISecurityDeEnvelope(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces decryption_state,
size_t input_length,
ub1 *input,
nzttBufferBlock *output_message,
boolean *verified,
boolean *validated,
nzttIdentity **sender_identity);
sword OCISecurityKeyedHash(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces hash_state,
size_t input_length,
ub1 *input,
nzttBufferBlock *keyed_hash);
sword OCISecurityKeyedHashExpansion(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t input_length,
size_t *required_buffer_length);
sword OCISecurityHash(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
nzttces hash_state,
size_t input,
ub1 *input_length,
nzttBufferBlock *hash);
sword OCISecurityHashExpansion(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t input_length,
size_t *required_buffer_length);
sword OCISecuritySeedRandom(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t seed_length,
ub1 *seed);
sword OCISecurityRandomBytes(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
size_t number_of_bytes_desired,
nzttBufferBlock *random_bytes);
sword OCISecurityRandomNumber(OCISecurity *osshandle,
OCIError *error_handle,
nzttPersona *persona,
uword *random_number_ptr);
sword OCISecurityInitBlock(OCISecurity *osshandle,
OCIError *error_handle,
nzttBufferBlock *buffer_block);
sword OCISecurityReuseBlock(OCISecurity *osshandle,
OCIError *error_handle,
nzttBufferBlock *buffer_block);
sword OCISecurityPurgeBlock(OCISecurity *osshandle,
OCIError *error_handle,
nzttBufferBlock *buffer_block);
sword OCISecuritySetBlock(OCISecurity *osshandle,
OCIError *error_handle,
uword flags_to_set,
size_t buffer_length,
size_t used_buffer_length,
ub1 *buffer,
nzttBufferBlock *buffer_block);
sword OCISecurityGetIdentity(OCISecurity *osshandle,
OCIError *error_handle,
size_t namelen,
OraText *distinguished_name,
nzttIdentity **identity);
sword OCIAQEnq(OCISvcCtx *svchp, OCIError *errhp, OraText *queue_name,
OCIAQEnqOptions *enqopt, OCIAQMsgProperties *msgprop,
OCIType *payload_tdo, void **payload, void **payload_ind,
OCIRaw **msgid, ub4 flags);
sword OCIAQDeq(OCISvcCtx *svchp, OCIError *errhp, OraText *queue_name,
OCIAQDeqOptions *deqopt, OCIAQMsgProperties *msgprop,
OCIType *payload_tdo, void **payload, void **payload_ind,
OCIRaw **msgid, ub4 flags);
sword OCIAQEnqArray(OCISvcCtx *svchp, OCIError *errhp, OraText *queue_name,
OCIAQEnqOptions *enqopt, ub4 *iters,
OCIAQMsgProperties **msgprop, OCIType *payload_tdo,
void **payload, void **payload_ind, OCIRaw **msgid,
void *ctxp, OCICallbackAQEnq enqcbfp, ub4 flags);
sword OCIAQEnqStreaming(OCISvcCtx *svchp, OCIError *errhp, OraText *queue_name,
OCIAQEnqOptions *enqopt, OCIType *payload_tdo,
void *ctxp, OCICallbackAQEnqStreaming enqcbfp,
ub4 flags);
sword OCIAQDeqArray(OCISvcCtx *svchp, OCIError *errhp, OraText *queue_name,
OCIAQDeqOptions *deqopt, ub4 *iters,
OCIAQMsgProperties **msgprop, OCIType *payload_tdo,
void **payload, void **payload_ind, OCIRaw **msgid,
void *ctxp, OCICallbackAQDeq deqcbfp, ub4 flags);
sword OCIAQListen(OCISvcCtx *svchp, OCIError *errhp,
OCIAQAgent **agent_list, ub4 num_agents,
sb4 wait, OCIAQAgent **agent,
ub4 flags);
sword OCIAQListen2(OCISvcCtx *svchp, OCIError *errhp,
OCIAQAgent **agent_list, ub4 num_agents,
OCIAQListenOpts *lopts, OCIAQAgent **agent,
OCIAQLisMsgProps *lmops, ub4 flags);
sword OCIAQGetReplayInfo(OCISvcCtx *svchp, OCIError *errhp,
OraText *queue_name, OCIAQAgent *sender,
ub4 replay_attribute, OraText *correlation,
ub2 *corr_len);
sword OCIAQResetReplayInfo(OCISvcCtx *svchp, OCIError *errhp,
OraText *queue_name, OCIAQAgent *sender,
ub4 replay_attribute);
sword OCIExtractInit(void *hndl, OCIError *err);
sword OCIExtractTerm(void *hndl, OCIError *err);
sword OCIExtractReset(void *hndl, OCIError *err);
sword OCIExtractSetNumKeys(void *hndl, OCIError *err, uword numkeys);
sword OCIExtractSetKey(void *hndl, OCIError *err, const OraText *name,
ub1 type, ub4 flag, const void *defval,
const sb4 *intrange, const OraText *const *strlist);
sword OCIExtractFromFile(void *hndl, OCIError *err, ub4 flag,
OraText *filename);
sword OCIExtractFromStr(void *hndl, OCIError *err, ub4 flag, OraText *input);
sword OCIExtractToInt(void *hndl, OCIError *err, OraText *keyname,
uword valno, sb4 *retval);
sword OCIExtractToBool(void *hndl, OCIError *err, OraText *keyname,
uword valno, ub1 *retval);
sword OCIExtractToStr(void *hndl, OCIError *err, OraText *keyname,
uword valno, OraText *retval, uword buflen);
sword OCIExtractToOCINum(void *hndl, OCIError *err, OraText *keyname,
uword valno, OCINumber *retval);
sword OCIExtractToList(void *hndl, OCIError *err, uword *numkeys);
sword OCIExtractFromList(void *hndl, OCIError *err, uword index,
OraText **name,
ub1 *type, uword *numvals, void ***values);
/* Memory Related Service Interfaces */
sword OCIMemoryAlloc(void *hdl, OCIError *err, void **mem,
OCIDuration dur, ub4 size, ub4 flags);
sword OCIMemoryResize(void *hdl, OCIError *err, void **mem,
ub4 newsize, ub4 flags);
sword OCIMemoryFree(void *hdl, OCIError *err, void *mem);
sword OCIContextSetValue(void *hdl, OCIError *err, OCIDuration duration,
ub1 *key, ub1 keylen, void *ctx_value);
sword OCIContextGetValue(void *hdl, OCIError *err, ub1 *key,
ub1 keylen, void **ctx_value);
sword OCIContextClearValue(void *hdl, OCIError *err, ub1 *key,
ub1 keylen);
sword OCIContextGenerateKey(void *hdl, OCIError *err, ub4 *key);
sword OCIMemorySetCurrentIDs(void *hdl, OCIError *err,
ub4 curr_session_id, ub4 curr_trans_id,
ub4 curr_stmt_id);
sword OCIPicklerTdsCtxInit(OCIEnv *env, OCIError *err,
OCIPicklerTdsCtx **tdsc);
sword OCIPicklerTdsCtxFree(OCIEnv *env, OCIError *err, OCIPicklerTdsCtx *tdsc);
sword OCIPicklerTdsInit(OCIEnv *env, OCIError *err, OCIPicklerTdsCtx *tdsc,
OCIPicklerTds **tdsh);
sword OCIPicklerTdsFree(OCIEnv *env, OCIError *err, OCIPicklerTds *tdsh);
sword OCIPicklerTdsCreateElementNumber(OCIEnv *env, OCIError *err,
OCIPicklerTds *tdsh, ub1 prec,
sb1 scale, OCIPicklerTdsElement *elt);
sword OCIPicklerTdsCreateElementChar(OCIEnv *env, OCIError *err,
OCIPicklerTds *tdsh, ub2 len,
OCIPicklerTdsElement *elt);
sword OCIPicklerTdsCreateElementVarchar(OCIEnv *env, OCIError *err,
OCIPicklerTds *tdsh, ub2 len,
OCIPicklerTdsElement *elt);
sword OCIPicklerTdsCreateElementRaw(OCIEnv *env, OCIError *err,
OCIPicklerTds *tdsh, ub2 len,
OCIPicklerTdsElement *elt);
sword OCIPicklerTdsCreateElement(OCIEnv *env, OCIError *err,
OCIPicklerTds *tdsh, OCITypeCode dty,
OCIPicklerTdsElement *elt);
sword OCIPicklerTdsAddAttr(OCIEnv *env, OCIError *err,
OCIPicklerTds *tdsh, OCIPicklerTdsElement elt);
sword OCIPicklerTdsGenerate(OCIEnv *env, OCIError *err,
OCIPicklerTds *tdsh);
sword OCIPicklerTdsGetAttr(OCIEnv *env, OCIError *err,
const OCIPicklerTds *tdsh, ub1 attrno,
OCITypeCode *typ, ub2 *len);
sword OCIPicklerFdoInit(OCIEnv *env, OCIError *err,
OCIPicklerFdo **fdoh);
sword OCIPicklerFdoFree(OCIEnv *env, OCIError *err,
OCIPicklerFdo *fdoh);
sword OCIPicklerImageInit(OCIEnv *env, OCIError *err,
OCIPicklerFdo *fdoh,
OCIPicklerTds *tdsh,
OCIPicklerImage **imgh);
sword OCIPicklerImageFree(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh);
sword OCIPicklerImageAddScalar(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh,
void *scalar, ub4 len);
sword OCIPicklerImageAddNullScalar(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh);
sword OCIPicklerImageGenerate(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh);
sword OCIPicklerImageGetScalarSize(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh,
ub4 attrno, ub4 *size);
sword OCIPicklerImageGetScalar(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh, ub4 attrno,
void *buf, ub4 *len, OCIInd *ind);
sword OCIPicklerImageCollBegin(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh, const OCIPicklerTds *colltdsh);
sword OCIPicklerImageCollAddScalar( OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh, void *scalar,
ub4 buflen, OCIInd ind);
sword OCIPicklerImageCollEnd(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh);
/* should take svcctx for locator stuff */
sword OCIPicklerImageCollBeginScan(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh, const OCIPicklerTds *coll_tdsh,
ub4 attrnum, ub4 startidx, OCIInd *ind);
sword OCIPicklerImageCollGetScalarSize(OCIEnv *env, OCIError *err,
const OCIPicklerTds *coll_tdsh, ub4 *size);
sword OCIPicklerImageCollGetScalar(OCIEnv *env, OCIError *err,
OCIPicklerImage *imgh, void *buf,
ub4 *buflen, OCIInd *ind);
sword OCIAnyDataGetType(OCISvcCtx *svchp, OCIError *errhp, OCIAnyData *sdata,
OCITypeCode *tc, OCIType **type);
sword OCIAnyDataIsNull(OCISvcCtx *svchp, OCIError *errhp, OCIAnyData *sdata,
boolean *isnull);
sword OCIAnyDataConvert(OCISvcCtx *svchp, OCIError *errhp, OCITypeCode tc,
OCIType *type, OCIDuration dur, void *ind, void *data_val,
ub4 len, OCIAnyData **sdata);
sword OCIAnyDataBeginCreate(OCISvcCtx *svchp, OCIError *errhp, OCITypeCode tc,
OCIType *type, OCIDuration dur, OCIAnyData **sdata);
sword OCIAnyDataDestroy(OCISvcCtx *svchp, OCIError *errhp, OCIAnyData *sdata);
sword OCIAnyDataAttrSet(OCISvcCtx *svchp, OCIError *errhp, OCIAnyData *sdata,
OCITypeCode tc, OCIType *type, void *ind, void *attr_val,
ub4 length, boolean is_any);
sword OCIAnyDataCollAddElem(OCISvcCtx *svchp, OCIError *errhp,
OCIAnyData *sdata, OCITypeCode tc, OCIType *type, void *ind,
void *attr_val, ub4 length, boolean is_any, boolean last_elem);
sword OCIAnyDataEndCreate(OCISvcCtx *svchp, OCIError *errhp,
OCIAnyData *sdata);
sword OCIAnyDataAccess(OCISvcCtx *svchp, OCIError *errhp, OCIAnyData *sdata,
OCITypeCode tc, OCIType *type, void *ind, void *attr_val,
ub4 *length);
sword OCIAnyDataGetCurrAttrNum(OCISvcCtx *svchp, OCIError *errhp,
OCIAnyData *sdata, ub4 *attrnum);
sword OCIAnyDataAttrGet(OCISvcCtx *svchp, OCIError *errhp, OCIAnyData *sdata,
OCITypeCode tc, OCIType *type, void *ind, void *attr_val,
ub4 *length, boolean is_any);
sword OCIAnyDataCollGetElem(OCISvcCtx *svchp, OCIError *errhp,
OCIAnyData *sdata,
OCITypeCode tc, OCIType *type, void *ind, void *celem_val,
ub4 *length, boolean is_any);
/*------------------------ OCIAnyDataSet interfaces -------------------------*/
/*
NAME
OCIAnyDataSetBeginCreate - OCIAnyDataSet Begin Creation
PARAMETERS
svchp (IN/OUT) - The OCI service context.
errhp (IN/OUT) - The OCI error handle. If there is an error, it is
recorded in errhp and this function returns OCI_ERROR.
