func (db *Database) AddToChangeLogs(changedChannels base.Set, channelMap ChannelMap, entry channels.LogEntry, parentRevID string) error { var err error base.LogTo("Changes", "Updating #%d %q/%q in channels %s", entry.Sequence, entry.DocID, entry.RevID, changedChannels) for channel, removal := range channelMap { if removal != nil && removal.Seq != entry.Sequence { continue } // Set Removed flag appropriately for this channel: if removal != nil { entry.Flags |= channels.Removed } else { entry.Flags = entry.Flags &^ channels.Removed } if err1 := db.AddToChangeLog(channel, entry, parentRevID); err != nil { err = err1 } } // Finally, add to the universal "*" channel. if EnableStarChannelLog { entry.Flags = entry.Flags &^ channels.Removed if err1 := db.AddToChangeLog("*", entry, parentRevID); err != nil { err = err1 } } return err }
// Returns a list of all the changes made on a channel. // Does NOT handle the Wait option. Does NOT check authorization. func (db *Database) changesFeed(channel string, options ChangesOptions) (<-chan *ChangeEntry, error) { since := options.Since[channel] channelLog, err := db.changesWriter.getChangeLog(channel, since) if err != nil { base.Warn("Error reading channel-log %q (using view instead): %v", channel, err) channelLog = nil } rebuildLog := channelLog == nil && err == nil && (EnableStarChannelLog || channel != "*") var log []*channels.LogEntry if channelLog != nil { log = channelLog.Entries } var viewFeed <-chan *ChangeEntry if channelLog == nil || channelLog.Since > since { var upToSeq uint64 if channelLog != nil { upToSeq = channelLog.Since } // Channel log may not go back far enough, so also fetch view-based change feed: viewFeed, err = db.changesFeedFromView(channel, options, upToSeq) if err != nil { return nil, err } } feed := make(chan *ChangeEntry, 5) go func() { defer close(feed) // First, if we need to backfill from the view, write its early entries to the channel: if viewFeed != nil { newLog := channels.ChangeLog{Since: since} for change := range viewFeed { if channelLog != nil && change.seqNo > channelLog.Since { // TODO: Close the view-based feed somehow break } select { case <-options.Terminator: base.LogTo("Changes+", "Aborting changesFeed (reading from view)") return case feed <- change: } if rebuildLog { // If there wasn't any channel log, build up a new one from the view: entry := channels.LogEntry{ Sequence: change.seqNo, DocID: change.ID, RevID: change.Changes[0]["rev"], } if change.Deleted { entry.Flags |= channels.Deleted } if change.Removed != nil { entry.Flags |= channels.Removed } newLog.Add(entry) newLog.TruncateTo(MaxChangeLogLength) } } if rebuildLog { // Save the missing channel log we just rebuilt: base.LogTo("Changes", "Saving rebuilt channel log %q with %d sequences", channel, len(newLog.Entries)) db.changesWriter.addChangeLog(channel, &newLog) } } // Now write each log entry to the 'feed' channel in turn: for _, logEntry := range log { if !options.Conflicts && (logEntry.Flags&channels.Hidden) != 0 { //continue // FIX: had to comment this out. // This entry is shadowed by a conflicting one. We would like to skip it. // The problem is that if this is the newest revision of this doc, then the // doc will appear under this sequence # in the changes view, which means // we won't emit the doc at all because we already stopped emitting entries // from the view before this point. } change := ChangeEntry{ seqNo: logEntry.Sequence, ID: logEntry.DocID, Deleted: (logEntry.Flags & channels.Deleted) != 0, Changes: []ChangeRev{{"rev": logEntry.RevID}}, } if logEntry.Flags&channels.Removed != 0 { change.Removed = channels.SetOf(channel) } else if options.IncludeDocs || options.Conflicts { doc, _ := db.GetDoc(logEntry.DocID) db.addDocToChangeEntry(doc, &change, options.IncludeDocs, false) } select { case <-options.Terminator: base.LogTo("Changes+", "Aborting changesFeed") return case feed <- &change: } if options.Limit > 0 { options.Limit-- if options.Limit == 0 { break } } } }() return feed, nil }
