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migrator.go
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migrator.go
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package postgres
import (
"database/sql"
"fmt"
"regexp"
"strings"
"github.com/jackc/pgx/v5"
"gorm.io/gorm"
"gorm.io/gorm/clause"
"gorm.io/gorm/migrator"
"gorm.io/gorm/schema"
)
// See https://stackoverflow.com/questions/2204058/list-columns-with-indexes-in-postgresql
// Here are some changes:
// - use `LEFT JOIN` instead of `CROSS JOIN`
// - exclude indexes used to support constraints (they are auto-generated)
const indexSql = `
SELECT
ct.relname AS table_name,
ci.relname AS index_name,
i.indisunique AS non_unique,
i.indisprimary AS primary,
a.attname AS column_name
FROM
pg_index i
LEFT JOIN pg_class ct ON ct.oid = i.indrelid
LEFT JOIN pg_class ci ON ci.oid = i.indexrelid
LEFT JOIN pg_attribute a ON a.attrelid = ct.oid
LEFT JOIN pg_constraint con ON con.conindid = i.indexrelid
WHERE
a.attnum = ANY(i.indkey)
AND con.oid IS NULL
AND ct.relkind = 'r'
AND ct.relname = ?
`
var typeAliasMap = map[string][]string{
"int": {"integer"},
"int2": {"smallint"},
"int4": {"integer"},
"int8": {"bigint"},
"smallint": {"int2"},
"integer": {"int4"},
"bigint": {"int8"},
"decimal": {"numeric"},
"numeric": {"decimal"},
"timestamptz": {"timestamp with time zone"},
"timestamp with time zone": {"timestamptz"},
"bool": {"boolean"},
"boolean": {"bool"},
"serial2": {"smallserial"},
"serial4": {"serial"},
"serial8": {"bigserial"},
"varbit": {"bit varying"},
"char": {"character"},
"varchar": {"character varying"},
"float4": {"real"},
"float8": {"double precision"},
"timetz": {"time with time zone"},
}
type Migrator struct {
migrator.Migrator
}
// select querys ignore dryrun
func (m Migrator) queryRaw(sql string, values ...interface{}) (tx *gorm.DB) {
queryTx := m.DB
if m.DB.DryRun {
queryTx = m.DB.Session(&gorm.Session{})
queryTx.DryRun = false
}
return queryTx.Raw(sql, values...)
}
func (m Migrator) CurrentDatabase() (name string) {
m.queryRaw("SELECT CURRENT_DATABASE()").Scan(&name)
return
}
func (m Migrator) BuildIndexOptions(opts []schema.IndexOption, stmt *gorm.Statement) (results []interface{}) {
for _, opt := range opts {
str := stmt.Quote(opt.DBName)
if opt.Expression != "" {
str = opt.Expression
}
if opt.Collate != "" {
str += " COLLATE " + opt.Collate
}
if opt.Sort != "" {
str += " " + opt.Sort
}
results = append(results, clause.Expr{SQL: str})
}
return
}
func (m Migrator) HasIndex(value interface{}, name string) bool {
var count int64
m.RunWithValue(value, func(stmt *gorm.Statement) error {
if stmt.Schema != nil {
if idx := stmt.Schema.LookIndex(name); idx != nil {
name = idx.Name
}
}
currentSchema, curTable := m.CurrentSchema(stmt, stmt.Table)
return m.queryRaw(
"SELECT count(*) FROM pg_indexes WHERE tablename = ? AND indexname = ? AND schemaname = ?", curTable, name, currentSchema,
).Scan(&count).Error
})
return count > 0
}
func (m Migrator) CreateIndex(value interface{}, name string) error {
return m.RunWithValue(value, func(stmt *gorm.Statement) error {
if stmt.Schema != nil {
if idx := stmt.Schema.LookIndex(name); idx != nil {
opts := m.BuildIndexOptions(idx.Fields, stmt)
values := []interface{}{clause.Column{Name: idx.Name}, m.CurrentTable(stmt), opts}
createIndexSQL := "CREATE "
if idx.Class != "" {
createIndexSQL += idx.Class + " "
}
createIndexSQL += "INDEX "
if strings.TrimSpace(strings.ToUpper(idx.Option)) == "CONCURRENTLY" {
createIndexSQL += "CONCURRENTLY "
}
createIndexSQL += "IF NOT EXISTS ? ON ?"
if idx.Type != "" {
createIndexSQL += " USING " + idx.Type + "(?)"
