// Copyright 2014 Google Inc. All Rights Reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package datastore import ( "errors" "cloud.google.com/go/internal/trace" "golang.org/x/net/context" "google.golang.org/grpc" "google.golang.org/grpc/codes" pb "google.golang.org/genproto/googleapis/datastore/v1" ) // ErrConcurrentTransaction is returned when a transaction is rolled back due // to a conflict with a concurrent transaction. var ErrConcurrentTransaction = errors.New("datastore: concurrent transaction") var errExpiredTransaction = errors.New("datastore: transaction expired") type transactionSettings struct { attempts int readOnly bool prevID []byte // ID of the transaction to retry } // newTransactionSettings creates a transactionSettings with a given TransactionOption slice. // Unconfigured options will be set to default values. func newTransactionSettings(opts []TransactionOption) *transactionSettings { s := &transactionSettings{attempts: 3} for _, o := range opts { o.apply(s) } return s } // TransactionOption configures the way a transaction is executed. type TransactionOption interface { apply(*transactionSettings) } // MaxAttempts returns a TransactionOption that overrides the default 3 attempt times. func MaxAttempts(attempts int) TransactionOption { return maxAttempts(attempts) } type maxAttempts int func (w maxAttempts) apply(s *transactionSettings) { if w > 0 { s.attempts = int(w) } } // ReadOnly is a TransactionOption that marks the transaction as read-only. var ReadOnly TransactionOption func init() { ReadOnly = readOnly{} } type readOnly struct{} func (readOnly) apply(s *transactionSettings) { s.readOnly = true } // Transaction represents a set of datastore operations to be committed atomically. // // Operations are enqueued by calling the Put and Delete methods on Transaction // (or their Multi-equivalents). These operations are only committed when the // Commit method is invoked. To ensure consistency, reads must be performed by // using Transaction's Get method or by using the Transaction method when // building a query. // // A Transaction must be committed or rolled back exactly once. type Transaction struct { id []byte client *Client ctx context.Context mutations []*pb.Mutation // The mutations to apply. pending map[int]*PendingKey // Map from mutation index to incomplete keys pending transaction completion. } // NewTransaction starts a new transaction. func (c *Client) NewTransaction(ctx context.Context, opts ...TransactionOption) (t *Transaction, err error) { ctx = trace.StartSpan(ctx, "cloud.google.com/go/datastore.NewTransaction") defer func() { trace.EndSpan(ctx, err) }() for _, o := range opts { if _, ok := o.(maxAttempts); ok { return nil, errors.New("datastore: NewTransaction does not accept MaxAttempts option") } } return c.newTransaction(ctx, newTransactionSettings(opts)) } func (c *Client) newTransaction(ctx context.Context, s *transactionSettings) (*Transaction, error) { req := &pb.BeginTransactionRequest{ProjectId: c.dataset} if s.readOnly { req.TransactionOptions = &pb.TransactionOptions{ Mode: &pb.TransactionOptions_ReadOnly_{ReadOnly: &pb.TransactionOptions_ReadOnly{}}, } } else if s.prevID != nil { req.TransactionOptions = &pb.TransactionOptions{ Mode: &pb.TransactionOptions_ReadWrite_{ReadWrite: &pb.TransactionOptions_ReadWrite{ PreviousTransaction: s.prevID, }}, } } resp, err := c.client.BeginTransaction(ctx, req) if err != nil { return nil, err } return &Transaction{ id: resp.Transaction, ctx: ctx, client: c, mutations: nil, pending: make(map[int]*PendingKey), }, nil } // RunInTransaction runs f in a transaction. f is invoked with a Transaction // that f should use for all the transaction's datastore operations. // // f must not call Commit or Rollback on the provided Transaction. // // If f returns nil, RunInTransaction commits the transaction, // returning the Commit and a nil error if it succeeds. If the commit fails due // to a conflicting transaction, RunInTransaction retries f with a new // Transaction. It gives up and