// Copyright (C) MongoDB, Inc. 2017-present. // // 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 package mongo import ( "context" "errors" "time" "go.mongodb.org/mongo-driver/bson" "go.mongodb.org/mongo-driver/bson/primitive" "go.mongodb.org/mongo-driver/internal" "go.mongodb.org/mongo-driver/mongo/description" "go.mongodb.org/mongo-driver/mongo/options" "go.mongodb.org/mongo-driver/x/bsonx/bsoncore" "go.mongodb.org/mongo-driver/x/mongo/driver" "go.mongodb.org/mongo-driver/x/mongo/driver/operation" "go.mongodb.org/mongo-driver/x/mongo/driver/session" ) // ErrWrongClient is returned when a user attempts to pass in a session created by a different client than // the method call is using. var ErrWrongClient = errors.New("session was not created by this client") var withTransactionTimeout = 120 * time.Second // SessionContext combines the context.Context and mongo.Session interfaces. It should be used as the Context arguments // to operations that should be executed in a session. This type is not goroutine safe and must not be used concurrently // by multiple goroutines. // // There are two ways to create a SessionContext and use it in a session/transaction. The first is to use one of the // callback-based functions such as WithSession and UseSession. These functions create a SessionContext and pass it to // the provided callback. The other is to use NewSessionContext to explicitly create a SessionContext. type SessionContext interface { context.Context Session } type sessionContext struct { context.Context Session } type sessionKey struct { } // NewSessionContext creates a new SessionContext associated with the given Context and Session parameters. func NewSessionContext(ctx context.Context, sess Session) SessionContext { return &sessionContext{ Context: context.WithValue(ctx, sessionKey{}, sess), Session: sess, } } // SessionFromContext extracts the mongo.Session object stored in a Context. This can be used on a SessionContext that // was created implicitly through one of the callback-based session APIs or explicitly by calling NewSessionContext. If // there is no Session stored in the provided Context, nil is returned. func SessionFromContext(ctx context.Context) Session { val := ctx.Value(sessionKey{}) if val == nil { return nil } sess, ok := val.(Session) if !ok { return nil } return sess } // Session is an interface that represents a MongoDB logical session. Sessions can be used to enable causal consistency // for a group of operations or to execute operations in an ACID transaction. A new Session can be created from a Client // instance. A Session created from a Client must only be used to execute operations using that Client or a Database or // Collection created from that Client. Custom implementations of this interface should not be used in production. For // more information about sessions, and their use cases, see https://docs.mongodb.com/manual/reference/server-sessions/, // https://docs.mongodb.com/manual/core/read-isolation-consistency-recency/#causal-consistency, and // https://docs.mongodb.com/manual/core/transactions/. // // StartTransaction starts a new transaction, configured with the given options, on this session. This method will // return an error if there is already a transaction in-progress for this session. // // CommitTransaction commits the active transaction for this session. This method will return an error if there is no // active transaction for this session or the transaction has been aborted. // // AbortTransaction aborts the active transaction for this session. This method will return an error if there is no // active transaction for this session or the transaction has been committed or aborted. // // WithTransaction starts a transaction on this session and runs the fn callback. Errors with the // TransientTransactionError and UnknownTransactionCommitResult labels are retried for up to 120 seconds. Inside the // callback, sessCtx must be used as the Context parameter for any operations that should be part of the transaction. If // the ctx parameter already has a Session attached to it, it will be replaced by this session. The fn callback may be // run multiple times during WithTransaction due to retry attempts, so it must be idempotent. Non-retryable operation // errors or any operation errors that occur after