Exemple #1
0
// Exec executes a query that may return rows, such as SELECT.
func (stmt *statement) Query(v []driver.Value) (driver.Rows, error) {
	if err := stmt.bind(v); err != nil {
		return nil, err
	}

	// determine the type of statement.  For select statements iter is set to zero, for other statements, only execute once.
	// * NOTE * Should an error be returned if the statement is a non-select type?
	var stmt_type C.int
	if C.OCIAttrGet(stmt.handle, C.OCI_HTYPE_STMT, unsafe.Pointer(&stmt_type), nil, C.OCI_ATTR_STMT_TYPE, (*C.OCIError)(stmt.conn.err)) != C.OCI_SUCCESS {
		log.Println(ociGetError(stmt.conn.err))
	}
	iter := C.ub4(1)
	if stmt_type == C.OCI_STMT_SELECT {
		iter = 0
	}
	// set the row prefetch.  Only one extra row per fetch will be returned unless this is set.
	prefetchSize := C.ub4(100)
	if C.OCIAttrSet(stmt.handle, C.OCI_HTYPE_STMT, unsafe.Pointer(&prefetchSize), 0, C.OCI_ATTR_PREFETCH_ROWS, (*C.OCIError)(stmt.conn.err)) != C.OCI_SUCCESS {
		log.Println(ociGetError(stmt.conn.err))
	}

	// execute the statement
	if C.OCIStmtExecute((*C.OCIServer)(stmt.conn.svr), (*C.OCIStmt)(stmt.handle), (*C.OCIError)(stmt.conn.err), iter, 0, nil, nil, C.OCI_DEFAULT) != C.OCI_SUCCESS {
		err := ociGetError(stmt.conn.err)
		log.Println(err)
		return nil, err
	}

	// find out how many output columns there are
	var cols C.ub2
	if C.OCIAttrGet(stmt.handle, C.OCI_HTYPE_STMT, unsafe.Pointer(&cols), nil, C.OCI_ATTR_PARAM_COUNT, (*C.OCIError)(stmt.conn.err)) != C.OCI_SUCCESS {
		err := ociGetError(stmt.conn.err)
		log.Println(err)
		return nil, err
	}

	// build column meta-data
	columns := make([]column, int(cols))
	for pos := 0; pos < int(cols); pos++ {
		col := &columns[pos]
		var param unsafe.Pointer
		var colType C.ub2
		var colSize C.ub4
		var colName *C.char
		var nameSize C.ub4

		if C.OCIParamGet(stmt.handle, C.OCI_HTYPE_STMT, (*C.OCIError)(stmt.conn.err), (*unsafe.Pointer)(unsafe.Pointer(&param)), C.ub4(pos+1)) != C.OCI_SUCCESS {
			err := ociGetError(stmt.conn.err)
			log.Println(err)
			return nil, err
		}

		C.OCIAttrGet(param, C.OCI_DTYPE_PARAM, unsafe.Pointer(&colType), nil, C.OCI_ATTR_DATA_TYPE, (*C.OCIError)(stmt.conn.err))
		C.OCIAttrGet(param, C.OCI_DTYPE_PARAM, unsafe.Pointer(&colName), &nameSize, C.OCI_ATTR_NAME, (*C.OCIError)(stmt.conn.err))
		C.OCIAttrGet(param, C.OCI_DTYPE_PARAM, unsafe.Pointer(&colSize), nil, C.OCI_ATTR_DATA_SIZE, (*C.OCIError)(stmt.conn.err))

		col.kind = int(colType)
		col.size = int(colSize)
		col.name = C.GoStringN(colName, (C.int)(nameSize))
		col.raw = make([]byte, int(colSize+1))

		var def *C.OCIDefine
		result := C.OCIDefineByPos((*C.OCIStmt)(stmt.handle), &def, (*C.OCIError)(stmt.conn.err),
			C.ub4(pos+1), unsafe.Pointer(&col.raw[0]), C.sb4(colSize+1), C.SQLT_CHR, nil, nil, nil, C.OCI_DEFAULT)
		if result != C.OCI_SUCCESS {
			return nil, ociGetError(stmt.conn.err)
		}
	}

	return &rows{stmt, columns}, nil
}
Exemple #2
0
func (s *OCI8Stmt) Query(args []driver.Value) (rows driver.Rows, err error) {
	var (
		fbp []oci8bind
	)

	if fbp, err = s.bind(args); err != nil {
		return nil, err
	}

	defer freeBoundParameters(fbp)

	iter := C.ub4(1)
	if retUb2 := C.WrapOCIAttrGetUb2(s.s, C.OCI_HTYPE_STMT, C.OCI_ATTR_STMT_TYPE, (*C.OCIError)(s.c.err)); retUb2.rv != C.OCI_SUCCESS {
		return nil, ociGetError(s.c.err)
	} else if retUb2.num == C.OCI_STMT_SELECT {
		iter = 0
	}