Diagnostic information can be obtained by calling
OCIErrorGet().
typecode - typecode corresponding to the OCIAnyDataSet.
type (IN) - type corresponding to the OCIAnyDataSet. If the typecode
corresponds to a built-in type (OCI_TYPECODE_NUMBER etc.)
, this parameter can be NULL. It should be non NULL for
user defined types (OCI_TYPECODE_OBJECT,
OCI_TYPECODE_REF, collection types etc.)
dur (IN) - duration for which OCIAnyDataSet is allocated.
data_set (OUT) - Initialized OCIAnyDataSet.
RETURNS - error code
NOTES
This call allocates an OCIAnyDataSet for the duration of dur and
initializes it with the type information. The OCIAnyDataSet can hold
multiple instances of the given type. For performance reasons, the
OCIAnyDataSet will end up pointing to the passed in OCIType parameter.
It is the responsibility of the caller to ensure that the OCIType is
longer lived (has allocation duration >= the duration of the OCIAnyData
if the OCIType is a transient one, allocation/pin duration >= duration of
the OCIAnyData if the OCIType is a persistent one).
*/
sword OCIAnyDataSetBeginCreate(OCISvcCtx *svchp, OCIError *errhp,
OCITypeCode typecode, const OCIType *type, OCIDuration dur,
OCIAnyDataSet ** data_set);
/*
NAME
OCIAnyDataSetDestroy - OCIAnyDataSet Destroy
DESCRIPTION
This call frees the OCIAnyDataSet allocated using
OCIAnyDataSetBeginCreate().
RETURNS
error code.
PARAMETERS
svchp (IN/OUT) - The OCI service context.
errhp (IN/OUT) - The OCI Error handle.
data_set (IN/OUT) - OCIAnyDataSet to be freed.
*/
sword OCIAnyDataSetDestroy(OCISvcCtx *svchp, OCIError *errhp,
OCIAnyDataSet *data_set);
/*
NAME
OCIAnyDataSetAddInstance - OCIAnyDataSet Add an instance
DESCRIPTION
This call adds a new skeleton instance to the OCIAnyDataSet and all the
attributes of the instance are set to NULL. It returns this skeleton
instance through the OCIAnyData parameter which can be constructed
subsequently by invoking the OCIAnyData API.
RETURNS
error code.
PARAMETERS
svchp (IN/OUT) - The OCI service context.
errhp (IN/OUT) - The OCI Error handle.
data_set (IN/OUT) - OCIAnyDataSet to which a new instance is added.
data (IN/OUT) - OCIAnyData corresponding to the newly added
instance. If (*data) is NULL, a new OCIAnyData will
be allocated for same duration as the OCIAnyDataSet.
If (*data) is not NULL, it will get reused. This
OCIAnyData can be subseqently constructed using the
OCIAnyDataConvert() call or it can be constructed
piece-wise using the OCIAnyDataAttrSet and
OCIAnyDataCollAddElem calls.
NOTES
No Destruction of the old value is done here. It is the responsibility of
the caller to destroy the old value pointed to by (*data) and set (*data)
to a null pointer before beginning to make a sequence of this call. No
deep copying (of OCIType information nor the data part.) is done in the
returned OCIAnyData. This OCIAnyData cannot be used beyond the allocation
duration of the OCIAnyDataSet (it is like a reference into the
OCIAnyDataSet). The returned OCIAnyData can be reused on subsequent calls
to this function, to sequentially add new data instances to the
OCIAnyDataSet.
*/
sword OCIAnyDataSetAddInstance(OCISvcCtx *svchp, OCIError *errhp,
OCIAnyDataSet *data_set, OCIAnyData **data);
/*
NAME
OCIAnyDataSetEndCreate - OCIAnyDataSet End Creation process.
DESCRIPTION
This call marks the end of OCIAnyDataSet creation. It should be called
after constructing all of its instance(s).
RETURNS
error code.
PARAMETERS
svchp (IN/OUT) - The OCI service context.
errhp (IN/OUT) - The OCI error handle. If there is an error, it is
recorded in errhp and this function returns
OCI_ERROR. Diagnostic information can be obtained
by calling OCIErrorGet().
data_set (IN/OUT) - OCIAnyDataSet that has been fully constructed.
*/
sword OCIAnyDataSetEndCreate(OCISvcCtx *svchp, OCIError *errhp,
OCIAnyDataSet *data_set);
/*
NAME
OCIAnyDataSetGetType - OCIAnyDataSet Get Type of an OCIAnyDataSet
DESCRIPTION
Gets the Type corresponding to an OCIAnyDataSet. It returns the actual
pointer to the type maintained inside an OCIAnyDataSet. No copying is
done for performance reasons. The client is responsible for not using
this type once the OCIAnyDataSet is freed (or its duration ends).
RETURNS
error code.
PARAMETERS
svchp (IN/OUT) - The OCI service context.
errhp (IN/OUT) - The OCI Error handle.
data_set (IN) - Initialized OCIAnyDataSet.
tc (OUT) - The typecode of the type.
type (OUT) - The type corresponding to the OCIAnyDataSet. This
could be null if the OCIAnyData corresponds to a
built-in type.
*/
sword OCIAnyDataSetGetType (OCISvcCtx *svchp, OCIError *errhp,
OCIAnyDataSet *data_set, OCITypeCode *tc, OCIType **type);
/*
NAME
OCIAnyDataSetGetCount - OCIAnyDataSet Get Count of instances.
DESCRIPTION
This call gets the number of instances in the OCIAnyDataSet.
RETURNS
error code.
PARAMETERS
svchp (IN/OUT) - OCI Service Context
errhp (IN/OUT) - OCI Error handle
data_set (IN) - Well formed OCIAnyDataSet.
count (OUT) - number of instances in OCIAnyDataSet
*/
sword OCIAnyDataSetGetCount(OCISvcCtx *svchp, OCIError *errhp,
OCIAnyDataSet *data_set, ub4 *count);
/*
NAME
OCIAnyDataSetGetInstance - OCIAnyDataSet Get next instance.
DESCRIPTION
Only sequential access to the instances in an OCIAnyDataSet is allowed.
This call returns the OCIAnyData corresponding to an instance at the
current position and updates the current position. Subsequently, the
OCIAnyData access routines may be used to access the instance.
RETURNS
error code. Returns OCI_NO_DATA if the current position is at the end of
the set, OCI_SUCCESS otherwise.
PARAMETERS
svchp (IN/OUT) - OCI Service Context
errhp (IN/OUT) - OCI Error handle
data_set (IN) - Well formed OCIAnyDataSet
data (IN/OUT) - OCIAnyData corresponding to the instance. If (*data)
is NULL, a new OCIAnyData will be allocated for same
duration as the OCIAnyDataSet. If (*data) is not NULL
, it will get reused. This OCIAnyData can be
subsequently accessed using the OCIAnyDataAccess()
call or piece-wise by using the OCIAnyDataAttrGet()
call.
NOTE
No Destruction of the old value is done here. It is the responsibility of
the caller to destroy the old value pointed to by (*data) and set (*data)
to a null pointer before beginning to make a sequence of this call. No deep
copying (of OCIType information nor the data part.) is done in the returned
OCIAnyData. This OCIAnyData cannot be used beyond the allocation duration
of the OCIAnyDataSet (it is like a reference into the OCIAnyDataSet). The
returned OCIAnyData can be reused on subsequent calls to this function to
sequentially access the OCIAnyDataSet.
*/
sword OCIAnyDataSetGetInstance(OCISvcCtx *svchp, OCIError *errhp,
OCIAnyDataSet *data_set, OCIAnyData **data);
/*--------------------- End of OCIAnyDataSet interfaces ---------------------*/
sword OCIFormatInit(void *hndl, OCIError *err);
sword OCIFormatString(void *hndl, OCIError *err, OraText *buffer,
sbig_ora bufferLength, sbig_ora *returnLength,
const OraText *formatString, ...);
sword OCIFormatTerm(void *hndl, OCIError *err);
sword OCIFormatTUb1(void);
sword OCIFormatTUb2(void);
sword OCIFormatTUb4(void);
sword OCIFormatTUword(void);
sword OCIFormatTUbig_ora(void);
sword OCIFormatTSb1(void);
sword OCIFormatTSb2(void);
sword OCIFormatTSb4(void);
sword OCIFormatTSword(void);
sword OCIFormatTSbig_ora(void);
sword OCIFormatTEb1(void);
sword OCIFormatTEb2(void);
sword OCIFormatTEb4(void);
sword OCIFormatTEword(void);
sword OCIFormatTChar(void);
sword OCIFormatTText(void);
sword OCIFormatTDouble(void);
sword OCIFormatTDvoid(void);
sword OCIFormatTEnd(void);
/*-------------------------- Extensions to XA interface ---------------------*/
/* ------------------------- xaosvch ----------------------------------------*/
/*
NAME
xaosvch - XA Oracle get SerViCe Handle
DESCRIPTION
Given a database name return the service handle that is used by the
XA library
NOTE
This macro has been provided for backward compatibilty with 8.0.2
*/
OCISvcCtx *xaosvch(OraText *dbname);
/* ------------------------- xaoSvcCtx --------------------------------------*/
/*
NAME
xaoSvcCtx - XA Oracle get SerViCe ConTeXt
DESCRIPTION
Given a database name return the service handle that is used by the
XA library
NOTE
This routine has been provided for APs to get access to the service
handle that XA library uses. Without this routine APs must use SQLLIB
routine sqlld2 to get access to the Logon data area registered by the
XA library
*/
OCISvcCtx *xaoSvcCtx(OraText *dbname);
/* ------------------------- xaoEnv -----------------------------------------*/
/*
NAME
xaoEnv - XA Oracle get ENvironment Handle
DESCRIPTION
Given a database name return the environment handle that is used by the
XA library
NOTE
This routine has been provided for APs to get access to the environment
handle that XA library uses. Without this routine APs must use SQLLIB
routine sqlld2 to get access to the Logon data area registered by the
XA library
*/
OCIEnv *xaoEnv(OraText *dbname);
/* ------------------------- xaosterr ---------------------------------------*/
/*
NAME
xaosterr - XA Oracle get xa STart ERRor code
DESCRIPTION
Given an oracle error code return the XA error code
*/
int xaosterr(OCISvcCtx *svch, sb4 error);
/*-------------------------- End Extensions ---------------------------------*/
/*---------------------- Extensions to NLS cartridge service ----------------*/
/* ----------------------- OCINlsGetInfo ------------------------------------*/
/*
NAME
OCINlsGetInfo - Get NLS info from OCI environment handle
REMARKS
This function generates language information specified by item from OCI
environment handle envhp into an array pointed to by buf within size
limitation as buflen.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR on wrong item.
envhp(IN/OUT)
OCI environment handle.
errhp(IN/OUT)
The OCI error handle. If there is an error, it is record in errhp and
this function returns a NULL pointer. Diagnostic information can be
obtained by calling OCIErrorGet().
buf(OUT)
Pointer to the destination buffer.
buflen(IN)
The size of destination buffer. The maximum length for each information
is 32 bytes.
item(IN)
It specifies to get which item in OCI environment handle and can be one
of following values:
OCI_NLS_DAYNAME1 : Native name for Monday.
OCI_NLS_DAYNAME2 : Native name for Tuesday.
OCI_NLS_DAYNAME3 : Native name for Wednesday.
OCI_NLS_DAYNAME4 : Native name for Thursday.
OCI_NLS_DAYNAME5 : Native name for Friday.
OCI_NLS_DAYNAME6 : Native name for for Saturday.
OCI_NLS_DAYNAME7 : Native name for for Sunday.
OCI_NLS_ABDAYNAME1 : Native abbreviated name for Monday.
OCI_NLS_ABDAYNAME2 : Native abbreviated name for Tuesday.
OCI_NLS_ABDAYNAME3 : Native abbreviated name for Wednesday.
OCI_NLS_ABDAYNAME4 : Native abbreviated name for Thursday.
OCI_NLS_ABDAYNAME5 : Native abbreviated name for Friday.
OCI_NLS_ABDAYNAME6 : Native abbreviated name for for Saturday.
OCI_NLS_ABDAYNAME7 : Native abbreviated name for for Sunday.
OCI_NLS_MONTHNAME1 : Native name for January.
OCI_NLS_MONTHNAME2 : Native name for February.
OCI_NLS_MONTHNAME3 : Native name for March.
OCI_NLS_MONTHNAME4 : Native name for April.
OCI_NLS_MONTHNAME5 : Native name for May.
OCI_NLS_MONTHNAME6 : Native name for June.
OCI_NLS_MONTHNAME7 : Native name for July.
OCI_NLS_MONTHNAME8 : Native name for August.
OCI_NLS_MONTHNAME9 : Native name for September.
OCI_NLS_MONTHNAME10 : Native name for October.
OCI_NLS_MONTHNAME11 : Native name for November.
OCI_NLS_MONTHNAME12 : Native name for December.
OCI_NLS_ABMONTHNAME1 : Native abbreviated name for January.
OCI_NLS_ABMONTHNAME2 : Native abbreviated name for February.
