/****************************************************************************
** (c) Copyright IBM Corp. 2007 All rights reserved.
**
** The following sample of source code ("Sample") is owned by International
** Business Machines Corporation or one of its subsidiaries ("IBM") and is
** copyrighted and licensed, not sold. You may use, copy, modify, and
** distribute the Sample in any form without payment to IBM, for the purpose of
** assisting you in the development of your applications.
**
** The Sample code is provided to you on an "AS IS" basis, without warranty of
** any kind. IBM HEREBY EXPRESSLY DISCLAIMS ALL WARRANTIES, EITHER EXPRESS OR
** IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
** MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Some jurisdictions do
** not allow for the exclusion or limitation of implied warranties, so the above
** limitations or exclusions may not apply to you. IBM shall not be liable for
** any damages you suffer as a result of using, copying, modifying or
** distributing the Sample, even if IBM has been advised of the possibility of
** such damages.
*****************************************************************************
**
** SOURCE FILE NAME: dbcfg.sqC
**
** SAMPLE: Configure database and database manager configuration parameters
**
** This sample demonstrates the use of the db2AutoConfig() API
** which configures database and database manager configuration
** parameters. The program configures the sample database in two
** scenarios determined by specifying "1" or "2" as the multinode
** command line parameter (any other value defaults to option "1").
** With option "1", the db2AutoConfig() API automatically configures
** the sample database. The recommendation and diagnostics are
** produced by the API and printed to standard output. By specifying
** "2" as the multinode command line parameter, the db2AutoConfig()
** API is used to generate optimized configuration recommendations
** for a database on two partitions.
**
** DB2 APIs USED:
** db2AutoConfig -- AUTOCONFIG
** db2AutoConfigFreeMemory -- AUTOCONFIG FREE MEMORY
** � sqlfusys -- UPDATE DBM CFG
** sqlesetc -- SET CLIENT
** sqlaintp -- SQLCA MESSAGE
**
** SQL STATEMENTS USED:
** INCLUDE
** CONNECT
**
** STRUCTURES USED:
** sqle_conn_setting
** db2AutoConfigInterface
** db2AutoConfigArray
** db2AutoConfigOutput
** db2AutoConfigValues
** sqlca
**
**
*****************************************************************************
**
** For more information on the sample programs, see the README file.
**
** For information on developing embedded SQL applications see the Developing Embedded SQL Applications book.
**
** For information on using SQL statements, see the SQL Reference.
**
** For information on DB2 APIs, see the Administrative API Reference.
**
** For the latest information on programming, compiling, and running DB2
** applications, visit the DB2 Information Center at
** http://publib.boulder.ibm.com/infocenter/db2luw/v9r7/index.jsp
****************************************************************************/
#include <string.h>
#include <sql.h>
#include <sqlutil.h>
#include "db2AuCfg.h"
#include "utilemb.h"
#if ((__cplusplus >= 199711L) && !defined DB2HP && !defined DB2AIX) || \
(DB2LINUX && (__LP64__ || (__GNUC__ >= 3)) )
#include <iomanip>
#include <iostream>
using namespace std;
#else
#include <iomanip.h>
#include <iostream.h>
#endif
#define NUMSETTINGS 3
#define CHCKERR(s) if (sqlca.sqlcode < 0) { print_err(&sqlca); return -1; }
EXEC SQL INCLUDE SQLCA;
EXEC SQL BEGIN DECLARE SECTION;
char dbName[16];
char userid[30];
char passwd[30];
EXEC SQL END DECLARE SECTION;
// This procedure prints error information released by the APIs.
void print_err(struct sqlca *ca)
{
char err[512];
cout << "________________ERROR INFO_________________________" << endl;
// get error message
sqlaintp(err, sizeof(err), 80, ca);
cout << err << endl;
cout << "SQLCODE : " << ca->sqlcode << endl;
cout << "SQLERRMC: " << ca->sqlerrmc << endl;;
cout << "SQLERRP : " << ca->sqlerrp << endl;;
cout << "_______________END ERROR INFO______________________" << endl;
return;
} //print_err
// This procedure prints diagnotic information released by the APIs.
int print_info(db2AutoConfigDiags *Diag)
{
int i = 0;
cout << "Token, Value" << endl;
while (i < (Diag->numElements))
{
cout << setw(5) << (Diag->pElements[i]).token
<< " " << setw(5) << (Diag->pElements[i]).value << endl;
i++;
}
return 0;
} //print_info
// Procedure to produce db cfg recommendations produced by the API.