	// set the row prefetch.  Only one extra row per fetch will be returned unless this is set.
	if prefetch_size := C.ub4(s.c.attrs.Get("prefetch_rows").(int)); prefetch_size > 0 {
		if rv := C.WrapOCIAttrSetUb4(s.s, C.OCI_HTYPE_STMT, prefetch_size, C.OCI_ATTR_PREFETCH_ROWS, (*C.OCIError)(s.c.err)); rv != C.OCI_SUCCESS {
			return nil, ociGetError(s.c.err)
		}
	}

	// if non-zero, oci will fetch rows until the memory limit or row prefetch limit is hit.
	// useful for memory constrained systems
	if prefetch_memory := C.ub4(s.c.attrs.Get("prefetch_memory").(int64)); prefetch_memory > 0 {
		if rv := C.WrapOCIAttrSetUb4(s.s, C.OCI_HTYPE_STMT, prefetch_memory, C.OCI_ATTR_PREFETCH_MEMORY, (*C.OCIError)(s.c.err)); rv != C.OCI_SUCCESS {
			return nil, ociGetError(s.c.err)
		}
	}

	mode := C.ub4(C.OCI_DEFAULT)
	if !s.c.inTransaction {
		mode = mode | C.OCI_COMMIT_ON_SUCCESS
	}
	if rv := C.OCIStmtExecute(
		(*C.OCISvcCtx)(s.c.svc),
		(*C.OCIStmt)(s.s),
		(*C.OCIError)(s.c.err),
		iter,
		0,
		nil,
		nil,
		mode); rv != C.OCI_SUCCESS {
		return nil, ociGetError(s.c.err)
	}

	var rc int
	if retUb2 := C.WrapOCIAttrGetUb2(s.s, C.OCI_HTYPE_STMT, C.OCI_ATTR_PARAM_COUNT, (*C.OCIError)(s.c.err)); retUb2.rv != C.OCI_SUCCESS {
		return nil, ociGetError(s.c.err)
	} else {
		rc = int(retUb2.num)
	}

	oci8cols := make([]oci8col, rc)
	for i := 0; i < rc; i++ {
		var p unsafe.Pointer
		var tp C.ub2
		var lp C.ub2

		if rp := C.WrapOCIParamGet(s.s, C.OCI_HTYPE_STMT, (*C.OCIError)(s.c.err), C.ub4(i+1)); rp.rv != C.OCI_SUCCESS {
			return nil, ociGetError(s.c.err)
		} else {
			p = rp.ptr
		}

		if tpr := C.WrapOCIAttrGetUb2(p, C.OCI_DTYPE_PARAM, C.OCI_ATTR_DATA_TYPE, (*C.OCIError)(s.c.err)); tpr.rv != C.OCI_SUCCESS {
			return nil, ociGetError(s.c.err)
		} else {
			tp = tpr.num
		}

		if nsr := C.WrapOCIAttrGetString(p, C.OCI_DTYPE_PARAM, C.OCI_ATTR_NAME, (*C.OCIError)(s.c.err)); nsr.rv != C.OCI_SUCCESS {
			return nil, ociGetError(s.c.err)
		} else {
			oci8cols[i].name = string((*[1 << 30]byte)(unsafe.Pointer(nsr.ptr))[0:int(nsr.size)])
		}

		if lpr := C.WrapOCIAttrGetUb2(p, C.OCI_DTYPE_PARAM, C.OCI_ATTR_DATA_SIZE, (*C.OCIError)(s.c.err)); lpr.rv != C.OCI_SUCCESS {
			return nil, ociGetError(s.c.err)
		} else {
			lp = lpr.num
		}
		/*
			var (
				defp *C.OCIDefine
			)
		*/
		*s.defp = nil
		switch tp {

