sq/drivers/sqlserver/metadata.go
Neil O'Toole 57cddd7590
Edit config (#208)
* cobra: Added 'sq config edit' cmd

* Linting

* Implemented 'sq config edit'

* whitespace

* Dialing in config cmd help
2023-04-22 16:31:28 -06:00

453 lines
13 KiB
Go

package sqlserver
import (
"context"
"database/sql"
"fmt"
"strconv"
"strings"
"github.com/neilotoole/sq/libsq/core/lg/lga"
"github.com/neilotoole/sq/libsq/driver"
"github.com/neilotoole/sq/libsq/core/lg/lgm"
"github.com/neilotoole/sq/libsq/core/lg"
"golang.org/x/exp/slog"
"github.com/c2h5oh/datasize"
"github.com/neilotoole/sq/libsq/core/errz"
"github.com/neilotoole/sq/libsq/core/kind"
"github.com/neilotoole/sq/libsq/core/sqlz"
"github.com/neilotoole/sq/libsq/source"
"golang.org/x/sync/errgroup"
)
// kindFromDBTypeName determines the kind.Kind from the database
// type name. For example, "VARCHAR" -> kind.Text.
func kindFromDBTypeName(log *slog.Logger, colName, dbTypeName string) kind.Kind {
var knd kind.Kind
dbTypeName = strings.ToUpper(dbTypeName)
switch dbTypeName {
default:
log.Warn("Unknown SQLServer database type '%s' for column '%s': using %s", dbTypeName, colName, kind.Unknown)
knd = kind.Unknown
case "INT", "BIGINT", "SMALLINT", "TINYINT":
knd = kind.Int
case "CHAR", "NCHAR", "VARCHAR", "JSON", "NVARCHAR", "NTEXT", "TEXT":
knd = kind.Text
case "BIT":
knd = kind.Bool
case "BINARY", "VARBINARY", "IMAGE":
knd = kind.Bytes
case "DECIMAL", "NUMERIC":
knd = kind.Decimal
case "MONEY", "SMALLMONEY":
knd = kind.Decimal
case "DATETIME", "DATETIME2", "SMALLDATETIME", "DATETIMEOFFSET":
knd = kind.Datetime
case "DATE":
knd = kind.Date
case "TIME":
knd = kind.Time
case "FLOAT", "REAL":
knd = kind.Float
case "XML":
knd = kind.Text
case "UNIQUEIDENTIFIER":
knd = kind.Text
case "ROWVERSION", "TIMESTAMP":
knd = kind.Int
}
return knd
}
// setScanType does some manipulation of ct's scan type.
// Most importantly, if ct is nullable column, setwe colTypeData.ScanType to a
// nullable type. This is because the driver doesn't
// report nullable scan types.
func setScanType(ct *sqlz.ColumnTypeData, knd kind.Kind) {
if knd == kind.Decimal {
// The driver wants us to use []byte instead of string for DECIMAL,
// but we want to use string.
if ct.Nullable {
ct.ScanType = sqlz.RTypeNullString
} else {
ct.ScanType = sqlz.RTypeString
}
return
}
if !ct.Nullable {
// If the col type is not nullable, there's nothing
// to do here.
return
}
switch ct.ScanType {
default:
ct.ScanType = sqlz.RTypeNullString
case sqlz.RTypeInt64:
ct.ScanType = sqlz.RTypeNullInt64
case sqlz.RTypeBool:
ct.ScanType = sqlz.RTypeNullBool
case sqlz.RTypeFloat64:
ct.ScanType = sqlz.RTypeNullFloat64
case sqlz.RTypeString:
ct.ScanType = sqlz.RTypeNullString
case sqlz.RTypeTime:
ct.ScanType = sqlz.RTypeNullTime
case sqlz.RTypeBytes:
ct.ScanType = sqlz.RTypeBytes // no change
}
}
func getSourceMetadata(ctx context.Context, src *source.Source, db sqlz.DB) (*source.Metadata, error) {
log := lg.FromContext(ctx)
const query = `SELECT DB_NAME(), SCHEMA_NAME(), SERVERPROPERTY('ProductVersion'), @@VERSION,
(SELECT SUM(size) * 8192
FROM sys.master_files WITH(NOWAIT)
WHERE database_id = DB_ID()
GROUP BY database_id) AS total_size_bytes`
md := &source.Metadata{SourceType: Type, DBDriverType: Type}
md.Handle = src.Handle
md.Location = src.Location
var catalog, schema string
err := db.QueryRowContext(ctx, query).