} else {
createIndexSQL += " ?"
}
if idx.Where != "" {
createIndexSQL += " WHERE " + idx.Where
}
err := m.DB.Exec(createIndexSQL, values...).Error
if err != nil {
return err
}
if !m.HasIndex(value, name) {
return fmt.Errorf("failed to create index with name %v", name)
}
return nil
}
}
return fmt.Errorf("failed to create index with name %v", name)
})
}
func (m Migrator) RenameIndex(value interface{}, oldName, newName string) error {
return m.RunWithValue(value, func(stmt *gorm.Statement) error {
return m.DB.Exec(
"ALTER INDEX ? RENAME TO ?",
clause.Column{Name: oldName}, clause.Column{Name: newName},
).Error
})
}
func (m Migrator) DropIndex(value interface{}, name string) error {
return m.RunWithValue(value, func(stmt *gorm.Statement) error {
if stmt.Schema != nil {
if idx := stmt.Schema.LookIndex(name); idx != nil {
name = idx.Name
}
}
return m.DB.Exec("DROP INDEX ?", clause.Column{Name: name}).Error
})
}
func (m Migrator) GetTables() (tableList []string, err error) {
currentSchema, _ := m.CurrentSchema(m.DB.Statement, "")
return tableList, m.queryRaw("SELECT table_name FROM information_schema.tables WHERE table_schema = ? AND table_type = ?", currentSchema, "BASE TABLE").Scan(&tableList).Error
}
func (m Migrator) CreateTable(values ...interface{}) (err error) {
if err = m.Migrator.CreateTable(values...); err != nil {
return
}
for _, value := range m.ReorderModels(values, false) {
if err = m.RunWithValue(value, func(stmt *gorm.Statement) error {
if stmt.Schema != nil {
for _, fieldName := range stmt.Schema.DBNames {
field := stmt.Schema.FieldsByDBName[fieldName]
if field.Comment != "" {
if err := m.DB.Exec(
"COMMENT ON COLUMN ?.? IS ?",
m.CurrentTable(stmt), clause.Column{Name: field.DBName}, gorm.Expr(m.Migrator.Dialector.Explain("$1", field.Comment)),
).Error; err != nil {
return err
}
}
}
}
return nil
}); err != nil {
return
}
}
return
}
func (m Migrator) HasTable(value interface{}) bool {
var count int64
m.RunWithValue(value, func(stmt *gorm.Statement) error {
currentSchema, curTable := m.CurrentSchema(stmt, stmt.Table)
return m.queryRaw("SELECT count(*) FROM information_schema.tables WHERE table_schema = ? AND table_name = ? AND table_type = ?", currentSchema, curTable, "BASE TABLE").Scan(&count).Error
})
return count > 0
}
func (m Migrator) DropTable(values ...interface{}) error {
values = m.ReorderModels(values, false)
tx := m.DB.Session(&gorm.Session{})
for i := len(values) - 1; i >= 0; i-- {
if err := m.RunWithValue(values[i], func(stmt *gorm.Statement) error {
return tx.Exec("DROP TABLE IF EXISTS ? CASCADE", m.CurrentTable(stmt)).Error
}); err != nil {
return err
}
}
return nil
}
func (m Migrator) AddColumn(value interface{}, field string) error {
if err := m.Migrator.AddColumn(value, field); err != nil {
return err
}
m.resetPreparedStmts()
return m.RunWithValue(value, func(stmt *gorm.Statement) error {
if stmt.Schema != nil {
if field := stmt.Schema.LookUpField(field); field != nil {
if field.Comment != "" {
if err := m.DB.Exec(
"COMMENT ON COLUMN ?.? IS ?",
m.CurrentTable(stmt), clause.Column{Name: field.DBName}, gorm.Expr(m.Migrator.Dialector.Explain("$1", field.Comment)),
).Error; err != nil {
return err
}
}
}
}
return nil
})
}
func (m Migrator) HasColumn(value interface{}, field string) bool {
var count int64
m.RunWithValue(value, func(stmt *gorm.Statement) error {
name := field
if stmt.Schema != nil {
if field := stmt.Schema.LookUpField(field); field != nil {
name = field.DBName
}
}
currentSchema, curTable := m.CurrentSchema(stmt, stmt.Table)
return m.queryRaw(
"SELECT count(*) FROM INFORMATION_SCHEMA.columns WHERE table_schema = ? AND table_name = ? AND column_name = ?",
currentSchema, curTable, name,
).Scan(&count).Error
})
return count > 0
}
func (m Migrator) MigrateColumn(value interface{}, field *schema.Field, columnType gorm.ColumnType) error {
// skip primary field
if !field.PrimaryKey {
if err := m.Migrator.MigrateColumn(value, field, columnType); err != nil {
return err
}
}
return m.RunWithValue(value, func(stmt *gorm.Statement) error {
var description string
currentSchema, curTable := m.CurrentSchema(stmt, stmt.Table)
values := []interface{}{currentSchema, curTable, field.DBName, stmt.Table, currentSchema}
checkSQL := "SELECT description FROM pg_catalog.pg_description "
checkSQL += "WHERE objsubid = (SELECT ordinal_position FROM information_schema.columns WHERE table_schema = ? AND table_name = ? AND column_name = ?) "
checkSQL += "AND objoid = (SELECT oid FROM pg_catalog.pg_class WHERE relname = ? AND relnamespace = "
checkSQL += "(SELECT oid FROM pg_catalog.pg_namespace WHERE nspname = ?))"
