// Top-level handler for _changes feed requests. Accepts GET or POST requests. func (h *handler) handleChanges() error { // http://wiki.apache.org/couchdb/HTTP_database_API#Changes // http://docs.couchdb.org/en/latest/api/database/changes.html restExpvars.Add("changesFeeds_total", 1) restExpvars.Add("changesFeeds_active", 1) defer restExpvars.Add("changesFeeds_active", -1) var feed string var options db.ChangesOptions var filter string var channelsArray []string var docIdsArray []string if h.rq.Method == "GET" { // GET request has parameters in URL: feed = h.getQuery("feed") var err error if options.Since, err = h.db.ParseSequenceID(h.getJSONStringQuery("since")); err != nil { return err } options.Limit = int(h.getIntQuery("limit", 0)) options.Conflicts = (h.getQuery("style") == "all_docs") options.ActiveOnly = h.getBoolQuery("active_only") options.IncludeDocs = (h.getBoolQuery("include_docs")) filter = h.getQuery("filter") channelsParam := h.getQuery("channels") if channelsParam != "" { channelsArray = strings.Split(channelsParam, ",") } docidsParam := h.getQuery("doc_ids") if docidsParam != "" { var docidKeys []string err := json.Unmarshal([]byte(docidsParam), &docidKeys) if err != nil { err = base.HTTPErrorf(http.StatusBadRequest, "Bad doc id's") } if len(docidKeys) > 0 { docIdsArray = docidKeys } } options.HeartbeatMs = getRestrictedIntQuery( h.rq.URL.Query(), "heartbeat", kDefaultHeartbeatMS, kMinHeartbeatMS, h.server.config.MaxHeartbeat*1000, true, ) options.TimeoutMs = getRestrictedIntQuery( h.rq.URL.Query(), "timeout", kDefaultTimeoutMS, 0, kMaxTimeoutMS, true, ) } else { // POST request has parameters in JSON body: body, err := h.readBody() if err != nil { return err } feed, options, filter, channelsArray, docIdsArray, _, err = h.readChangesOptionsFromJSON(body) if err != nil { return err } } // Get the channels as parameters to an imaginary "bychannel" filter. // The default is all channels the user can access. userChannels := channels.SetOf(channels.AllChannelWildcard) if filter != "" { if filter == "sync_gateway/bychannel" { if channelsArray == nil { return base.HTTPErrorf(http.StatusBadRequest, "Missing 'channels' filter parameter") } var err error userChannels, err = channels.SetFromArray(channelsArray, channels.ExpandStar) if err != nil { return err } if len(userChannels) == 0 { return base.HTTPErrorf(http.StatusBadRequest, "Empty channel list") } } else if filter == "_doc_ids" { if docIdsArray == nil { return base.HTTPErrorf(http.StatusBadRequest, "Missing 'doc_ids' filter parameter") } if len(docIdsArray) == 0 { return base.HTTPErrorf(http.StatusBadRequest, "Empty doc_ids list") } } else { return base.HTTPErrorf(http.StatusBadRequest, "Unknown filter; try sync_gateway/bychannel or _doc_ids") } } h.db.ChangesClientStats.Increment() defer h.db.ChangesClientStats.Decrement() options.Terminator = make(chan bool) var err error forceClose := false switch feed { case "normal", "": if filter == "_doc_ids" { err, forceClose = h.sendChangesForDocIds(userChannels, docIdsArray, options) } else { err, forceClose = h.sendSimpleChanges(userChannels, options) } case "longpoll": options.Wait = true err, forceClose = h.sendSimpleChanges(userChannels, options) case "continuous": err, forceClose = h.sendContinuousChangesByHTTP(userChannels, options) case "websocket": err, forceClose = h.sendContinuousChangesByWebSocket(userChannels, options) default: err = base.HTTPErrorf(http.StatusBadRequest, "Unknown feed type") forceClose = false } close(options.Terminator) if forceClose && h.user != nil { h.db.DatabaseContext.NotifyUser(h.user.Name()) } return err }
// This is the core functionality of both the HTTP and WebSocket-based continuous change feed. // It defers to a callback function 'send()' to actually send the changes to the client. // It will call send(nil) to notify that it's caught up and waiting for new changes, or as // a periodic heartbeat while waiting. func (h *handler) generateContinuousChanges(inChannels base.Set, options db.ChangesOptions, send func([]*db.ChangeEntry) error) (error, bool) { // Set up heartbeat/timeout var timeoutInterval time.Duration var timer *time.Timer var heartbeat <-chan time.Time if options.HeartbeatMs > 0 { ticker := time.NewTicker(time.Duration(options.HeartbeatMs) * time.Millisecond) defer ticker.Stop() heartbeat = ticker.C } else if options.TimeoutMs > 0 { timeoutInterval = time.Duration(options.TimeoutMs) * time.Millisecond defer func() { if timer != nil { timer.Stop() } }() } options.Wait = true // we want the feed channel to wait for changes options.Continuous = true // and to keep sending changes indefinitely var lastSeq db.SequenceID var feed <-chan *db.ChangeEntry var timeout <-chan time.Time var err error var closeNotify <-chan bool cn, ok := h.response.