func sendJabberNotification(ctx httputil.Context, u string, test entities.TestResult) (err error) { //exit early if we have no url if u == "" { return } //make sure we have configuration values if Config.Username == "" || Config.Domain == "" || Config.Password == "" { ctx.Errorf("Unable to send notification (%s): configuration not specified", test.ImportPath) return } ctx.Infof("Send jabber notification (%s): %s", test.ImportPath, u) //open a tcp connection to the jabber server netConn, err := net.Dial("tcp", "talk.google.com:5222") if err != nil { return } defer netConn.Close() //use that connection in the xmpp config and dial out config := &xmpp.Config{Conn: netConn} conn, err := xmpp.Dial("", Config.Username, Config.Domain, Config.Password, config) if err != nil { return } //send off the message message := fmt.Sprintf("%s @ %s status is now %s", test.ImportPath, test.Revision, test.Status) err = conn.Send(u, message) return }
func sendUrlNotification(ctx httputil.Context, u string, test entities.TestResult) (err error) { //exit early if we have no url if u == "" { return } ctx.Infof("Send url notification (%s): %s", test.ImportPath, u) //set up the json payload var buf bytes.Buffer if err = json.NewEncoder(&buf).Encode(test); err != nil { return } //send off the request _, err = http.Post(u, "application/json", &buf) return }
//dispatchWork is the handler that gets called for a queue item. It grabs a builder //and runner and dispatches the work item to them, recoding when that operation //started. func dispatchWork(w http.ResponseWriter, req *http.Request, ctx httputil.Context) (e *httputil.Error) { //find all the documents that are waiting or (processing and their attempt is //taking too long) type L []interface{} selector := bson.M{ "$or": L{ bson.M{"status": entities.WorkStatusWaiting}, bson.M{ "status": entities.WorkStatusProcessing, "attemptlog.0.when": bson.M{"$lt": time.Now().Add(-1 * attemptTime)}, }, }, } iter := ctx.DB.C("Work").Find(selector).Iter() var work entities.Work for iter.Next(&work) { //if its a processing task with too many attempts, store it as a dispatch //error. if len(work.AttemptLog) >= maxAttempts { ctx.Infof("Work item %s had too many attempts", work.ID) args := &rpc.DispatchResponse{ Key: work.ID.Hex(), Error: "Unable to complete Work item. Too many failed attempts.", WorkRev: work.Revision, } //send it off to the response rpc respUrl := httputil.Absolute(router.Lookup("Response")) cl := client.New(respUrl, http.DefaultClient, client.JsonCodec) if err := cl.Call("Response.DispatchError", args, new(rpc.None)); err != nil { ctx.Infof("Couldn't store a dispatch error for work item %s: %s", work.ID, err) } continue } //attempt to dispatch the work item err := dispatchWorkItem(ctx, work) if err != nil { ctx.Errorf("Error dispatching work: %s", err) } } //check for errors running the iteration if err := iter.Err(); err != nil { ctx.Errorf("Error iterating over work items: %s", err) e = httputil.Errorf(err, "Error iterating over work items") return } return }
//LeasePair returns a pair of Builder and Runners that can be used to run tests. //It doesn't let you specify the type of runner you want. func LeasePair(ctx httputil.Context) (b *Builder, r *Runner, err error) { //grab a runner r, err = getRunner(ctx, "", "") if err != nil { ctx.Infof("couldn't lease runner") return } //update the key we're using lastSeeds.set("", "", "Runner", r.Seed) //grab a builder than can make a build for this runner b, err = getBuilder(ctx, r.GOOS, r.GOARCH) if err != nil { ctx.Infof("couldn't lease builder") return } //update the key we're using lastSeeds.set(r.GOOS, r.GOARCH, "Builder", b.Seed) return }
//getService is a helper function that abstracts the logic of grabbing a service //with a key greater than the one given, and looping back to zero if one wasn't //found. func getService(ctx httputil.Context, GOOS, GOARCH, Type string, s interface{}) (err error) { //grab the most recent run key seed := lastSeeds.get(GOOS, GOARCH, Type) again: ctx.Infof("Finding a %v/%v/%v [%d]", Type, GOOS, GOARCH, seed) //run the query query := baseQuery(ctx.DB, GOOS, GOARCH, Type, seed) err = query.One(s) //if we didn't find a match if err == mgo.ErrNotFound { //try again if we're limiting on the seed if seed > 0 { seed = 0 goto again } //there just arent any err = ErrNoneAvailable } return }
