gorm/main.go

559 lines
14 KiB
Go

package gorm
import (
"database/sql"
"errors"
"fmt"
"reflect"
"strings"
"time"
)
// NowFunc returns current time, this function is exported in order to be able
// to give the flexibility to the developer to customize it according to their
// needs
//
// e.g: return time.Now().UTC()
//
var NowFunc = func() time.Time {
return time.Now()
}
type DB struct {
Value interface{}
Error error
RowsAffected int64
callbacks *Callback
db sqlCommon
parent *DB
search *search
logMode int
logger logger
dialect Dialect
singularTable bool
source string
values map[string]interface{}
joinTableHandlers map[string]JoinTableHandler
}
func Open(dialect string, args ...interface{}) (*DB, error) {
var db DB
var err error
if len(args) == 0 {
err = errors.New("invalid database source")
} else {
var source string
var dbSql sqlCommon
switch value := args[0].(type) {
case string:
var driver = dialect
if len(args) == 1 {
source = value
} else if len(args) >= 2 {
driver = value
source = args[1].(string)
}
if driver == "foundation" {
driver = "postgres" // FoundationDB speaks a postgres-compatible protocol.
}
dbSql, err = sql.Open(driver, source)
case sqlCommon:
source = reflect.Indirect(reflect.ValueOf(value)).FieldByName("dsn").String()
dbSql = value
}
db = DB{
dialect: NewDialect(dialect),
logger: defaultLogger,
callbacks: defaultCallback,
source: source,
values: map[string]interface{}{},
db: dbSql,
}
db.parent = &db
if err == nil {
err = db.DB().Ping() // Send a ping to make sure the database connection is alive.
}
}
return &db, err
}
func (s *DB) Close() error {
return s.parent.db.(*sql.DB).Close()
}
func (s *DB) DB() *sql.DB {
return s.db.(*sql.DB)
}
func (s *DB) New() *DB {
clone := s.clone()
clone.search = nil
clone.Value = nil
return clone
}
// NewScope create scope for callbacks, including DB's search information
func (s *DB) NewScope(value interface{}) *Scope {
dbClone := s.clone()
dbClone.Value = value
return &Scope{db: dbClone, Search: dbClone.search.clone(), Value: value}
}
// CommonDB Return the underlying sql.DB or sql.Tx instance.
// Use of this method is discouraged. It's mainly intended to allow
// coexistence with legacy non-GORM code.
func (s *DB) CommonDB() sqlCommon {
return s.db
}
func (s *DB) Callback() *Callback {
s.parent.callbacks = s.parent.callbacks.clone()
return s.parent.callbacks
}
func (s *DB) SetLogger(l logger) {
s.logger = l
}
func (s *DB) LogMode(enable bool) *DB {
if enable {
s.logMode = 2
} else {
s.logMode = 1
}
return s
}
func (s *DB) SingularTable(enable bool) {
modelStructsMap = newModelStructsMap()
s.parent.singularTable = enable
}
func (s *DB) Where(query interface{}, args ...interface{}) *DB {
return s.clone().search.Where(query, args...).db
}
func (s *DB) Or(query interface{}, args ...interface{}) *DB {
return s.clone().search.Or(query, args...).db
}
func (s *DB) Not(query interface{}, args ...interface{}) *DB {
return s.clone().search.Not(query, args...).db
}
func (s *DB) Limit(limit int) *DB {
return s.clone().search.Limit(limit).db
}
func (s *DB) Offset(offset int) *DB {
return s.clone().search.Offset(offset).db
}
func (s *DB) Order(value string, reorder ...bool) *DB {
return s.clone().search.Order(value, reorder...).db
}
func (s *DB) Select(query interface{}, args ...interface{}) *DB {
return s.clone().search.Select(query, args...).db
}
func (s *DB) Omit(columns ...string) *DB {
return s.clone().search.Omit(columns...).db
}
func (s *DB) Group(query string) *DB {
return s.clone().search.Group(query).db
}
func (s *DB) Having(query string, values ...interface{}) *DB {
return s.clone().search.Having(query, values...).db
}
func (s *DB) Joins(query string) *DB {
return s.clone().search.Joins(query).db
}
func (s *DB) Scopes(funcs ...func(*DB) *DB) *DB {
for _, f := range funcs {
s = f(s)
}
return s
}
func (s *DB) Unscoped() *DB {
return s.clone().search.unscoped().db
}
func (s *DB) Attrs(attrs ...interface{}) *DB {
return s.clone().search.Attrs(attrs...).db
}
func (s *DB) Assign(attrs ...interface{}) *DB {
return s.clone().search.Assign(attrs...).db
}
func (s *DB) First(out interface{}, where ...interface{}) *DB {
newScope := s.clone().NewScope(out)
newScope.Search.Limit(1)
return newScope.Set("gorm:order_by_primary_key", "ASC").
