Mega Code Archive
Extended stored procedures with delphi
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Have you ever tried to create a stored procedure on an SQL Server?
What if the functionality you wish to incorporate is not inside the SQL but in your Delphi project? Microsoft provides ODS (Open Data Services) which is an API to help you create such functionality by adding DLL's to your SQL Server that contain Extended Stored Procedures.
This is how you do it....
As a special bonus, this article also is a simple solution to encrypting your data inside SQL Server using Extended Stored Procedures.
What do we need?
1) opends60.dll (from a full installation with developer tools of MSSQL or MSDE)
2) MsOdsApi.pas -- AUTHOR: Leonid 'MC' Belousov (www.bramc.ru/soft/) Header file to use opends60.dll) (included at the end of the article)
3) A Local SQL Server for testing (MSDE will do fine).
NOTE: For cryptography I used the components found under MIT license here:
http://www.cityinthesky.co.uk/cryptography.html
Steps:
1) Create a new DLL.
2) Create a unit and in the uses clause add the MsOdsApi unit.
3) In the Library file just under ther Uses clause add Exports and the names of the functions to export:
library MyEncryptDll;
uses
SysUtils,
Classes,
Unit1 in 'Unit1.pas';
exports
xp_DoEncrypt,
xp_DoDecrypt;
begin
end.
4) In the Unit file just under the Uses clause add your function reference:
function xp_DoEncrypt(pSrvProc: SRV_PROC): Integer; cdecl;
function xp_DoDecrypt(pSrvProc: SRV_PROC): Integer; cdecl;
NOTES: cdecl is required for ODS to be able to call your functions.
SRV_PROC is a handle to the stored procedure information.
5) The code of the DoEncrypt is this:
Based on source code by Leonid 'MC' Belousov (www.bramc.ru/soft/)
(DoDecrypt is exactly the same just with a DecryptString(s) call.
function xp_Encrypt(pSrvProc: SRV_PROC): Integer;cdecl;
var
i, sz: Integer;
bType: Byte;
fNull: Bool;
cbMaxLen, cbActualLen: ULONG;
myData,myanswer,myKey:array [0..255] of char;
FDCP_3des: TDCP_3des;
s:string;
ps:pchar;
begin
for i:=0 to 255 do
begin
myData[i]:=#0;
myanswer[i]:=#0;
myKey[i]:=#0;
end;
if srv_rpcparams(pSrvProc) = 2 then // Check if input parameters are present...
begin
srv_paraminfo(pSrvProc, 1, @bType, // Let's use 1st input parameter!
@cbMaxLen, @cbActualLen, // NOTE: We assume here what only 2 parameters
@myData[0], @fNull); //of type String can be passed!!!
bType:=SRVVARCHAR;
srv_paraminfo(pSrvProc, 2, @bType,
@cbMaxLen, @cbActualLen,
@myKey[0], @fNull);
end
else
MyData := ''; // No input parameters? Use default value instead.
//ENCRYPTION CODE BELOW YOU CAN DO WHATEVER YOU NEED HERE WITH THE PARAMETER VALUES
FDCP_3des:=TDCP_3des.Create(nil);
FDCP_3des.BlockSize:=64;
FDCP_3des.Algorithm:='3DES';
FDCP_3des.CipherMode:=cmCBC;
FDCP_3des.Id:=24;
FDCP_3des.MaxKeySize:=192;
FDCP_3des.InitStr(myKey,TDCP_sha1);
s:=string(mydata);
strpcopy(myAnswer,FDCP_3des.EncryptString(s));
FDCP_3des.Burn;
// SETTING UP ANSWER VALUES TO PCHAR AND GETTING SIZE
s:=string(myAnswer);
sz:=length(s);
ps:=allocmem(sz);
ps:=pchar(s);
// Describe columns
// (Actually, you are doing that for every datatype and every column you want to return).
srv_describe(pSrvProc,1 , 'Value', SRV_NULLTERM,
SRVVARCHAR, sz,
SRVVARCHAR, sz, nil);
// Begin output...
srv_setcoldata(pSrvProc, 1, @ps[0]);
srv_sendrow(pSrvProc); // Send the row.