		case C.SQLT_CHR, C.SQLT_AFC, C.SQLT_VCS, C.SQLT_AVC:
			// TODO: transfer as clob, read all bytes in loop
			// lp *= 4 // utf8 enc
			oci8cols[i].kind = C.SQLT_CHR  // tp
			oci8cols[i].size = int(lp) * 4 // utf8 enc
			oci8cols[i].pbuf = C.malloc(C.size_t(oci8cols[i].size) + 1)

		case C.SQLT_BIN:
			oci8cols[i].kind = C.SQLT_BIN
			oci8cols[i].size = int(lp)
			oci8cols[i].pbuf = C.malloc(C.size_t(oci8cols[i].size))

		case C.SQLT_NUM:
			oci8cols[i].kind = C.SQLT_CHR
			oci8cols[i].size = int(lp * 4)
			oci8cols[i].pbuf = C.malloc(C.size_t(oci8cols[i].size) + 1)

		case C.SQLT_IBDOUBLE, C.SQLT_IBFLOAT:
			oci8cols[i].kind = C.SQLT_IBDOUBLE
			oci8cols[i].size = int(8)
			oci8cols[i].pbuf = C.malloc(8)

		case C.SQLT_CLOB, C.SQLT_BLOB:
			// allocate +io buffers + ub4
			size := int(unsafe.Sizeof(unsafe.Pointer(nil)) + unsafe.Sizeof(C.ub4(0)))
			if oci8cols[i].size < blobBufSize {
				size += blobBufSize
			} else {
				size += oci8cols[i].size
			}
			if ret := C.WrapOCIDescriptorAlloc(s.c.env, C.OCI_DTYPE_LOB, C.size_t(size)); ret.rv != C.OCI_SUCCESS {
				return nil, ociGetError(s.c.err)
			} else {

				oci8cols[i].kind = tp
				oci8cols[i].size = int(unsafe.Sizeof(unsafe.Pointer(nil)))
				oci8cols[i].pbuf = ret.extra
				*(*unsafe.Pointer)(ret.extra) = ret.ptr

			}

			//      testing
			//		case C.SQLT_DAT:
			//
			//			oci8cols[i].kind = C.SQLT_DAT
			//			oci8cols[i].size = int(lp)
			//			oci8cols[i].pbuf = C.malloc(C.size_t(lp))
			//

		case C.SQLT_TIMESTAMP, C.SQLT_DAT:
			if ret := C.WrapOCIDescriptorAlloc(s.c.env, C.OCI_DTYPE_TIMESTAMP, C.size_t(unsafe.Sizeof(unsafe.Pointer(nil)))); ret.rv != C.OCI_SUCCESS {
				return nil, ociGetError(s.c.err)
			} else {

				oci8cols[i].kind = C.SQLT_TIMESTAMP
				oci8cols[i].size = int(unsafe.Sizeof(unsafe.Pointer(nil)))
				oci8cols[i].pbuf = ret.extra
				*(*unsafe.Pointer)(ret.extra) = ret.ptr
			}

		case C.SQLT_TIMESTAMP_TZ, C.SQLT_TIMESTAMP_LTZ:
			if ret := C.WrapOCIDescriptorAlloc(s.c.env, C.OCI_DTYPE_TIMESTAMP_TZ, C.size_t(unsafe.Sizeof(unsafe.Pointer(nil)))); ret.rv != C.OCI_SUCCESS {
				return nil, ociGetError(s.c.err)
			} else {

				oci8cols[i].kind = C.SQLT_TIMESTAMP_TZ
				oci8cols[i].size = int(unsafe.Sizeof(unsafe.Pointer(nil)))
				oci8cols[i].pbuf = ret.extra
				*(*unsafe.Pointer)(ret.extra) = ret.ptr
			}

		case C.SQLT_INTERVAL_DS:
			if ret := C.WrapOCIDescriptorAlloc(s.c.env, C.OCI_DTYPE_INTERVAL_DS, C.size_t(unsafe.Sizeof(unsafe.Pointer(nil)))); ret.rv != C.OCI_SUCCESS {
				return nil, ociGetError(s.c.err)
			} else {

				oci8cols[i].kind = C.SQLT_INTERVAL_DS
				oci8cols[i].size = int(unsafe.Sizeof(unsafe.Pointer(nil)))
				oci8cols[i].pbuf = ret.extra
				*(*unsafe.Pointer)(ret.extra) = ret.ptr
			}