inlineCondition(where...).callCallbacks(s.parent.callbacks.queries).db
}
func (s *DB) Last(out interface{}, where ...interface{}) *DB {
newScope := s.clone().NewScope(out)
newScope.Search.Limit(1)
return newScope.Set("gorm:order_by_primary_key", "DESC").
inlineCondition(where...).callCallbacks(s.parent.callbacks.queries).db
}
func (s *DB) Find(out interface{}, where ...interface{}) *DB {
return s.clone().NewScope(out).inlineCondition(where...).callCallbacks(s.parent.callbacks.queries).db
}
func (s *DB) Scan(dest interface{}) *DB {
return s.clone().NewScope(s.Value).Set("gorm:query_destination", dest).callCallbacks(s.parent.callbacks.queries).db
}
func (s *DB) Row() *sql.Row {
return s.NewScope(s.Value).row()
}
func (s *DB) Rows() (*sql.Rows, error) {
return s.NewScope(s.Value).rows()
}
func (s *DB) Pluck(column string, value interface{}) *DB {
return s.NewScope(s.Value).pluck(column, value).db
}
func (s *DB) Count(value interface{}) *DB {
return s.NewScope(s.Value).count(value).db
}
func (s *DB) Related(value interface{}, foreignKeys ...string) *DB {
return s.clone().NewScope(s.Value).related(value, foreignKeys...).db
}
func (s *DB) FirstOrInit(out interface{}, where ...interface{}) *DB {
c := s.clone()
if result := c.First(out, where...); result.Error != nil {
if !result.RecordNotFound() {
return result
}
c.NewScope(out).inlineCondition(where...).initialize()
} else {
c.NewScope(out).updatedAttrsWithValues(convertInterfaceToMap(c.search.assignAttrs), false)
}
return c
}
func (s *DB) FirstOrCreate(out interface{}, where ...interface{}) *DB {
c := s.clone()
if result := c.First(out, where...); result.Error != nil {
if !result.RecordNotFound() {
return result
}
c.AddError(c.NewScope(out).inlineCondition(where...).initialize().callCallbacks(c.parent.callbacks.creates).db.Error)
} else if len(c.search.assignAttrs) > 0 {
c.AddError(c.NewScope(out).InstanceSet("gorm:update_interface", c.search.assignAttrs).callCallbacks(c.parent.callbacks.updates).db.Error)
}
return c
}
func (s *DB) Update(attrs ...interface{}) *DB {
return s.Updates(toSearchableMap(attrs...), true)
}
func (s *DB) Updates(values interface{}, ignoreProtectedAttrs ...bool) *DB {
return s.clone().NewScope(s.Value).
Set("gorm:ignore_protected_attrs", len(ignoreProtectedAttrs) > 0).
InstanceSet("gorm:update_interface", values).
callCallbacks(s.parent.callbacks.updates).db
}
func (s *DB) UpdateColumn(attrs ...interface{}) *DB {
return s.UpdateColumns(toSearchableMap(attrs...))