// Let return output parameter (just for example).
srv_senddone(pSrvProc, // Finally send data back to SQL Server:
(SRV_DONE_COUNT or SRV_DONE_MORE), 0, 1); // send results completion message.
// FREEING ENCRYPTION COMPONENT
FreeAndNil(FDCP_3des);
result := 1; // Report success (1 = SUCCEED, 0 = FAIL)
end;
NOTE: There are a number of things you can do with ODS. This is just an example for Delphi. You can read the ODS help in MSDN and do even more.
6) Testing and Debugging: (Source Leonid 'MC' Belousov (www.bramc.ru/soft/))
A) Install SQL 7.0/2000 on your workstation (or install Delphi on workstation where SQL Server is installed).
B) Register your Xp on SQL Server.
NOTES:
Register Xp like this:
use master
go
sp_addextendedproc 'xp_DoEncrypt', 'MyEncryptDll.dll'
go
sp_addextendedproc 'xp_DoDecrypt', 'MyEncryptDll.dll'
go
Unregister Xp like this:
use master
go
sp_dropextendedproc 'xp_DoEncrypt'
go
sp_dropextendedproc 'xp_DoDecrypt'
go
Unlock DLL in case it still being used by SQL like this:
use master
go
DBCC MyEncryptDll(FREE)
go
C) In Delphi, select from main menu Run -> Run Parameters.
In the Host Application field, specify a pathname to your SQL Server executable (sqlservr.exe). For SQL 7.0, this is enough. For SQL 2000, in the Parameters field specify a command line parameter "-sYOUR_SQL_NAME", where YOUR_SQL_NAME is the name assigned to your SQL Server during the installation.
Set breakpoints in your Delphi code and run project. SQL Server will start as a console application.
D) You can execute your Xp from Query Analyzer and trace code in Delphi.
NOTE:
Executing an extended stored procedure is done like this:
exec master..xp_DoEncrypt 'ValueToEncrypt','KeyValue'
go
E) To exit application, press Ctrl+Pause in the SQL Server console window.
-------------------------------------------------------
End of article. Bellow follows a unit required for ODS.
-------------------------------------------------------
MsOdsApi.pas (Copy from line below)
{
- Master Cluster's Library -
Copyright © 1996-2002 Leonid Belousov (aka Master Cluster)
mailto: mc@bramc.ru
www.bramc.ru/soft/
- Description: translation of C-headers of Microsoft Open Data Services API
}
unit MsOdsApi;
//------------------------------------------------------------
// Open Data Services header file: srv.h
// Copyright (c) 1989, 1990, 1991, 1997 by Microsoft Corp.
//
// Avoid double inclusion
//#ifndef _ODS_SRV_H_
// _ODS_SRV_H_
//#include "windows.h"
// ODS uses pack(4) on all CPU types
//#pragma pack(4)
//#ifdef __cplusplus
//extern "C" {
//#endif
// define model
//#if !defined( FAR )
// FAR far
//#endif
//------------------------------------------------------------
// Formats of data types
//#if !defined(DBTYPEDEFS) // Do not conflict with DBLIB definitions
//#if !defined(MAXNUMERICLEN) // Do not conflict with ODBC definitions
// DBTYPEDEFS
interface
uses
Windows;
type
DBBOOL = Byte;
DBBYTE = Byte;
DBTINYINT = Byte;
DBSMALLINT = Smallint;
DBUSMALLINT = Word;
DBINT = Longint;
DBCHAR = Char;
PDBCHAR = ^DBCHAR;
DBBINARY = Byte;
DBBIT = Byte;
DBFLT8 = Double;
srv_datetime = record