(http.CloseNotifier) if ok { closeNotify = cn.CloseNotify() } else { base.LogTo("Changes", "continuous changes cannot get Close Notifier from ResponseWriter") } forceClose := false loop: for { if feed == nil { // Refresh the feed of all current changes: if lastSeq.IsNonZero() { // start after end of last feed options.Since = lastSeq } if h.db.IsClosed() { forceClose = true break loop } feed, err = h.db.MultiChangesFeed(inChannels, options) if err != nil || feed == nil { return err, forceClose } } if timeoutInterval > 0 && timer == nil { // Timeout resets after every change is sent timer = time.NewTimer(timeoutInterval) timeout = timer.C } // Wait for either a new change, a heartbeat, or a timeout: select { case entry, ok := <-feed: if !ok { feed = nil } else if entry == nil { err = send(nil) } else if entry.Err != nil { break loop // error returned by feed - end changes } else { entries := []*db.ChangeEntry{entry} waiting := false // Batch up as many entries as we can without waiting: collect: for len(entries) < 20 { select { case entry, ok = <-feed: if !ok { feed = nil break collect } else if entry == nil { waiting = true break collect } else if entry.Err != nil { break loop // error returned by feed - end changes } entries = append(entries, entry) default: break collect } } base.LogTo("Changes", "sending %d change(s)", len(entries)) err = send(entries) if err == nil && waiting { err = send(nil) } lastSeq = entries[len(entries)-1].Seq if options.Limit > 0 { if len(entries) >= options.Limit { forceClose = true break loop } options.Limit -= len(entries) } } // Reset the timeout after sending an entry: if timer != nil { timer.Stop() timer = nil } case <-heartbeat: err = send(nil) base.LogTo("Heartbeat", "heartbeat written to _changes feed for request received %s", h.currentEffectiveUserName()) case <-timeout: forceClose = true break loop case <-closeNotify: base.LogTo("Changes", "Connection lost from client: %v", h.currentEffectiveUserName()) forceClose = true break loop case <-h.db.ExitChanges: forceClose = true break loop } if err != nil { h.logStatus(http.StatusOK, fmt.Sprintf("Write error: %v", err)) return nil, forceClose // error is probably because the client closed the connection } } h.logStatus(http.StatusOK, "OK (continuous feed closed)") return nil, forceClose }
// Top-level handler for _changes feed requests. Accepts GET or POST requests. func (h *handler) handleChanges() error { // http://wiki.apache.org/couchdb/HTTP_database_API#Changes // http://docs.couchdb.org/en/latest/api/database/changes.html restExpvars.Add("changesFeeds_total", 1) restExpvars.Add("changesFeeds_active", 1) defer restExpvars.Add("changesFeeds_active", -1) var feed string var options db.ChangesOptions var filter string var channelsArray []string if h.rq.Method == "GET" { // GET request has parameters in URL: feed = h.getQuery("feed") var err error if options.Since, err = db.ParseSequenceID(h.getQuery("since")); err != nil { return err } options.Limit = int(h.getIntQuery("limit", 0)) options.Conflicts = (h.getQuery("style") == "all_docs") options.IncludeDocs = (h.getBoolQuery("include_docs")) filter = h.getQuery("filter") channelsParam := h.getQuery("channels") if channelsParam != "" { channelsArray = strings.Split(channelsParam, ",") } options.HeartbeatMs = getRestrictedIntQuery(h.rq.URL.Query(), "heartbeat", 0, kMinHeartbeatMS, 0) options.TimeoutMs = getRestrictedIntQuery(h.rq.URL.Query(), "timeout", kDefaultTimeoutMS, 0, kMaxTimeoutMS) } else { // POST request has parameters in JSON body: body, err := h.readBody() if err != nil { return err } feed, options, filter, channelsArray, err = readChangesOptionsFromJSON(body) if err != nil { return err } } // Get the channels as parameters to an imaginary "bychannel" filter. // The default is all channels the user can access. userChannels := channels.SetOf(channels.AllChannelWildcard) if filter != "" { if filter != "sync_gateway/bychannel" { return base.HTTPErrorf(http.StatusBadRequest, "Unknown filter; try sync_gateway/bychannel") } if channelsArray == nil { return base.HTTPErrorf(http.StatusBadRequest, "Missing 'channels' filter parameter") } var err error userChannels, err = channels.SetFromArray(channelsArray, channels.ExpandStar) if err != nil { return err } if len(userChannels) == 0 { return base.HTTPErrorf(http.StatusBadRequest, "Empty channel list") } } h.db.ChangesClientStats.Increment() defer h.db.ChangesClientStats.Decrement() options.Terminator = make(chan bool) defer close(options.Terminator) switch feed { case "normal", "": return h.sendSimpleChanges(userChannels, options) case "longpoll": options.Wait = true return h.sendSimpleChanges(userChannels, options) case "continuous": return h.sendContinuousChangesByHTTP(userChannels, options) case "websocket": return h.sendContinuousChangesByWebSocket(userChannels, options) default: return base.HTTPErrorf(http.StatusBadRequest, "Unknown feed type") } }