}
func (s *DB) UpdateColumns(values interface{}) *DB {
return s.clone().NewScope(s.Value).
Set("gorm:update_column", true).
Set("gorm:save_associations", false).
InstanceSet("gorm:update_interface", values).
callCallbacks(s.parent.callbacks.updates).db
}
func (s *DB) Save(value interface{}) *DB {
scope := s.clone().NewScope(value)
if scope.PrimaryKeyZero() {
return scope.callCallbacks(s.parent.callbacks.creates).db
}
return scope.callCallbacks(s.parent.callbacks.updates).db
}
func (s *DB) Create(value interface{}) *DB {
scope := s.clone().NewScope(value)
return scope.callCallbacks(s.parent.callbacks.creates).db
}
func (s *DB) Delete(value interface{}, where ...interface{}) *DB {
return s.clone().NewScope(value).inlineCondition(where...).callCallbacks(s.parent.callbacks.deletes).db
}
func (s *DB) Raw(sql string, values ...interface{}) *DB {
return s.clone().search.Raw(true).Where(sql, values...).db
}
func (s *DB) Exec(sql string, values ...interface{}) *DB {
scope := s.clone().NewScope(nil)
generatedSQL := scope.buildWhereCondition(map[string]interface{}{"query": sql, "args": values})
generatedSQL = strings.TrimSuffix(strings.TrimPrefix(generatedSQL, "("), ")")
scope.Raw(generatedSQL)
return scope.Exec().db
}
func (s *DB) Model(value interface{}) *DB {
c := s.clone()
c.Value = value
return c
}
func (s *DB) Table(name string) *DB {
clone := s.clone()
clone.search.Table(name)
clone.Value = nil
return clone
}
func (s *DB) Debug() *DB {
return s.clone().LogMode(true)
}
func (s *DB) Begin() *DB {
c := s.clone()
if db, ok := c.db.(sqlDb); ok {
tx, err := db.Begin()
c.db = interface{}(tx).(sqlCommon)
c.AddError(err)
} else {
c.AddError(CantStartTransaction)
}
return c
}
func (s *DB) Commit() *DB {
if db, ok := s.db.(sqlTx); ok {
s.AddError(db.Commit())
} else {
s.AddError(NoValidTransaction)
}
return s
}
func (s *DB) Rollback() *DB {
if db, ok := s.db.(sqlTx); ok {
s.AddError(db.Rollback())
} else {
s.AddError(NoValidTransaction)
}
return s
}
func (s *DB) NewRecord(value interface{}) bool {
return s.clone().NewScope(value).PrimaryKeyZero()
}
func (s *DB) RecordNotFound() bool {
return s.Error == RecordNotFound
}
// CreateTable create table for models
func (s *DB) CreateTable(models ...interface{}) *DB {
db := s.clone()
for _, model := range models {
db = db.NewScope(model).createTable().db
}
return db
}
// DropTable drop table for models
func (s *DB) DropTable(values ...interface{}) *DB {
db := s.clone()
for _, value := range values {
if tableName, ok := value.(string); ok {
db = db.Table(tableName)
}
db = db.NewScope(value).dropTable().db
}
return db
}
// DropTableIfExists drop table for models only when it exists
func (s *DB) DropTableIfExists(values ...interface{}) *DB {
db := s.clone()
for _, value := range values {
if tableName, ok := value.(string); ok {
db = db.Table(tableName)
}
db = db.NewScope(value).dropTableIfExists().db
}
return db
}
func (s *DB) HasTable(value interface{}) bool {
scope := s.clone().NewScope(value)
tableName := scope.TableName()
has := scope.Dialect().HasTable(scope, tableName)
s.AddError(scope.db.Error)
return has
}
func (s *DB) AutoMigrate(values ...interface{}) *DB {
db := s.clone()
for _, value := range values {
db = db.NewScope(value).autoMigrate().db
}
return db
}
func (s *DB) ModifyColumn(column string, typ string) *DB {
scope := s.clone().NewScope(s.Value)
scope.modifyColumn(column, typ)
return scope.db
}
func (s *DB) DropColumn(column string) *DB {
scope := s.clone().NewScope(s.Value)
scope.dropColumn(column)
return scope.db
}
func (s *DB) AddIndex(indexName string, column ...string) *DB {
scope := s.Unscoped().NewScope(s.Value)
scope.addIndex(false, indexName, column...)