		case C.SQLT_INTERVAL_YM:
			if ret := C.WrapOCIDescriptorAlloc(s.c.env, C.OCI_DTYPE_INTERVAL_YM, C.size_t(unsafe.Sizeof(unsafe.Pointer(nil)))); ret.rv != C.OCI_SUCCESS {
				return nil, ociGetError(s.c.err)
			} else {

				oci8cols[i].kind = C.SQLT_INTERVAL_YM
				oci8cols[i].size = int(unsafe.Sizeof(unsafe.Pointer(nil)))
				oci8cols[i].pbuf = ret.extra
				*(*unsafe.Pointer)(ret.extra) = ret.ptr
			}

		case C.SQLT_RDD: // rowid
			lp = 40
			oci8cols[i].pbuf = C.malloc(C.size_t(lp) + 1)
			oci8cols[i].kind = C.SQLT_CHR // tp
			oci8cols[i].size = int(lp + 1)

		default:
			oci8cols[i].pbuf = C.malloc(C.size_t(lp) + 1)
			oci8cols[i].kind = C.SQLT_CHR // tp
			oci8cols[i].size = int(lp + 1)
		}

		if rv := C.OCIDefineByPos(
			(*C.OCIStmt)(s.s),
			s.defp,
			(*C.OCIError)(s.c.err),
			C.ub4(i+1),
			oci8cols[i].pbuf,
			C.sb4(oci8cols[i].size),
			oci8cols[i].kind,
			unsafe.Pointer(&oci8cols[i].ind),
			&oci8cols[i].rlen,
			nil,
			C.OCI_DEFAULT); rv != C.OCI_SUCCESS {
			return nil, ociGetError(s.c.err)
		}
	}
	return &OCI8Rows{s, oci8cols, false}, nil
}
Exemple #3
0
// Helper routine for Variable_Define() used so that constant calls to
// OCIDescriptorFree() is not necessary.
func (cur *Cursor) variableDefineHelper(param *C.OCIParam, position, numElements uint) (v *Variable, err error) {
	var size C.ub4
	var varType *VariableType

	// determine data type
	varType, err = varTypeByOracleDescriptor(param, cur.environment)
	if err != nil {
		log.Printf("error determining data type: %s", err)
		return nil, err
	}
	// if (cursor->numbersAsStrings && varType == &vt_Float)
	//     varType = &vt_NumberAsString;

	// retrieve size of the parameter
	size = C.ub4(varType.size)
	if varType.isVariableLength {
		var sizeFromOracle C.ub2
		// determine the maximum length from Oracle
		if _, err = cur.environment.AttrGet(
			unsafe.Pointer(param), C.OCI_HTYPE_DESCRIBE,
			C.OCI_ATTR_DATA_SIZE, unsafe.Pointer(&sizeFromOracle),
			"data size"); err != nil {
			log.Printf("error getting data size: %+v", err)
			return nil, err
		}
		if CTrace {
			log.Printf("size of %p[%s] @ %d: %d", param, varType, position, sizeFromOracle)
		}

		// use the length from Oracle directly if available
		if uint(sizeFromOracle) > 0 {
			size = C.ub4(sizeFromOracle)
		} else if cur.outputSize >= 0 {
			// otherwise, use the value set with the setoutputsize() parameter
			if cur.outputSizeColumn < 0 ||
				int(position) == cur.outputSizeColumn {
				size = C.ub4(cur.outputSize)
			}
		}
	}

	// create a variable of the correct type
	/*
	   if cur.outputTypeHandler && cursor->outputTypeHandler != Py_None)
	       var = Variable_NewByOutputTypeHandler(cursor, param,
	               cursor->outputTypeHandler, varType, size, numElements);
	   else if (cursor->connection->outputTypeHandler &&
	           cursor->connection->outputTypeHandler != Py_None)
	       var = Variable_NewByOutputTypeHandler(cursor, param,
	               cursor->connection->outputTypeHandler, varType, size,
	               numElements);
	   else
	*/
	//log.Printf("varType=%#v size=%d", varType, size)
	v, err = cur.NewVariable(numElements, varType, uint(size))
	if err != nil {
		return nil, errgo.Newf("error creating variable: %s", err)
	}

	// call the procedure to set values prior to define
	if v.typ.preDefine != nil {
		if err = v.typ.preDefine(v, param); err != nil {
			return nil, errgo.Newf("error with preDefine(%s): %s", v, err)
		}
	}