m.queryRaw(checkSQL, values...).Scan(&description)
comment := strings.Trim(field.Comment, "'")
comment = strings.Trim(comment, `"`)
if field.Comment != "" && comment != description {
if err := m.DB.Exec(
"COMMENT ON COLUMN ?.? IS ?",
m.CurrentTable(stmt), clause.Column{Name: field.DBName}, gorm.Expr(m.Migrator.Dialector.Explain("$1", field.Comment)),
).Error; err != nil {
return err
}
}
return nil
})
}
// AlterColumn alter value's `field` column' type based on schema definition
func (m Migrator) AlterColumn(value interface{}, field string) error {
err := m.RunWithValue(value, func(stmt *gorm.Statement) error {
if stmt.Schema != nil {
if field := stmt.Schema.LookUpField(field); field != nil {
var (
columnTypes, _ = m.DB.Migrator().ColumnTypes(value)
fieldColumnType *migrator.ColumnType
)
for _, columnType := range columnTypes {
if columnType.Name() == field.DBName {
fieldColumnType, _ = columnType.(*migrator.ColumnType)
}
}
fileType := clause.Expr{SQL: m.DataTypeOf(field)}
// check for typeName and SQL name
isSameType := true
if !strings.EqualFold(fieldColumnType.DatabaseTypeName(), fileType.SQL) {
isSameType = false
// if different, also check for aliases
aliases := m.GetTypeAliases(fieldColumnType.DatabaseTypeName())
for _, alias := range aliases {
if strings.HasPrefix(fileType.SQL, alias) {
isSameType = true
break
}
}
}
// not same, migrate
if !isSameType {
filedColumnAutoIncrement, _ := fieldColumnType.AutoIncrement()
if field.AutoIncrement && filedColumnAutoIncrement { // update
serialDatabaseType, _ := getSerialDatabaseType(fileType.SQL)
if t, _ := fieldColumnType.ColumnType(); t != serialDatabaseType {
if err := m.UpdateSequence(m.DB, stmt, field, serialDatabaseType); err != nil {
return err
}
}
} else if field.AutoIncrement && !filedColumnAutoIncrement { // create
serialDatabaseType, _ := getSerialDatabaseType(fileType.SQL)
if err := m.CreateSequence(m.DB, stmt, field, serialDatabaseType); err != nil {
return err
}
} else if !field.AutoIncrement && filedColumnAutoIncrement { // delete
if err := m.DeleteSequence(m.DB, stmt, field, fileType); err != nil {
return err
}
} else {
if err := m.modifyColumn(stmt, field, fileType, fieldColumnType); err != nil {
return err
}
}
}
if null, _ := fieldColumnType.Nullable(); null == field.NotNull {
if field.NotNull {
if err := m.DB.Exec("ALTER TABLE ? ALTER COLUMN ? SET NOT NULL", m.CurrentTable(stmt), clause.Column{Name: field.DBName}).Error; err != nil {
return err
}
} else {
if err := m.DB.Exec("ALTER TABLE ? ALTER COLUMN ? DROP NOT NULL", m.CurrentTable(stmt), clause.Column{Name: field.DBName}).Error; err != nil {
return err
}
}
}
if v, ok := fieldColumnType.DefaultValue(); (field.DefaultValueInterface == nil && ok) || v != field.DefaultValue {
if field.HasDefaultValue && (field.DefaultValueInterface != nil || field.DefaultValue != "") {
if field.DefaultValueInterface != nil {
defaultStmt := &gorm.Statement{Vars: []interface{}{field.DefaultValueInterface}}
m.Dialector.BindVarTo(defaultStmt, defaultStmt, field.DefaultValueInterface)
if err := m.DB.Exec("ALTER TABLE ? ALTER COLUMN ? SET DEFAULT ?", m.CurrentTable(stmt), clause.Column{Name: field.DBName}, clause.Expr{SQL: m.Dialector.Explain(defaultStmt.SQL.String(), field.DefaultValueInterface)}).Error; err != nil {
return err
}
} else if field.DefaultValue != "(-)" {
