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column.go
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column.go
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// Copyright 2012 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package odbc
import (
"database/sql/driver"
"errors"
"fmt"
"time"
"unsafe"
"github.com/alexbrainman/odbc/api"
)
type BufferLen api.SQLLEN
func (l *BufferLen) IsNull() bool {
return *l == api.SQL_NULL_DATA
}
func (l *BufferLen) GetData(h api.SQLHSTMT, idx int, ctype api.SQLSMALLINT, buf []byte) api.SQLRETURN {
return api.SQLGetData(h, api.SQLUSMALLINT(idx+1), ctype,
api.SQLPOINTER(unsafe.Pointer(&buf[0])), api.SQLLEN(len(buf)),
(*api.SQLLEN)(l))
}
func (l *BufferLen) Bind(h api.SQLHSTMT, idx int, ctype api.SQLSMALLINT, buf []byte) api.SQLRETURN {
return api.SQLBindCol(h, api.SQLUSMALLINT(idx+1), ctype,
api.SQLPOINTER(unsafe.Pointer(&buf[0])), api.SQLLEN(len(buf)),
(*api.SQLLEN)(l))
}
// Column provides access to row columns.
type Column interface {
Name() string
Bind(h api.SQLHSTMT, idx int) (bool, error)
Value(h api.SQLHSTMT, idx int) (driver.Value, error)
}
func describeColumn(h api.SQLHSTMT, idx int, namebuf []uint16) (namelen int, sqltype api.SQLSMALLINT, size api.SQLULEN, ret api.SQLRETURN) {
var l, decimal, nullable api.SQLSMALLINT
ret = api.SQLDescribeCol(h, api.SQLUSMALLINT(idx+1),
(*api.SQLWCHAR)(unsafe.Pointer(&namebuf[0])),
api.SQLSMALLINT(len(namebuf)), &l,
&sqltype, &size, &decimal, &nullable)
return int(l), sqltype, size, ret
}
// TODO(brainman): did not check for MS SQL timestamp
func NewColumn(h api.SQLHSTMT, idx int) (Column, error) {
namebuf := make([]uint16, 150)
namelen, sqltype, size, ret := describeColumn(h, idx, namebuf)
if ret == api.SQL_SUCCESS_WITH_INFO && namelen > len(namebuf) {
// try again with bigger buffer
namebuf = make([]uint16, namelen)
namelen, sqltype, size, ret = describeColumn(h, idx, namebuf)
}
if IsError(ret) {
return nil, NewError("SQLDescribeCol", h)
}
if namelen > len(namebuf) {
// still complaining about buffer size
return nil, errors.New("Failed to allocate column name buffer")
}
b := &BaseColumn{
name: api.UTF16ToString(namebuf[:namelen]),
SQLType: sqltype,
}
switch sqltype {
case api.SQL_BIT:
return NewBindableColumn(b, api.SQL_C_BIT, 1), nil
case api.SQL_TINYINT, api.SQL_SMALLINT, api.SQL_INTEGER:
return NewBindableColumn(b, api.SQL_C_LONG, 4), nil
case api.SQL_BIGINT:
return NewBindableColumn(b, api.SQL_C_SBIGINT, 8), nil
case api.SQL_NUMERIC, api.SQL_DECIMAL, api.SQL_FLOAT, api.SQL_REAL, api.SQL_DOUBLE:
return NewBindableColumn(b, api.SQL_C_DOUBLE, 8), nil
case api.SQL_TYPE_TIMESTAMP:
var v api.SQL_TIMESTAMP_STRUCT
return NewBindableColumn(b, api.SQL_C_TYPE_TIMESTAMP, int(unsafe.Sizeof(v))), nil
case api.SQL_TYPE_DATE:
var v api.SQL_DATE_STRUCT
return NewBindableColumn(b, api.SQL_C_DATE, int(unsafe.Sizeof(v))), nil
case api.SQL_TYPE_TIME:
var v api.SQL_TIME_STRUCT
return NewBindableColumn(b, api.SQL_C_TIME, int(unsafe.Sizeof(v))), nil