OCI_NLS_ABMONTHNAME3 : Native abbreviated name for March.
OCI_NLS_ABMONTHNAME4 : Native abbreviated name for April.
OCI_NLS_ABMONTHNAME5 : Native abbreviated name for May.
OCI_NLS_ABMONTHNAME6 : Native abbreviated name for June.
OCI_NLS_ABMONTHNAME7 : Native abbreviated name for July.
OCI_NLS_ABMONTHNAME8 : Native abbreviated name for August.
OCI_NLS_ABMONTHNAME9 : Native abbreviated name for September.
OCI_NLS_ABMONTHNAME10 : Native abbreviated name for October.
OCI_NLS_ABMONTHNAME11 : Native abbreviated name for November.
OCI_NLS_ABMONTHNAME12 : Native abbreviated name for December.
OCI_NLS_YES : Native string for affirmative response.
OCI_NLS_NO : Native negative response.
OCI_NLS_AM : Native equivalent string of AM.
OCI_NLS_PM : Native equivalent string of PM.
OCI_NLS_AD : Native equivalent string of AD.
OCI_NLS_BC : Native equivalent string of BC.
OCI_NLS_DECIMAL : decimal character.
OCI_NLS_GROUP : group separator.
OCI_NLS_DEBIT : Native symbol of debit.
OCI_NLS_CREDIT : Native sumbol of credit.
OCI_NLS_DATEFORMAT : Oracle date format.
OCI_NLS_INT_CURRENCY: International currency symbol.
OCI_NLS_LOC_CURRENCY : Locale currency symbol.
OCI_NLS_LANGUAGE : Language name.
OCI_NLS_ABLANGUAGE : Abbreviation for language name.
OCI_NLS_TERRITORY : Territory name.
OCI_NLS_CHARACTER_SET : Character set name.
OCI_NLS_LINGUISTIC : Linguistic name.
OCI_NLS_CALENDAR : Calendar name.
OCI_NLS_DUAL_CURRENCY : Dual currency symbol.
*/
sword OCINlsGetInfo(void *envhp, OCIError *errhp, OraText *buf,
size_t buflen, ub2 item);
/* ----------------------- OCINlsNumericInfoGet -----------------------------*/
/*
NAME
OCINlsNumericInfoGet - Get NLS numeric info from OCI environment handle
REMARKS
This function generates numeric language information specified by item
from OCI environment handle envhp into an output number variable.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR on wrong item.
envhp(IN/OUT)
OCI environment handle. If handle invalid, returns OCI_INVALID_HANDLE.
errhp(IN/OUT)
The OCI error handle. If there is an error, it is record in errhp and
this function returns a NULL pointer. Diagnostic information can be
obtained by calling OCIErrorGet().
val(OUT)
Pointer to the output number variable. On OCI_SUCCESS return, it will
contain the requested NLS numeric info.
item(IN)
It specifies to get which item in OCI environment handle and can be one
of following values:
OCI_NLS_CHARSET_MAXBYTESZ : Maximum character byte size for OCI
environment or session handle charset
OCI_NLS_CHARSET_FIXEDWIDTH: Character byte size for fixed-width charset;
0 for variable-width charset
*/
sword OCINlsNumericInfoGet(void *envhp, OCIError *errhp, sb4 *val, ub2 item);
/* ----------------------- OCINlsCharSetNameToId ----------------------------*/
/*
NAME
OCINlsCharSetNameToId - Get Oracle charset id given Oracle charset name
REMARKS
This function will get the Oracle character set id corresponding to
the given Oracle character set name.
RETURNS
Oracle character set id for the given Oracle character set name if
character set name and OCI handle are valid; otherwise returns 0.
envhp(IN/OUT)
OCI environment handle.
name(IN)
Pointer to a null-terminated Oracle character set name whose id
will be returned.
*/
ub2 OCINlsCharSetNameToId(void *envhp, const oratext *name);
/* ----------------------- OCINlsCharSetIdToName ----------------------------*/
/*
NAME
OCINlsCharSetIdToName - Get Oracle charset name given Oracle charset id
REMARKS
This function will get the Oracle character set name corresponding to
the given Oracle character set id.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
envhp(IN/OUT)
OCI environment handle. If handle invalid, returns OCI_INVALID_HANDLE.
buf(OUT)
Pointer to the destination buffer. On OCI_SUCCESS return, it will contain
the null-terminated string for character set name.
buflen(IN)
Size of destination buffer. Recommended size is OCI_NLS_MAXBUFSZ for
guarantee to store an Oracle character set name. If it's smaller than
the length of the character set name, the function will return OCI_ERROR.
id(IN)
Oracle character set id.
*/
sword OCINlsCharSetIdToName(void *envhp, oratext *buf, size_t buflen, ub2 id);
/* ----------------------- OCINlsNameMap ------------------------------------*/
/*
NAME
OCINlsNameMap - Map NLS naming from Oracle to other standards and vice
versa
REMARKS
This function will map NLS naming from Oracle to other standards (such
as ISO, IANA) and vice versa.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE, or OCI_ERROR
envhp(IN/OUT)
OCI environment handle. If handle invalid, returns OCI_INVALID_HANDLE.
buf(OUT)
Pointer to the destination buffer. On OCI_SUCCESS return, it will
contain null-terminated string for requested mapped name.
buflen(IN)
The size of destination buffer. Recommended size is OCI_NLS_MAXBUFSZ
for guarantee to store an NLS name. If it is smaller than the length
of the name, the function will return OCI_ERROR.
srcbuf(IN)
Pointer to null-terminated NLS name. If it is not a valid name in its
define scope, the function will return OCI_ERROR.
flag(IN)
It specifies name mapping direction and can take the following values:
OCI_NLS_CS_IANA_TO_ORA : Map character set name from IANA to Oracle
OCI_NLS_CS_ORA_TO_IANA : Map character set name from Oracle to IANA
OCI_NLS_LANG_ISO_TO_ORA : Map language name from ISO to Oracle
OCI_NLS_LANG_ORA_TO_ISO : Map language name from Oracle to ISO
OCI_NLS_TERR_ISO_TO_ORA : Map territory name from ISO to Oracle
OCI_NLS_TERR_ORA_TO_ISO : Map territory name from Oracle to ISO
OCI_NLS_TERR_ISO3_TO_ORA : Map territory name from 3-letter ISO
abbreviation to Oracle
OCI_NLS_TERR_ORA_TO_ISO3 : Map territory name from Oracle to 3-letter
ISO abbreviation
*/
sword OCINlsNameMap(void *envhp, oratext *buf, size_t buflen,
const oratext *srcbuf, ub4 flag);
/* -------------------- OCIMultiByteToWideChar ------------------------------*/
/*
NAME
OCIMultiByteToWideChar - Convert a null terminated multibyte string into
wchar
REMARKS
This routine converts an entire null-terminated string into the wchar
format. The wchar output buffer will be null-terminated.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE or OCI_ERROR
envhp(IN/OUT)
OCI environment handle to determine the character set of string.
dst (OUT)
Destination buffer for wchar.
src (IN)
Source string to be converted.
rsize (OUT)
Number of characters converted including null-terminator.
If it is a NULL pointer, no number return
*/
sword OCIMultiByteToWideChar(void *envhp, OCIWchar *dst, const OraText *src,
size_t *rsize);
/* --------------------- OCIMultiByteInSizeToWideChar -----------------------*/
/*
NAME
OCIMultiByteInSizeToWideChar - Convert a mulitbyte string in length into
wchar
REMARKS
This routine converts part of string into the wchar format. It will
convert as many complete characters as it can until it reaches output
buffer size or input buffer size or it reaches a null-terminator in
source string. The output buffer will be null-terminated if space permits.
If dstsz is zero, this function will only return number of characters not
including ending null terminator for converted string.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE or OCI_ERROR
envhp(IN/OUT)
OCI environment handle to determine the character set of string.
dst (OUT)
Pointer to a destination buffer for wchar. It can be NULL pointer when
dstsz is zero.
dstsz(IN)
Destination buffer size in character. If it is zero, this function just
returns number of characters will be need for the conversion.
src (IN)
Source string to be converted.
srcsz(IN)
Length of source string in byte.
rsize(OUT)
Number of characters written into destination buffer, or number of
characters for converted string is dstsz is zero.
If it is NULL pointer, nothing to return.
*/
sword OCIMultiByteInSizeToWideChar(void *envhp, OCIWchar *dst,
size_t dstsz, const OraText *src,
size_t srcsz, size_t *rsize);
/* ---------------------- OCIWideCharToMultiByte ----------------------------*/
/*
NAME
OCIWideCharToMultiByte - Convert a null terminated wchar string into
multibyte
REMARKS
This routine converts an entire null-terminated wide character string into
multi-byte string. The output buffer will be null-terminated.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE or OCI_ERROR
envhp(IN/OUT)
OCI environment handle to determine the character set of string.
dst (OUT)
Destination buffer for multi-byte string.
src (IN)
Source wchar string to be converted.
rsize (OUT)
Number of bytes written into the destination buffer.
If it is NULL pointer, nothing to return.
*/
sword OCIWideCharToMultiByte(void *envhp, OraText *dst, const OCIWchar *src,
size_t *rsize);
/* ---------------------- OCIWideCharInSizeToMultiByte ----------------------*/
/*
NAME
OCIWideCharInSizeToMultiByte - Convert a wchar string in length into
mulitbyte
REMARKS
This routine converts part of wchar string into the multi-byte format.
It will convert as many complete characters as it can until it reaches
output buffer size or input buffer size or it reaches a null-terminator
in source string. The output buffer will be null-terminated if space
permits. If dstsz is zero, the function just returns the size of byte not
including ending null-terminator need to store the converted string.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE or OCI_ERROR
envhp(IN/OUT)
OCI environment handle to determine the character set of string.
dst (OUT)
Destination buffer for multi-byte. It can be NULL pointer if dstsz is
zero.
dstsz(IN)
Destination buffer size in byte. If it is zero, it just returns the size
of bytes need for converted string.
src (IN)
Source wchar string to be converted.
srcsz(IN)
Length of source string in character.
rsize(OUT)
Number of bytes written into destination buffer, or number of bytes need
to store the converted string if dstsz is zero.
If it is NULL pointer, nothing to return.
*/
sword OCIWideCharInSizeToMultiByte(void *envhp, OraText *dst,
size_t dstsz, const OCIWchar *src,
size_t srcsz, size_t *rsize);
/* ----------------------- OCIWideCharIsAlnum -------------------------------*/
/*
NAME
OCIWideCharIsAlnum - test whether wc is a letter or decimal digit
REMARKS
It tests whether wc is a letter or decimal digit.
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsAlnum(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharIsAlpha -------------------------------*/
/*
NAME
OCIWideCharIsAlpha - test whether wc is an alphabetic letter
REMARKS
It tests whether wc is an alphabetic letter
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsAlpha(void *envhp, OCIWchar wc);
/* --------------------- OCIWideCharIsCntrl ---------------------------------*/
/*
NAME
OCIWideCharIsCntrl - test whether wc is a control character
REMARKS
It tests whether wc is a control character.
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsCntrl(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharIsDigit -------------------------------*/
/*
NAME
OCIWideCharIsDigit - test whether wc is a decimal digit character
REMARKS
It tests whether wc is a decimal digit character.
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsDigit(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharIsGraph -------------------------------*/
/*
NAME
OCIWideCharIsGraph - test whether wc is a graph character
REMARKS
It tests whether wc is a graph character. A graph character is character
with a visible representation and normally includes alphabetic letter,
decimal digit, and punctuation.
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsGraph(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharIsLower -------------------------------*/
/*
NAME
OCIWideCharIsLower - test whether wc is a lowercase letter
REMARKS
It tests whether wc is a lowercase letter.
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsLower(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharIsPrint -------------------------------*/
/*
NAME
OCIWideCharIsPrint - test whether wc is a printable character
REMARKS
It tests whether wc is a printable character.
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsPrint(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharIsPunct -------------------------------*/
/*
NAME
OCIWideCharIsPunct - test whether wc is a punctuation character
REMARKS
It tests whether wc is a punctuation character.
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsPunct(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharIsSpace -------------------------------*/
/*
NAME
OCIWideCharIsSpace - test whether wc is a space character
REMARKS
It tests whether wc is a space character. A space character only causes
white space in displayed text(for example, space, tab, carriage return,
newline, vertical tab or form feed).
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsSpace(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharIsUpper -------------------------------*/
/*
NAME
OCIWideCharIsUpper - test whether wc is a uppercase letter
REMARKS
It tests whether wc is a uppercase letter.
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsUpper(void *envhp, OCIWchar wc);
/*----------------------- OCIWideCharIsXdigit -------------------------------*/
/*
NAME
OCIWideCharIsXdigit - test whether wc is a hexadecimal digit
REMARKS
It tests whether wc is a hexadecimal digit ( 0-9, A-F, a-f ).
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsXdigit(void *envhp, OCIWchar wc);
/* --------------------- OCIWideCharIsSingleByte ----------------------------*/
/*
NAME
OCIWideCharIsSingleByte - test whether wc is a single-byte character
REMARKS
It tests whether wc is a single-byte character when converted into
multi-byte.