func (h *handler) updateChangesOptionsFromQuery(feed *string, options *db.ChangesOptions, filter *string, channelsArray []string, docIdsArray []string) (newChannelsArray []string, newDocIdsArray []string, err error) { if h.rq.URL.RawQuery == "" { return channelsArray, docIdsArray, nil } values := h.rq.URL.Query() if _, ok := values["feed"]; ok { *feed = h.getQuery("feed") } if _, ok := values["since"]; ok { if options.Since, err = h.db.ParseSequenceID(h.getJSONStringQuery("since")); err != nil { return nil, nil, err } } if _, ok := values["limit"]; ok { options.Limit = int(h.getIntQuery("limit", 0)) } if _, ok := values["style"]; ok { options.Conflicts = (h.getQuery("style") == "all_docs") } if _, ok := values["active_only"]; ok { options.ActiveOnly = h.getBoolQuery("active_only") } if _, ok := values["include_docs"]; ok { options.IncludeDocs = (h.getBoolQuery("include_docs")) } if _, ok := values["filter"]; ok { *filter = h.getQuery("filter") } if _, ok := values["channels"]; ok { channelsParam := h.getQuery("channels") if channelsParam != "" { channelsArray = strings.Split(channelsParam, ",") } } if _, ok := values["doc_ids"]; ok { docidsParam := h.getQuery("doc_ids") if docidsParam != "" { var querydocidKeys []string err := json.Unmarshal([]byte(docidsParam), &querydocidKeys) if err == nil { if len(querydocidKeys) > 0 { docIdsArray = querydocidKeys } } else { //This is not a JSON array so treat as a simple //comma separated list of doc id's docIdsArray = strings.Split(docidsParam, ",") } } } if _, ok := values["heartbeat"]; ok { options.HeartbeatMs = getRestrictedIntQuery( h.rq.URL.Query(), "heartbeat", kDefaultHeartbeatMS, kMinHeartbeatMS, h.server.config.MaxHeartbeat*1000, true, ) } if _, ok := values["timeout"]; ok { options.TimeoutMs = getRestrictedIntQuery( h.rq.URL.Query(), "timeout", kDefaultTimeoutMS, 0, kMaxTimeoutMS, true, ) } return channelsArray, docIdsArray, nil }
// This is the core functionality of both the HTTP and WebSocket-based continuous change feed. // It defers to a callback function 'send()' to actually send the changes to the client. // It will call send(nil) to notify that it's caught up and waiting for new changes, or as // a periodic heartbeat while waiting. func (h *handler) generateContinuousChanges(inChannels base.Set, options db.ChangesOptions, send func([]*db.ChangeEntry) error) error { // Set up heartbeat/timeout var timeoutInterval time.Duration var timer *time.Timer var heartbeat <-chan time.Time if options.HeartbeatMs > 0 { ticker := time.NewTicker(time.Duration(options.HeartbeatMs) * time.Millisecond) defer ticker.Stop() heartbeat = ticker.C } else if options.TimeoutMs > 0 { timeoutInterval = time.Duration(options.TimeoutMs) * time.Millisecond defer func() { if timer != nil { timer.Stop() } }() } options.Wait = true // we want the feed channel to wait for changes options.Continuous = true // and to keep sending changes indefinitely var lastSeq db.SequenceID var feed <-chan *db.ChangeEntry var timeout <-chan time.Time var err error loop: for { if feed == nil { // Refresh the feed of all current changes: if lastSeq.Seq > 0 { // start after end of last feed options.Since = lastSeq } if h.db.IsClosed() { break loop } feed, err = h.db.MultiChangesFeed(inChannels, options) if err != nil || feed == nil { return err } } if timeoutInterval > 0 && timer == nil { // Timeout resets after every change is sent timer = time.NewTimer(timeoutInterval) timeout = timer.C } // Wait for either a new change, a heartbeat, or a timeout: select { case entry, ok := <-feed: if !ok { feed = nil } else if entry == nil { err = send(nil) } else { entries := []*db.ChangeEntry{entry} waiting := false // Batch up as many entries as we can without waiting: collect: for len(entries) < 20 { select { case entry, ok = <-feed: if !ok { feed = nil break collect } else if entry == nil { waiting = true break collect } entries = append(entries, entry) default: break collect } } base.LogTo("Changes", "sending %d change(s)", len(entries)) err = send(entries) if err == nil && waiting { err = send(nil) } lastSeq = entries[len(entries)-1].Seq if options.Limit > 0 { if len(entries) >= options.Limit { break loop } options.Limit -= len(entries) } } // Reset the timeout after sending an entry: if timer != nil { timer.Stop() timer = nil } case <-heartbeat: err = send(nil) case <-timeout: break loop } if err != nil { h.logStatus(http.StatusOK, fmt.Sprintf("Write error: %v", err)) return nil // error is probably because the client closed the connection } } h.logStatus(http.StatusOK, "OK (continuous feed closed)") return nil }