	// perform the define
	//log.Printf("v=%#v", v)
	indic, aL, rC := v.aLrC()
	if CTrace {
		ctrace("OCIDefineByPos(cur=%p, defineHandle=%p, env=%p, position=%d, dataArr=%v, bufferSize=%d, oracleType=%d indicator=%v, aL=%v rC=%v, DEFAULT)",
			cur.handle, &v.defineHandle, v.environment.errorHandle,
			position, v.getDataArr(), v.bufferSize, v.typ.oracleType, v.indicator,
			aL, rC)
	}
	if err = cur.environment.CheckStatus(
		C.OCIDefineByPos(cur.handle,
			&v.defineHandle,
			v.environment.errorHandle, C.ub4(position), v.getDataArr(),
			C.sb4(v.bufferSize), v.typ.oracleType,
			indic, aL, rC, C.OCI_DEFAULT),
		"define"); err != nil {
		return nil, errgo.Newf("error defining: %s", err)
	}

	// call the procedure to set values after define
	if v.typ.postDefine != nil {
		if err = v.typ.postDefine(v); err != nil {
			return nil, errgo.Newf("error with postDefine(%s): %s", v, err)
		}
	}

	return v, nil
}
Exemple #4
0
func (s *OCI8Stmt) Query(args []driver.Value) (driver.Rows, error) {
	if err := s.bind(args); err != nil {
		return nil, err
	}

	var t C.int
	C.OCIAttrGet(
		s.s,
		C.OCI_HTYPE_STMT,
		unsafe.Pointer(&t),
		nil,
		C.OCI_ATTR_STMT_TYPE,
		(*C.OCIError)(s.c.err))
	iter := C.ub4(1)
	if t == C.OCI_STMT_SELECT {
		iter = 0
	}

	rv := C.OCIStmtExecute(
		(*C.OCIServer)(s.c.svc),
		(*C.OCIStmt)(s.s),
		(*C.OCIError)(s.c.err),
		iter,
		0,
		nil,
		nil,
		OCI_MODE)
	if rv == C.OCI_ERROR {
		return nil, ociGetError(s.c.err)
	}

	var rc C.ub2
	C.OCIAttrGet(
		s.s,
		C.OCI_HTYPE_STMT,
		unsafe.Pointer(&rc),
		nil,
		C.OCI_ATTR_PARAM_COUNT,
		(*C.OCIError)(s.c.err))

	oci8cols := make([]oci8col, int(rc))
	for i := 0; i < int(rc); i++ {
		var p unsafe.Pointer
		var np *C.char
		var ns C.ub4
		var tp C.ub2
		var lp C.ub2
		C.OCIParamGet(
			s.s,
			C.OCI_HTYPE_STMT,
			(*C.OCIError)(s.c.err),
			(*unsafe.Pointer)(unsafe.Pointer(&p)),
			C.ub4(i+1))
		C.OCIAttrGet(
			p,
			C.OCI_DTYPE_PARAM,
			unsafe.Pointer(&tp),
			nil,
			C.OCI_ATTR_DATA_TYPE,
			(*C.OCIError)(s.c.err))
		C.OCIAttrGet(
			p,
			C.OCI_DTYPE_PARAM,
			unsafe.Pointer(&np),
			&ns,
			C.OCI_ATTR_NAME,
			(*C.OCIError)(s.c.err))
		C.OCIAttrGet(
			p,
			C.OCI_DTYPE_PARAM,
			unsafe.Pointer(&lp),
			nil,
			C.OCI_ATTR_DATA_SIZE,
			(*C.OCIError)(s.c.err))
		oci8cols[i].name = string((*[1 << 30]byte)(unsafe.Pointer(np))[0:int(ns)])
		oci8cols[i].kind = int(tp)
		oci8cols[i].size = int(lp)
		oci8cols[i].pbuf = make([]byte, int(lp)+1)

		var defp *C.OCIDefine
		rv = C.OCIDefineByPos(
			(*C.OCIStmt)(s.s),
			&defp,
			(*C.OCIError)(s.c.err),
			C.ub4(i+1),
			unsafe.Pointer(&oci8cols[i].pbuf[0]),
			C.sb4(lp+1),
			C.SQLT_CHR,
			nil,
			nil,
			nil,
			OCI_MODE)
		if rv == C.OCI_ERROR {
			return nil, ociGetError(s.c.err)
		}
	}
	return &OCI8Rows{s, oci8cols, false}, nil
}
Exemple #5
0
func (s *OCI8Stmt) Query(args []driver.Value) (rows driver.Rows, err error) {
	var (
		freeBoundParameters func()
	)

