package gorm_test import ( "database/sql" "database/sql/driver" "errors" "fmt" "reflect" "testing" "time" "github.com/jinzhu/gorm" ) type User struct { Id int64 Age int64 UserNum Num Name string `sql:"size:255"` Email string Birthday time.Time // Time CreatedAt time.Time // CreatedAt: Time of record is created, will be insert automatically UpdatedAt time.Time // UpdatedAt: Time of record is updated, will be updated automatically Emails []Email // Embedded structs BillingAddress Address // Embedded struct BillingAddressID sql.NullInt64 // Embedded struct's foreign key ShippingAddress Address // Embedded struct ShippingAddressId int64 // Embedded struct's foreign key CreditCard CreditCard Latitude float64 Languages []Language `gorm:"many2many:user_languages;"` CompanyID *int Company Company Role PasswordHash []byte Sequence uint `gorm:"AUTO_INCREMENT"` IgnoreMe int64 `sql:"-"` IgnoreStringSlice []string `sql:"-"` Ignored struct{ Name string } `sql:"-"` IgnoredPointer *User `sql:"-"` } type NotSoLongTableName struct { Id int64 ReallyLongThingID int64 ReallyLongThing ReallyLongTableNameToTestMySQLNameLengthLimit } type ReallyLongTableNameToTestMySQLNameLengthLimit struct { Id int64 } type ReallyLongThingThatReferencesShort struct { Id int64 ShortID int64 Short Short } type Short struct { Id int64 } type CreditCard struct { ID int8 Number string UserId sql.NullInt64 CreatedAt time.Time `sql:"not null"` UpdatedAt time.Time DeletedAt *time.Time } type Email struct { Id int16 UserId int Email string `sql:"type:varchar(100);"` CreatedAt time.Time UpdatedAt time.Time } type Address struct { ID int Address1 string Address2 string Post string CreatedAt time.Time UpdatedAt time.Time DeletedAt *time.Time } type Language struct { gorm.Model Name string Users []User `gorm:"many2many:user_languages;"` } type Product struct { Id int64 Code string Price int64 CreatedAt time.Time UpdatedAt time.Time AfterFindCallTimes int64 BeforeCreateCallTimes int64 AfterCreateCallTimes int64 BeforeUpdateCallTimes int64 AfterUpdateCallTimes int64 BeforeSaveCallTimes int64 AfterSaveCallTimes int64 BeforeDeleteCallTimes int64 AfterDeleteCallTimes int64 } type Company struct { Id int64 Name string Owner *User `sql:"-"` } type Role struct { Name string } func (role *Role) Scan(value interface{}) error { if b, ok := value.([]uint8); ok { role.Name = string(b) } else { role.Name = value.(string) } return nil } func (role Role) Value() (driver.Value, error) { return role.Name, nil } func (role Role) IsAdmin() bool { return role.Name == "admin" } type Num int64 func (i *Num) Scan(src interface{}) error { switch s := src.(type) { case []byte: case int64: *i = Num(s) default: return errors.New("Cannot scan NamedInt from " + reflect.ValueOf(src).String()) } return nil } type Animal struct { Counter uint64 `gorm:"primary_key:yes"` Name string `sql:"DEFAULT:'galeone'"` From string //test reserved sql keyword as field name Age time.Time `sql:"DEFAULT:current_timestamp"` unexported string // unexported value CreatedAt time.Time UpdatedAt time.Time } type JoinTable struct { From uint64 To uint64 Time time.Time `sql:"default: null"` } type Post struct { Id int64 CategoryId sql.NullInt64 MainCategoryId int64 Title string Body string Comments []*Comment Category Category MainCategory Category } type Category struct { gorm.Model Name string } type Comment struct { gorm.Model PostId int64 Content string Post Post } // Scanner type NullValue struct { Id int64 Name sql.NullString `sql:"not null"` Gender *sql.NullString `sql:"not null"` Age sql.NullInt64 Male sql.NullBool Height sql.NullFloat64 AddedAt NullTime } type NullTime struct { Time time.Time Valid bool } func (nt *NullTime) Scan(value interface{}) error { if value == nil { nt.Valid = false return nil } nt.Time, nt.Valid = value.