// Format for SRVDATETIME
dtdays: Longint; // number of days since 1/1/1900
dttime: Longword; // number 300th second since mid
end;
DBDATETIME = srv_datetime;
srv_dbdatetime4 = record
// Format for SRVDATETIM4
numdays: Word; // number of days since 1/1/1900
nummins: Word; // number of minutes sicne midnight
end;
DBDATETIM4 = srv_dbdatetime4;
srv_money = record
// Format for SRVMONEY
mnyhigh: Longint;
mnylow : Longword;
end;
DBMONEY = srv_money;
DBFLT4 = Double;
DBMONEY4 = Longint;
const
MAXNUMERICDIG = 38;
DEFAULTPRECISION = 19; // 18
DEFAULTSCALE = 0;
MAXNUMERICLEN = 16;
type
srv_dbnumeric = packed record
// Format for SRVNUMERIC,SRVNUMERICN,SRVDECIMAL,SRVDECIMALN
precision: Byte;
scale : Byte;
sign : Byte; // 1 = Positive, 0 = Negative
val : array [0..MAXNUMERICLEN-1] of Byte; // Padded little-endian value
end;
DBNUMERIC = srv_dbnumeric;
DBDECIMAL = DBNUMERIC;
//#endif // #if !defined(MAXNUMERICLEN)
//#endif // #if !defined( DBTYPEDEFS )
//------------------------------------------------------------
// Constants used by APIs
// Type Tokens
const
SRV_TDS_NULL = $1f;
SRV_TDS_TEXT = $23;
SRV_TDS_GUID = $24;
SRV_TDS_VARBINARY = $25;
SRV_TDS_INTN = $26;
SRV_TDS_VARCHAR = $27;
SRV_TDS_BINARY = $2d;
SRV_TDS_IMAGE = $22;
SRV_TDS_CHAR = $2f;
SRV_TDS_INT1 = $30;
SRV_TDS_BIT = $32;
SRV_TDS_INT2 = $34;
SRV_TDS_DECIMAL = $37;
SRV_TDS_INT4 = $38;
SRV_TDS_DATETIM4 = $3a;
SRV_TDS_FLT4 = $3b;
SRV_TDS_MONEY = $3c;
SRV_TDS_DATETIME = $3d;
SRV_TDS_FLT8 = $3e;
SRV_TDS_NUMERIC = $3f;
SRV_TDS_NTEXT = $63;
SRV_TDS_BITN = $68;
SRV_TDS_DECIMALN = $6a;
SRV_TDS_NUMERICN = $6c;
SRV_TDS_FLTN = $6d;
SRV_TDS_MONEYN = $6e;
SRV_TDS_DATETIMN = $6f;
SRV_TDS_MONEY4 = $7a;
SRV_TDS_INT8 = $7f; // SQL 2000 and later
SRV_TDS_BIGVARBINARY = $A5;
SRV_TDS_BIGVARCHAR = $A7;
SRV_TDS_BIGBINARY = $AD;
SRV_TDS_BIGCHAR = $AF;
SRV_TDS_NVARCHAR = $e7;
SRV_TDS_NCHAR = $ef;
// Datatypes
// Also: values of symbol parameter to srv_symbol when type = SRV_DATATYPE
SRVNULL = SRV_TDS_NULL;
SRVTEXT = SRV_TDS_TEXT;
SRVGUID = SRV_TDS_GUID;
SRVVARBINARY = SRV_TDS_VARBINARY;
SRVINTN = SRV_TDS_INTN;
SRVVARCHAR = SRV_TDS_VARCHAR;
SRVBINARY = SRV_TDS_BINARY;
SRVIMAGE = SRV_TDS_IMAGE;
SRVCHAR = SRV_TDS_CHAR;
SRVINT1 = SRV_TDS_INT1;
SRVBIT = SRV_TDS_BIT;
SRVINT2 = SRV_TDS_INT2;
SRVDECIMAL = SRV_TDS_DECIMAL;
SRVINT4 = SRV_TDS_INT4;
SRVDATETIM4 = SRV_TDS_DATETIM4;
SRVFLT4 = SRV_TDS_FLT4;
SRVMONEY = SRV_TDS_MONEY;
SRVDATETIME = SRV_TDS_DATETIME;
SRVFLT8 = SRV_TDS_FLT8;
SRVNUMERIC = SRV_TDS_NUMERIC;
SRVNTEXT = SRV_TDS_NTEXT;
SRVBITN = SRV_TDS_BITN;
SRVDECIMALN = SRV_TDS_DECIMALN;
SRVNUMERICN = SRV_TDS_NUMERICN;
SRVFLTN = SRV_TDS_FLTN;
SRVMONEYN = SRV_TDS_MONEYN;
SRVDATETIMN = SRV_TDS_DATETIMN;
SRVMONEY4 = SRV_TDS_MONEY4;
SRVINT8 = SRV_TDS_INT8; // SQL 2000 and later
SRVBIGVARBINARY = SRV_TDS_BIGVARBINARY;
SRVBIGVARCHAR = SRV_TDS_BIGVARCHAR;
SRVBIGBINARY = SRV_TDS_BIGBINARY;
SRVBIGCHAR = SRV_TDS_BIGCHAR;
SRVNVARCHAR = SRV_TDS_NVARCHAR;
SRVNCHAR = SRV_TDS_NCHAR;
// values for srv_symbol type parameter
SRV_ERROR = 0;
SRV_DONE = 1;
SRV_DATATYPE = 2;
SRV_EVENT = 4;
// values for srv_symbol symbol parameter, when type = SRV_ERROR