if err := m.DB.Exec("ALTER TABLE ? ALTER COLUMN ? SET DEFAULT ?", m.CurrentTable(stmt), clause.Column{Name: field.DBName}, clause.Expr{SQL: field.DefaultValue}).Error; err != nil {
return err
}
} else {
if err := m.DB.Exec("ALTER TABLE ? ALTER COLUMN ? DROP DEFAULT", m.CurrentTable(stmt), clause.Column{Name: field.DBName}, clause.Expr{SQL: field.DefaultValue}).Error; err != nil {
return err
}
}
}
}
return nil
}
}
return fmt.Errorf("failed to look up field with name: %s", field)
})
if err != nil {
return err
}
m.resetPreparedStmts()
return nil
}
func (m Migrator) modifyColumn(stmt *gorm.Statement, field *schema.Field, targetType clause.Expr, existingColumn *migrator.ColumnType) error {
alterSQL := "ALTER TABLE ? ALTER COLUMN ? TYPE ? USING ?::?"
isUncastableDefaultValue := false
if targetType.SQL == "boolean" {
switch existingColumn.DatabaseTypeName() {
case "int2", "int8", "numeric":
alterSQL = "ALTER TABLE ? ALTER COLUMN ? TYPE ? USING ?::int::?"
}
isUncastableDefaultValue = true
}
if dv, _ := existingColumn.DefaultValue(); dv != "" && isUncastableDefaultValue {
if err := m.DB.Exec("ALTER TABLE ? ALTER COLUMN ? DROP DEFAULT", m.CurrentTable(stmt), clause.Column{Name: field.DBName}).Error; err != nil {
return err
}
}
if err := m.DB.Exec(alterSQL, m.CurrentTable(stmt), clause.Column{Name: field.DBName}, targetType, clause.Column{Name: field.DBName}, targetType).Error; err != nil {
return err
}
return nil
}
func (m Migrator) HasConstraint(value interface{}, name string) bool {
var count int64
m.RunWithValue(value, func(stmt *gorm.Statement) error {
constraint, table := m.GuessConstraintInterfaceAndTable(stmt, name)
if constraint != nil {
name = constraint.GetName()
}
currentSchema, curTable := m.CurrentSchema(stmt, table)
return m.queryRaw(
"SELECT count(*) FROM INFORMATION_SCHEMA.table_constraints WHERE table_schema = ? AND table_name = ? AND constraint_name = ?",
currentSchema, curTable, name,
).Scan(&count).Error
})
return count > 0
}
func (m Migrator) ColumnTypes(value interface{}) (columnTypes []gorm.ColumnType, err error) {
columnTypes = make([]gorm.ColumnType, 0)
err = m.RunWithValue(value, func(stmt *gorm.Statement) error {
var (
currentDatabase = m.DB.Migrator().CurrentDatabase()
currentSchema, table = m.CurrentSchema(stmt, stmt.Table)
columns, err = m.queryRaw(
"SELECT c.column_name, c.is_nullable = 'YES', c.udt_name, c.character_maximum_length, c.numeric_precision, c.numeric_precision_radix, c.numeric_scale, c.datetime_precision, 8 * typlen, c.column_default, pd.description, c.identity_increment FROM information_schema.columns AS c JOIN pg_type AS pgt ON c.udt_name = pgt.typname LEFT JOIN pg_catalog.pg_description as pd ON pd.objsubid = c.ordinal_position AND pd.objoid = (SELECT oid FROM pg_catalog.pg_class WHERE relname = c.table_name AND relnamespace = (SELECT oid FROM pg_catalog.pg_namespace WHERE nspname = c.table_schema)) where table_catalog = ? AND table_schema = ? AND table_name = ?",
currentDatabase, currentSchema, table).Rows()
)
if err != nil {
return err
}
for columns.Next() {
var (
column = &migrator.ColumnType{
PrimaryKeyValue: sql.NullBool{Valid: true},
UniqueValue: sql.NullBool{Valid: true},
}
datetimePrecision sql.NullInt64
radixValue sql.NullInt64
typeLenValue sql.NullInt64
identityIncrement sql.NullString
)
err = columns.Scan(
&column.NameValue, &column.NullableValue, &column.DataTypeValue, &column.LengthValue, &column.DecimalSizeValue,