int print_infodb(struct db2CfgParam *itemList, int num)
{
int i = 0;
cout << "Token, Value" << endl;
while (i < num)
{
int tok = itemList[i].token;
// these are db cfg tokens
if (tok == SQLF_DBTN_BUFF_PAGE ||
tok == SQLF_DBTN_CATALOGCACHE_SZ || tok == SQLF_DBTN_DFT_DEGREE)
{
cout << setw(5) << itemList[i].token << " "
<< setw(5) << *(int *)itemList[i].ptrvalue << endl;
}
i++;
}
return 0;
} //print_infodb
// procedure to produce dbm cfg recommendations produced by the API.
int print_infodbm(struct db2CfgParam *itemList, int num)
{
int i = 0;
cout << "Token, Value" << endl;
while (i < num)
{
int tok = itemList[i].token;
// these are dbm cfg tokens
if (tok == SQLF_KTN_NUM_POOLAGENTS || tok == SQLF_KTN_SHEAPTHRES)
{
cout << setw(5) << itemList[i].token << " "
<< setw(5) << *(int *)itemList[i].ptrvalue << endl;
}
// these are dbm cfg tokens
if (tok == SQLF_KTN_ASLHEAPSZ)
{
cout << setw(5) << itemList[i].token << " "
<< setw(5) << *(int *)itemList[i].ptrvalue << endl;
}
i++;
}
return 0;
} //print_infodbm
int main(int argc, char *argv[])
{
struct sqle_conn_setting connSetting[NUMSETTINGS];
SQL_API_RC rc;
struct sqlca sqlca;
db2AutoConfigInterface autoConfigInterface;
int inputCount = 2;
unsigned short token;
// input to API
// specify 250 percent of server memory used on dbm
db2int32 mem_percent;
// specify that our workload is mixed queries and transactions
db2int32 workload;
if (argc != 5)
{
cout << "dbcfg <dbname> <userid> <passwd> <1|2>" << endl;
return -1;
}
strcpy(dbName, argv[1]);
strcpy(userid, argv[2]);
strcpy(passwd, argv[3]);
cout << "\nHOW TO CONFIGURE DATABASE AND DATABASE MANAGER CONFIGURATION"
<< "PARAMETERS" << endl;
cout << "\n______STARTING AUTOCONF TESTCASE ON INSTANCE OWNING NODE "
<< "(node 0)" << endl;
// 1 set client
// need to connect and attach to node if MPP
if (strcmp(argv[4], "2") == 0)
{
// attach to node 0
connSetting[0].type = SQL_ATTACH_NODE;
connSetting[0].value = 0;
// connect to node 0
connSetting[1].type = SQL_CONNECT_NODE;
connSetting[1].value = 0;
// disconnect from node on commit (implicit when connect reset)
connSetting[2].type = SQL_DISCONNECT;
connSetting[2].value = SQL_DISCONNECT_AUTO;
// set client information
sqlesetc(&connSetting[0], NUMSETTINGS, &sqlca);
cout << "SQLESETC instance owning node" << endl;
CHCKERR("set client");
}
// 2 connect to database
EXEC SQL CONNECT TO :dbName USER :userid USING :passwd;
cout << "______Connect" << endl;
CHCKERR("connect db");
// 3 ENTER PARMS INTO CONFIG API AND INTERFACE
// allocate memory for input parameters
autoConfigInterface.iParams.pElements =
new db2AutoConfigElement[inputCount];
// set up the interface for calling db2AutoConfig
autoConfigInterface.iProductID = DB2_SG_PID_DEFAULT;
strcpy(autoConfigInterface.iDbAlias, dbName);
strcpy(autoConfigInterface.iProductVersion, "1.1");
/*** IMPORTANT: the recommendations are automatically
applied to db/dbm cfg
***/
autoConfigInterface.iApply = DB2_SG_APPLY;
mem_percent = 25;
workload = 2;
autoConfigInterface.iParams.numElements = 2;
autoConfigInterface.iParams.pElements[0].token = DB2_SG_MEMORY_PERCENTAGE;
autoConfigInterface.iParams.pElements[0].value = mem_percent;
autoConfigInterface.iParams.pElements[1].token = DB2_SG_WORKLOAD;
autoConfigInterface.iParams.pElements[1].value = workload;
// 4 AUTOCONFIG CALL
rc = db2AutoConfig(db2Version970, &autoConfigInterface, &sqlca);
cout << "______DB2AUTOCONFIG_________" << endl;
CHCKERR("db2autoconfig");
// 5 PRINT RECOMMENDATION AND DIAGNOSTICS