case api.SQL_SS_TIME2:
var v api.SQL_SS_TIME2_STRUCT
return NewBindableColumn(b, api.SQL_C_BINARY, int(unsafe.Sizeof(v))), nil
case api.SQL_GUID:
var v api.SQLGUID
return NewBindableColumn(b, api.SQL_C_GUID, int(unsafe.Sizeof(v))), nil
case api.SQL_CHAR, api.SQL_VARCHAR:
return NewVariableWidthColumn(b, api.SQL_C_CHAR, size)
case api.SQL_WCHAR, api.SQL_WVARCHAR:
return NewVariableWidthColumn(b, api.SQL_C_WCHAR, size)
case api.SQL_BINARY, api.SQL_VARBINARY:
return NewVariableWidthColumn(b, api.SQL_C_BINARY, size)
case api.SQL_LONGVARCHAR:
return NewVariableWidthColumn(b, api.SQL_C_CHAR, 0)
case api.SQL_WLONGVARCHAR, api.SQL_SS_XML:
return NewVariableWidthColumn(b, api.SQL_C_WCHAR, 0)
case api.SQL_LONGVARBINARY:
return NewVariableWidthColumn(b, api.SQL_C_BINARY, 0)
default:
return nil, fmt.Errorf("unsupported column type %d", sqltype)
}
}
// BaseColumn implements common column functionality.
type BaseColumn struct {
name string
SQLType api.SQLSMALLINT
CType api.SQLSMALLINT
}
func (c *BaseColumn) Name() string {
return c.name
}
func (c *BaseColumn) Value(buf []byte) (driver.Value, error) {
var p unsafe.Pointer
if len(buf) > 0 {
p = unsafe.Pointer(&buf[0])
}
switch c.CType {
case api.SQL_C_BIT:
return buf[0] != 0, nil
case api.SQL_C_LONG:
return *((*int32)(p)), nil
case api.SQL_C_SBIGINT:
return *((*int64)(p)), nil
case api.SQL_C_DOUBLE:
return *((*float64)(p)), nil
case api.SQL_C_CHAR:
return buf, nil
case api.SQL_C_WCHAR:
if p == nil {
return buf, nil
}
s := (*[1 << 28]uint16)(p)[: len(buf)/2 : len(buf)/2]
return utf16toutf8(s), nil
case api.SQL_C_TYPE_TIMESTAMP:
t := (*api.SQL_TIMESTAMP_STRUCT)(p)
r := time.Date(int(t.Year), time.Month(t.Month), int(t.Day),
int(t.Hour), int(t.Minute), int(t.Second), int(t.Fraction),
time.Local)
return r, nil
case api.SQL_C_GUID:
t := (*api.SQLGUID)(p)
var p1, p2 string
for _, d := range t.Data4[:2] {
p1 += fmt.Sprintf("%02x", d)
}
for _, d := range t.Data4[2:] {
p2 += fmt.Sprintf("%02x", d)
}
r := fmt.Sprintf("%08x-%04x-%04x-%s-%s",
t.Data1, t.Data2, t.Data3, p1, p2)
return r, nil
case api.SQL_C_DATE:
t := (*api.SQL_DATE_STRUCT)(p)
r := time.Date(int(t.Year), time.Month(t.Month), int(t.Day),
0, 0, 0, 0, time.Local)
return r, nil
case api.SQL_C_TIME:
t := (*api.SQL_TIME_STRUCT)(p)
r := time.Date(1, time.January, 1,
int(t.Hour), int(t.Minute), int(t.Second), 0, time.Local)
return r, nil
case api.SQL_C_BINARY:
if c.SQLType == api.SQL_SS_TIME2 {
t := (*api.SQL_SS_TIME2_STRUCT)(p)
r := time.Date(1, time.January, 1,
int(t.Hour), int(t.Minute), int(t.Second), int(t.Fraction),
time.Local)
return r, nil
}
return buf, nil
}
return nil, fmt.Errorf("unsupported column ctype %d", c.CType)
}
// BindableColumn allows access to columns that can have their buffers
// bound. Once bound at start, they are written to by odbc driver every
// time it fetches new row. This saves on syscall and, perhaps, some
// buffer copying. BindableColumn can be left unbound, then it behaves
// like NonBindableColumn when user reads data from it.