return scope.db
}
func (s *DB) AddUniqueIndex(indexName string, column ...string) *DB {
scope := s.clone().NewScope(s.Value)
scope.addIndex(true, indexName, column...)
return scope.db
}
func (s *DB) RemoveIndex(indexName string) *DB {
scope := s.clone().NewScope(s.Value)
scope.removeIndex(indexName)
return scope.db
}
func (s *DB) CurrentDatabase() string {
var (
scope = s.clone().NewScope(s.Value)
name = s.dialect.CurrentDatabase(scope)
)
return name
}
// AddForeignKey Add foreign key to the given scope
// Example: db.Model(&User{}).AddForeignKey("city_id", "cities(id)", "RESTRICT", "RESTRICT")
func (s *DB) AddForeignKey(field string, dest string, onDelete string, onUpdate string) *DB {
scope := s.clone().NewScope(s.Value)
scope.addForeignKey(field, dest, onDelete, onUpdate)
return scope.db
}
func (s *DB) Association(column string) *Association {
var err error
scope := s.clone().NewScope(s.Value)
if primaryField := scope.PrimaryField(); primaryField.IsBlank {
err = errors.New("primary key can't be nil")
} else {
if field, ok := scope.FieldByName(column); ok {
if field.Relationship == nil || len(field.Relationship.ForeignFieldNames) == 0 {
err = fmt.Errorf("invalid association %v for %v", column, scope.IndirectValue().Type())
} else {
return &Association{scope: scope, column: column, field: field}
}
} else {
err = fmt.Errorf("%v doesn't have column %v", scope.IndirectValue().Type(), column)
}
}
return &Association{Error: err}
}
func (s *DB) Preload(column string, conditions ...interface{}) *DB {
return s.clone().search.Preload(column, conditions...).db
}
// Set set value by name
func (s *DB) Set(name string, value interface{}) *DB {
return s.clone().InstantSet(name, value)
}
func (s *DB) InstantSet(name string, value interface{}) *DB {
s.values[name] = value
return s
}
// Get get value by name
func (s *DB) Get(name string) (value interface{}, ok bool) {
value, ok = s.values[name]
return
}
func (s *DB) SetJoinTableHandler(source interface{}, column string, handler JoinTableHandlerInterface) {
scope := s.NewScope(source)
for _, field := range scope.GetModelStruct().StructFields {
if field.Name == column || field.DBName == column {
if many2many := field.TagSettings["MANY2MANY"]; many2many != "" {
source := (&Scope{Value: source}).GetModelStruct().ModelType
destination := (&Scope{Value: reflect.New(field.Struct.Type).Interface()}).GetModelStruct().ModelType
handler.Setup(field.Relationship, many2many, source, destination)
field.Relationship.JoinTableHandler = handler
if table := handler.Table(s); scope.Dialect().HasTable(scope, table) {
s.Table(table).AutoMigrate(handler)
}
}
}
}
}
func (s *DB) AddError(err error) error {
if err != nil {
if err != RecordNotFound {
if s.logMode == 0 {
go s.print(fileWithLineNum(), err)
} else {
s.log(err)
}
errors := Errors{errors: s.GetErrors()}
errors.Add(err)
if len(errors.GetErrors()) > 1 {
err = errors
}
}
s.Error = err
}
return err
}
func (s *DB) GetErrors() (errors []error) {
if errs, ok := s.Error.(errorsInterface); ok {
return errs.GetErrors()
} else if s.Error != nil {
return []error{s.Error}
}
return
}