(time.Time), true return nil } func (nt NullTime) Value() (driver.Value, error) { if !nt.Valid { return nil, nil } return nt.Time, nil } func getPreparedUser(name string, role string) *User { var company Company DB.Where(Company{Name: role}).FirstOrCreate(&company) return &User{ Name: name, Age: 20, Role: Role{role}, BillingAddress: Address{Address1: fmt.Sprintf("Billing Address %v", name)}, ShippingAddress: Address{Address1: fmt.Sprintf("Shipping Address %v", name)}, CreditCard: CreditCard{Number: fmt.Sprintf("123456%v", name)}, Emails: []Email{ {Email: fmt.Sprintf("user_%v@example1.com", name)}, {Email: fmt.Sprintf("user_%v@example2.com", name)}, }, Company: company, Languages: []Language{ {Name: fmt.Sprintf("lang_1_%v", name)}, {Name: fmt.Sprintf("lang_2_%v", name)}, }, } } func runMigration() { if err := DB.DropTableIfExists(&User{}).Error; err != nil { fmt.Printf("Got error when try to delete table users, %+v\n", err) } for _, table := range []string{"animals", "user_languages"} { DB.Exec(fmt.Sprintf("drop table %v;", table)) } values := []interface{}{&Short{}, &ReallyLongThingThatReferencesShort{}, &ReallyLongTableNameToTestMySQLNameLengthLimit{}, &NotSoLongTableName{}, &Product{}, &Email{}, &Address{}, &CreditCard{}, &Company{}, &Role{}, &Language{}, &HNPost{}, &EngadgetPost{}, &Animal{}, &User{}, &JoinTable{}, &Post{}, &Category{}, &Comment{}, &Cat{}, &Dog{}, &Toy{}} for _, value := range values { DB.DropTable(value) } if err := DB.AutoMigrate(values...).Error; err != nil { panic(fmt.Sprintf("No error should happen when create table, but got %+v", err)) } } func TestIndexes(t *testing.T) { if err := DB.Model(&Email{}).AddIndex("idx_email_email", "email").Error; err != nil { t.Errorf("Got error when tried to create index: %+v", err) } scope := DB.NewScope(&Email{}) if !scope.Dialect().HasIndex(scope.TableName(), "idx_email_email") { t.Errorf("Email should have index idx_email_email") } if err := DB.Model(&Email{}).RemoveIndex("idx_email_email").Error; err != nil { t.Errorf("Got error when tried to remove index: %+v", err) } if scope.Dialect().HasIndex(scope.TableName(), "idx_email_email") { t.Errorf("Email's index idx_email_email should be deleted") } if err := DB.Model(&Email{}).AddIndex("idx_email_email_and_user_id", "user_id", "email").Error; err != nil { t.Errorf("Got error when tried to create index: %+v", err) } if !scope.Dialect().HasIndex(scope.TableName(), "idx_email_email_and_user_id") { t.Errorf("Email should have index idx_email_email_and_user_id") } if err := DB.Model(&Email{}).RemoveIndex("idx_email_email_and_user_id").Error; err != nil { t.Errorf("Got error when tried to remove index: %+v", err) } if scope.Dialect().HasIndex(scope.TableName(), "idx_email_email_and_user_id") { t.Errorf("Email's index idx_email_email_and_user_id should be deleted") } if err := DB.Model(&Email{}).AddUniqueIndex("idx_email_email_and_user_id", "user_id", "email").Error; err != nil { t.Errorf("Got error when tried to create index: %+v", err) } if !scope.Dialect().HasIndex(scope.TableName(), "idx_email_email_and_user_id") { t.Errorf("Email should have index idx_email_email_and_user_id") } if DB.Save(&User{Name: "unique_indexes", Emails: []Email{{Email: "user1@example.comiii"}, {Email: "user1@example.com"}, {Email: "user1@example.com"}}}).Error == nil { t.Errorf("Should get to create duplicate record when having unique index") } var user = User{Name: "sample_user"} DB.Save(&user) if DB.Model(&user).Association("Emails").Append(Email{Email: "not-1duplicated@gmail.com"}, Email{Email: "not-duplicated2@gmail.com"}).Error != nil { t.Errorf("Should get no error when append two emails for user") } if DB.Model(&user).Association("Emails").Append(Email{Email: "duplicated@gmail.com"}, Email{Email: "duplicated@gmail.com"}).Error == nil { t.Errorf("Should get no duplicated email error when insert duplicated emails for a user") } if err := DB.Model(&Email{}).RemoveIndex("idx_email_email_and_user_id").Error; err != nil { t.Errorf("Got error when tried to remove index: %+v", err) } if scope.Dialect().HasIndex(scope.TableName(), "idx_email_email_and_user_id") { t.Errorf("Email's index idx_email_email_and_user_id should be deleted") } if DB.Save(&User{Name: "unique_indexes", Emails: []Email{{Email: "user1@example.com"}, {Email: "user1@example.com"}}}).Error != nil { t.Errorf("Should be able to create duplicated emails after remove unique index") } } type BigEmail struct { Id int64 UserId int64 Email string `sql:"index:idx_email_agent"` UserAgent string `sql:"index:idx_email_agent"` RegisteredAt time.Time `sql:"unique_index"` CreatedAt time.Time UpdatedAt time.Time } func (b BigEmail) TableName() string { return "emails" } func TestAutoMigration(t *testing.T) { DB.AutoMigrate(&Address{}) if err := DB.Table("emails").AutoMigrate(&BigEmail{}).Error; err != nil { t.Errorf("Auto Migrate should not raise any error") } DB.Save(&BigEmail{Email: "jinzhu@example.org", UserAgent: "pc", RegisteredAt: time.Now()}) scope := DB.NewScope(&BigEmail{}) if !scope.Dialect().HasIndex(scope.TableName(), "idx_email_agent") { t.Errorf("Failed to create index") } if !scope.Dialect().HasIndex(scope.TableName(), "uix_emails_registered_at") { t.Errorf("Failed to create index") } var bigemail BigEmail DB.First(&bigemail, "user_agent = ?", "pc") if bigemail.Email != "jinzhu@example.org" || bigemail.UserAgent != "pc" || bigemail.RegisteredAt.IsZero() { t.Error("Big Emails should be saved and fetched correctly") } } type MultipleIndexes struct { ID int64 UserID int64 `sql:"unique_index:uix_multipleindexes_user_name,uix_multipleindexes_user_email;index:idx_multipleindexes_user_other"` Name string `sql:"unique_index:uix_multipleindexes_user_name"` Email string `sql:"unique_index:,uix_multipleindexes_user_email"` Other string `sql:"index:,idx_multipleindexes_user_other"` } func TestMultipleIndexes(t *testing.T) { if err := DB.DropTableIfExists(&MultipleIndexes{}).Error; err != nil { fmt.Printf("Got error when try to delete table multiple_indexes, %+v\n", err) } DB.AutoMigrate(&MultipleIndexes{}) if err := DB.AutoMigrate(&BigEmail{}).Error; err != nil { t.Errorf("Auto Migrate should not raise any error") } DB.Save(&MultipleIndexes{UserID: 1, Name: "jinzhu", Email: "jinzhu@example.org", Other: "foo"}) scope := DB.NewScope(&MultipleIndexes{}) if !scope.Dialect().HasIndex(scope.TableName(), "uix_multipleindexes_user_name") { t.Errorf("Failed to create index") } if !scope.Dialect().HasIndex(scope.TableName(), "uix_multipleindexes_user_email") { t.Errorf("Failed to create index") } if !scope.Dialect().HasIndex(scope.TableName(), "uix_multiple_indexes_email") { t.Errorf("Failed to create index") } if !scope.Dialect().HasIndex(scope.TableName(), "idx_multipleindexes_user_other") { t.Errorf("Failed to create index") } if !scope.Dialect().HasIndex(scope.TableName(), "idx_multiple_indexes_other") { t.Errorf("Failed to create index") } var mutipleIndexes MultipleIndexes DB.First(&mutipleIndexes, "name = ?", "jinzhu") if mutipleIndexes.Email != "jinzhu@example.org" || mutipleIndexes.Name != "jinzhu" { t.Error("MutipleIndexes should be saved and fetched correctly") } // Check unique constraints if err := DB.Save(&MultipleIndexes{UserID: 1, Name: "name1", Email: "jinzhu@example.org", Other: "foo"}).Error; err == nil { t.Error("MultipleIndexes unique index failed") } if err := DB.Save(&MultipleIndexes{UserID: 1, Name: "name1", Email: "foo@example.org", Other: "foo"}).Error; err != nil { t.Error("MultipleIndexes unique index failed") } if err := DB.Save(&MultipleIndexes{UserID: 2, Name: "name1", Email: "jinzhu@example.org", Other: "foo"}).Error; err == nil { t.Error("MultipleIndexes unique index failed") } if err := DB.Save(&MultipleIndexes{UserID: 2, Name: "name1", Email: "foo2@example.org", Other: "foo"}).Error; err != nil { t.Error("MultipleIndexes unique index failed") } }