// Common subroutine of Put and PutExistingRev: a shell that loads the document, lets the caller // make changes to it in a callback and supply a new body, then saves the body and document. func (db *Database) updateDoc(docid string, allowImport bool, callback func(*document) (Body, error)) (string, error) { // As a special case, it's illegal to put a design document except in admin mode: if strings.HasPrefix(docid, "_design/") && db.user != nil { return "", base.HTTPErrorf(403, "Forbidden to update design doc") } key := realDocID(docid) if key == "" { return "", base.HTTPErrorf(400, "Invalid doc ID") } var newRevID, parentRevID string var doc *document var body Body var changedChannels base.Set var changedPrincipals, changedRoleUsers []string var docSequence uint64 var inConflict = false err := db.Bucket.WriteUpdate(key, 0, func(currentValue []byte) (raw []byte, writeOpts walrus.WriteOptions, err error) { // Be careful: this block can be invoked multiple times if there are races! if doc, err = unmarshalDocument(docid, currentValue); err != nil { return } else if !allowImport && currentValue != nil && !doc.hasValidSyncData() { err = base.HTTPErrorf(409, "Not imported") return } // Invoke the callback to update the document and return a new revision body: body, err = callback(doc) if err != nil { return } // Determine which is the current "winning" revision (it's not necessarily the new one): newRevID = body["_rev"].(string) parentRevID = doc.History[newRevID].Parent prevCurrentRev := doc.CurrentRev doc.CurrentRev, inConflict = doc.History.winningRevision() doc.Deleted = doc.History[doc.CurrentRev].Deleted if doc.CurrentRev != prevCurrentRev && prevCurrentRev != "" && doc.body != nil { // Store the doc's previous body into the revision tree: bodyJSON, _ := json.Marshal(doc.body) doc.History.setRevisionBody(prevCurrentRev, bodyJSON) } // Store the new revision body into the doc: doc.setRevision(newRevID, body) if doc.CurrentRev == newRevID { doc.NewestRev = "" } else { doc.NewestRev = newRevID if doc.CurrentRev != prevCurrentRev { // If the new revision is not current, transfer the current revision's // body to the top level doc.body: doc.body = doc.History.getParsedRevisionBody(doc.CurrentRev) doc.History.setRevisionBody(doc.CurrentRev, nil) } } // Run the sync function, to validate the update and compute its channels/access: body["_id"] = doc.ID channels, access, roles, err := db.getChannelsAndAccess(doc, body, parentRevID) if err != nil { return } if len(channels) > 0 { doc.History[newRevID].Channels = channels } // Move the body of the replaced revision out of the document so it can be compacted later. db.backupAncestorRevs(doc, newRevID) // Now that we know doc is valid, assign it the next sequence number, for _changes feed. // But be careful not to request a second sequence # on a retry if we don't need one. if docSequence <= doc.Sequence { if docSequence, err = db.sequences.nextSequence(); err != nil { return } } doc.Sequence = docSequence if doc.CurrentRev != prevCurrentRev { // Most of the time this update will change the doc's current rev. (The exception is // if the new rev is a conflict that doesn't win the revid comparison.) If so, we // need to update the doc's top-level Channels and Access properties to correspond // to the current rev's state. if newRevID != doc.CurrentRev { // In some cases an older revision might become the current one. If so, get its // channels & access, for purposes of updating the doc: var curBody Body if curBody, err = db.getAvailableRev(doc, doc.CurrentRev); curBody != nil { base.LogTo("CRUD+", "updateDoc(%q): Rev %q causes %q to become current again", docid, newRevID, doc.CurrentRev) curParent := doc.History[doc.CurrentRev].Parent channels, access, roles, err = db.getChannelsAndAccess(doc, curBody, curParent) if err != nil { return } } else { // Shouldn't be possible (CurrentRev is a leaf so won't have been compacted) base.Warn("updateDoc(%q): Rev %q missing, can't call getChannelsAndAccess "+ "on it (err=%v)", docid, doc.CurrentRev, err) channels = nil access = nil roles = nil } } // Update the document struct's channel assignment and user access. // (This uses the new sequence # so has to be done after updating doc.Sequence) changedChannels = doc.updateChannels(channels) //FIX: Incorrect if new rev is not current! changedPrincipals = doc.Access.updateAccess(doc, access) changedRoleUsers = doc.RoleAccess.updateAccess(doc, roles) if len(changedPrincipals) > 0 || len(changedRoleUsers) > 0 { // If this update affects user/role access privileges, make sure the write blocks till // the new value is indexable, otherwise when a User/Role updates (using a view) it // might not incorporate the effects of this change. writeOpts |= walrus.Indexable } } else { base.LogTo("CRUD+", "updateDoc(%q): Rev %q leaves %q still current", docid, newRevID, prevCurrentRev) } // Prune old revision history to limit the number of revisions: if pruned := doc.History.pruneRevisions(db.RevsLimit); pruned > 0 { base.LogTo("CRUD+", "updateDoc(%q): Pruned %d old revisions", docid, pruned) } // Return the new raw document value for the bucket to store. raw, err = json.Marshal(doc) return }) if err == couchbase.UpdateCancel { return "", nil } else if err == couchbase.ErrOverwritten { // ErrOverwritten is ok; if a later revision got persisted, that's fine too base.LogTo("CRUD+", "Note: Rev %q/%q was overwritten in RAM before becoming indexable", docid, newRevID) } else if err != nil { return "", err } dbExpvars.Add("revs_added", 1) // Store the new revision in the cache history := doc.History.getHistory(newRevID) if doc.History[newRevID].Deleted { body["_deleted"] = true } revChannels := doc.History[newRevID].Channels db.revisionCache.Put(body, encodeRevisions(history), revChannels) // Now that the document has successfully been stored, we can make other db changes: base.LogTo("CRUD", "Stored doc %q / %q", docid, newRevID) // Mark affected users/roles as needing to recompute their channel access: for _, name := range changedPrincipals { db.invalUserOrRoleChannels(name) } for _, name := range changedRoleUsers { db.invalUserRoles(name) } // Add the new revision to the change logs of all affected channels: newEntry := channels.LogEntry{ Sequence: doc.Sequence, DocID: docid, RevID: newRevID, } if doc.History[newRevID].Deleted { newEntry.Flags |= channels.Deleted } if newRevID != doc.CurrentRev { newEntry.Flags |= channels.Hidden } if inConflict { newEntry.Flags |= channels.Conflict } db.changesWriter.addToChangeLogs(changedChannels, doc.Channels, newEntry, parentRevID) return newRevID, nil }
// Returns a list of all the changes made on a channel. // Does NOT handle the Wait option. Does NOT check authorization. func (db *Database) changesFeed(channel string, options ChangesOptions) (<-chan *ChangeEntry, error) { since := options.Since[channel] channelLog, err := db.GetChangeLog(channel, since) if err != nil { base.Warn("Error reading channel-log %q (using view instead) %v", channel, err) channelLog = nil } rebuildLog := channelLog == nil && err == nil && (EnableStarChannelLog || channel != "*") var log []*channels.LogEntry if channelLog != nil { log = channelLog.Entries } var viewFeed <-chan *ChangeEntry if channelLog == nil || channelLog.Since > since { // Channel log may not go back far enough, so also fetch view-based change feed: viewFeed, err = db.changesFeedFromView(channel, options) if err != nil { return nil, err } } feed := make(chan *ChangeEntry, 5) go func() { defer close(feed) // First, if we need to backfill from the view, write its early entries to the channel: if viewFeed != nil { newLog := channels.ChangeLog{Since: since} for change := range viewFeed { if len(log) > 0 && change.seqNo >= log[0].Sequence { // TODO: Close the view-based feed somehow break } feed <- change if rebuildLog { // If there wasn't any channel log, build up a new one from the view: entry := channels.LogEntry{ Sequence: change.seqNo, DocID: change.ID, RevID: change.Changes[0]["rev"], } if change.Deleted { entry.Flags |= channels.Deleted } if change.Removed != nil { entry.Flags |= channels.Removed } newLog.Add(entry) newLog.TruncateTo(MaxChangeLogLength) } } if rebuildLog { // Save the missing channel log we just rebuilt: base.LogTo("Changes", "Saving rebuilt channel log %q with %d sequences", channel, len(newLog.Entries)) if _, err := db.AddChangeLog(channel, &newLog); err != nil { base.Warn("ChangesFeed: AddChangeLog failed, %v", err) } } } // Now write each log entry to the 'feed' channel in turn: for _, logEntry := range log { hidden := (logEntry.Flags & channels.Hidden) != 0 if logEntry.RevID == "" || (hidden && !options.Conflicts) { continue } change := ChangeEntry{ seqNo: logEntry.Sequence, ID: logEntry.DocID, Deleted: (logEntry.Flags & channels.Deleted) != 0, Changes: []ChangeRev{{"rev": logEntry.RevID}}, } if logEntry.Flags&channels.Removed != 0 { change.Removed = channels.SetOf(channel) } else if options.IncludeDocs || options.Conflicts { doc, _ := db.getDoc(logEntry.DocID) db.addDocToChangeEntry(doc, &change, options.IncludeDocs, false) } feed <- &change if options.Limit > 0 { options.Limit-- if options.Limit == 0 { break } } } }() return feed, nil }