the timeout expires will be returned without retrying. If the // callback fails, the driver will call AbortTransaction. Because this method must succeed to ensure that server-side // resources are properly cleaned up, context deadlines and cancellations will not be respected during this call. For a // usage example, see the Client.StartSession method documentation. // // ClusterTime, OperationTime, Client, and ID return the session's current cluster time, the session's current operation // time, the Client associated with the session, and the ID document associated with the session, respectively. The ID // document for a session is in the form {"id": }. // // EndSession method should abort any existing transactions and close the session. // // AdvanceClusterTime advances the cluster time for a session. This method will return an error if the session has ended. // // AdvanceOperationTime advances the operation time for a session. This method will return an error if the session has // ended. type Session interface { // Functions to modify session state. StartTransaction(...*options.TransactionOptions) error AbortTransaction(context.Context) error CommitTransaction(context.Context) error WithTransaction(ctx context.Context, fn func(sessCtx SessionContext) (interface{}, error), opts ...*options.TransactionOptions) (interface{}, error) EndSession(context.Context) // Functions to retrieve session properties. ClusterTime() bson.Raw OperationTime() *primitive.Timestamp Client() *Client ID() bson.Raw // Functions to modify mutable session properties. AdvanceClusterTime(bson.Raw) error AdvanceOperationTime(*primitive.Timestamp) error session() } // XSession is an unstable interface for internal use only. // // Deprecated: This interface is unstable because it provides access to a session.Client object, which exists in the // "x" package. It should not be used by applications and may be changed or removed in any release. type XSession interface { ClientSession() *session.Client } // sessionImpl represents a set of sequential operations executed by an application that are related in some way. type sessionImpl struct { clientSession *session.Client client *Client deployment driver.Deployment didCommitAfterStart bool // true if commit was called after start with no other operations } var _ Session = &sessionImpl{} var _ XSession = &sessionImpl{} // ClientSession implements the XSession interface. func (s *sessionImpl) ClientSession() *session.Client { return s.clientSession } // ID implements the Session interface. func (s *sessionImpl) ID() bson.Raw { return bson.Raw(s.clientSession.SessionID) } // EndSession implements the Session interface. func (s *sessionImpl) EndSession(ctx context.Context) { if s.clientSession.TransactionInProgress() { // ignore all errors aborting during an end session _ = s.AbortTransaction(ctx) } s.clientSession.EndSession() } // WithTransaction implements the Session interface. func (s *sessionImpl) WithTransaction(ctx context.Context, fn func(sessCtx SessionContext) (interface{}, error), opts ...*options.TransactionOptions) (interface{}, error) { timeout := time.NewTimer(withTransactionTimeout) defer timeout.Stop() var err error for { err = s.StartTransaction(opts...) if err != nil { return nil, err } res, err := fn(NewSessionContext(ctx, s)) if err != nil { if s.clientSession.TransactionRunning() { // Wrap the user-provided Context in a new one that behaves like context.Background() for deadlines and // cancellations, but forwards Value requests to the original one. _ = s.AbortTransaction(internal.NewBackgroundContext(ctx)) } select { case <-timeout.C: return nil, err default: } // End if context has timed out or been canceled, as retrying has no chance of success. if ctx.Err() != nil { return res, err } if errorHasLabel(err, driver.TransientTransactionError) { continue } return res, err } err = s.clientSession.CheckAbortTransaction() if err != nil { return res, nil } CommitLoop: for { err = s.CommitTransaction(ctx) // End when error is nil (transaction has been committed), or when context has timed out or been // canceled, as retrying has no chance of success. if err == nil || ctx.Err() != nil { return res, err } select { case <-timeout.C: return res, err default: } if cerr, ok := err.