&radixValue, &column.ScaleValue, &datetimePrecision, &typeLenValue, &column.DefaultValueValue, &column.CommentValue, &identityIncrement,
)
if err != nil {
return err
}
if typeLenValue.Valid && typeLenValue.Int64 > 0 {
column.LengthValue = typeLenValue
}
if (strings.HasPrefix(column.DefaultValueValue.String, "nextval('") &&
strings.HasSuffix(column.DefaultValueValue.String, "seq'::regclass)")) || (identityIncrement.Valid && identityIncrement.String != "") {
column.AutoIncrementValue = sql.NullBool{Bool: true, Valid: true}
column.DefaultValueValue = sql.NullString{}
}
if column.DefaultValueValue.Valid {
column.DefaultValueValue.String = parseDefaultValueValue(column.DefaultValueValue.String)
}
if datetimePrecision.Valid {
column.DecimalSizeValue = datetimePrecision
}
columnTypes = append(columnTypes, column)
}
columns.Close()
// assign sql column type
{
rows, rowsErr := m.GetRows(currentSchema, table)
if rowsErr != nil {
return rowsErr
}
rawColumnTypes, err := rows.ColumnTypes()
if err != nil {
return err
}
for _, columnType := range columnTypes {
for _, c := range rawColumnTypes {
if c.Name() == columnType.Name() {
columnType.(*migrator.ColumnType).SQLColumnType = c
break
}
}
}
rows.Close()
}
// check primary, unique field
{
columnTypeRows, err := m.queryRaw("SELECT constraint_name FROM information_schema.table_constraints tc JOIN information_schema.constraint_column_usage AS ccu USING (constraint_schema, constraint_catalog, table_name, constraint_name) JOIN information_schema.columns AS c ON c.table_schema = tc.constraint_schema AND tc.table_name = c.table_name AND ccu.column_name = c.column_name WHERE constraint_type IN ('PRIMARY KEY', 'UNIQUE') AND c.table_catalog = ? AND c.table_schema = ? AND c.table_name = ? AND constraint_type = ?", currentDatabase, currentSchema, table, "UNIQUE").Rows()
if err != nil {
return err
}
uniqueContraints := map[string]int{}
for columnTypeRows.Next() {
var constraintName string
columnTypeRows.Scan(&constraintName)
uniqueContraints[constraintName]++
}
columnTypeRows.Close()
columnTypeRows, err = m.queryRaw("SELECT c.column_name, constraint_name, constraint_type FROM information_schema.table_constraints tc JOIN information_schema.constraint_column_usage AS ccu USING (constraint_schema, constraint_catalog, table_name, constraint_name) JOIN information_schema.columns AS c ON c.table_schema = tc.constraint_schema AND tc.table_name = c.table_name AND ccu.column_name = c.column_name WHERE constraint_type IN ('PRIMARY KEY', 'UNIQUE') AND c.table_catalog = ? AND c.table_schema = ? AND c.table_name = ?", currentDatabase, currentSchema, table).Rows()
if err != nil {
return err
}
for columnTypeRows.Next() {
var name, constraintName, columnType string
columnTypeRows.Scan(&name, &constraintName, &columnType)
for _, c := range columnTypes {
mc := c.(*migrator.ColumnType)
if mc.NameValue.String == name {
switch columnType {
case "PRIMARY KEY":
mc.PrimaryKeyValue = sql.NullBool{Bool: true, Valid: true}
case "UNIQUE":
if uniqueContraints[constraintName] == 1 {
mc.UniqueValue = sql.NullBool{Bool: true, Valid: true}
}
}
break
}
}
}
columnTypeRows.Close()
}
// check column type
{
dataTypeRows, err := m.queryRaw(`SELECT a.attname as column_name, format_type(a.atttypid, a.atttypmod) AS data_type
FROM pg_attribute a JOIN pg_class b ON a.attrelid = b.oid AND relnamespace = (SELECT oid FROM pg_catalog.pg_namespace WHERE nspname = ?)