SRV_ENO_OS_ERR = 0;
SRV_INFO = 1;
SRV_FATAL_PROCESS = 10;
SRV_FATAL_SERVER = 19;
// Types of server events
// Also: values for srv_symbol symbol parameter, when type = SRV_EVENT
SRV_CONTINUE = 0;
SRV_LANGUAGE = 1;
SRV_CONNECT = 2;
SRV_RPC = 3;
SRV_RESTART = 4;
SRV_DISCONNECT = 5;
SRV_ATTENTION = 6;
SRV_SLEEP = 7;
SRV_START = 8;
SRV_STOP = 9;
SRV_EXIT = 10;
SRV_CANCEL = 11;
SRV_SETUP = 12;
SRV_CLOSE = 13;
SRV_PRACK = 14;
SRV_PRERROR = 15;
SRV_ATTENTION_ACK = 16;
SRV_CONNECT_V7 = 16; // TDS type for TDS 7 clients. Overloaded with SRV_ATTENTION_ACK
SRV_SKIP = 17;
SRV_TRANSMGR = 18;
SRV_OLEDB = 20;
SRV_INTERNAL_HANDLER = 99;
SRV_PROGRAMMER_DEFINED = 100;
// values for srv_config option parameter
SRV_CONNECTIONS = 1;
SRV_LOGFILE = 2;
SRV_STACKSIZE = 3;
SRV_REMOTE_ACCESS = 7;
SRV_REMOTE_CONNECTIONS = 9;
SRV_MAX_PACKETS = 10;
SRV_MAXWORKINGTHREADS = 11;
SRV_MINWORKINGTHREADS = 12;
SRV_THREADTIMEOUT = 13;
SRV_MAX_PACKETSIZE = 17;
SRV_THREADPRIORITY = 18;
SRV_ANSI_CODEPAGE = 19;
SRV_DEFAULT_PACKETSIZE = 26;
SRV_PASSTHROUGH = 27;
// vlaues for srv_config value parameter when option = SRV_THREADPRIORITY
SRV_PRIORITY_LOW = THREAD_PRIORITY_LOWEST;
SRV_PRIORITY_NORMAL = THREAD_PRIORITY_NORMAL;
SRV_PRIORITY_HIGH = THREAD_PRIORITY_HIGHEST;
SRV_PRIORITY_CRITICAL = THREAD_PRIORITY_TIME_CRITICAL;
// values for srv_sfield field parameter
SRV_SERVERNAME = 0;
SRV_VERSION = 6;
// Length to indicate string is null terminated
SRV_NULLTERM = -1;
// values of msgtype parameter to srv_sendmsg
SRV_MSG_INFO = 1;
SRV_MSG_ERROR = 2;
// values of status parameter to srv_senddone
// Also: values for symbol parameters to srv_symbol when type = SRV_DONE
SRV_DONE_FINAL = $0000;
SRV_DONE_MORE = $0001;
SRV_DONE_ERROR = $0002;
SRV_DONE_COUNT = $0010;
SRV_DONE_RPC_IN_BATCH = $0080;
// return values of srv_paramstatus
SRV_PARAMRETURN = $0001;
SRV_PARAMDEFAULT = $0002;
// return values of srv_rpcoptions
SRV_RECOMPILE = $0001;
SRV_NOMETADATA = $0002;
// values of field parameter to srv_pfield
// SRV_LANGUAGE 1 already defined above
// SRV_EVENT 4 already defined above
SRV_SPID = 10;
SRV_NETSPID = 11;
SRV_TYPE = 12;
SRV_STATUS = 13;
SRV_RMTSERVER = 14;
SRV_HOST = 15;
SRV_USER = 16;
SRV_PWD = 17;
SRV_CPID = 18;
SRV_APPLNAME = 19;
SRV_TDS = 20;
SRV_CLIB = 21;
SRV_LIBVERS = 22;
SRV_ROWSENT = 23;
SRV_BCPFLAG = 24;
SRV_NATLANG = 25;
SRV_PIPEHANDLE = 26;
SRV_NETWORK_MODULE = 27;
SRV_NETWORK_VERSION = 28;
SRV_NETWORK_CONNECTION = 29;
SRV_LSECURE = 30;
SRV_SAXP = 31;
SRV_UNICODE_USER = 33;
SRV_UNICODE_PWD = 35;
SRV_SPROC_CODEPAGE = 36;
// return value of SRV_TDSVERSION macro
SRV_TDS_NONE = 0;
SRV_TDS_2_0 = 1;
SRV_TDS_3_4 = 2;
SRV_TDS_4_2 = 3;
SRV_TDS_6_0 = 4;
SRV_TDS_7_0 = 5;
// Return values from APIs
type
SRVRETCODE = Integer; // SUCCEED or FAIL
RETCODE = Integer;
const
SUCCEED = 1; // Successful return value
FAIL = 0; // Unsuccessful return value
SRV_DUPLICATE_HANDLER = 2; // additional return value for srv_pre/post_handle
//------------------------------------------------
//PreDeclare structures
//
{struct srv_server;
typedef struct srv_server SRV_SERVER;
struct srv_config;