Scan(&catalog, &schema, &md.DBVersion, &md.DBProduct, &md.Size)
if err != nil {
return nil, errz.Err(err)
}
md.Name = catalog
md.FQName = catalog + "." + schema
md.Schema = schema
tblNames, tblTypes, err := getAllTables(ctx, db)
if err != nil {
return nil, err
}
g, gCtx := errgroup.WithContext(ctx)
g.SetLimit(driver.Tuning.ErrgroupLimit)
tblMetas := make([]*source.TableMetadata, len(tblNames))
for i := range tblNames {
i := i
g.Go(func() error {
select {
case <-gCtx.Done():
return gCtx.Err()
default:
}
var tblMeta *source.TableMetadata
tblMeta, err = getTableMetadata(gCtx, db, catalog, schema, tblNames[i], tblTypes[i])
if err != nil {
if hasErrCode(err, errCodeObjectNotExist) {
// This can happen if the table is dropped while
// we're collecting metadata. We log a warning and continue.
log.Warn("Table metadata: table not found (continuing regardless)",
lga.Table, tblNames[i],
lga.Err, err,
)
return nil
}
return err
}
tblMetas[i] = tblMeta
return nil
})
}
err = g.Wait()
if err != nil {
return nil, errz.Err(err)
}
// If a table wasn't found (possibly dropped while querying), then
// its entry could be nil. We copy the non-nil elements to the
// final slice.
md.Tables = make([]*source.TableMetadata, 0, len(tblMetas))
for i := range tblMetas {
if tblMetas[i] != nil {
md.Tables = append(md.Tables, tblMetas[i])
}
}
return md, nil
}
func getTableMetadata(ctx context.Context, db sqlz.DB, tblCatalog,
tblSchema, tblName, tblType string,
) (*source.TableMetadata, error) {
const tplTblUsage = `sp_spaceused '%s'`
tblMeta := &source.TableMetadata{Name: tblName, DBTableType: tblType}
tblMeta.FQName = tblCatalog + "." + tblSchema + "." + tblName
switch tblMeta.DBTableType {
case "BASE TABLE":
tblMeta.TableType = sqlz.TableTypeTable
case "VIEW":
tblMeta.TableType = sqlz.TableTypeView
default:
}
var rowCount, reserved, data, indexSize, unused sql.NullString
row := db.QueryRowContext(ctx, fmt.Sprintf(tplTblUsage, tblName))
err := row.Scan(&tblMeta.Name, &rowCount, &reserved, &data, &indexSize, &unused)
if err != nil {
return nil, errz.Err(err)
}
if rowCount.Valid {
tblMeta.RowCount, err = strconv.ParseInt(strings.TrimSpace(rowCount.String), 10, 64)
if err != nil {
return nil, errz.Err(err)
}
} else {
// We can't get the "row count" for a VIEW from sp_spaceused,
// so we need to select it the old-fashioned way.
err = db.QueryRowContext(ctx, fmt.Sprintf("SELECT COUNT(*) FROM %q", tblName)).Scan(&tblMeta.RowCount)
if err != nil {
return nil, errz.Err(err)
}
}
if reserved.Valid {
var byteCount datasize.ByteSize
err = byteCount.UnmarshalText([]byte(reserved.String))
if err != nil {
return nil, errz.Err(err)
}
size := int64(byteCount.Bytes())
tblMeta.Size = &size
}
var dbCols []columnMeta
dbCols, err = getColumnMeta(ctx, db, tblCatalog, tblSchema, tblName)
if err != nil {
return nil, err
}
var dbConstraints []constraintMeta
dbConstraints, err = getConstraints(ctx, db, tblCatalog, tblSchema, tblName)
if err != nil {
return nil, errz.Err(err)
}
cols := make([]*source.ColMetadata, len(dbCols))
for i := range dbCols {
cols[i] = &source.ColMetadata{
Name: dbCols[i].ColumnName,
Position: dbCols[i].OrdinalPosition,
BaseType: dbCols[i].DataType,
Kind: kindFromDBTypeName(lg.FromContext(ctx), dbCols[i].ColumnName, dbCols[i].DataType),
Nullable: dbCols[i].Nullable.Bool,
DefaultValue: dbCols[i].ColumnDefault.String,
}
// We want to output something like VARCHAR(255) for ColType
// REVISIT: This is all a bit messy and inconsistent with other drivers
var colLength *int64
switch {
case dbCols[i].CharMaxLength.Valid:
colLength = &dbCols[i].CharMaxLength.Int64
case dbCols[i].NumericPrecision.Valid:
colLength = &dbCols[i].NumericPrecision.Int64
case dbCols[i].DateTimePrecision.Valid:
colLength = &dbCols[i].DateTimePrecision.Int64
}
if colLength != nil {
cols[i].ColumnType = fmt.Sprintf("%s(%v)", dbCols[i].DataType, *colLength)
} else {
cols[i].ColumnType = dbCols[i].DataType
}
for _, dbConstraint := range dbConstraints {
if dbCols[i].ColumnName == dbConstraint.ColumnName {
if dbConstraint.ConstraintType == "PRIMARY KEY" {
cols[i].PrimaryKey = true
break
}
}
}
}
tblMeta.Columns = cols
return tblMeta, nil
}
// getAllTables returns all of the table names, and the table types
// (i.e. "BASE TABLE" or "VIEW").