RETURNS
TRUE or FLASE.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for testing.
*/
boolean OCIWideCharIsSingleByte(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharToLower -------------------------------*/
/*
NAME
OCIWideCharToLower - Convert a wchar into the lowercase
REMARKS
If there is a lower-case character mapping for wc in the specified locale,
it will return the lower-case in wchar, else return wc itself.
RETURNS
A wchar
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for lowercase mapping.
*/
OCIWchar OCIWideCharToLower(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharToUpper -------------------------------*/
/*
NAME
OCIWideCharToUpper - Convert a wchar into the uppercase
REMARKS
If there is a upper-case character mapping for wc in the specified locale,
it will return the upper-case in wchar, else return wc itself.
RETURNS
A wchar
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar for uppercase mapping.
*/
OCIWchar OCIWideCharToUpper(void *envhp, OCIWchar wc);
/* ----------------------- OCIWideCharStrcmp --------------------------------*/
/*
NAME
OCIWideCharStrcmp - compare two null terminated wchar string
REMARKS
It compares two wchar string in binary ( based on wchar encoding value ),
linguistic, or case-insensitive.
RETURNS
0, if wstr1 == wstr2.
Positive, if wstr1 > wstr2.
Negative, if wstr1 < wstr2.
envhp(IN/OUT)
OCI environment handle to determine the character set.
wstr1(IN)
Pointer to a null-terminated wchar string.
wstr2(IN)
Pointer to a null-terminated wchar string.
flag(IN)
It is used to decide the comparison method. It can be taken one of the
following values:
OCI_NLS_BINARY : for the binary comparison, this is default value.
OCI_NLS_LINGUISTIC : for linguistic comparison specified in the locale.
This flag can be ORed with OCI_NLS_CASE_INSENSITIVE for case-insensitive
comparison.
*/
int OCIWideCharStrcmp(void *envhp, const OCIWchar *wstr1,
const OCIWchar *wstr2, int flag);
/* ----------------------- OCIWideCharStrncmp -------------------------------*/
/*
NAME
OCIWideCharStrncmp - compare twe wchar string in length
REMARKS
This function is similar to OCIWideCharStrcmp(), except that at most len1
characters from wstr1 and len2 characters from wstr1 are compared. The
null-terminator will be taken into the comparison.
RETURNS
0, if wstr1 = wstr2
Positive, if wstr1 > wstr2
Negative, if wstr1 < wstr2
envhp(IN/OUT)
OCI environment handle to determine the character set .
wstr1(IN)
Pointer to the first wchar string
len1(IN)
The length for the first string for comparison
wstr2(IN)
Pointer to the second wchar string
len2(IN)
The length for the second string for comparison.
flag(IN)
It is used to decide the comparison method. It can be taken one of the
following values:
OCI_NLS_BINARY : for the binary comparison, this is default value.
OCI_NLS_LINGUISTIC : for linguistic comparison specified in the locale.
This flag can be ORed with OCI_NLS_CASE_INSENSITIVE for case-insensitive
comparison.
*/
int OCIWideCharStrncmp(void *envhp, const OCIWchar *wstr1, size_t len1,
const OCIWchar *wstr2, size_t len2, int flag);
/* ----------------------- OCIWideCharStrcat --------------------------------*/
/*
NAME
OCIWideCharStrcat - concatenate two wchar strings
REMARKS
This function appends a copy of the wchar string pointed to by wsrcstr,
including the null-terminator to the end of wchar string pointed to by
wdststr. It returns the number of character in the result string not
including the ending null-terminator.
RETURNS
number of characters in the result string not including the ending
null-terminator.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wdststr(IN/OUT)
Pointer to the destination wchar string for appending.
wsrcstr(IN)
Pointer to the source wchar string to append.
*/
size_t OCIWideCharStrcat(void *envhp, OCIWchar *wdststr,
const OCIWchar *wsrcstr);
/* ----------------------- OCIWideCharStrchr --------------------------------*/
/*
NAME
OCIWideCharStrchr - Search the first occurrence of wchar in a wchar string
REMARKS
This function searchs for the first occurrence of wc in the wchar string
pointed to by wstr. It returns a pointer to the whcar if successful, or
a null pointer.
RETURNS
wchar pointer if successful, otherwise a null pointer.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wstr(IN)
Pointer to the wchar string to search
wc(IN)
Wchar to search for.
*/
OCIWchar *OCIWideCharStrchr(void *envhp, const OCIWchar *wstr,
OCIWchar wc);
/* ----------------------- OCIWideCharStrcpy --------------------------------*/
/*
NAME
OCIWideCharStrcpy - copy a wchar string
REMARKS
This function copies the wchar string pointed to by wsrcstr, including the
null-terminator, into the array pointed to by wdststr. It returns the
number of character copied not including the ending null-terminator.
RETURNS
number of characters copied not including the ending null-terminator.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wdststr(OUT)
Pointer to the destination wchar buffer.
wsrcstr(IN)
Pointer to the source wchar string.
*/
size_t OCIWideCharStrcpy(void *envhp, OCIWchar *wdststr,
const OCIWchar *wsrcstr);
/* ----------------------- OCIWideCharStrlen --------------------------------*/
/*
NAME
OCIWideCharStrlen - Return number of character in a wchar string
REMARKS
This function computes the number of characters in the wchar string
pointed to by wstr, not including the null-terminator, and returns
this number.
RETURNS
number of characters not including ending null-terminator.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wstr(IN)
Pointer to the source wchar string.
*/
size_t OCIWideCharStrlen(void *envhp, const OCIWchar *wstr);
/* ----------------------- OCIWideCharStrncat -------------------------------*/
/*
NAME
OCIWideCharStrncat - Concatenate wchar string in length
REMARKS
This function is similar to OCIWideCharStrcat(), except that at most n
characters from wsrcstr are appended to wdststr. Note that the
null-terminator in wsrcstr will stop appending. wdststr will be
null-terminated..
RETURNS
Number of characters in the result string not including the ending
null-terminator.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wdststr(IN/OUT)
Pointer to the destination wchar string for appending.
wsrcstr(IN)
Pointer to the source wchar string to append.
n(IN)
Number of characters from wsrcstr to append.
*/
size_t OCIWideCharStrncat(void *envhp, OCIWchar *wdststr,
const OCIWchar *wsrcstr, size_t n);
/* ----------------------- OCIWideCharStrncpy -------------------------------*/
/*
NAME
OCIWideCharStrncpy - Copy wchar string in length
REMARKS
This function is similar to OCIWideCharStrcpy(), except that at most n
characters are copied from the array pointed to by wsrcstr to the array
pointed to by wdststr. Note that the null-terminator in wdststr will
stop coping and result string will be null-terminated.
RETURNS
number of characters copied not including the ending null-terminator.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wdststr(OUT)
Pointer to the destination wchar buffer.
wsrcstr(IN)
Pointer to the source wchar string.
n(IN)
Number of characters from wsrcstr to copy.
*/
size_t OCIWideCharStrncpy(void *envhp, OCIWchar *wdststr,
const OCIWchar *wsrcstr, size_t n);
/* ----------------------- OCIWideCharStrrchr -------------------------------*/
/*
NAME
OCIWideCharStrrchr - search the last occurrence of a wchar in wchar string
REMARKS
This function searchs for the last occurrence of wc in the wchar string
pointed to by wstr. It returns a pointer to the whcar if successful, or
a null pointer.
RETURNS
wchar pointer if successful, otherwise a null pointer.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wstr(IN)
Pointer to the wchar string to search
wc(IN)
Wchar to search for.
*/
OCIWchar *OCIWideCharStrrchr(void *envhp, const OCIWchar *wstr,
OCIWchar wc);
/* --------------------- OCIWideCharStrCaseConversion -----------------------*/
/*
NAME
OCIWideCharStrCaseConversion - convert a wchar string into lowercase or
uppercase
REMARKS
This function convert the wide char string pointed to by wsrcstr into the
uppercase or lowercase specified by flag and copies the result into the
array pointed to by wdststr. The result string will be null-terminated.
RETURNS
number of characters for result string not including null-terminator.
envhp(IN/OUT)
OCI environment handle.
wdststr(OUT)
Pointer to destination array.
wsrcstr(IN)
Pointer to source string.
flag(IN)
Specify the case to convert:
OCI_NLS_UPPERCASE : convert to uppercase.
OCI_NLS_LOWERCASE: convert to lowercase.
This flag can be ORed with OCI_NLS_LINGUISTIC to specify that the
linguistic setting in the locale will be used for case conversion.
*/
size_t OCIWideCharStrCaseConversion(void *envhp, OCIWchar *wdststr,
const OCIWchar *wsrcstr, ub4 flag);
/*---------------------- OCIWideCharDisplayLength ---------------------------*/
/*
NAME
OCIWideCharDisplayLength - Calculate the display length for a wchar
REMARKS
This function determines the number of column positions required for wc
in display. It returns number of column positions, or 0 if wc is
null-terminator.
RETURNS
Number of display positions.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar character.
*/
size_t OCIWideCharDisplayLength(void *envhp, OCIWchar wc );
/*---------------------- OCIWideCharMultiByteLength -------------------------*/
/*
NAME
OCIWideCharMultiByteLength - Determine byte size in multi-byte encoding
REMARKS
This function determines the number of byte required for wc in multi-byte
encoding. It returns number of bytes in multi-byte for wc.
RETURNS
Number of bytes.
envhp(IN/OUT)
OCI environment handle to determine the character set .
wc(IN)
Wchar character.
*/
size_t OCIWideCharMultiByteLength(void *envhp, OCIWchar wc);
/* ----------------------- OCIMultiByteStrcmp -------------------------------*/
/*
NAME
OCIMultiByteStrcmp - Compare two multi-byte strings
REMARKS
It compares two multi-byte strings in binary ( based on encoding value ),
linguistic, or case-insensitive.
RETURNS
0, if str1 == str2.
Positive, if str1 > str2.
Negative, if str1 < str2.
envhp(IN/OUT)
OCI environment handle to determine the character set.
str1(IN)
Pointer to a null-terminated string.
str2(IN)
Pointer to a null-terminated string.
flag(IN)
It is used to decide the comparison method. It can be taken one of the
following values:
OCI_NLS_BINARY: for the binary comparison, this is default value.
OCI_NLS_LINGUISTIC: for linguistic comparison specified in the locale.
This flag can be ORed with OCI_NLS_CASE_INSENSITIVE for case-insensitive
comparison.
*/
int OCIMultiByteStrcmp(void *envhp, const OraText *str1,
const OraText *str2, int flag);
/*----------------------- OCIMultiByteStrncmp -------------------------------*/
/*
NAME
OCIMultiByteStrncmp - compare two strings in length
REMARKS
This function is similar to OCIMultiBytestrcmp(), except that at most
len1 bytes from str1 and len2 bytes from str2 are compared. The
null-terminator will be taken into the comparison.
RETURNS
0, if str1 = str2
Positive, if str1 > str2
Negative, if str1 < str2
envhp(IN/OUT)
OCI environment handle to determine the character set.
str1(IN)
Pointer to the first string
len1(IN)
The length for the first string for comparison
str2(IN)
Pointer to the second string
len2(IN)
The length for the second string for comparison.
flag(IN)
It is used to decide the comparison method. It can be taken one of the
following values:
OCI_NLS_BINARY: for the binary comparison, this is default value.
OCI_NLS_LINGUISTIC: for linguistic comparison specified in the locale.
This flag can be ORed with OCI_NLS_CASE_INSENSITIVE for case-insensitive
comparison.
*/
int OCIMultiByteStrncmp(void *envhp, const OraText *str1, size_t len1,
OraText *str2, size_t len2, int flag);
/*----------------------- OCIMultiByteStrcat --------------------------------*/
/*
NAME
OCIMultiByteStrcat - concatenate multibyte strings
REMARKS
This function appends a copy of the multi-byte string pointed to by
srcstr, including the null-terminator to the end of string pointed to by
dststr. It returns the number of bytes in the result string not including
the ending null-terminator.
RETURNS
number of bytes in the result string not including the ending
null-terminator.
envhp(IN/OUT)
Pointer to OCI environment handle
dststr(IN/OUT)
Pointer to the destination multi-byte string for appending.
srcstr(IN)
Pointer to the source string to append.
*/
size_t OCIMultiByteStrcat(void *envhp, OraText *dststr,
const OraText *srcstr);
/*------------------------- OCIMultiByteStrcpy ------------------------------*/
/*
NAME
OCIMultiByteStrcpy - copy multibyte string
REMARKS
This function copies the multi-byte string pointed to by srcstr,
including the null-terminator, into the array pointed to by dststr. It
returns the number of bytes copied not including the ending
null-terminator.
RETURNS
number of bytes copied not including the ending null-terminator.
envhp(IN/OUT)
Pointer to the OCI environment handle.
srcstr(OUT)
Pointer to the destination buffer.
dststr(IN)
Pointer to the source multi-byte string.