typedef struct srv_config SRV_CONFIG;
struct srv_proc;
typedef struct srv_proc SRV_PROC;}
type
SRV_SERVER = Pointer;
SRV_CONFIG = Pointer;
SRV_PROC = Pointer;
//------------------------------------------------
//------------------------------------------------
// ODS MACROs & APIs
// Describing and sending a result set
function srv_describe(srvproc: SRV_PROC;
colnumber: Integer; column_name: PCHAR; namelen: Integer;
desttype, destlen, srctype, srclen: Integer; srcData: Pointer
): Integer; cdecl;
function srv_setutype(srvproc: SRV_PROC; column: Integer; usertype: Longint): Integer; cdecl;
function srv_setcoldata(srvproc: SRV_PROC; column: Integer; data: Pointer): Integer; cdecl;
function srv_setcollen(srvproc: SRV_PROC; column, len: Integer): Integer; cdecl;
function srv_sendrow(srvproc: SRV_PROC): Integer; cdecl;
function srv_senddone(srvproc: SRV_PROC; status, curcmd: Word; count: Longint): Integer; cdecl;
// Dealing with Extended Procedure parameters
function srv_rpcparams(srvproc: SRV_PROC): Integer; cdecl;
function srv_paraminfo(srvproc: SRV_PROC; n: Integer; pbType: PByte;
pcbMaxLen, pcbActualLen: PULONG; pbData: PByte; pfNull: PBOOL): Integer; cdecl;
function srv_paramsetoutput(srvproc: SRV_PROC;
n: Integer; pbData: PByte; cbLen: ULONG; fNull: BOOL): Integer; cdecl;
function srv_paramdata(srvproc: SRV_PROC; n: Integer): Pointer; cdecl;
function srv_paramlen(srvproc: SRV_PROC; n: Integer): Integer; cdecl;
function srv_parammaxlen(srvproc: SRV_PROC; n: Integer): Integer; cdecl;
function srv_paramtype(srvproc: SRV_PROC; n: Integer): Integer; cdecl;
function srv_paramset(srvproc: SRV_PROC; n: Integer; data: Pointer; int: Integer): Integer; cdecl;
function srv_paramname(srvproc: SRV_PROC; n: Integer; var len: Integer): PChar; cdecl;
function srv_paramnumber(srvproc: SRV_PROC; name: PChar; namelen: Integer): Integer; cdecl;
//--------------------------------------------------------------
//--------------------------------------------------------------
// The rest of these APIs are still supported, in SQL Server 7.0,
// but may not be supported after SQL Server 7.0
// MACROs
{ SRV_GETCONFIG(a) srv_getconfig ( a )
SRV_GETSERVER(a) srv_getserver ( a )
SRV_GOT_ATTENTION(a) srv_got_attention ( a )
SRV_EVENTDATA(a) srv_eventdata ( a )
SRV_IODEAD(a) srv_iodead ( a )
SRV_TDSVERSION(a) srv_tdsversion ( a )}
function srv_getconfig(server: SRV_SERVER): SRV_CONFIG; cdecl;
function srv_getserver(srvproc: SRV_PROC): SRV_SERVER; cdecl;
function srv_got_attention(srvproc: SRV_PROC): Bool; cdecl;
function srv_eventdata(srvproc: SRV_PROC): Pointer; cdecl;
// Memory
function srv_alloc(ulSize: Longint): Pointer; cdecl;
function srv_bmove(from: Pointer; pto: Pointer; count: Longint): Integer; cdecl;
function srv_bzero(location: Pointer; count: Longint): Integer; cdecl;
function srv_free(ptr: Pointer): Integer; cdecl;
function srv_config_fn(config: SRV_CONFIG; option: Longint; value: PChar; valuelen: Integer): Integer; cdecl;
function srv_config_alloc: SRV_CONFIG; cdecl;
function srv_convert(srvproc: SRV_PROC; srctype: Integer; src: Pointer; srclen: DBINT;