func getAllTables(ctx context.Context, db sqlz.DB) (tblNames, tblTypes []string, err error) {
log := lg.FromContext(ctx)
const query = `SELECT TABLE_NAME, TABLE_TYPE FROM INFORMATION_SCHEMA.TABLES
WHERE TABLE_TYPE='BASE TABLE' OR TABLE_TYPE='VIEW'
ORDER BY TABLE_NAME ASC, TABLE_TYPE ASC`
rows, err := db.QueryContext(ctx, query)
if err != nil {
return nil, nil, err
}
defer lg.WarnIfCloseError(log, lgm.CloseDBRows, rows)
for rows.Next() {
var tblName, tblType string
err = rows.Scan(&tblName, &tblType)
if err != nil {
return nil, nil, errz.Err(err)
}
tblNames = append(tblNames, tblName)
tblTypes = append(tblTypes, tblType)
}
if rows.Err() != nil {
return nil, nil, errz.Err(rows.Err())
}
return tblNames, tblTypes, nil
}
func getColumnMeta(ctx context.Context, db sqlz.DB, tblCatalog, tblSchema, tblName string) ([]columnMeta, error) {
log := lg.FromContext(ctx)
// TODO: sq doesn't use all of these columns, no need to select them all.
const query = `SELECT
TABLE_CATALOG, TABLE_SCHEMA, TABLE_NAME,
COLUMN_NAME, ORDINAL_POSITION, COLUMN_DEFAULT, IS_NULLABLE, DATA_TYPE,
CHARACTER_MAXIMUM_LENGTH, CHARACTER_OCTET_LENGTH,
NUMERIC_PRECISION, NUMERIC_PRECISION_RADIX, NUMERIC_SCALE,
DATETIME_PRECISION,
CHARACTER_SET_CATALOG, CHARACTER_SET_SCHEMA, CHARACTER_SET_NAME,
COLLATION_CATALOG, COLLATION_SCHEMA, COLLATION_NAME,
DOMAIN_CATALOG, DOMAIN_SCHEMA, DOMAIN_NAME
FROM INFORMATION_SCHEMA.COLUMNS
WHERE TABLE_CATALOG = @p1 AND TABLE_SCHEMA = @p2 AND TABLE_NAME = @p3`
rows, err := db.QueryContext(ctx, query, tblCatalog, tblSchema, tblName)
if err != nil {
return nil, errz.Err(err)
}
defer lg.WarnIfCloseError(log, lgm.CloseDBRows, rows)
var cols []columnMeta
for rows.Next() {
c := columnMeta{}
err = rows.Scan(&c.TableCatalog, &c.TableSchema, &c.TableName, &c.ColumnName, &c.OrdinalPosition,
&c.ColumnDefault, &c.Nullable, &c.DataType, &c.CharMaxLength, &c.CharOctetLength, &c.NumericPrecision,
&c.NumericPrecisionRadix, &c.NumericScale, &c.DateTimePrecision, &c.CharSetCatalog, &c.CharSetSchema,
&c.CharSetName, &c.CollationCatalog, &c.CollationSchema, &c.CollationName, &c.DomainCatalog,
&c.DomainSchema, &c.DomainName)
if err != nil {
return nil, errz.Err(err)
}
cols = append(cols, c)
}
if err = rows.Err(); err != nil {
return nil, errz.Err(err)
}
return cols, nil
}
func getConstraints(ctx context.Context, db sqlz.DB, tblCatalog, tblSchema, tblName string) ([]constraintMeta, error) {
log := lg.FromContext(ctx)
const query = `SELECT kcu.TABLE_CATALOG, kcu.TABLE_SCHEMA, kcu.TABLE_NAME, tc.CONSTRAINT_TYPE,
kcu.COLUMN_NAME, kcu.CONSTRAINT_NAME