*/
size_t OCIMultiByteStrcpy(void *envhp, OraText *dststr,
const OraText *srcstr);
/*----------------------- OCIMultiByteStrlen --------------------------------*/
/*
NAME
OCIMultiByteStrlen - Calculate multibyte string length
REMARKS
This function computes the number of bytes in the multi-byte string
pointed to by str, not including the null-terminator, and returns this
number.
RETURNS
number of bytes not including ending null-terminator.
str(IN)
Pointer to the source multi-byte string.
*/
size_t OCIMultiByteStrlen(void *envhp, const OraText *str);
/*----------------------- OCIMultiByteStrncat -------------------------------*/
/*
NAME
OCIMultiByteStrncat - concatenate string in length
REMARKS
This function is similar to OCIMultiBytestrcat(), except that at most n
bytes from srcstr are appended to dststr. Note that the null-terminator in
srcstr will stop appending and the function will append as many character
as possible within n bytes. dststr will be null-terminated.
RETURNS
Number of bytes in the result string not including the ending
null-terminator.
envhp(IN/OUT)
Pointer to OCI environment handle.
srcstr(IN/OUT)
Pointer to the destination multi-byte string for appending.
dststr(IN)
Pointer to the source multi-byte string to append.
n(IN)
Number of bytes from srcstr to append.
*/
size_t OCIMultiByteStrncat(void *envhp, OraText *dststr,
const OraText *srcstr, size_t n);
/*----------------------- OCIMultiByteStrncpy -------------------------------*/
/*
NAME
OCIMultiByteStrncpy - copy multibyte string in length
REMARKS
This function is similar to OCIMultiBytestrcpy(), except that at most n
bytes are copied from the array pointed to by srcstr to the array pointed
to by dststr. Note that the null-terminator in srcstr will stop coping and
the function will copy as many character as possible within n bytes. The
result string will be null-terminated.
RETURNS
number of bytes copied not including the ending null-terminator.
envhp(IN/OUT)
Pointer to a OCI environment handle.
dststr(IN)
Pointer to the source multi-byte string.
srcstr(OUT)
Pointer to the destination buffer.
n(IN)
Number of bytes from srcstr to copy.
*/
size_t OCIMultiByteStrncpy(void *envhp, OraText *dststr,
const OraText *srcstr, size_t n);
/*----------------------- OCIMultiByteStrnDisplayLength ---------------------*/
/*
NAME
OCIMultiByteStrnDisplayLength - calculate the display length for a
multibyt string
REMARKS
This function returns the number of display positions occupied by the
complete characters within the range of n bytes.
RETURNS
number of display positions.
envhp(IN/OUT)
OCI environment handle.
str(IN)
Pointer to a multi-byte string.
n(IN)
Number of bytes to examine.
*/
size_t OCIMultiByteStrnDisplayLength(void *envhp, const OraText *str1,
size_t n);
/*---------------------- OCIMultiByteStrCaseConversion ---------------------*/
/*
NAME
OCIMultiByteStrCaseConversion
REMARKS
This function convert the multi-byte string pointed to by srcstr into the
uppercase or lowercase specified by flag and copies the result into the
array pointed to by dststr. The result string will be null-terminated.
RETURNS
number of bytes for result string not including null-terminator.
envhp(IN/OUT)
OCI environment handle.
dststr(OUT)
Pointer to destination array.
srcstr(IN)
Pointer to source string.
flag(IN)
Specify the case to convert:
OCI_NLS_UPPERCASE: convert to uppercase.
OCI_NLS_LOWERCASE: convert to lowercase.
This flag can be ORed with OCI_NLS_LINGUISTIC to specify that the
linguistic setting in the locale will be used for case conversion.
*/
size_t OCIMultiByteStrCaseConversion(void *envhp, OraText *dststr,
const OraText *srcstr, ub4 flag);
/*------------------------- OCICharSetToUnicode -----------------------------*/
/*
NAME
OCICharSetToUnicode - convert multibyte string into Unicode as UCS2
REMARKS
This function converts a multi-byte string pointed to by src to Unicode
into the array pointed to by dst. The conversion will stop when it reach
to the source limitation or destination limitation.
The function will return number of characters converted into Unicode.
If dstlen is zero, it will just return the number of characters for the
result without real conversion.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE or OCI_ERROR
envhp(IN/OUT)
Pointer to an OCI environment handle
dst(OUT)
Pointer to a destination buffer
dstlen(IN)
Size of destination buffer in character
src(IN)
Pointer to multi-byte source string.
srclen(IN)
Size of source string in bytes.
rsize(OUT)
Number of characters converted.
If it is a NULL pointer, nothing to return.
*/
sword OCICharSetToUnicode(void *envhp, ub2 *dst, size_t dstlen,
const OraText *src, size_t srclen, size_t *rsize);
/*------------------------- OCIUnicodeToCharSet -----------------------------*/
/*
NAME
OCIUnicodeToCharSet - convert Unicode into multibyte
REMARKS
This function converts a Unicode string pointed to by src to multi-byte
into the array pointed to by dst. The conversion will stop when it reach
to the source limitation or destination limitation. The function will
return number of bytes converted into multi-byte. If dstlen is zero, it
will just return the number of bytes for the result without real
conversion. If a Unicode character is not convertible for the character
set specified in OCI environment handle, a replacement character will be
used for it. In this case, OCICharSetConversionIsReplacementUsed() will
return ture.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE or OCI_ERROR
envhp(IN/OUT)
Pointer to an OCI environment handle.
dst(OUT)
Pointer to a destination buffer.
dstlen(IN)
Size of destination buffer in byte.
src(IN)
Pointer to a Unicode string.
srclen(IN)
Size of source string in characters.
rsize(OUT)
Number of bytes converted.
If it is a NULL pointer, nothing to return.
*/
sword OCIUnicodeToCharSet(void *envhp, OraText *dst, size_t dstlen,
const ub2 *src, size_t srclen, size_t *rsize);
/*----------------------- OCINlsCharSetConvert ------------------------------*/
/*
NAME
OCINlsCharSetConvert - convert between any two character set.
REMARKS
This function converts a string pointed to by src in the character set
specified with srcid to the array pointed to by dst in the character set
specified with dstid. The conversion will stop when it reaches the source
limitation or destination limitation. The function will return the number
of bytes converted into the destination buffer. Even though either source
or destination character set id is OCI_UTF16ID, given and return data
length will be represented with the byte length as this function is
intended for generic purpose. Note the conversion will not stop at null
data.
To get character set id from name, OCINlsCharSetNameToId can be used.
To check if derived data in the destination buffer contains any
replacement character resulting from conversion failure,
OCICharSetConversionIsReplacementUsed can be used to get the status.
Data alignment should be guaranteed by a caller. For example, UTF-16 data
should be aligned to ub2 type.
RETURNS
OCI_SUCCESS or OCI_ERROR.
errhp(IN/OUT)
OCI error handle. If there is an error, it is recorded in errhp and this
function returns a NULL pointer. Diagnostic information can be obtained
by calling OCIErrorGet().
dstid(IN)
Character set id for the destination buffer.
dstp(OUT)
Pointer to the destination buffer.
dstlen(IN)
The maximum byte size of destination buffer.
srcid(IN)
Character set id for the source buffer.
srcp(IN)
Pointer to the source buffer.
srclen(IN)
The length byte size of source buffer.
rsize(OUT)
The number of characters converted. If it is a NULL pointer, nothing to
return.
*/
sword OCINlsCharSetConvert(void *envhp, OCIError *errhp,
ub2 dstid, void *dstp, size_t dstlen,
ub2 srcid, const void *srcp, size_t srclen,
size_t *rsize);
/* ------------------- OCICharsetConversionIsReplacementUsed ----------------*/
/*
NAME
OCICharsetConversionIsReplacementUsed - chech if replacement is used in
conversion
REMARKS
This function indicates whether or not the replacement character was used
for nonconvertible characters in character set conversion in last invoke
of OCICharsetUcs2ToMb().
RETURNS
TRUE is the replacement character was used in last OCICharsetUcs2ToMb()
invoking, else FALSE.
envhp(IN/OUT)
OCI environment handle. This should be the first handle passed to
OCICharsetUcs2ToMb().
*/
boolean OCICharSetConversionIsReplacementUsed(void *envhp);
/*------------------- OCINlsEnvironmentVariableGet -----------------*/
/*
NAME
OCINlsEnvironmentVariableGet - get a value of NLS environment variable.
DESCRIPTION
This function retrieves a value of NLS environment variable to the buffer
pointed to by val. Data type is determined by the parameter specified by
item. Either numeric data or string data can be retrieved.
RETURNS
OCI_SUCCESS or OCI_ERROR.
PARAMETERS
valp(OUT) -
Pointer to the buffer.
size(IN) -
Size of the buffer. This argument is only applicable to string data type,
but not to numerical data, in such case, it is ignored.
item(IN) -
NLS item value, which can be one of following values:
OCI_NLS_CHARSET_ID - NLS_LANG character set id in ub2 data type.
OCI_NLS_NCHARSET_ID - NLS_NCHAR character set id in ub2 data type.
charset(IN) -
Character set id for retrieved string data. If it is 0, NLS_LANG will be
used. OCI_UTF16ID is a valid id. In case of numeric data, this argument
is ignored.
rsize(OUT) -
Size of return value.
NOTE
This functions is mainly used for retrieving character set id from either
NLS_LANG or NLS_NCHAR environment variables. If NLS_LANG is not set,
the default character set id is returned.
For future extension, the buffer is capable for storing other data types.
*/
sword OCINlsEnvironmentVariableGet(void *valp, size_t size, ub2 item,
ub2 charset, size_t *rsize);
/*------------------------- OCIMessageOpen ----------------------------------*/
/*
NAME
OCIMessageOpen - open a locale message file
REMARKS
This function opens a message handle for facility of product in a language
pointed to by envhp. It first try to open the message file corresponding
to envhp for the facility. If it successes, it will use that file to
initialize a message handle, else it will use the default message file
which is for American language for the facility. The function return a
pointer pointed to a message handle into msghp parameter.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE or OCI_ERROR
envhp(IN/OUT)
A pointer to OCI environment handle for message language.
errhp(IN/OUT)
The OCI error handle. If there is an error, it is record in errhp and this
function returns a NULL pointer. Diagnostic information can be obtained by
calling OCIErrorGet().
msghp(OUT)
a message handle for return
product(IN)
A pointer to a product name. Product name is used to locate the directory
for message in a system dependent way. For example, in Solaris, the
directory of message files for the product `rdbms' is
`${ORACLE_HOME}/rdbms'.
facility(IN)
A pointer to a facility name in the product. It is used to construct a
message file name. A message file name follows the conversion with
facility as prefix. For example, the message file name for facility
`img' in American language will be `imgus.msb' where `us' is the
abbreviation of American language and `msb' as message binary file
extension.
dur(IN)
Duration for memory allocation for the return message handle. It can be
the following values:
OCI_DURATION_CALL
OCI_DURATION_STATEMENT
OCI_DURATION_SESSION
OCI_DURATION_TRANSACTION
For the detail description, please refer to Memory Related Service
Interfaces section.
*/
sword OCIMessageOpen(void *envhp, OCIError *errhp, OCIMsg **msghp,
const OraText *product, const OraText *facility,
OCIDuration dur);
/*------------------------- OCIMessageGet -----------------------------------*/
/*
NAME
OCIMessageGet - get a locale message from a message handle
REMARKS
This function will get message with message number identified by msgno and
if buflen is not zero, the function will copy the message into the buffer
pointed to by msgbuf. If buflen is zero, the message will be copied into
a message buffer inside the message handle pointed to by msgh. For both
cases. it will return the pointer to the null-terminated message string.
If it cannot get the message required, it will return a NULL pointer.
RETURNS
A pointer to a null-terminated message string on success, otherwise a NULL
pointer.
msgh(IN/OUT)
Pointer to a message handle which was previously opened by
OCIMessageOpen().
msgno(IN)
The message number for getting message.
msgbuf(OUT)
Pointer to a destination buffer to the message retrieved. If buflen is
zero, it can be NULL pointer.
buflen(IN)
The size of the above destination buffer.
*/
OraText *OCIMessageGet(OCIMsg *msgh, ub4 msgno, OraText *msgbuf,
size_t buflen);
/*------------------------- OCIMessageClose ---------------------------------*/
/*
NAME
OCIMessageClose - close a message handle
REMARKS
This function closes a message handle pointed to by msgh and frees any
memory associated with this handle.
RETURNS
OCI_SUCCESS, OCI_INVALID_HANDLE or OCI_ERROR
envhp(IN/OUT)
A pointer to OCI environment handle for message language.
errhp(IN/OUT)
The OCI error handle. If there is an error, it is record in errhp and this
function returns a NULL pointer. Diagnostic information can be obtained by
calling OCIErrorGet().
msghp(IN/OUT)
A pointer to a message handle which was previously opened by
OCIMessageOpen().
*/
sword OCIMessageClose(void *envhp, OCIError *errhp, OCIMsg *msghp);
/*--------------- End of Extensions to NLS cartridge service ----------------*/
/*----------------- Extensions to OCI Thread interface ---------------------*/
/*****************************************************************************
DESCRIPTION
******************************************************************************
1 Threads Interface
The OCIThread package provides a number of commonly used threading
primitives for use by Oracle customers. It offers a portable interface to
threading capabilities native to various platforms. It does not implement
threading on platforms which do not have native threading capability.
