/*************************************************************************** * Licensed Materials - Property of IBM and/or HCL * * IBM Informix Client-SDK * * Copyright IBM Corporation 1997, 2013 All rights reserved. * (c) Copyright HCL Technologies Ltd. 2017. All Rights Reserved. * * * * * * Title: dbcreateW.c (Unicode counterpart of dbcreate.c) * * Description: To create & populate the sample database. The schema * for the sample database is as follows - * * For servers supporting UDO (version no. > 9) * * Database - odbc_demodb (with log) * * Table - CUSTOMER * cust_num INTEGER, PRIMARY KEY * fname VARCHAR(10) * lname VARCHAR(10) * address ROW (address1 VARCHAR(20), * city VARCHAR(15), * state VARCHAR(5), * zip VARCHAR(6) * ) * contact_dates LIST (DATETIME YEAR TO DAY NOT NULL) * * * Table - ITEM * item_num INTEGER, PRIMARY KEY * description VARCHAR(20) * stock SMALLINT * ship_unit VARCHAR(10) * advert CLOB * unit_price DISTINCT TYPE dollar * * * Table - ORDERS * order_num INTEGER, PRIMARY KEY * cust_num INTEGER, FOREIGN KEY, REFERENCES customer(customer_num) * item_num INTEGER, FOREIGN KEY, REFERENCES item(item_num) * order_date DATE * quantity INTEGER * * * * For servers not supporting UDO (version no. < 9) * * Database - odbc_demodb (with log) * * Table - CUSTOMER * cust_num INTEGER, PRIMARY KEY * fname VARCHAR(10) * lname VARCHAR(10) * address1 VARCHAR(20) * city VARCHAR(15) * state VARCHAR(5) * zip VARCHAR(6) * first_contact DATETIME YEAR TO DAY * last_contact DATETIME YEAR TO DAY * * * Table - ITEM * item_num INTEGER, PRIMARY KEY * description VARCHAR(20) * stock SMALLINT * ship_unit VARCHAR(10) * advert VARCHAR(100) * unit_price DECIMAL * * * Table - ORDERS * order_num INTEGER, PRIMARY KEY * cust_num INTEGER, FOREIGN KEY, REFERENCES customer(customer_num) * item_num INTEGER, FOREIGN KEY, REFERENCES item(item_num) * order_date DATE * quantity INTEGER * * *************************************************************************** */ #include #include #include #ifndef NO_WIN32 #include #include #include #endif /*NO_WIN32*/ #include "infxcli.h" #include "dbcreateW.h" #define ERRMSG_LEN 200 SQLWCHAR defDsnW[] = L"odbc_demo"; SQLCHAR defDsn[] = "odbc_demo"; SQLINTEGER checkError (SQLRETURN rc, SQLSMALLINT handleType, SQLHANDLE handle, SQLCHAR* errmsg) { SQLRETURN retcode = SQL_SUCCESS; SQLSMALLINT errNum = 1; SQLWCHAR sqlStateW[6]; SQLCHAR *sqlState; SQLINTEGER nativeError; SQLWCHAR errMsgW[ERRMSG_LEN]; SQLCHAR *errMsg; SQLSMALLINT textLengthPtr; if ((rc != SQL_SUCCESS) && (rc != SQL_SUCCESS_WITH_INFO)) { while (retcode != SQL_NO_DATA) { retcode = SQLGetDiagRecW (handleType, handle, errNum, sqlStateW, &nativeError, errMsgW, ERRMSG_LEN, &textLengthPtr); if (retcode == SQL_INVALID_HANDLE) { fprintf (stderr, "checkError function was called with an invalid handle!!\n"); return 1; } if ((retcode == SQL_SUCCESS) || (retcode == SQL_SUCCESS_WITH_INFO)) { sqlState = (SQLCHAR *) malloc (wcslen(sqlStateW) + sizeof(char)); wcstombs( (char *) sqlState, sqlStateW, wcslen(sqlStateW) + sizeof(char)); errMsg = (SQLCHAR *) malloc (wcslen(errMsgW) + sizeof(char)); wcstombs( (char *) errMsg, errMsgW, wcslen(errMsgW) + sizeof(char)); fprintf (stderr, "ERROR: %d: %s : %s \n", nativeError, sqlState, errMsg); } errNum++; } fprintf (stderr, "%s\n", errmsg); return 1; /* all errors on this handle have been reported */ } else return 0; /* no errors to report */ } int main (long argc, char* argv[]) { /* Declare variables */ /* Handles */ SQLHDBC hdbc; SQLHENV henv; SQLHSTMT hstmt; /* Miscellaneous variables */ SQLCHAR *dsn; /*name of the DSN used for connecting to the database*/ SQLWCHAR *dsnW; /*name of the DSN used for connecting to the database*/ SQLRETURN rc = 0; SQLINTEGER i, in; SQLWCHAR connStrInW[BUFFER_LEN]; SQLWCHAR