type BindableColumn struct {
*BaseColumn
IsBound bool
IsVariableWidth bool
Size int
Len BufferLen
Buffer []byte
}
// TODO(brainman): BindableColumn.Buffer is used by external code after external code returns - that needs to be avoided in the future
func NewBindableColumn(b *BaseColumn, ctype api.SQLSMALLINT, bufSize int) *BindableColumn {
b.CType = ctype
c := &BindableColumn{BaseColumn: b, Size: bufSize}
l := 8 // always use small starting buffer
if c.Size > l {
l = c.Size
}
c.Buffer = make([]byte, l)
return c
}
func NewVariableWidthColumn(b *BaseColumn, ctype api.SQLSMALLINT, colWidth api.SQLULEN) (Column, error) {
if colWidth == 0 || colWidth > 1024 {
b.CType = ctype
return &NonBindableColumn{b}, nil
}
l := int(colWidth)
switch ctype {
case api.SQL_C_WCHAR:
l += 1 // room for null-termination character
l *= 2 // wchars take 2 bytes each
case api.SQL_C_CHAR:
l += 1 // room for null-termination character
case api.SQL_C_BINARY:
// nothing to do
default:
return nil, fmt.Errorf("do not know how wide column of ctype %d is", ctype)
}
c := NewBindableColumn(b, ctype, l)
c.IsVariableWidth = true
return c, nil
}
func (c *BindableColumn) Bind(h api.SQLHSTMT, idx int) (bool, error) {
ret := c.Len.Bind(h, idx, c.CType, c.Buffer)
if IsError(ret) {
return false, NewError("SQLBindCol", h)
}
c.IsBound = true
return true, nil
}
func (c *BindableColumn) Value(h api.SQLHSTMT, idx int) (driver.Value, error) {
if !c.IsBound {
ret := c.Len.GetData(h, idx, c.CType, c.Buffer)
if IsError(ret) {
return nil, NewError("SQLGetData", h)
}
}
if c.Len.IsNull() {
// is NULL
return nil, nil
}
if !c.IsVariableWidth && int(c.Len) != c.Size {
return nil, fmt.Errorf("wrong column #%d length %d returned, %d expected", idx, c.Len, c.Size)
}
return c.BaseColumn.Value(c.Buffer[:c.Len])
}
// NonBindableColumn provide access to columns, that can't be bound.
// These are of character or binary type, and, usually, there is no
// limit for their width.
type NonBindableColumn struct {
*BaseColumn
}
func (c *NonBindableColumn) Bind(h api.SQLHSTMT, idx int) (bool, error) {
return false, nil
}
func (c *NonBindableColumn) Value(h api.SQLHSTMT, idx int) (driver.Value, error) {
var l BufferLen
var total []byte
b := make([]byte, 1024)
loop:
for {
ret := l.GetData(h, idx, c.CType, b)
switch ret {
case api.SQL_SUCCESS:
if l.IsNull() {
// is NULL
return nil, nil
}
if int(l) > len(b) {
return nil, fmt.Errorf("too much data returned: %d bytes returned, but buffer size is %d", l, cap(b))
}
total = append(total, b[:l]...)
break loop
case api.SQL_SUCCESS_WITH_INFO:
err := NewError("SQLGetData", h).(*Error)
if len(err.Diag) > 0 && err.Diag[0].State != "01004" {
return nil, err
}
i := len(b)
switch c.CType {
case api.SQL_C_WCHAR:
i -= 2 // remove wchar (2 bytes) null-termination character
case api.SQL_C_CHAR:
i-- // remove null-termination character
}
total = append(total, b[:i]...)
if l != api.SQL_NO_TOTAL {
// odbc gives us a hint about remaining data,
// lets get it in one go.
n := int(l) // total bytes for our data
n -= i // subtract already received
n += 2 // room for biggest (wchar) null-terminator
if len(b) < n {
b = make([]byte, n)
}
}
default:
return nil, NewError("SQLGetData", h)
}
}
return c.BaseColumn.Value(total)
}