WHERE a.attnum > 0 -- hide internal columns
AND NOT a.attisdropped -- hide deleted columns
AND b.relname = ?`, currentSchema, table).Rows()
if err != nil {
return err
}
for dataTypeRows.Next() {
var name, dataType string
dataTypeRows.Scan(&name, &dataType)
for _, c := range columnTypes {
mc := c.(*migrator.ColumnType)
if mc.NameValue.String == name {
mc.ColumnTypeValue = sql.NullString{String: dataType, Valid: true}
// Handle array type: _text -> text[] , _int4 -> integer[]
// Not support array size limits and array size limits because:
// https://www.postgresql.org/docs/current/arrays.html#ARRAYS-DECLARATION
if strings.HasPrefix(mc.DataTypeValue.String, "_") {
mc.DataTypeValue = sql.NullString{String: dataType, Valid: true}
}
break
}
}
}
dataTypeRows.Close()
}
return err
})
return
}
func (m Migrator) GetRows(currentSchema interface{}, table interface{}) (*sql.Rows, error) {
name := table.(string)
if _, ok := currentSchema.(string); ok {
name = fmt.Sprintf("%v.%v", currentSchema, table)
}
return m.DB.Session(&gorm.Session{}).Table(name).Limit(1).Scopes(func(d *gorm.DB) *gorm.DB {
dialector, _ := m.Dialector.(Dialector)
// use simple protocol
if !m.DB.PrepareStmt && (dialector.Config != nil && (dialector.Config.DriverName == "" || dialector.Config.DriverName == "pgx")) {
d.Statement.Vars = append([]interface{}{pgx.QueryExecModeSimpleProtocol}, d.Statement.Vars...)
}
return d
}).Rows()
}
func (m Migrator) CurrentSchema(stmt *gorm.Statement, table string) (interface{}, interface{}) {
if strings.Contains(table, ".") {
if tables := strings.Split(table, `.`); len(tables) == 2 {
return tables[0], tables[1]
}
}
if stmt.TableExpr != nil {
if tables := strings.Split(stmt.TableExpr.SQL, `"."`); len(tables) == 2 {
return strings.TrimPrefix(tables[0], `"`), table
}
}
return clause.Expr{SQL: "CURRENT_SCHEMA()"}, table
}
func (m Migrator) CreateSequence(tx *gorm.DB, stmt *gorm.Statement, field *schema.Field,
serialDatabaseType string) (err error) {
_, table := m.CurrentSchema(stmt, stmt.Table)
tableName := table.(string)
sequenceName := strings.Join([]string{tableName, field.DBName, "seq"}, "_")
if err = tx.Exec(`CREATE SEQUENCE IF NOT EXISTS ? AS ?`, clause.Expr{SQL: sequenceName},
clause.Expr{SQL: serialDatabaseType}).Error; err != nil {
return err
}
if err := tx.Exec("ALTER TABLE ? ALTER COLUMN ? SET DEFAULT nextval('?')",
clause.Expr{SQL: tableName}, clause.Expr{SQL: field.DBName}, clause.Expr{SQL: sequenceName}).Error; err != nil {
return err
}
if err := tx.Exec("ALTER SEQUENCE ? OWNED BY ?.?",
clause.Expr{SQL: sequenceName}, clause.Expr{SQL: tableName}, clause.Expr{SQL: field.DBName}).Error; err != nil {
return err
}
return
}
func (m Migrator) UpdateSequence(tx *gorm.DB, stmt *gorm.Statement, field *schema.Field,
serialDatabaseType string) (err error) {
sequenceName, err := m.getColumnSequenceName(tx, stmt, field)
if err != nil {
return err
}
if err = tx.Exec(`ALTER SEQUENCE IF EXISTS ? AS ?`, clause.Expr{SQL: sequenceName}, clause.Expr{SQL: serialDatabaseType}).Error; err != nil {
return err
}
if err := tx.Exec("ALTER TABLE ? ALTER COLUMN ? TYPE ?",
m.CurrentTable(stmt), clause.Expr{SQL: field.DBName}, clause.Expr{SQL: serialDatabaseType}).Error; err != nil {
return err
}
return
}