returns ErrConcurrentTransaction after three // failed attempts (or as configured with MaxAttempts). // // If f returns non-nil, then the transaction will be rolled back and // RunInTransaction will return the same error. The function f is not retried. // // Note that when f returns, the transaction is not committed. Calling code // must not assume that any of f's changes have been committed until // RunInTransaction returns nil. // // Since f may be called multiple times, f should usually be idempotent – that // is, it should have the same result when called multiple times. Note that // Transaction.Get will append when unmarshalling slice fields, so it is not // necessarily idempotent. func (c *Client) RunInTransaction(ctx context.Context, f func(tx *Transaction) error, opts ...TransactionOption) (cmt *Commit, err error) { ctx = trace.StartSpan(ctx, "cloud.google.com/go/datastore.RunInTransaction") defer func() { trace.EndSpan(ctx, err) }() settings := newTransactionSettings(opts) for n := 0; n < settings.attempts; n++ { tx, err := c.newTransaction(ctx, settings) if err != nil { return nil, err } if err := f(tx); err != nil { tx.Rollback() return nil, err } if cmt, err := tx.Commit(); err != ErrConcurrentTransaction { return cmt, err } // Pass this transaction's ID to the retry transaction to preserve // transaction priority. if !settings.readOnly { settings.prevID = tx.id } } return nil, ErrConcurrentTransaction } // Commit applies the enqueued operations atomically. func (t *Transaction) Commit() (c *Commit, err error) { t.ctx = trace.StartSpan(t.ctx, "cloud.google.com/go/datastore.Transaction.Commit") defer func() { trace.EndSpan(t.ctx, err) }() if t.id == nil { return nil, errExpiredTransaction } req := &pb.CommitRequest{ ProjectId: t.client.dataset, TransactionSelector: &pb.CommitRequest_Transaction{Transaction: t.id}, Mutations: t.mutations, Mode: pb.CommitRequest_TRANSACTIONAL, } t.id = nil resp, err := t.client.client.Commit(t.ctx, req) if err != nil { if grpc.Code(err) == codes.Aborted { return nil, ErrConcurrentTransaction } return nil, err } // Copy any newly minted keys into the returned keys. for i, p := range t.pending { if i >= len(resp.MutationResults) || resp.MutationResults[i].Key == nil { return nil, errors.New("datastore: internal error: server returned the wrong mutation results") } key, err := protoToKey(resp.MutationResults[i].Key) if err != nil { return nil, errors.New("datastore: internal error: server returned an invalid key") } p.key = key p.commit = c } return c, nil } // Rollback abandons a pending transaction. func (t *Transaction) Rollback() (err error) { t.ctx = trace.StartSpan(t.ctx, "cloud.google.com/go/datastore.Transaction.Rollback") defer func() { trace.EndSpan(t.ctx, err) }() if t.id == nil { return errExpiredTransaction } id := t.id t.id = nil _, err = t.client.client.Rollback(t.ctx, &pb.RollbackRequest{ ProjectId: t.client.dataset, Transaction: id, }) return err } // Get is the transaction-specific version of the package function Get. // All reads performed during the transaction will come from a single consistent // snapshot. Furthermore, if the transaction is set to a serializable isolation // level, another transaction cannot concurrently modify the data that is read // or modified by this transaction. func (t *Transaction) Get(key *Key, dst interface{}) (err error) { t.ctx = trace.StartSpan(t.ctx, "cloud.google.com/go/datastore.Transaction.Get") defer func() { trace.EndSpan(t.ctx, err) }() opts := &pb.ReadOptions{ ConsistencyType: &pb.ReadOptions_Transaction{Transaction: t.id}, } err = t.client.get(t.ctx, []*Key{key}, []interface{}{dst}, opts) if me, ok := err.