	if freeBoundParameters, err = s.bind(args); err != nil {
		return nil, err
	}

	defer freeBoundParameters()

	var t C.int
	C.OCIAttrGet(
		s.s,
		C.OCI_HTYPE_STMT,
		unsafe.Pointer(&t),
		nil,
		C.OCI_ATTR_STMT_TYPE,
		(*C.OCIError)(s.c.err))
	iter := C.ub4(1)
	if t == C.OCI_STMT_SELECT {
		iter = 0
	}

	// set the row prefetch.  Only one extra row per fetch will be returned unless this is set.
	prefetch_size := C.ub4(s.c.attrs.Get("prefetch_rows").(int))
	C.OCIAttrSet(s.s, C.OCI_HTYPE_STMT, unsafe.Pointer(&prefetch_size), 0, C.OCI_ATTR_PREFETCH_ROWS, (*C.OCIError)(s.c.err))

	// if non-zero, oci will fetch rows until the memory limit or row prefetch limit is hit.
	// useful for memory constrained systems
	prefetch_memory := C.ub4(s.c.attrs.Get("prefetch_memory").(int64))
	C.OCIAttrSet(s.s, C.OCI_HTYPE_STMT, unsafe.Pointer(&prefetch_memory), 0, C.OCI_ATTR_PREFETCH_MEMORY, (*C.OCIError)(s.c.err))

	rv := C.OCIStmtExecute(
		(*C.OCISvcCtx)(s.c.svc),
		(*C.OCIStmt)(s.s),
		(*C.OCIError)(s.c.err),
		iter,
		0,
		nil,
		nil,
		C.OCI_DEFAULT)
	if rv == C.OCI_ERROR {
		return nil, ociGetError(s.c.err)
	}

	var rc C.ub2
	C.OCIAttrGet(
		s.s,
		C.OCI_HTYPE_STMT,
		unsafe.Pointer(&rc),
		nil,
		C.OCI_ATTR_PARAM_COUNT,
		(*C.OCIError)(s.c.err))

	oci8cols := make([]oci8col, int(rc))
	for i := 0; i < int(rc); i++ {
		var p unsafe.Pointer
		var np *C.char
		var ns C.ub4
		var tp C.ub2
		var lp C.ub2
		C.OCIParamGet(
			s.s,
			C.OCI_HTYPE_STMT,
			(*C.OCIError)(s.c.err),
			(*unsafe.Pointer)(unsafe.Pointer(&p)),
			C.ub4(i+1))
		C.OCIAttrGet(
			p,
			C.OCI_DTYPE_PARAM,
			unsafe.Pointer(&tp),
			nil,
			C.OCI_ATTR_DATA_TYPE,
			(*C.OCIError)(s.c.err))
		C.OCIAttrGet(
			p,
			C.OCI_DTYPE_PARAM,
			unsafe.Pointer(&np),
			&ns,
			C.OCI_ATTR_NAME,
			(*C.OCIError)(s.c.err))
		C.OCIAttrGet(
			p,
			C.OCI_DTYPE_PARAM,
			unsafe.Pointer(&lp),
			nil,
			C.OCI_ATTR_DATA_SIZE,
			(*C.OCIError)(s.c.err))

		switch tp {
		case C.SQLT_NUM:
			oci8cols[i].kind = C.SQLT_CHR
		default:
			oci8cols[i].kind = tp
		}
		oci8cols[i].name = string((*[1 << 30]byte)(unsafe.Pointer(np))[0:int(ns)])
		oci8cols[i].size = int(lp)