(CommandError); ok { if cerr.HasErrorLabel(driver.UnknownTransactionCommitResult) && !cerr.IsMaxTimeMSExpiredError() { continue } if cerr.HasErrorLabel(driver.TransientTransactionError) { break CommitLoop } } return res, err } } } // StartTransaction implements the Session interface. func (s *sessionImpl) StartTransaction(opts ...*options.TransactionOptions) error { err := s.clientSession.CheckStartTransaction() if err != nil { return err } s.didCommitAfterStart = false topts := options.MergeTransactionOptions(opts...) coreOpts := &session.TransactionOptions{ ReadConcern: topts.ReadConcern, ReadPreference: topts.ReadPreference, WriteConcern: topts.WriteConcern, MaxCommitTime: topts.MaxCommitTime, } return s.clientSession.StartTransaction(coreOpts) } // AbortTransaction implements the Session interface. func (s *sessionImpl) AbortTransaction(ctx context.Context) error { err := s.clientSession.CheckAbortTransaction() if err != nil { return err } // Do not run the abort command if the transaction is in starting state if s.clientSession.TransactionStarting() || s.didCommitAfterStart { return s.clientSession.AbortTransaction() } selector := makePinnedSelector(s.clientSession, description.WriteSelector()) s.clientSession.Aborting = true _ = operation.NewAbortTransaction().Session(s.clientSession).ClusterClock(s.client.clock).Database("admin"). Deployment(s.deployment).WriteConcern(s.clientSession.CurrentWc).ServerSelector(selector). Retry(driver.RetryOncePerCommand).CommandMonitor(s.client.monitor). RecoveryToken(bsoncore.Document(s.clientSession.RecoveryToken)).ServerAPI(s.client.serverAPI).Execute(ctx) s.clientSession.Aborting = false _ = s.clientSession.AbortTransaction() return nil } // CommitTransaction implements the Session interface. func (s *sessionImpl) CommitTransaction(ctx context.Context) error { err := s.clientSession.CheckCommitTransaction() if err != nil { return err } // Do not run the commit command if the transaction is in started state if s.clientSession.TransactionStarting() || s.didCommitAfterStart { s.didCommitAfterStart = true return s.clientSession.CommitTransaction() } if s.clientSession.TransactionCommitted() { s.clientSession.RetryingCommit = true } selector := makePinnedSelector(s.clientSession, description.WriteSelector()) s.clientSession.Committing = true op := operation.NewCommitTransaction(). Session(s.clientSession).ClusterClock(s.client.clock).Database("admin").Deployment(s.deployment). WriteConcern(s.clientSession.CurrentWc).ServerSelector(selector).Retry(driver.RetryOncePerCommand). CommandMonitor(s.client.monitor).RecoveryToken(bsoncore.Document(s.clientSession.RecoveryToken)). ServerAPI(s.client.serverAPI) if s.clientSession.CurrentMct != nil { op.MaxTimeMS(int64(*s.clientSession.CurrentMct / time.Millisecond)) } err = op.Execute(ctx) // Return error without updating transaction state if it is a timeout, as the transaction has not // actually been committed. if IsTimeout(err) { return replaceErrors(err) } s.clientSession.Committing = false commitErr := s.clientSession.CommitTransaction() // We set the write concern to majority for subsequent calls to CommitTransaction. s.clientSession.UpdateCommitTransactionWriteConcern() if err != nil { return replaceErrors(err) } return commitErr } // ClusterTime implements the Session interface. func (s *sessionImpl) ClusterTime() bson.Raw { return s.clientSession.ClusterTime } // AdvanceClusterTime implements the Session interface. func (s *sessionImpl) AdvanceClusterTime(d bson.Raw) error { return s.clientSession.AdvanceClusterTime(d) } // OperationTime implements the Session interface. func (s *sessionImpl) OperationTime() *primitive.Timestamp { return s.clientSession.OperationTime } // AdvanceOperationTime implements the Session interface. func (s *sessionImpl) AdvanceOperationTime(ts *primitive.Timestamp) error { return s.clientSession.AdvanceOperationTime(ts) } // Client implements the Session interface. func (s *sessionImpl) Client() *Client { return s.client } // session implements the Session interface. func (*sessionImpl) session() { } // sessionFromContext checks for a sessionImpl in the argued context and returns the session if it // exists func sessionFromContext(ctx context.Context) *session.Client { s := ctx.Value(sessionKey{}) if ses, ok := s.(*sessionImpl); ses != nil && ok { return ses.clientSession } return nil }