(MultiError); ok { return me[0] } return err } // GetMulti is a batch version of Get. func (t *Transaction) GetMulti(keys []*Key, dst interface{}) (err error) { t.ctx = trace.StartSpan(t.ctx, "cloud.google.com/go/datastore.Transaction.GetMulti") defer func() { trace.EndSpan(t.ctx, err) }() if t.id == nil { return errExpiredTransaction } opts := &pb.ReadOptions{ ConsistencyType: &pb.ReadOptions_Transaction{Transaction: t.id}, } return t.client.get(t.ctx, keys, dst, opts) } // Put is the transaction-specific version of the package function Put. // // Put returns a PendingKey which can be resolved into a Key using the // return value from a successful Commit. If key is an incomplete key, the // returned pending key will resolve to a unique key generated by the // datastore. func (t *Transaction) Put(key *Key, src interface{}) (*PendingKey, error) { h, err := t.PutMulti([]*Key{key}, []interface{}{src}) if err != nil { if me, ok := err.(MultiError); ok { return nil, me[0] } return nil, err } return h[0], nil } // PutMulti is a batch version of Put. One PendingKey is returned for each // element of src in the same order. // TODO(jba): rewrite in terms of Mutate. func (t *Transaction) PutMulti(keys []*Key, src interface{}) (ret []*PendingKey, err error) { t.ctx = trace.StartSpan(t.ctx, "cloud.google.com/go/datastore.Transaction.PutMulti") defer func() { trace.EndSpan(t.ctx, err) }() if t.id == nil { return nil, errExpiredTransaction } mutations, err := putMutations(keys, src) if err != nil { return nil, err } origin := len(t.mutations) t.mutations = append(t.mutations, mutations...) // Prepare the returned handles, pre-populating where possible. ret = make([]*PendingKey, len(keys)) for i, key := range keys { p := &PendingKey{} if key.Incomplete() { // This key will be in the final commit result. t.pending[origin+i] = p } else { p.key = key } ret[i] = p } return ret, nil } // Delete is the transaction-specific version of the package function Delete. // Delete enqueues the deletion of the entity for the given key, to be // committed atomically upon calling Commit. func (t *Transaction) Delete(key *Key) error { err := t.DeleteMulti([]*Key{key}) if me, ok := err.(MultiError); ok { return me[0] } return err } // DeleteMulti is a batch version of Delete. // TODO(jba): rewrite in terms of Mutate. func (t *Transaction) DeleteMulti(keys []*Key) (err error) { t.ctx = trace.StartSpan(t.ctx, "cloud.google.com/go/datastore.Transaction.DeleteMulti") defer func() { trace.EndSpan(t.ctx, err) }() if t.id == nil { return errExpiredTransaction } mutations, err := deleteMutations(keys) if err != nil { return err } t.mutations = append(t.mutations, mutations...) return nil } // Mutate adds the mutations to the transaction. They will all be applied atomically // upon calling Commit. Mutate returns a PendingKey for each Mutation in the argument // list, in the same order. PendingKeys for Delete mutations are always nil. // // If any of the mutations are invalid, Mutate returns a MultiError with the errors. // Mutate returns a MultiError in this case even if there is only one Mutation. // // For an example, see Client.Mutate. func (t *Transaction) Mutate(muts ...*Mutation) ([]*PendingKey, error) { if t.id == nil { return nil, errExpiredTransaction } pmuts, err := mutationProtos(muts) if err != nil { return nil, err } origin := len(t.mutations) t.mutations = append(t.mutations, pmuts...) // Prepare the returned handles, pre-populating where possible. ret := make([]*PendingKey, len(muts)) for i, mut := range muts { if mut.isDelete() { continue } p := &PendingKey{} if mut.key.Incomplete() { // This key will be in the final commit result. t.pending[origin+i] = p } else { p.key = mut.key } ret[i] = p } return ret, nil } // Commit represents the result of a committed transaction. type Commit struct{} // Key resolves a pending key handle into a final key. func (c *Commit) Key(p *PendingKey) *Key { if p == nil { // if called on a *PendingKey from a Delete mutation return nil } // If p.commit is nil, the PendingKey did not come from an incomplete key, // so p.key is valid. if p.commit != nil && c != p.commit { panic("PendingKey was not created by corresponding transaction") } return p.key } // PendingKey represents the key for newly-inserted entity. It can be // resolved into a Key by calling the Key method of Commit. type PendingKey struct { key *Key commit *Commit }