		var defp *C.OCIDefine
		if tp == C.SQLT_CLOB || tp == C.SQLT_BLOB {
			rv = C.OCIDescriptorAlloc(
				s.c.env,
				&oci8cols[i].pbuf,
				C.OCI_DTYPE_LOB,
				0,
				nil)
			if rv == C.OCI_ERROR {
				return nil, ociGetError(s.c.err)
			}
			rv = C.OCIDefineByPos(
				(*C.OCIStmt)(s.s),
				&defp,
				(*C.OCIError)(s.c.err),
				C.ub4(i+1),
				unsafe.Pointer(&oci8cols[i].pbuf),
				-1,
				oci8cols[i].kind,
				unsafe.Pointer(&oci8cols[i].ind),
				&oci8cols[i].rlen,
				nil,
				C.OCI_DEFAULT)
		} else {
			oci8cols[i].pbuf = C.malloc(C.size_t(lp) + 1)
			rv = C.OCIDefineByPos(
				(*C.OCIStmt)(s.s),
				&defp,
				(*C.OCIError)(s.c.err),
				C.ub4(i+1),
				oci8cols[i].pbuf,
				C.sb4(lp+1),
				oci8cols[i].kind,
				unsafe.Pointer(&oci8cols[i].ind),
				&oci8cols[i].rlen,
				nil,
				C.OCI_DEFAULT)
		}

		if rv == C.OCI_ERROR {
			return nil, ociGetError(s.c.err)
		}
	}
	return &OCI8Rows{s, oci8cols, false}, nil
}
func (s *StatementOracle) Next() (err int) {

	if !s.fetchDone {
		s.hDefine = new(C.OCIDefine)
		res := C.OCIStmtExecute(s.con.driver.hService, s.hStatement, s.con.driver.hError, 0, 0, nil, nil, C.OCI_DEFAULT)
		if C.OCI_SUCCESS != res && C.OCI_STILL_EXECUTING != res {
			fmt.Printf("Resultado OCIStmtExecute=%v\n", res)
			C.AuxOCIErrorGet(s.con.driver.hError)
			return -1
		}
		s.fetchDone = true
		/*
		    var idValue int
		    res = C.OCIDefineByPos( s.hStatement, &s.hDefine, s.con.driver.hError, 1 /*pos* /, unsafe.Pointer(&idValue), C.sb4(unsafe.Sizeof(idValue)), C.SQLT_INT, nil, nil, nil, C.OCI_DEFAULT);
		    if (C.OCI_SUCCESS != res /*&& C.OCI_STILL_EXECUTING != res* /) {
		 		fmt.Printf( "Resultado OCIDefineByPos=%v\n", res)
		     	C.AuxOCIErrorGet( s.con.driver.hError);
		     	return -2
		    }
		    var surnameValue [40]C.char
		    res = C.OCIDefineByPos( s.hStatement, &s.hDefine, s.con.driver.hError, 2 /*pos* /, unsafe.Pointer(&surnameValue[0]), C.sb4(unsafe.Sizeof(surnameValue)), C.SQLT_STR, nil, nil, nil, C.OCI_DEFAULT);
		    if (C.OCI_SUCCESS != res /*&& C.OCI_STILL_EXECUTING != res* /) {
		 		fmt.Printf( "Resultado OCIDefineByPos=%v\n", res)
		     	C.AuxOCIErrorGet( s.con.driver.hError);
		     	return -3
		    }
		*/
		res = C.OCIAttrGet(unsafe.Pointer(s.hStatement), C.OCI_HTYPE_STMT, unsafe.Pointer(&s.numColumns), nil, C.OCI_ATTR_PARAM_COUNT, s.con.driver.hError)
		if C.OCI_SUCCESS != res /*&& C.OCI_STILL_EXECUTING != res*/ {
			fmt.Printf("Resultado OCIAttrGet=%v\n", res)
			C.AuxOCIErrorGet(s.con.driver.hError)
			return -3
		}
		fmt.Printf("numColumns=%v\n", s.numColumns)

		s.columns = make([]*ColumnOracle, 0, 50)
		var hColumn C.ub4
		pColumn := unsafe.Pointer(&hColumn)
		for i := 1; i <= s.numColumns; i++ {
			/* get parameter for column i */
			res = C.OCIParamGet(unsafe.Pointer(s.hStatement), C.OCI_HTYPE_STMT, s.con.driver.hError, &pColumn, C.ub4(i))
			if C.OCI_SUCCESS != res /*&& C.OCI_STILL_EXECUTING != res*/ {
				fmt.Printf("Resultado OCIParamGet=%v\n", res)
				C.AuxOCIErrorGet(s.con.driver.hError)
				return -4
			}