desttype: Integer; dest: Pointer; destlen: DBINT): Integer; cdecl;
{
int (* srv_errhandle(int (* handler)(SRV_SERVER * server,
SRV_PROC * srvproc,
int srverror,
BYTE severity,
BYTE state,
int oserrnum,
char * errtext,
int errtextlen,
char * oserrtext,
int oserrtextlen)))
( SRV_SERVER * server,
SRV_PROC * srvproc,
int srverror,
BYTE severity,
BYTE state,
int oserrnum,
char * errtext,
int errtextlen,
char * oserrtext,
int oserrtextlen );
}
function srv_event_fn(srvproc: SRV_PROC; event: Integer; data: PByte): Integer; cdecl;
function srv_getuserdata(srvproc: SRV_PROC): Pointer; cdecl;
function srv_getbindtoken(srvproc: SRV_PROC; token_buf: PChar): Integer; cdecl;
function srv_getdtcxact(srvproc: SRV_PROC; ppv: Pointer): Integer; cdecl;
//typedef int (* EventHandler)(void*);
type
EventHandler = Pointer;
function srv_handle(server: SRV_SERVER; int: Longint; handler: EventHandler): EventHandler; cdecl;
function srv_impersonate_client(srvproc: SRV_PROC): Integer; cdecl;
function srv_init(config: SRV_CONFIG; connectname: PChar; namelen: Integer): SRV_SERVER; cdecl;
function srv_iodead(srvproc: SRV_PROC): Bool; cdecl;
function srv_langcpy(srvproc: SRV_PROC; start, nbytes: Longint; buffer: PChar): Longint; cdecl;
function srv_langlen(srvproc: SRV_PROC): Longint; cdecl;
function srv_langptr(srvproc: SRV_PROC): Pointer; cdecl;
function srv_log(server: SRV_SERVER; datestamp: Bool; msg: PChar; msglen: Integer): Integer; cdecl;
function srv_paramstatus(srvproc: SRV_PROC; n: Integer): Integer; cdecl;
function srv_pfield(srvproc: SRV_PROC; field: Integer; len: PInteger): PChar; cdecl;
function srv_returnval(srvproc: SRV_PROC; value_name: PDBCHAR; len: Integer; status: Byte;
iType, maxlen, datalen: DBINT; value: PByte): Integer; cdecl;
function srv_revert_to_self(srvproc: SRV_PROC): Integer; cdecl;
function srv_rpcdb(srvproc: SRV_PROC; len: PInteger): PChar; cdecl;
function srv_rpcname(srvproc: SRV_PROC; len: PInteger): PChar; cdecl;
function srv_rpcnumber(srvproc: SRV_PROC): Integer; cdecl;
function srv_rpcoptions(srvproc: SRV_PROC): Word; cdecl;
function srv_rpcowner(srvproc: SRV_PROC; len: PInteger): PChar; cdecl;
function srv_run(server: SRV_SERVER): Integer; cdecl;
function srv_sendmsg(srvproc: SRV_PROC;
msgtype: Integer; msgnum: DBINT; msgClass, state: DBTINYINT;
rpcname: PChar; rpcnamelen: Integer;
linenum: Word; msg: PChar; msglen: Integer): Integer; cdecl;
function srv_ansi_sendmsg(srvproc: SRV_PROC;
msgtype: Integer; msgnum: DBINT; msgClass, state: DBTINYINT;
rpcname: PChar; rpcnamelen: Integer;
linenum: Word; msg: PChar; msglen: Integer): Integer; cdecl;
function srv_sendstatus(srvproc: SRV_PROC; status: Longint): Integer; cdecl;
function srv_setuserdata(srvproc: SRV_PROC; ptr: Pointer): Integer; cdecl;
function srv_sfield(server: SRV_SERVER; field: Integer; len: PInteger): PChar; cdecl;
function srv_symbol(iType, symbol: Integer; len: PInteger): PChar; cdecl;
function srv_tdsversion(srvproc: SRV_PROC): Integer; cdecl;
function srv_writebuf(srvproc: SRV_PROC; ptr: Pointer; count: Word): Integer; cdecl;
function srv_willconvert(srctype, desttype: Integer): Bool; cdecl;