connStrOutW[BUFFER_LEN]; SQLSMALLINT connStrOutLen; SQLCHAR *verInfoBuffer; SQLWCHAR verInfoBufferW[BUFFER_LEN]; SQLSMALLINT verInfoLen; SQLWCHAR majorVerW[3]; SQLINTEGER isUdoEnabled; SQLWCHAR insertStmtW[BUFFER_LEN]; int lenArgv1; /* STEP 1. Get data source name from command line (or use default) ** Allocate the environment handle and set ODBC version ** Allocate the connection handle ** Establish the database connection ** Allocate the statement handle ** Drop demo database if it already exists */ /* If(dsnW is not explicitly passed in as arg) */ if (argc != 2) { /* Use default dsnW - odbc_demo */ fprintf (stdout, "\nUsing default DSN : %s\n", defDsn); dsn = (SQLCHAR *) malloc (sizeof(defDsn) + sizeof(char)); strcpy( (char *)dsn, (char *)defDsn); dsnW = (SQLWCHAR *) malloc( wcslen(defDsnW) * sizeof(SQLWCHAR) + sizeof(SQLWCHAR)); wcscpy ((SQLWCHAR *)dsnW, (SQLWCHAR *)defDsnW); } else { /* Use specified dsnW */ lenArgv1 = strlen((char *)argv[1]); dsn = (SQLCHAR *) malloc (lenArgv1 + sizeof(char)); strcpy((char *)dsn, (char *)argv[1]); dsnW = (SQLWCHAR *) malloc (lenArgv1 * sizeof(SQLWCHAR) + sizeof(SQLWCHAR)); mbstowcs (dsnW, (char *)argv[1], lenArgv1 + sizeof(char)); fprintf (stdout, "\nUsing specified DSN : %s\n", argv[1]); } /* Allocate the Environment handle */ rc = SQLAllocHandle (SQL_HANDLE_ENV, SQL_NULL_HANDLE, &henv); if (rc != SQL_SUCCESS) { fprintf (stdout, "Environment Handle Allocation failed\nExiting!!"); return (1); } /* Set the ODBC version to 3.0 */ rc = SQLSetEnvAttr (henv, SQL_ATTR_ODBC_VERSION, (SQLPOINTER) SQL_OV_ODBC3, 0); if (checkError (rc, SQL_HANDLE_ENV, henv, (SQLCHAR *) "Error in Step 1 -- SQLSetEnvAttr failed\nExiting!!")) return (1); /* Allocate the connection handle */ rc = SQLAllocHandle (SQL_HANDLE_DBC, henv, &hdbc); if (checkError (rc, SQL_HANDLE_ENV, henv, (SQLCHAR *) "Error in Step 1 -- Connection Handle Allocation failed\nExiting!!")) return (1); /* Establish the database connection */ #ifndef _WINNT wsprintf((SQLWCHAR *) connStrInW, "DSN=%s;connectdatabase=NO", dsn); #else swprintf((SQLWCHAR *) connStrInW, L"DSN=%s;connectdatabase=NO", dsnW); #endif rc = SQLDriverConnectW (hdbc, NULL, connStrInW, SQL_NTS, connStrOutW, BUFFER_LEN, &connStrOutLen, SQL_DRIVER_NOPROMPT); if (checkError (rc, SQL_HANDLE_DBC, hdbc, (SQLCHAR *) "Error in Step 1 -- SQLDriverConnect failed\nExiting!!")) return (1); /* Allocate the statement handle */ rc = SQLAllocHandle (SQL_HANDLE_STMT, hdbc, &hstmt ); if (checkError (rc, SQL_HANDLE_DBC, hdbc, (SQLCHAR *) "Error in Step 1 -- Statement Handle Allocation failed\nExiting!!")) return (1); /* Drop demo database if it already exists */ rc = SQLExecDirectW (hstmt, (SQLWCHAR*) L"DROP DATABASE odbc_demodb", SQL_NTS); fprintf (stdout, "STEP 1 done...connected to database server\n"); /* STEP 2. Get version information from the database server ** Set the value of isUdoEnabled depending on the database version returned */ /* Get version information from the database server */ rc = SQLGetInfoW (hdbc, SQL_DBMS_VER, verInfoBufferW, BUFFER_LEN, &verInfoLen); if (checkError (rc, SQL_HANDLE_DBC, hdbc, (SQLCHAR *) "Error in Step 2 -- SQLGetInfo failed\n")) goto Exit; /* Set the value of isUDOEnabled */ wcsncpy ((SQLWCHAR *) majorVerW, (SQLWCHAR *) verInfoBufferW, 2); if (wcsncmp(majorVerW, L"09", 2) >= 0 ) isUdoEnabled = 1; else isUdoEnabled = 0; verInfoBuffer = (SQLCHAR *) malloc (wcslen(verInfoBufferW) + sizeof(char)); wcstombs( (char *) verInfoBuffer, verInfoBufferW, wcslen(verInfoBufferW) + sizeof(char)); fprintf (stdout, "STEP 2 done...Database Version -- %s\n", verInfoBuffer); /* STEP 3. Execute the SQL statements to create the database ** (depending on the version of the database server) */ if (isUdoEnabled) { fprintf (stdout, "Creating