FROM INFORMATION_SCHEMA.TABLE_CONSTRAINTS AS tc
JOIN INFORMATION_SCHEMA.KEY_COLUMN_USAGE AS kcu
ON tc.TABLE_NAME = kcu.TABLE_NAME
AND tc.CONSTRAINT_CATALOG = kcu.CONSTRAINT_CATALOG
AND tc.CONSTRAINT_SCHEMA = kcu.CONSTRAINT_SCHEMA
AND tc.CONSTRAINT_NAME = kcu.CONSTRAINT_NAME
WHERE tc.TABLE_CATALOG = @p1 AND tc.TABLE_SCHEMA = @p2 AND tc.TABLE_NAME = @p3
ORDER BY kcu.TABLE_NAME, tc.CONSTRAINT_TYPE, kcu.CONSTRAINT_NAME`
rows, err := db.QueryContext(ctx, query, tblCatalog, tblSchema, tblName)
if err != nil {
return nil, errz.Err(err)
}
defer lg.WarnIfCloseError(log, lgm.CloseDBRows, rows)
var constraints []constraintMeta
for rows.Next() {
c := constraintMeta{}
err = rows.Scan(&c.TableCatalog, &c.TableSchema, &c.TableName, &c.ConstraintType, &c.ColumnName,
&c.ConstraintName)
if err != nil {
return nil, errz.Err(err)
}
constraints = append(constraints, c)
}
if err = rows.Err(); err != nil {
return nil, errz.Err(err)
}
return constraints, nil
}
// constraintMeta models constraint metadata from information schema.
type constraintMeta struct {
TableCatalog string `db:"TABLE_CATALOG"`
TableSchema string `db:"TABLE_SCHEMA"`
TableName string `db:"TABLE_NAME"`
ConstraintType string `db:"CONSTRAINT_TYPE"`
ColumnName string `db:"COLUMN_NAME"`
ConstraintName string `db:"CONSTRAINT_NAME"`
}
// columnMeta models column metadata from information schema.
type columnMeta struct {
TableCatalog string `db:"TABLE_CATALOG"`
TableSchema string `db:"TABLE_SCHEMA"`
TableName string `db:"TABLE_NAME"`
ColumnName string `db:"COLUMN_NAME"`
OrdinalPosition int64 `db:"ORDINAL_POSITION"`
ColumnDefault sql.NullString `db:"COLUMN_DEFAULT"`
Nullable sqlz.NullBool `db:"IS_NULLABLE"`
DataType string `db:"DATA_TYPE"`
CharMaxLength sql.NullInt64 `db:"CHARACTER_MAXIMUM_LENGTH"`
CharOctetLength sql.NullString `db:"CHARACTER_OCTET_LENGTH"`
NumericPrecision sql.NullInt64 `db:"NUMERIC_PRECISION"`
NumericPrecisionRadix sql.NullInt64 `db:"NUMERIC_PRECISION_RADIX"`
NumericScale sql.NullInt64 `db:"NUMERIC_SCALE"`
DateTimePrecision sql.NullInt64 `db:"DATETIME_PRECISION"`
CharSetCatalog sql.NullString `db:"CHARACTER_SET_CATALOG"`
CharSetSchema sql.NullString `db:"CHARACTER_SET_SCHEMA"`
CharSetName sql.NullString `db:"CHARACTER_SET_NAME"`
CollationCatalog sql.NullString `db:"COLLATION_CATALOG"`
CollationSchema sql.NullString `db:"COLLATION_SCHEMA"`
CollationName sql.NullString `db:"COLLATION_NAME"`
DomainCatalog sql.NullString `db:"DOMAIN_CATALOG"`
DomainSchema sql.NullString `db:"DOMAIN_SCHEMA"`
DomainName sql.NullString `db:"DOMAIN_NAME"`
}