procedure srv_ackattention(srvproc: SRV_PROC); cdecl;
function srv_terminatethread(srvproc: SRV_PROC): Integer; cdecl;
function srv_sendstatistics(srvproc: SRV_PROC): Integer; cdecl;
function srv_clearstatistics(srvproc: SRV_PROC): Integer; cdecl;
function srv_setevent(server: SRV_SERVER; event: Integer): Integer; cdecl;
function srv_message_handler(srvproc: SRV_PROC;
errornum: Integer; severity, state: Byte; oserrnum: Integer; errtext: PChar;
errtextlen: Integer; oserrtext: PChar; oserrtextlen: Integer): Integer; cdecl;
function srv_pre_handle(server: SRV_SERVER; srvproc: SRV_PROC;
event: Longint; handler: EventHandler; remove: Bool): Integer; cdecl;
function srv_post_handle(server: SRV_SERVER; srvproc: SRV_PROC;
event: Longint; handler: EventHandler; remove: Bool): Integer; cdecl;
function srv_post_completion_queue(srvproc: SRV_PROC; inbuf: PChar; inbuflen: PChar): Integer; cdecl;
function srv_IgnoreAnsiToOem(srvproc: SRV_PROC; bTF: BOOL): Integer; cdecl;
//#ifdef __cplusplus
//}
//#endif
//#pragma pack()
const
SS_MAJOR_VERSION = 7;
SS_MINOR_VERSION = 00;
SS_LEVEL_VERSION = 0000;
SS_MINIMUM_VERSION = '7.00.00.0000';
ODS_VERSION = ((SS_MAJOR_VERSION shl 24) or (SS_MINOR_VERSION shl 16));
//#endif //_ODS_SRV_H_
//////////////////////////////////////////////////////////////////
// Suggested implementation of __GetXpVersion
//
//__declspec(dllexport) ULONG __GetXpVersion()
// {
// return ODS_VERSION;
// }
//////////////////////////////////////////////////////////////////
implementation
const
sLibName = 'Opends60.DLL';
function srv_describe; external sLibName name 'srv_describe';
function srv_setutype; external sLibName name 'srv_setutype';
function srv_setcoldata; external sLibName name 'srv_setcoldata';
function srv_setcollen; external sLibName name 'srv_setcollen';
function srv_sendrow; external sLibName name 'srv_sendrow';
function srv_senddone; external sLibName name 'srv_senddone';
// Dealing with Extended Procedure parameters
function srv_rpcparams; external sLibName name 'srv_rpcparams';
function srv_paraminfo; external sLibName name 'srv_paraminfo';
function srv_paramsetoutput; external sLibName name 'srv_paramsetoutput';
function srv_paramdata; external sLibName name 'srv_paramdata';
function srv_paramlen; external sLibName name 'srv_paramlen';
function srv_parammaxlen; external sLibName name 'srv_parammaxlen';
function srv_paramtype; external sLibName name 'srv_paramtype';
function srv_paramset; external sLibName name 'srv_paramset';
function srv_paramname; external sLibName name 'srv_paramname';
function srv_paramnumber; external sLibName name 'srv_paramnumber';
//--------------------------------------------------------------
// The rest of these APIs are still supported, in SQL Server 7.0,
// but may not be supported after SQL Server 7.0
function srv_getconfig; external sLibName name 'srv_getconfig';
function srv_getserver; external sLibName name 'srv_getserver';
function srv_got_attention; external sLibName name 'srv_got_attention';
function srv_eventdata; external sLibName name 'srv_eventdata';
// Memory