if (rc == DB2_SG_RC_OK)
{
cout << "NUMBER OF DIAGNOSTICS: "
<< autoConfigInterface.oResult.oDiagnostics.numElements << endl;
if (autoConfigInterface.oResult.oDiagnostics.numElements > 0)
{
// handle the diagnostic results
cout << "==> resource values are not optimizable, "
<< "diagnostics produced:" << endl;
print_info(&((autoConfigInterface.oResult).oDiagnostics));
cout << "___________________" << endl;
}
if (autoConfigInterface.oResult.oOldDbValues.numElements > 0)
{
// handle the configuration results
cout << "==> resource values are optimizable "
<< "recommendations produced:" << endl;
cout << "==> NUMBER OF PRODUCED OLD DB CFG RECOMMENDATIONS: "
<< autoConfigInterface.oResult.oOldDbValues.numElements << endl;
cout << "==> PRODUCED VALUES" << endl;
print_infodb(autoConfigInterface.oResult.oOldDbValues.pConfigs,
autoConfigInterface.oResult.oOldDbValues.numElements);
cout << "___________________" << endl;
}
if (autoConfigInterface.oResult.oNewDbValues.numElements > 0)
{
cout << "==> NUMBER OF PRODUCED NEW DB CFG "
<< "RECOMMENDATIONS: "
<< autoConfigInterface.oResult.oNewDbValues.numElements << endl;
cout << "==> PRODUCED VALUES" << endl;
print_infodb(autoConfigInterface.oResult.oNewDbValues.pConfigs,
autoConfigInterface.oResult.oNewDbValues.numElements);
cout << "___________________" << endl;
}
if (autoConfigInterface.oResult.oOldDbmValues.numElements > 0)
{
cout << "==> NUMBER OF PRODUCED OLD DBM CFG "
<< "RECOMMENDATIONS: "
<< autoConfigInterface.oResult.oOldDbmValues.numElements << endl;
cout << "==> PRODUCED VALUES" << endl;
print_infodbm(autoConfigInterface.oResult.oOldDbmValues.pConfigs,
autoConfigInterface.oResult.oOldDbmValues.numElements);
cout << "___________________" << endl;
}
if (autoConfigInterface.oResult.oNewDbmValues.numElements > 0)
{
cout << "==> NUMBER OF PRODUCED NEW DBM CFG "
<< "RECOMMENDATIONS: "
<< autoConfigInterface.oResult.oNewDbmValues.numElements << endl;
cout << "==> PRODUCED VALUES" << endl;
print_infodbm(autoConfigInterface.oResult.oNewDbmValues.pConfigs,
autoConfigInterface.oResult.oNewDbmValues.numElements);
cout << "___________________" << endl;
}
// 6 FREE MEMORY
// must free all the memory allocated by db2AutoConfig()
db2AutoConfigFreeMemory(db2Version970, &autoConfigInterface, &sqlca);
}
else
{
// handle error
cout << "ERROR in API CALL" << endl;
}
// disconnect from node
EXEC SQL CONNECT RESET;
cout << "_____+CONNECT RESET" << endl;
CHCKERR("connect reset");
// IF 5 ARGUMENTS SPECIFIED, TREAT AS PARTIONED DATABASE
// WITH A SECOND PARTITION
if (strcmp(argv[4], "2") == 0)
{
// repeat for second node (node 1)
cout << "________ OPTION 2 CONFIGURING DATABASE PORTION RESIDING "
<< "ON NON INSTANCE OWNING PARTITION (node 1)" << endl;
// 1 SET CLIENT
// attach to node 1
connSetting[0].type = SQL_ATTACH_NODE;
connSetting[0].value = 1;
// connect to node 1
connSetting[1].type = SQL_CONNECT_NODE;
connSetting[1].value = 1;
// disconnect from node on commit
connSetting[2].type = SQL_DISCONNECT;
connSetting[2].value = SQL_DISCONNECT_AUTO;
// set client information
sqlesetc(&connSetting[0], NUMSETTINGS, &sqlca);
cout << "______+SQLESETC 2nd node (NODE 1)" << endl;
CHCKERR("set client");
// 2 CONNECT TO DATABASE
EXEC SQL CONNECT TO :dbName USER :userid USING :passwd;
cout << "____________++connect to db" << endl;
CHCKERR("connect to db");
// 3 ENTER PARMS INTO API AND INTERFACE
// input to smartguide
mem_percent = 45; // percentage of memory for dbm server is 34%