func (m Migrator) DeleteSequence(tx *gorm.DB, stmt *gorm.Statement, field *schema.Field,
fileType clause.Expr) (err error) {
sequenceName, err := m.getColumnSequenceName(tx, stmt, field)
if err != nil {
return err
}
if err := tx.Exec("ALTER TABLE ? ALTER COLUMN ? TYPE ?", m.CurrentTable(stmt), clause.Column{Name: field.DBName}, fileType).Error; err != nil {
return err
}
if err := tx.Exec("ALTER TABLE ? ALTER COLUMN ? DROP DEFAULT",
m.CurrentTable(stmt), clause.Expr{SQL: field.DBName}).Error; err != nil {
return err
}
if err = tx.Exec(`DROP SEQUENCE IF EXISTS ?`, clause.Expr{SQL: sequenceName}).Error; err != nil {
return err
}
return
}
func (m Migrator) getColumnSequenceName(tx *gorm.DB, stmt *gorm.Statement, field *schema.Field) (
sequenceName string, err error) {
_, table := m.CurrentSchema(stmt, stmt.Table)
// DefaultValueValue is reset by ColumnTypes, search again.
var columnDefault string
err = tx.Raw(
`SELECT column_default FROM information_schema.columns WHERE table_name = ? AND column_name = ?`,
table, field.DBName).Scan(&columnDefault).Error
if err != nil {
return
}
sequenceName = strings.TrimSuffix(
strings.TrimPrefix(columnDefault, `nextval('`),
`'::regclass)`,
)
return
}
func (m Migrator) GetIndexes(value interface{}) ([]gorm.Index, error) {
indexes := make([]gorm.Index, 0)
err := m.RunWithValue(value, func(stmt *gorm.Statement) error {
result := make([]*Index, 0)
scanErr := m.queryRaw(indexSql, stmt.Table).Scan(&result).Error
if scanErr != nil {
return scanErr
}
indexMap := groupByIndexName(result)
for _, idx := range indexMap {
tempIdx := &migrator.Index{
TableName: idx[0].TableName,
NameValue: idx[0].IndexName,
PrimaryKeyValue: sql.NullBool{
Bool: idx[0].Primary,
Valid: true,
},
UniqueValue: sql.NullBool{
Bool: idx[0].NonUnique,
Valid: true,
},
}
for _, x := range idx {
tempIdx.ColumnList = append(tempIdx.ColumnList, x.ColumnName)
}
indexes = append(indexes, tempIdx)
}
return nil
})
return indexes, err
}
// Index table index info
type Index struct {
TableName string `gorm:"column:table_name"`
ColumnName string `gorm:"column:column_name"`
IndexName string `gorm:"column:index_name"`
NonUnique bool `gorm:"column:non_unique"`
Primary bool `gorm:"column:primary"`
}
func groupByIndexName(indexList []*Index) map[string][]*Index {
columnIndexMap := make(map[string][]*Index, len(indexList))
for _, idx := range indexList {
columnIndexMap[idx.IndexName] = append(columnIndexMap[idx.IndexName], idx)
}
return columnIndexMap
}
func (m Migrator) GetTypeAliases(databaseTypeName string) []string {
return typeAliasMap[databaseTypeName]
}
// should reset prepared stmts when table changed
func (m Migrator) resetPreparedStmts() {
if m.DB.PrepareStmt {
if pdb, ok := m.DB.ConnPool.(*gorm.PreparedStmtDB); ok {
pdb.Reset()
}
}
}
func (m Migrator) DropColumn(dst interface{}, field string) error {
if err := m.Migrator.DropColumn(dst, field); err != nil {
return err
}
m.resetPreparedStmts()
return nil
}
func (m Migrator) RenameColumn(dst interface{}, oldName, field string) error {
if err := m.Migrator.RenameColumn(dst, oldName, field); err != nil {
return err
}
m.resetPreparedStmts()
return nil
}
func parseDefaultValueValue(defaultValue string) string {
value := regexp.MustCompile(`^(.*?)(?:::.*)?$`).ReplaceAllString(defaultValue, "$1")
return strings.Trim(value, "'")
}