			/* get data-type of column i */
			var columnType C.ub2
			pType := unsafe.Pointer(&columnType)
			res = C.OCIAttrGet(pColumn, C.OCI_DTYPE_PARAM, pType, nil, C.OCI_ATTR_DATA_TYPE, s.con.driver.hError)
			if C.OCI_SUCCESS != res /*&& C.OCI_STILL_EXECUTING != res*/ {
				fmt.Printf("Resultado OCIParamGet=%v\n", res)
				C.AuxOCIErrorGet(s.con.driver.hError)
				return -4
			}

			size := C.ub4(100)
			var column_name_tmp *C.char
			res = C.OCIAttrGet(pColumn, C.OCI_DTYPE_PARAM, unsafe.Pointer(&column_name_tmp), nil, C.OCI_ATTR_NAME, s.con.driver.hError)
			fmt.Printf("coumnName (size=%v) = %v\n", size, column_name_tmp)
			//column_name_tmp[size] = 0
			columnName := C.GoString(column_name_tmp)
			var columnSize int
			res = C.OCIAttrGet(pColumn, C.OCI_DTYPE_PARAM, unsafe.Pointer(&columnSize), nil, C.OCI_ATTR_DATA_SIZE, s.con.driver.hError)

			fmt.Printf("Column:%v Name:%v Size:%v Type:%v\n", i, columnName, columnSize, columnType)

			switch columnType {
			case C.SQLT_CHR:
				var columnValue = make([]C.char, columnSize+1)

				res = C.OCIDefineByPos(s.hStatement, &s.hDefine, s.con.driver.hError, C.ub4(i), /*pos*/
					unsafe.Pointer(&columnValue[0]), C.sb4(columnSize), columnType, nil, nil, nil, C.OCI_DEFAULT)
				if C.OCI_SUCCESS != res /*&& C.OCI_STILL_EXECUTING != res*/ {
					fmt.Printf("Resultado OCIDefineByPos=%v\n", res)
					C.AuxOCIErrorGet(s.con.driver.hError)
					return -2
				}
				s.columns = append(s.columns, NewColumnChrOracle(s, columnName, int(columnSize), columnValue))

			case C.SQLT_NUM:
				var columnValue int

				res = C.OCIDefineByPos(s.hStatement, &s.hDefine, s.con.driver.hError, C.ub4(i), /*pos*/
					unsafe.Pointer(&columnValue), C.sb4(4 /*sizeof(columnValue)*/), columnType, nil, nil, nil, C.OCI_DEFAULT)
				if C.OCI_SUCCESS != res /*&& C.OCI_STILL_EXECUTING != res*/ {
					fmt.Printf("Resultado OCIDefineByPos=%v\n", res)
					C.AuxOCIErrorGet(s.con.driver.hError)
					return -2
				}
				s.columns = append(s.columns, NewColumnNumberOracle(s, columnName, int(columnSize), columnValue))

			//case C.SQLT_LNG:
			//case C.SQLT_RID:
			//case C.SQLT_DAT:
			//case C.SQLT_BIN:
			//case C.SQLT_LBI:
			//case C.SQLT_AFC:
			//case C.SQLT_REF:
			//case C.SQLT_CLOB:
			//case C.SQLT_BLOB:
			//case C.SQLT_BFILEE:
			//case C.SQLT_TIMESTAMP:
			//case C.SQLT_TIME_TZ:
			//case C.SQLT_INTERVAL_YM:
			//case C.SQLT_INTERVAL_DS:
			//case C.SQLT_TIMESTAMP_LTZ:
			//case C.SQLT_RDD:
			default:
				s.columns = append(s.columns, NewColumnUnknownOracle(s, columnName, int(columnSize), int(columnType)))
			}
			fmt.Printf("Next len(stmt.columns)=%v\n", len(s.columns))
		}
		//return 0
	}

	res := C.OCIStmtFetch2(s.hStatement, s.con.driver.hError, 1 /*nrows*/, C.OCI_FETCH_NEXT, 0, C.OCI_DEFAULT)
	if C.OCI_SUCCESS != res && C.OCI_NO_DATA != res {
		fmt.Printf("Resultado OCIStmtFetch2=%v\n", res)
		C.AuxOCIErrorGet(s.con.driver.hError)
		return -4
	} else if C.OCI_NO_DATA == res {
		//fmt.Printf( "The result is:%v-%v\n", idValue, C.GoString(&surnameValue[0]))
		return 0
	}
	return 1
}