function srv_alloc; external sLibName name 'srv_alloc';
function srv_bmove; external sLibName name 'srv_bmove';
function srv_bzero; external sLibName name 'srv_bzero';
function srv_free; external sLibName name 'srv_free';
function srv_config_fn; external sLibName name 'srv_config';
function srv_config_alloc; external sLibName name 'srv_config_alloc';
function srv_convert; external sLibName name 'srv_convert';
function srv_event_fn; external sLibName name 'srv_event';
function srv_getuserdata; external sLibName name 'srv_getuserdata';
function srv_getbindtoken; external sLibName name 'srv_getbindtoken';
function srv_getdtcxact; external sLibName name 'srv_getdtcxact';
function srv_handle; external sLibName name 'srv_handle';
function srv_impersonate_client; external sLibName name 'srv_impersonate_client';
function srv_init; external sLibName name 'srv_init';
function srv_iodead; external sLibName name 'srv_iodead';
function srv_langcpy; external sLibName name 'srv_langcpy';
function srv_langlen; external sLibName name 'srv_langlen';
function srv_langptr; external sLibName name 'srv_langptr';
function srv_log; external sLibName name 'srv_log';
function srv_paramstatus; external sLibName name 'srv_paramstatus';
function srv_pfield; external sLibName name 'srv_pfield';
function srv_returnval; external sLibName name 'srv_returnval';
function srv_revert_to_self; external sLibName name 'srv_revert_to_self';
function srv_rpcdb; external sLibName name 'srv_rpcdb';
function srv_rpcname; external sLibName name 'srv_rpcname';
function srv_rpcnumber; external sLibName name 'srv_rpcnumber';
function srv_rpcoptions; external sLibName name 'srv_rpcoptions';
function srv_rpcowner; external sLibName name 'srv_rpcowner';
function srv_run; external sLibName name 'srv_run';
function srv_sendmsg; external sLibName name 'srv_sendmsg';
function srv_ansi_sendmsg; external sLibName name 'srv_ansi_sendmsg';
function srv_sendstatus; external sLibName name 'srv_sendstatus';
function srv_setuserdata; external sLibName name 'srv_setuserdata';
function srv_sfield; external sLibName name 'srv_sfield';
function srv_symbol; external sLibName name 'srv_symbol';
function srv_tdsversion; external sLibName name 'srv_tdsversion';
function srv_writebuf; external sLibName name 'srv_writebuf';
function srv_willconvert; external sLibName name 'srv_willconvert';
procedure srv_ackattention; external sLibName name 'srv_ackattention';
function srv_terminatethread; external sLibName name 'srv_terminatethread';
function srv_sendstatistics; external sLibName name 'srv_sendstatistics';
function srv_clearstatistics; external sLibName name 'srv_clearstatistics';
function srv_setevent; external sLibName name 'srv_setevent';
function srv_message_handler; external sLibName name 'srv_message_handler';
function srv_pre_handle; external sLibName name 'srv_pre_handle';
function srv_post_handle; external sLibName name 'srv_post_handle';
function srv_post_completion_queue; external sLibName name 'srv_post_completion_queue';
function srv_IgnoreAnsiToOem; external sLibName name 'srv_IgnoreAnsiToOem';
end.
]]>