OCIThread does not provide a portable implementation of multithreaded
facilities. It only serves as a set of portable covers for native
multithreaded facilities. Therefore, platforms that do not have native
support for multi-threading will only be able to support a limited
implementation of OCIThread. As a result, products that rely on all of
OCIThread's functionality will not port to all platforms. Products that must
port to all platforms must use only a subset of OCIThread's functionality.
This issue is discussed further in later sections of this document.
The OCIThread API is split into four main parts. Each part is described
briefly here. The following subsections describe each in greater detail.
1. Initialization and Termination Calls
These calls deal with the initialization and termination of OCIThread.
Initialization of OCIThread initializes the OCIThread context which is
a member of the OCI environment or session handle. This context is
required for other OCIThread calls.
2. Passive Threading Primitives
The passive threading primitives include primitives to manipulate mutual
exclusion (mutex) locks, thread ID's, and thread-specific data keys.
The reason that these primitives are described as 'passive' is that while
their specifications allow for the existence of multiple threads, they do
not require it. This means that it is possible for these primitives to
be implemented according to specification in both single-threaded and
multi-threaded environments.
As a result, OCIThread clients that use only these primitives will not
require the existence of multiple threads in order to work correctly,
i.e., they will be able to work in single-threaded environments without
branching code.
3. Active Threading Primitives
Active threading primitives include primitives dealing with the creation,
termination, and other manipulation of threads.
The reason that these primitives are described as 'active' is that they
can only be used in true multi-threaded environments. Their
specifications explicitly require that it be possible to have multiple
threads. If you need to determine at runtime whether or not you are in a
multi-threaded environment, call OCIThreadIsMulti() before calling an
OCIThread active primitive.
1.1 Initialization & Termination
==================================
The types and functions described in this section are associated with the
initialization and termination of the OCIThread package. OCIThread must
be properly initialized before any of its functionality can be used.
OCIThread's process initialization function, 'OCIThreadProcessInit()',
must be called with care; see below.
The observed behavior of the initialization and termination functions is the
same regardless of whether OCIThread is in single-threaded or multi-threaded
environment. It is OK to call the initialization functions from both generic
and operating system specific (OSD) code.
1.1.1 Types
OCIThreadContext - OCIThread Context
-------------------------------------
Most calls to OCIThread functions take the OCI environment or session
handle as a parameter. The OCIThread context is part of the OCI
environment or session handle and it must be initialized by calling
'OCIThreadInit()'. Termination of the OCIThread context occurs by calling
'OCIThreadTerm()'.
The OCIThread context is a private data structure. Clients must NEVER
attempt to examine the contents of the context.
1.1.2 OCIThreadProcessInit
OCIThreadProcessInit - OCIThread Process INITialization
--------------------------------------------------------
Description
This function should be called to perform OCIThread process
initialization.
Prototype
void OCIThreadProcessInit();
Returns
Nothing.
Notes
Whether or not this function needs to be called depends on how OCI
Thread is going to be used.
* In a single-threaded application, calling this function is optional.
If it is called at all, the first call to it must occur before calls
to any other OCIThread functions. Subsequent calls can be made
without restriction; they will not have any effect.
* In a multi-threaded application, this function MUST be called. The
first call to it MUST occur 'strictly before' any other OCIThread
calls; i.e., no other calls to OCIThread functions (including other
calls to this one) can be concurrent with the first call.
Subsequent calls to this function can be made without restriction;
they will not have any effect.
1.1.3 OCIThreadInit
OCIThreadInit - OCIThread INITialize
-------------------------------------
Description
This initializes OCIThread context.
Prototype
sword OCIThreadInit(void *hndl, OCIError *err);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
It is illegal for OCIThread clients to try an examine the memory
pointed to by the returned pointer.
It is safe to make concurrent calls to 'OCIThreadInit()'. Unlike
'OCIThreadProcessInit()', there is no need to have a first call
that occurs before all the others.
The first time 'OCIThreadInit()' is called, it initilaizes the OCI
Thread context. It also saves a pointer to the context in some system
dependent manner. Subsequent calls to 'OCIThreadInit()' will return
the same context.
Each call to 'OCIThreadInit()' must eventually be matched by a call to
'OCIThreadTerm()'.
OCIThreadTerm - OCIThread TERMinate
------------------------------------
Description
This should be called to release the OCIThread context. It should be
called exactly once for each call made to 'OCIThreadInit()'.
Prototype
sword OCIThreadTerm(void *hndl, OCIError *err);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
It is safe to make concurrent calls to 'OCIThreadTerm()'.
'OCIThreadTerm()' will not do anything until it has been called as
many times as 'OCIThreadInit()' has been called. When that happens,
it terminates the OCIThread layer and frees the memory allocated for
the context. Once this happens, the context should not be re-used.
It will be necessary to obtain a new one by calling 'OCIThreadInit()'.
OCIThreadIsMulti - OCIThread Is Multi-Threaded?
------------------------------------------------
Description
This tells the caller whether the application is running in a
multi-threaded environment or a single-threaded environment.
Prototype
boolean OCIThreadIsMulti(void);
Returns
TRUE if the environment is multi-threaded;
FALSE if the environment is single-threaded.
1.2 Passive Threading Primitives
==================================
1.2.1 Types
The passive threading primitives deal with the manipulation of mutex,
thread ID's, and thread-specific data. Since the specifications of these
primitives do not require the existence of multiple threads, they can be
used both on multithreaded and single-threaded platforms.
1.2.1.1 OCIThreadMutex - OCIThread Mutual Exclusion Lock
-----------------------------------------------------------
The type 'OCIThreadMutex' is used to represent a mutual exclusion lock
(mutex). A mutex is typically used for one of two purposes: (i) to
ensure that only one thread accesses a given set of data at a time, or
(ii) to ensure that only one thread executes a given critical section of
code at a time.
Mutexes pointer can be declared as parts of client structures or as
stand-alone variables. Before they can be used, they must be initialized
using 'OCIThreadMutexInit()'. Once they are no longer needed, they must be
destroyed using 'OCIThreadMutexDestroy()'. A mutex pointer must NOT be
used after it is destroyed.
A thread can acquire a mutex by using either 'OCIThreadMutexAcquire()' or
'OCIThreadMutexTry()'. They both ensure that only one thread at a time is
allowed to hold a given mutex. A thread that holds a mutex can release it
by calling 'OCIThreadMutexRelease()'.
1.2.1.2 OCIThreadKey - OCIThread Key for Thread-Specific Data
----------------------------------------------------------------
A key can be thought of as a process-wide variable that has a
thread-specific value. What this means is that all the threads in a
process can use any given key. However, each thread can examine or modify
that key independently of the other threads. The value that a thread sees
when it examines the key will always be the same as the value that it last
set for the key. It will not see any values set for the key by the other
threads.
The type of the value held by a key is a 'void *' generic pointer.
Keys can be created using 'OCIThreadKeyInit()'. When a key is created, its
value is initialized to 'NULL' for all threads.
A thread can set a key's value using 'OCIThreadKeySet()'. A thread can
get a key's value using 'OCIThreadKeyGet()'.
The OCIThread key functions will save and retrieve data SPECIFIC TO THE
THREAD. When clients maintain a pool of threads and assign the threads to
different tasks, it *may not* be appropriate for a task to use OCIThread
key functions to save data associated with it. Here is a scenario of how
things can fail: A thread is assigned to execute the initialization of a
task. During the initialization, the task stored some data related to it
in the thread using OCIThread key functions. After the initialization,
the thread is returned back to the threads pool. Later, the threads pool
manager assigned another thread to perform some operations on the task,
and the task needs to retrieve those data it stored earlier in
initialization. Since the task is running in another thread, it will not
be able to retrieve the same data back! Applications that use thread
pools should be aware of this and be cautious when using OCIThread key
functions.
1.2.1.3 OCIThreadKeyDestFunc - OCIThread Key Destructor Function Type
------------------------------------------------------------------------
This is the type of a pointer to a key's destructor routine. Keys can be
associated with a destructor routine when they are created (see
'OCIThreadKeyInit()').
A key's destructor routine will be called whenever a thread that has a
non-NULL value for the key terminates.
The destructor routine returns nothing and takes one parameter. The
parameter will be the value that was set for key when the thread
terminated.
The destructor routine is guaranteed to be called on a thread's value
in the key after the termination of the thread and before process
termination. No more precise guarantee can be made about the timing
of the destructor routine call; thus no code in the process may assume
any post-condition of the destructor routine. In particular, the
destructor is not guaranteed to execute before a join call on the
terminated thread returns.
1.2.1.4 OCIThreadId - OCIThread Thread ID
--------------------------------------------
Type 'OCIThreadId' is the type that will be used to identify a thread.
At any given time, no two threads will ever have the same 'OCIThreadId'.
However, 'OCIThreadId' values can be recycled; i.e., once a thread dies,
a new thread may be created that has the same 'OCIThreadId' as the one
that died. In particular, the thread ID must uniquely identify a thread
T within a process, and it must be consistent and valid in all threads U
of the process for which it can be guaranteed that T is running
concurrently with U. The thread ID for a thread T must be retrievable
within thread T. This will be done via OCIThreadIdGet().
The 'OCIThreadId' type supports the concept of a NULL thread ID: the NULL
thread ID will never be the same as the ID of an actual thread.
1.2.2 Function prototypes for passive primitives
--------------------------------------------------
1.2.2.1 Mutex functions
-------------------------
OCIThreadMutexInit - OCIThread MuteX Initialize
-----------------------------------------------
Description
This allocate and initializes a mutex. All mutexes must be
initialized prior to use.
Prototype
sword OCIThreadMutexInit(void *hndl, OCIError *err,
OCIThreadMutex **mutex);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
mutex(OUT): The mutex to initialize.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
Multiple threads must not initialize the same mutex simultaneously.
Also, a mutex must not be reinitialized until it has been destroyed (see
'OCIThreadMutexDestroy()').
OCIThreadMutexDestroy - OCIThread MuteX Destroy
-----------------------------------------------
Description
This destroys and deallocate a mutex. Each mutex must be destroyed
once it is no longer needed.
Prototype
sword OCIThreadMutexDestroy(void *hndl, OCIError *err,
OCIThreadMutex **mutex);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
mutex(IN/OUT): The mutex to destroy.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
It is not legal to destroy a mutex that is uninitialized or is currently
held by a thread. The destruction of a mutex must not occur concurrently
with any other operations on the mutex. A mutex must not be used after
it has been destroyed.
OCIThreadMutexAcquire - OCIThread MuteX Acquire
-----------------------------------------------
Description
This acquires a mutex for the thread in which it is called. If the mutex
is held by another thread, the calling thread is blocked until it can
acquire the mutex.
Prototype
sword OCIThreadMutexAcquire(void *hndl, OCIError *err,
OCIThreadMutex *mutex);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error, it is
recorded in err and this function returns OCI_ERROR.
Diagnostic information can be obtained by calling
OCIErrorGet().
mutex(IN/OUT): The mutex to acquire.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
It is illegal to attempt to acquire an uninitialized mutex.
This function's behavior is undefined if it is used by a thread to
acquire a mutex that is already held by that thread.
OCIThreadMutexRelease - OCIThread MuteX Release
-----------------------------------------------
Description
This releases a mutex. If there are any threads blocked on the mutex,
one of them will acquire it and become unblocked.
Prototype
sword OCIThreadMutexRelease(void *hndl, OCIError *err,
OCIThreadMutex *mutex);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
mutex(IN/OUT): The mutex to release.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
It is illegal to attempt to release an uninitialized mutex. It is also
illegal for a thread to release a mutex that it does not hold.
OCIThreadKeyInit - OCIThread KeY Initialize
-------------------------------------------
Description
This creates a key. Each call to this routine allocate and generates
a new key that is distinct from all other keys.
Prototype
sword OCIThreadKeyInit(void *hndl, OCIError *err, OCIThreadKey **key,
OCIThreadKeyDestFunc destFn);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
key(OUT): The 'OCIThreadKey' in which to create the new key.
destFn(IN): The destructor for the key. NULL is permitted.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
Once this function executes successfully, a pointer to an allocated and
initialized key is return. That key can be used with 'OCIThreadKeyGet()'
and 'OCIThreadKeySet()'. The initial value of the key will be 'NULL' for
all threads.
It is illegal for this function to be called more than once to create the
same key (i.e., to be called more than once with the same value for the
'key' parameter).
If the 'destFn' parameter is not NULL, the routine pointed to by 'destFn'
will be called whenever a thread that has a non-NULL value for the key
terminates. The routine will be called with one parameter. The
parameter will be the key's value for the thread at the time at which the
thread terminated.
If the key does not need a destructor function, pass NULL for 'destFn'.
OCIThreadKeyDestroy - OCIThread KeY DESTROY
-------------------------------------------
Description
Destroy and deallocate the key pointed to by 'key'.