UDO database\n"); for (i = 0; i < NUM_DBCREATE_STMTS; i++) { fprintf (stdout, "Executing stmt %d of %d\n", i+1, NUM_DBCREATE_STMTS); rc = SQLExecDirectW (hstmt, createUdoDbStmtsW[i], SQL_NTS); if (checkError (rc, SQL_HANDLE_STMT, hstmt, (SQLCHAR *) "Error in Step 3 -- SQLExecDirect failed\n")) goto Exit; } } else { fprintf (stdout, "Creating non-UDO database\n"); for (i = 0; i < NUM_DBCREATE_STMTS -1; i++) { fprintf (stdout, "Executing stmt %d\n", i+1, NUM_DBCREATE_STMTS -1); rc = SQLExecDirectW (hstmt, createNonUdoDbStmtsW[i], SQL_NTS); if (checkError (rc, SQL_HANDLE_STMT, hstmt, (SQLCHAR *) "Error in Step 3 -- SQLExecDirect failed\n")) goto Exit; } } fprintf (stdout, "STEP 3 done...Sample Database Created\n"); /* STEP 4. Construct the INSERT statement for table 'customer' ** Insert data into the table 'customer'. The data inserted depends on ** whether the database created is UDO or non-UDO enabled */ fprintf (stdout, "Populating table 'customer'\n"); for (i = 0; i < NUM_CUSTOMERS; i++) { fprintf (stdout, "Inserting row # %d\n", i+1); /* Construct the INSERT statement for table 'customer' */ wcscpy ((SQLWCHAR *) insertStmtW, (SQLWCHAR *) insertDBStmtsW[0]); if (isUdoEnabled) wcscat ((SQLWCHAR *) insertStmtW, (SQLWCHAR *) udoCustW[i]); else wcscat ((SQLWCHAR *) insertStmtW, (SQLWCHAR *) nonUdoCustW[i]); /* Execute the INSERT statement */ rc = SQLExecDirectW (hstmt, insertStmtW, SQL_NTS); if (checkError (rc, SQL_HANDLE_STMT, hstmt, (SQLCHAR *) "Error in Step 4 -- SQLExecDirect failed\n")) goto Exit; } fprintf (stdout, "STEP 4 done...Data inserted into the 'customer' table\n"); /* STEP 5. Construct the INSERT statement for table 'item' ** Insert data into the table 'item'. The data inserted depends on ** whether the database created is UDO or non-UDO enabled */ fprintf (stdout, "Populating table 'item'\n"); for (i = 0; i < NUM_ITEMS; i++) { fprintf (stdout, "Inserting row # %d\n", i+1); /* Construct the INSERT statement for table 'item' */ wcscpy ((SQLWCHAR *) insertStmtW, (SQLWCHAR *) insertDBStmtsW[1]); if (isUdoEnabled) wcscat ((SQLWCHAR *) insertStmtW, (SQLWCHAR *) udoItemW[i]); else wcscat ((SQLWCHAR *) insertStmtW, (SQLWCHAR *) nonUdoItemW[i]); /* Execute the INSERT statement */ rc = SQLExecDirectW (hstmt, insertStmtW, SQL_NTS); if (checkError (rc, SQL_HANDLE_STMT, hstmt, (SQLCHAR *) "Error in Step 5 -- SQLExecDirect failed\n")) goto Exit; } fprintf (stdout, "STEP 5 done...Data inserted into the 'item' table\n"); /* STEP 6. Construct the INSERT statement for table 'orders' ** Insert data into the table 'orders'. */ fprintf (stdout, "Populating table 'orders'\n"); for (i = 0; i < NUM_ORDERS; i++) { fprintf (stdout, "Inserting row # %d\n", i+1); /* Construct the INSERT statement for table 'orders' */ wcscpy ((SQLWCHAR *) insertStmtW, (SQLWCHAR *) insertDBStmtsW[2]); wcscat ((SQLWCHAR *) insertStmtW, (SQLWCHAR *) ordersW[i]); /* Execute the INSERT statement */ rc = SQLExecDirectW (hstmt, insertStmtW, SQL_NTS); if (checkError (rc, SQL_HANDLE_STMT, hstmt, (SQLCHAR *) "Error in Step 6 -- SQLExecDirect failed\n")) goto Exit; } fprintf (stdout, "STEP 6 done...Data inserted into the 'orders' table\n"); Exit: /* CLEANUP: Close the statement handle ** Free the statement handle ** Disconnect from the datasource ** Free the connection and environment handles ** Exit */ /* Close the statement handle */ SQLFreeStmt (hstmt, SQL_CLOSE); /* Free the statement handle */ SQLFreeHandle (SQL_HANDLE_STMT, hstmt); /* Disconnect from the data source */ SQLDisconnect (hdbc); /* Free the environment handle and the database connection handle */ SQLFreeHandle (SQL_HANDLE_DBC, hdbc); SQLFreeHandle (SQL_HANDLE_ENV, henv); fprintf (stdout,"\n\nHit to terminate the program...\n\n"); in = getchar (); return (rc); }