workload = 2; // workload is mixed with queries and transactions
inputCount = 2;
// allocating memory for input parameters
autoConfigInterface.iParams.pElements =
new db2AutoConfigElement[inputCount];
// set up the interface for calling db2AutoConfig
autoConfigInterface.iProductID = DB2_SG_PID_DEFAULT;
strcpy(autoConfigInterface.iDbAlias, dbName);
strcpy(autoConfigInterface.iProductVersion, "1.1");
/*** IMPORTANT - this time the configuration parameters
*** are not automatically applied
***/
autoConfigInterface.iApply = DB2_SG_APPLY;
autoConfigInterface.iParams.numElements = 2;
autoConfigInterface.iParams.pElements[0].token =
DB2_SG_MEMORY_PERCENTAGE;
autoConfigInterface.iParams.pElements[0].value = mem_percent;
autoConfigInterface.iParams.pElements[1].token = DB2_SG_WORKLOAD;
autoConfigInterface.iParams.pElements[1].value = workload;
// 4 AUTOCONFIG CALL
rc = db2AutoConfig(db2Version970, &autoConfigInterface, &sqlca);
cout << "______+DB2AUTOCONFIG_________" << endl;
CHCKERR("db2 connect to sample");
// 5 PRINT RECOMMENDATION AND DIAGNOSTITCS
if (rc == DB2_SG_RC_OK)
{
cout << "NUMBER OF DIAGNOSTICS: "
<< autoConfigInterface.oResult.oDiagnostics.numElements << endl;
if (autoConfigInterface.oResult.oDiagnostics.numElements > 0)
{
// handle the diagnostic results
cout << "==>resource values are not optimizable, "
<< "diagnostics produced: ";
print_info(&((autoConfigInterface.oResult).oDiagnostics));
cout << "___________________" << endl;
}
if (autoConfigInterface.oResult.oOldDbValues.numElements > 0)
{
// handle the configuration results
cout << "==> resource values are optimizable "
<< "recommendations produced:" << endl;
cout << "==> NUMBER OF PRODUCED OLD DB CFG "
<< "RECOMMENDATIONS: "
<< autoConfigInterface.oResult.oOldDbValues.numElements << endl;
cout << "==> PRODUCED VALUES" << endl;
print_infodb(autoConfigInterface.oResult.oOldDbValues.pConfigs,
autoConfigInterface.oResult.oOldDbValues.numElements);
cout << "___________________" << endl;
}
if (autoConfigInterface.oResult.oNewDbValues.numElements > 0)
{
cout << "==> NUMBER OF PRODUCED NEW DB CFG RECOMMENDATIONS: "
<< autoConfigInterface.oResult.oNewDbValues.numElements << endl;
cout << "==> PRODUCED VALUES" << endl;
print_infodb(autoConfigInterface.oResult.oNewDbValues.pConfigs,
autoConfigInterface.oResult.oNewDbValues.numElements);
cout << "___________________" << endl;
}
if (autoConfigInterface.oResult.oOldDbmValues.numElements > 0)
{
cout << "==> NUMBER OF PRODUCED OLD DBM CFG RECOMMENDATIONS: "
<< autoConfigInterface.oResult.oOldDbmValues.numElements
<< endl;
cout << "==> PRODUCED VALUES" << endl;
print_infodbm(autoConfigInterface.oResult.oOldDbmValues.pConfigs,
autoConfigInterface.oResult.oOldDbmValues.numElements);
cout << "___________________" << endl;
}
if (autoConfigInterface.oResult.oNewDbmValues.numElements > 0)
{
cout << "==> NUMBER OF PRODUCED NEW DBM CFG RECOMMENDATIONS: "
<< autoConfigInterface.oResult.oNewDbmValues.numElements
<< endl;
cout << "==> PRODUCED VALUES" << endl;
print_infodbm(autoConfigInterface.oResult.oNewDbmValues.pConfigs,
autoConfigInterface.oResult.oNewDbmValues.numElements);
cout << "__________________**" << endl;
}
// 6 FREE MEMORY
// must free all the memory allocated by db2AutoConfig()
db2AutoConfigFreeMemory(db2Version970, &autoConfigInterface, &sqlca);
}
else
{
// handle error
cout << "ERROR in API CALL" << endl;
}
EXEC SQL CONNECT RESET;
cout << "_____CONNECT RESET" << endl;
CHCKERR("connect reset");
}
return 0;
} //main