Prototype
sword OCIThreadKeyDestroy(void *hndl, OCIError *err,
OCIThreadKey **key);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
key(IN/OUT): The 'OCIThreadKey' in which to destroy the key.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
This is different from the destructor function callback passed to the
key create routine. This new destroy function 'OCIThreadKeyDestroy' is
used to terminate any resources OCI THREAD acquired when it created
'key'. [The 'OCIThreadKeyDestFunc' callback type is a key VALUE
destructor; it does in no way operate on the key itself.]
This must be called once the user has finished using the key. Not
calling the key destroy function may result in memory leaks.
1.2.2.2 Thread Key operations
-------------------------------
OCIThreadKeyGet - OCIThread KeY Get value
-----------------------------------------
Description
This gets the calling thread's current value for a key.
Prototype
sword OCIThreadKeyGet(void *hndl, OCIError *err, OCIThreadKey *key,
void **pValue);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
key(IN): The key.
pValue(IN/OUT): The location in which to place the thread-specific
key value.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
It is illegal to use this function on a key that has not been created
using 'OCIThreadKeyInit()'.
If the calling thread has not yet assigned a value to the key, 'NULL' is
placed in the location pointed to by 'pValue'.
OCIThreadKeySet - OCIThread KeY Set value
-----------------------------------------
Description
This sets the calling thread's value for a key.
Prototype
sword OCIThreadKeySet(void *hndl, OCIError *err, OCIThreadKey *key,
void *value);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
key(IN/OUT): The key.
value(IN): The thread-specific value to set in the key.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
It is illegal to use this function on a key that has not been created
using 'OCIThreadKeyInit()'.
1.2.2.3 Thread Id
--------------------
OCIThreadIdInit - OCIThread Thread Id INITialize
--------------------------------------------------
Description
Allocate and initialize the thread id 'tid'.
Prototype
sword OCIThreadIdInit(void *hndl, OCIError *err, OCIThreadId **tid);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
tid (OUT): Pointer to the thread ID to initialize.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
OCIThreadIdDestroy - OCIThread Thread Id DESTROY
--------------------------------------------------
Description
Destroy and deallocate the thread id 'tid'.
Prototype
sword OCIThreadIdDestroy(void *hndl, OCIError *err, OCIThreadId **tid);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
tid(IN/OUT): Pointer to the thread ID to destroy.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Note
'tid' should be initialized by OCIThreadIdInit().
OCIThreadIdSet - OCIThread Thread Id Set
-----------------------------------------
Description
This sets one 'OCIThreadId' to another.
Prototype
sword OCIThreadIdSet(void *hndl, OCIError *err,
OCIThreadId *tidDest,
OCIThreadId *tidSrc);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
tidDest(OUT): This should point to the location of the 'OCIThreadId'
to be set to.
tidSrc(IN): This should point to the 'OCIThreadId' to set from.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
'tid' should be initialized by OCIThreadIdInit().
OCIThreadIdSetNull - OCIThread Thread Id Set Null
---------------------------------------------------------
Description
This sets the NULL thread ID to a given 'OCIThreadId'.
Prototype
sword OCIThreadIdSetNull(void *hndl, OCIError *err,
OCIThreadId *tid);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error, it is
recorded in err and this function returns OCI_ERROR.
Diagnostic information can be obtained by calling
OCIErrorGet().
tid(OUT): This should point to the 'OCIThreadId' in which to put
the NULL thread ID.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
'tid' should be initialized by OCIThreadIdInit().
OCIThreadIdGet - OCIThread Thread Id Get
------------------------------------------
Description
This retrieves the 'OCIThreadId' of the thread in which it is called.
Prototype
sword OCIThreadIdGet(void *hndl, OCIError *err,
OCIThreadId *tid);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
tid(OUT): This should point to the location in which to place the
ID of the calling thread.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
'tid' should be initialized by OCIThreadIdInit().
When OCIThread is used in a single-threaded environment,
OCIThreadIdGet() will always place the same value in the location
pointed to by 'tid'. The exact value itself is not important. The
important thing is that it is not the same as the NULL thread ID and
that it is always the same value.
OCIThreadIdSame - OCIThread Thread Ids Same?
----------------------------------------------
Description
This determines whether or not two 'OCIThreadId's represent the same
thread.
Prototype
sword OCIThreadIdSame(void *hndl, OCIError *err,
OCIThreadId *tid1, OCIThreadId *tid2,
boolean *result);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
tid1(IN): Pointer to the first 'OCIThreadId'.
tid2(IN): Pointer to the second 'OCIThreadId'.
result(IN/OUT): Pointer to the result.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
If 'tid1' and 'tid2' represent the same thread, 'result' is set to TRUE.
Otherwise, 'result' is set to FALSE.
'result' is set to TRUE if both 'tid1' and 'tid2' are the NULL thread ID.
'ti1d' and 'tid2' should be initialized by OCIThreadIdInit().
OCIThreadIdNull - OCIThread Thread Id NULL?
---------------------------------------------
Description
This determines whether or not a given 'OCIThreadId' is the NULL thread
ID.
Prototype
sword OCIThreadIdNull(void *hndl, OCIError *err,
OCIThreadId *tid,
boolean *result);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
tid(IN): Pointer to the 'OCIThreadId' to check.
result(IN/OUT): Pointer to the result.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
If 'tid' is the NULL thread ID, 'result' is set to TRUE. Otherwise,
'result' is set to FALSE.
'tid' should be initialized by OCIThreadIdInit().
1.3 Active Threading Primitives
=================================
The active threading primitives deal with the manipulation of actual
threads. Because the specifications of most of these primitives require
that it be possible to have multiple threads, they work correctly only in
the enabled OCIThread; In the disabled OCIThread, they always return
failure. The exception is OCIThreadHandleGet(); it may be called in a
single-threaded environment, in which case it will have no effect.
Active primitives should only be called by code running in a multi-threaded
environment. You can call OCIThreadIsMulti() to determine whether the
environment is multi-threaded or single-threaded.
1.3.1 Types
--------------
1.3.1.1 OCIThreadHandle - OCIThread Thread Handle
------------------------------------------------------
Type 'OCIThreadHandle' is used to manipulate a thread in the active
primitives: OCIThreadJoin()and OCIThreadClose(). A thread handle opened by
OCIThreadCreate() must be closed in a matching call to
OCIThreadClose(). A thread handle is invalid after the call to
OCIThreadClose().
The distinction between a thread ID and a thread handle in OCIThread usage
follows the distinction between the thread ID and the thread handle on
Windows NT. On many platforms, the underlying native types are the same.
1.3.2 Functions
------------------
OCIThreadHndInit - OCIThread HaNDle Initialize
----------------------------------------------
Description
Allocate and initialize the thread handle.
Prototype
sword OCIThreadHndInit(void *hndl, OCIError *err,
OCIThreadHandle **thnd);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
thnd(OUT): The address of pointer to the thread handle to initialize.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
OCIThreadHndDestroy - OCIThread HaNDle Destroy
----------------------------------------------
Description
Destroy and deallocate the thread handle.
Prototype
sword OCIThreadHndDestroy(void *hndl, OCIError *err,
OCIThreadHandle **thnd);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
thnd(IN/OUT): The address of pointer to the thread handle to destroy.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
'thnd' should be initialized by OCIThreadHndInit().
OCIThreadCreate - OCIThread Thread Create
-----------------------------------------
Description
This creates a new thread.
Prototype
sword OCIThreadCreate(void *hndl, OCIError *err,
void (*start)(void *), void *arg,
OCIThreadId *tid, OCIThreadHandle *tHnd);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
start(IN): The function in which the new thread should begin
execution.
arg(IN): The argument to give the function pointed to by 'start'.
tid(IN/OUT): If not NULL, gets the ID for the new thread.
tHnd(IN/OUT): If not NULL, gets the handle for the new thread.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
The new thread will start by executing a call to the function pointed
to by 'start' with the argument given by 'arg'. When that function
returns, the new thread will terminate. The function should not
return a value and should accept one parameter, a 'void *'.
The call to OCIThreadCreate() must be matched by a call to
OCIThreadClose() if and only if tHnd is non-NULL.
If tHnd is NULL, a thread ID placed in *tid will not be valid in the
calling thread because the timing of the spawned thread's termination
is unknown.
'tid' should be initialized by OCIThreadIdInit().
'thnd' should be initialized by OCIThreadHndInit().
OCIThreadJoin - OCIThread Thread Join
-------------------------------------
Description
This function allows the calling thread to 'join' with another thread.
It blocks the caller until the specified thread terminates.
Prototype
sword OCIThreadJoin(void *hndl, OCIError *err, OCIThreadHandle *tHnd);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
tHnd(IN): The 'OCIThreadHandle' of the thread to join with.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
'thnd' should be initialized by OCIThreadHndInit().
The result of multiple threads all trying to join with the same thread is
undefined.
OCIThreadClose - OCIThread Thread Close
---------------------------------------
Description
This function should be called to close a thread handle.
Prototype
sword OCIThreadClose(void *hndl, OCIError *err, OCIThreadHandle *tHnd);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
tHnd(IN/OUT): The OCIThread thread handle to close.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
'thnd' should be initialized by OCIThreadHndInit().
Both thread handle and the thread ID that was returned by the same call
to OCIThreadCreate() are invalid after the call to OCIThreadClose().
OCIThreadHandleGet - OCIThread Thread Get Handle
------------------------------------------------
Description
Retrieve the 'OCIThreadHandle' of the thread in which it is called.
Prototype
sword OCIThreadHandleGet(void *hndl, OCIError *err,
OCIThreadHandle *tHnd);
hndl(IN/OUT): The OCI environment or session handle.
err(IN/OUT): The OCI error handle. If there is an error and OCI_ERROR
is returned, the error is recorded in err and diagnostic
information can be obtained by calling OCIErrorGet().
tHnd(IN/OUT): If not NULL, the location to place the thread
handle for the thread.
Returns
OCI_SUCCESS, OCI_ERROR or OCI_INVALID_HANDLE.
Notes
'thnd' should be initialized by OCIThreadHndInit().
The thread handle 'tHnd' retrieved by this function must be closed
with OCIThreadClose() and destroyed by OCIThreadHndDestroy() after it
is used.
1.4 Using OCIThread
=====================
This section summarizes some of the more important details relating to the use
of OCIThread.
* Process initialization
OCIThread only requires that the process initialization function
('OCIThreadProcessInit()') be called when OCIThread is being used in a
multi-threaded application. Failing to call 'OCIThreadProcessInit()' in
a single-threaded application is not an error.
* OCIThread initialization
Separate calls to 'OCIThreadInit()' will all return the same OCIThread
context.
Also, remember that each call to 'OCIThreadInit()' must eventually be
matched by a call to 'OCIThreadTerm()'.
* Active vs. Passive Threading primitives
OCIThread client code written without using any active primitives can be
compiled and used without change on both single-threaded and
multi-threaded platforms.
OCIThread client code written using active primitives will only work
correctly on multi-threaded platforms. In order to write a version of the
same application to run on single-threaded platform, it is necessary to
branch the your code, whether by branching versions of the source file or
by branching at runtime with the OCIThreadIsMulti() call.
