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Starting A Transaction
// GenTx generates group of entities in a transaction.func GenTx(ctx context.Context, client *ent.Client) error {tx, err := client.Tx(ctx)if err != nil {return fmt.Errorf("starting a transaction: %w", err)}hub, err := tx.Group.Create().SetName("Github").Save(ctx)if err != nil {return rollback(tx, fmt.Errorf("failed creating the group: %w", err))}// Create the admin of the group.dan, err := tx.User.Create().SetAge(29).SetName("Dan").AddManage(hub).Save(ctx)if err != nil {return rollback(tx, err)}// Create user "Ariel".a8m, err := tx.User.Create().SetAge(30).SetName("Ariel").AddGroups(hub).AddFriends(dan).Save(ctx)if err != nil {return rollback(tx, err)}fmt.Println(a8m)// Output:// User(id=2, age=30, name=Ariel)// Commit the transaction.return tx.Commit()}// rollback calls to tx.Rollback and wraps the given error// with the rollback error if occurred.func rollback(tx *ent.Tx, err error) error {if rerr := tx.Rollback(); rerr != nil {err = fmt.Errorf("%w: %v", err, rerr)}return err}
The full example exists in GitHub.
Transactional Client
Sometimes, you have an existing code that already works with *ent.Client, and you want to change it (or wrap it) to interact with transactions. For these use cases, you have a transactional client. An *ent.Client that you can get from an existing transaction.
// WrapGen wraps the existing "Gen" function in a transaction.func WrapGen(ctx context.Context, client *ent.Client) error {tx, err := client.Tx(ctx)if err != nil {return err}txClient := tx.Client()// Use the "Gen" below, but give it the transactional client; no code changes to "Gen".if err := Gen(ctx, txClient); err != nil {return rollback(tx, err)}return tx.Commit()}// Gen generates a group of entities.func Gen(ctx context.Context, client *ent.Client) error {// ...return nil}
The full example exists in GitHub.
Best Practices
Reusable function that runs callbacks in a transaction:
func WithTx(ctx context.Context, client *ent.Client, fn func(tx *ent.Tx) error) error {tx, err := client.Tx(ctx)if err != nil {return err}defer func() {if v := recover(); v != nil {tx.Rollback()panic(v)}}()if err := fn(tx); err != nil {if rerr := tx.Rollback(); rerr != nil {err = errors.Wrapf(err, "rolling back transaction: %v", rerr)}return err}if err := tx.Commit(); err != nil {return errors.Wrapf(err, "committing transaction: %v", err)}return nil}
Its usage:
func Do(ctx context.Context, client *ent.Client) {// WithTx helper.if err := WithTx(ctx, client, func(tx *ent.Tx) error {return Gen(ctx, tx.Client())}); err != nil {log.Fatal(err)}}
Hooks
Same as schema hooks and runtime hooks, hooks can be registered on active transactions, and will be executed on Tx.Commit or Tx.Rollback:
func Do(ctx context.Context, client *ent.Client) error {tx, err := client.Tx(ctx)if err != nil {return err}// Add a hook on Tx.Commit.tx.OnCommit(func(next ent.Committer) ent.Committer {return ent.CommitFunc(func(ctx context.Context, tx *ent.Tx) error {// Code before the actual commit.err := next.Commit(ctx, tx)// Code after the transaction was committed.return err})})// Add a hook on Tx.Rollback.tx.OnRollback(func(next ent.Rollbacker) ent.Rollbacker {return ent.RollbackFunc(func(ctx context.Context, tx *ent.Tx) error {// Code before the actual rollback.err := next.Rollback(ctx, tx)// Code after the transaction was rolled back.return err})})//// <Code goes here>//return err}