******************************************************************************/
/*****************************************************************************
ACTUAL PROTOTYPE DECLARATIONS
******************************************************************************/
void OCIThreadProcessInit();
sword OCIThreadInit(void *hndl, OCIError *err);
sword OCIThreadTerm(void *hndl, OCIError *err);
boolean OCIThreadIsMulti();
sword OCIThreadMutexInit(void *hndl, OCIError *err,
OCIThreadMutex **mutex);
sword OCIThreadMutexDestroy(void *hndl, OCIError *err,
OCIThreadMutex **mutex);
sword OCIThreadMutexAcquire(void *hndl, OCIError *err,
OCIThreadMutex *mutex);
sword OCIThreadMutexRelease(void *hndl, OCIError *err,
OCIThreadMutex *mutex);
sword OCIThreadKeyInit(void *hndl, OCIError *err, OCIThreadKey **key,
OCIThreadKeyDestFunc destFn);
sword OCIThreadKeyDestroy(void *hndl, OCIError *err,
OCIThreadKey **key);
sword OCIThreadKeyGet(void *hndl, OCIError *err, OCIThreadKey *key,
void **pValue);
sword OCIThreadKeySet(void *hndl, OCIError *err, OCIThreadKey *key,
void *value);
sword OCIThreadIdInit(void *hndl, OCIError *err, OCIThreadId **tid);
sword OCIThreadIdDestroy(void *hndl, OCIError *err, OCIThreadId **tid);
sword OCIThreadIdSet(void *hndl, OCIError *err,
OCIThreadId *tidDest, OCIThreadId *tidSrc);
sword OCIThreadIdSetNull(void *hndl, OCIError *err, OCIThreadId *tid);
sword OCIThreadIdGet(void *hndl, OCIError *err, OCIThreadId *tid);
sword OCIThreadIdSame(void *hndl, OCIError *err,
OCIThreadId *tid1, OCIThreadId *tid2,
boolean *result);
sword OCIThreadIdNull(void *hndl, OCIError *err,
OCIThreadId *tid, boolean *result);
sword OCIThreadHndInit(void *hndl, OCIError *err, OCIThreadHandle **thnd);
sword OCIThreadHndDestroy(void *hndl, OCIError *err, OCIThreadHandle **thnd);
sword OCIThreadCreate(void *hndl, OCIError *err,
void (*start)(void *), void *arg,
OCIThreadId *tid, OCIThreadHandle *tHnd);
sword OCIThreadJoin(void *hndl, OCIError *err, OCIThreadHandle *tHnd);
sword OCIThreadClose(void *hndl, OCIError *err, OCIThreadHandle *tHnd);
sword OCIThreadHandleGet(void *hndl, OCIError *err, OCIThreadHandle *tHnd);
/*----------------- End OCI Thread interface Extensions ---------------------*/
/*------------------ Begin OCI Row Callback Interfaces ----------------------*/
typedef sword (*OCIBindRowCallback)(void *ctx);
typedef sword (*OCIFetchRowCallback)(void *ctx);
/*------------------ Begin OCI Row Callback Interfaces ----------------------*/
/*--------------- Begin OCI Client Notification Interfaces ------------------*/
typedef ub4 (*OCISubscriptionNotify)(void *ctx, OCISubscription *subscrhp,
void *pay, ub4 payl,
void *desc, ub4 mode);
typedef ub4 (*OCISubscriptionFailure)(void *ctx, OCISubscription *subscrhp,
void *desc, OCIError *errhp);
sword OCISubscriptionRegister(OCISvcCtx *svchp, OCISubscription **subscrhpp,
ub2 count, OCIError *errhp, ub4 mode);
sword OCISubscriptionPost(OCISvcCtx *svchp, OCISubscription **subscrhpp,
ub2 count, OCIError *errhp, ub4 mode);
sword OCISubscriptionUnRegister(OCISvcCtx *svchp, OCISubscription *subscrhp,
OCIError *errhp, ub4 mode);
sword OCISubscriptionDisable(OCISubscription *subscrhp,
OCIError *errhp, ub4 mode);
sword OCISubscriptionEnable(OCISubscription *subscrhp,
OCIError *errhp, ub4 mode);
/*------------------- End OCI Publish/Subscribe Interfaces ------------------*/
/*----------------- Extensions to Datetime interfaces -----------------------*/
/*--------------------- Actual Prototypes -----------------------------------*/
sword OCIDateTimeGetTime(void *hndl, OCIError *err, OCIDateTime *datetime,
ub1 *hr, ub1 *mm, ub1 *ss, ub4 *fsec);
sword OCIDateTimeGetDate(void *hndl, OCIError *err, const OCIDateTime *date,
sb2 *yr, ub1 *mnth, ub1 *dy );
sword OCIDateTimeGetTimeZoneOffset(void *hndl,OCIError *err,
const OCIDateTime *datetime,
sb1 *hr,sb1 *mm);
sword OCIDateTimeConstruct(void *hndl,OCIError *err,OCIDateTime *datetime,
sb2 yr,ub1 mnth,ub1 dy,ub1 hr,ub1 mm,ub1 ss,ub4 fsec,
OraText *timezone,size_t timezone_length);
sword OCIDateTimeSysTimeStamp(void *hndl, OCIError *err,
OCIDateTime *sys_date );
sword OCIDateTimeAssign(void *hndl, OCIError *err, const OCIDateTime *from,
OCIDateTime *to);
sword OCIDateTimeToText(void *hndl, OCIError *err, const OCIDateTime *date,
const OraText *fmt, ub1 fmt_length, ub1 fsprec,
const OraText *lang_name, size_t lang_length,
ub4 *buf_size, OraText *buf );
sword OCIDateTimeFromText(void *hndl, OCIError *err, const OraText *date_str,
size_t dstr_length, const OraText *fmt, ub1 fmt_length,
const OraText *lang_name, size_t lang_length, OCIDateTime *date );
sword OCIDateTimeCompare(void *hndl, OCIError *err, const OCIDateTime *date1,
const OCIDateTime *date2, sword *result );
sword OCIDateTimeCheck(void *hndl, OCIError *err, const OCIDateTime *date,
ub4 *valid );
sword OCIDateTimeConvert(void *hndl, OCIError *err, OCIDateTime *indate,
OCIDateTime *outdate);
sword OCIDateTimeSubtract(void *hndl, OCIError *err, OCIDateTime *indate1,
OCIDateTime *indate2, OCIInterval *inter);
sword OCIDateTimeIntervalAdd(void *hndl, OCIError *err, OCIDateTime *datetime,
OCIInterval *inter, OCIDateTime *outdatetime);
sword OCIDateTimeIntervalSub(void *hndl, OCIError *err, OCIDateTime *datetime,
OCIInterval *inter, OCIDateTime *outdatetime);
sword OCIIntervalSubtract(void *hndl, OCIError *err, OCIInterval *minuend,
OCIInterval *subtrahend, OCIInterval *result );
sword OCIIntervalAdd(void *hndl, OCIError *err, OCIInterval *addend1,
OCIInterval *addend2, OCIInterval *result );
sword OCIIntervalMultiply(void *hndl, OCIError *err, const OCIInterval *inter,
OCINumber *nfactor, OCIInterval *result );
sword OCIIntervalDivide(void *hndl, OCIError *err, OCIInterval *dividend,
OCINumber *divisor, OCIInterval *result );
sword OCIIntervalCompare(void *hndl, OCIError *err, OCIInterval *inter1,
OCIInterval *inter2, sword *result );
sword OCIIntervalFromNumber(void *hndl, OCIError *err, OCIInterval *inter,
OCINumber *number);
sword OCIIntervalFromText( void *hndl, OCIError *err, const OraText *inpstr,
size_t str_len, OCIInterval *result );
sword OCIIntervalToText( void *hndl, OCIError *err, const OCIInterval *inter,
ub1 lfprec, ub1 fsprec,
OraText *buffer, size_t buflen, size_t *resultlen );
sword OCIIntervalToNumber(void *hndl, OCIError *err,const OCIInterval *inter,
OCINumber *number);
sword OCIIntervalCheck(void *hndl, OCIError *err, const OCIInterval *interval,
ub4 *valid );
sword OCIIntervalAssign(void *hndl, OCIError *err, const OCIInterval *ininter,
OCIInterval *outinter );
sword OCIIntervalSetYearMonth(void *hndl, OCIError *err, sb4 yr, sb4 mnth,
OCIInterval *result );
sword OCIIntervalGetYearMonth(void *hndl, OCIError *err, sb4 *yr, sb4 *mnth,
const OCIInterval *result );
sword OCIIntervalSetDaySecond(void *hndl, OCIError *err, sb4 dy, sb4 hr,
sb4 mm, sb4 ss, sb4 fsec, OCIInterval *result );
sword OCIIntervalGetDaySecond(void *hndl, OCIError *err, sb4 *dy, sb4 *hr,
sb4 *mm, sb4 *ss, sb4 *fsec, const OCIInterval *result );
sword OCIDateTimeToArray(void *hndl, OCIError *err,
const OCIDateTime *datetime, const OCIInterval *reftz,
ub1 *outarray, ub4 *len, ub1 fsprec);
sword OCIDateTimeFromArray(void *hndl, OCIError *err, ub1 *inarray, ub4 len,
ub1 type, OCIDateTime *datetime,
const OCIInterval *reftz, ub1 fsprec);
sword OCIDateTimeGetTimeZoneName(void *hndl, OCIError *err,
const OCIDateTime *datetime,
ub1 *buf, ub4 *buflen);
sword OCIIntervalFromTZ(void *hndl, OCIError *err, const oratext *inpstring,
size_t str_len, OCIInterval *result);
/*----------------- End Datetime interface Extensions -----------------------*/
/*----------------- Connection Pooling prototypes ---------------------------*/
sword OCIConnectionPoolCreate(OCIEnv *envhp, OCIError *errhp, OCICPool *poolhp,
OraText **poolName, sb4 *poolNameLen,
const OraText *dblink, sb4 dblinkLen,
ub4 connMin, ub4 connMax, ub4 connIncr,
const OraText *poolUserName, sb4 poolUserLen,
const OraText *poolPassword, sb4 poolPassLen,
ub4 mode);
sword OCIConnectionPoolDestroy(OCICPool *poolhp,
OCIError *errhp, ub4 mode);
/*----------------- End Connection Pooling prototypes -----------------------*/
/*-------------------- Session Pooling prototypes ---------------------------*/
sword OCISessionPoolCreate (OCIEnv *envhp, OCIError *errhp, OCISPool *spoolhp,
OraText **poolName, ub4 *poolNameLen,
const OraText *connStr, ub4 connStrLen,
ub4 sessMin, ub4 sessMax, ub4 sessIncr,
OraText *userid, ub4 useridLen,
OraText *password, ub4 passwordLen,
ub4 mode);
sword OCISessionPoolDestroy (OCISPool *spoolhp,
OCIError *errhp,
ub4 mode);
sword OCISessionGet (OCIEnv *envhp, OCIError *errhp, OCISvcCtx **svchp,
OCIAuthInfo *authhp,
OraText *poolName, ub4 poolName_len,
const OraText *tagInfo, ub4 tagInfo_len,
OraText **retTagInfo, ub4 *retTagInfo_len,
boolean *found, ub4 mode);
sword OCISessionRelease (OCISvcCtx *svchp, OCIError *errhp,
OraText *tag, ub4 tag_len,
ub4 mode);
/*-------------------- End Session Pooling prototypes -----------------------*/
/* --------------------- OCI Application Context --------------------------*/
sword OCIAppCtxSet(void * sesshndl, void *nsptr, ub4 nsptrlen,
void *attrptr, ub4 attrptrlen,
void *valueptr, ub4 valueptrlen,
OCIError *errhp, ub4 mode);
sword OCIAppCtxClearAll(void *sesshndl, void *nsptr, ub4 nsptrlen,
OCIError *errhp, ub4 mode);
/*-------------------------------- OCIMemStats ------------------------------*/
sword OCIMemStats(void *hndlp, OCIError *errhp, OCIEnv **envhp,
ub4 mode, ub4 mode1, oratext *tabname);
/*-------------------------------- OCIPing ----------------------------------*/
sword OCIPing (OCISvcCtx *svchp, OCIError *errhp, ub4 mode);
/*----------------- Kerberos Authentication prototypes ----------------------*/
sword OCIKerbAttrSet(OCISession *trgthndlp, ub4 cred_use, ub1 *ftgt_ticket,
ub4 ticket_len, ub1 *session_key, ub4 skey_len,
ub2 ftgt_keytype, ub4 ftgt_ticket_flags,
sb4 ftgt_auth_time, sb4 ftgt_start_time,
sb4 ftgt_end_time, sb4 ftgt_renew_time,
oratext *ftgt_client_principal,
ub4 ftgt_client_principal_len, oratext *ftgt_client_realm,
ub4 ftgt_client_realm_len, OCIError *errhp);
/*------------------- End Kerberos Authentication prototypes ----------------*/
/*------------------- Database Startup/Shutdown prototypes ------------------*/
sword OCIDBStartup (OCISvcCtx *svchp,
OCIError *errhp,
OCIAdmin *admhp,
ub4 mode,
ub4 flags);
sword OCIDBShutdown(OCISvcCtx *svchp,
OCIError *errhp,
OCIAdmin *admhp,
ub4 mode);
/*------------------ End Database Startup/Shutdown prototypes ---------------*/
/*----------------------- OCIClientVersion ----------------------------------*/
void OCIClientVersion(sword *major_version,
sword *minor_version,
sword *update_num,
sword *patch_num,
sword *port_update_num);
/*----------------------- End OCIClientVersion -----------------------------*/
/*----------------------- HA Event prototypes ------------------------------*/
sword OCIInitEventHandle(OCIError *errhp,
OCIEvent *event,
text *str,
ub4 size);
/*----------------------- End HA Event prototypes --------------------------*/
/*------------------- SQL Translation prototypes ---------------------------*/
sword OCITranslatedErrorGet(OCISvcCtx *svchp,
void *hndlp,
ub4 recordno,
OraText *sqlstate,
ub4 sqlstatesiz,
sb4 *errcodep,
ub4 type);
/*----------------- End SQL Translation prototypes -------------------------*/
/*---------------------------- Sharding Prototypes -------------------------*/
sword OCIShardingKeyColumnAdd(OCIShardingKey *shardingKey, OCIError *errhp,
void* col, ub4 colLen, ub2 colType, ub4 mode);
sword OCIShardingKeyReset(OCIShardingKey *shardingKey, OCIError *errhp,
ub4 mode);
sword OCIShardInstancesGet(void **shTopoCtx,
OCIError *errhp,
const OraText *connstr,
ub4 connstrl,
OCIShardingKey *shardingKey,
OCIShardingKey *superShardingKey,
OCIShardInst ***shardInsts,
ub4 *numShardInsts,
ub4 mode);
/*------------------------ End Sharding Prototypes -------------------------*/
/*---------------------------------------------------------------------------
PRIVATE FUNCTIONS
----------------------------------------------------------------------------*/
#endif /* OCIAP_ORACLE */