func dispatchNotifications(w http.ResponseWriter, req *http.Request, ctx httputil.Context) (e *httputil.Error) { //find all documents that are waiting or (processing and their attempt is //taking too long) type L []interface{} selector := bson.M{ "$or": L{ bson.M{"status": entities.NotifStatusWaiting}, bson.M{ "status": entities.NotifStatusProcessing, "attemptlog.0.when": bson.M{"$lt": time.Now().Add(-1 * attemptTime)}, }, }, } iter := ctx.DB.C("Notification").Find(selector).Iter() var n entities.Notification for iter.Next(&n) { //if it's processing with too may attempts then just give up if len(n.AttemptLog) >= maxAttempts { ctx.Infof("Notification %s had too many attempts", n.ID) ops := []txn.Op{{ C: "Notification", Id: n.ID, Assert: bson.M{ "status": entities.NotifStatusProcessing, "revision": n.Revision, }, Update: bson.M{ "$set": bson.M{"status": entities.NotifStatusError}, "$inc": bson.M{"revision": 1}, }, }} //try to update the notification err := ctx.R.Run(ops, bson.NewObjectId(), nil) if err == txn.ErrAborted { ctx.Infof("Lost race updating notification %s", n.ID) err = nil } if err != nil { ctx.Errorf("Error updating notification %s: %s", n.ID, err) } continue } err := dispatchNotificationItem(ctx, &n) if err != nil { ctx.Errorf("Error processing notification %s: %s", n.ID, err) continue } //update the thing as being done ops := []txn.Op{{ C: "Notification", Id: n.ID, Assert: bson.M{ "revision": n.Revision, }, Update: bson.M{ "$inc": bson.M{"revision": 1}, "$set": bson.M{"status": entities.NotifStatusCompleted}, }, }} err = ctx.R.Run(ops, bson.NewObjectId(), nil) if err == txn.ErrAborted { ctx.Infof("Lost the race setting the notification %s to complete", n.ID) err = nil } if err != nil { ctx.Errorf("Error setting notification %s to complete: %s", n.ID, err) } } //check for errors in the iteration if err := iter.Err(); err != nil { ctx.Errorf("Error iterating over notifications: %s", err) e = httputil.Errorf(err, "Error iterating over notifications") return } return }
func dispatchNotificationItem(ctx httputil.Context, n *entities.Notification) (err error) { //create an attempt for this notification a := entities.NotifAttempt{ When: time.Now(), ID: bson.NewObjectId(), } //push it to the start log := append([]entities.NotifAttempt{a}, n.AttemptLog...) //transactionally acquire ownership of this notification ops := []txn.Op{{ C: "Notification", Id: n.ID, Assert: bson.M{ "revision": n.Revision, }, Update: bson.M{ "$inc": bson.M{"revision": 1}, "$set": bson.M{ "attemptlog": log, "status": entities.NotifStatusProcessing, }, }, }} err = ctx.R.Run(ops, bson.NewObjectId(), nil) if err == txn.ErrAborted { ctx.Infof("Lost the race dispatching a notification") err = nil return } if err != nil { return } //inc the revision locally n.Revision++ //try to load up the last two test results to see if there was a delta. var test entities.TestResult err = ctx.DB.C("TestResult").FindId(n.Test).One(&test) if err != nil { return } //attempt to grab the test previous to it var oneResult bool var prev entities.TestResult query := bson.M{ "revdate": bson.M{"$lt": test.RevDate}, } err = ctx.DB.C("TestResult").Find(query).Sort("-revdate").One(&prev) if err == mgo.ErrNotFound { err = nil oneResult = true } if err != nil { return } //figure out if we meet the conditions to notify var perform bool switch strings.ToLower(n.Config.NotifyOn) { case "pass": perform = test.Status == "Pass" case "fail": perform = test.Status == "Fail" case "error": perform = test.Status == "Error" case "wontbuild": perform = test.Status == "WontBuild" case "problem": perform = false || test.Status == "Fail" || test.Status == "Error" || test.Status == "WontBuild" case "always": perform = true case "change": perform = !oneResult && test.Status != prev.Status } //if we have nothing to perform, we're done if !perform { return } //do the url and jabber concurrently errs := make(chan error) go func() { errs <- sendUrlNotification(ctx, n.Config.NotifyURL, test) }() go func() { errs <- sendJabberNotification(ctx, n.Config.NotifyJabber, test) }() //store the errors from it var me multiError for i := 0; i < 2; i++ { me = append(me, <-errs) } if !me.isNil() { err = me } return }
func dispatchWorkItem(ctx httputil.Context, work entities.Work) (err error) { //lease a builder and runner builder, runner, err := tracker.LeasePair(ctx) if err != nil { return } log.Printf("Got:\nBuilder: %+v\nRunner: %+v", builder, runner) //create an attempt a := entities.WorkAttempt{ When: time.Now(), Builder: builder.URL, Runner: runner.URL, ID: bson.NewObjectId(), } //push the new attempt at the start of the array log := append([]entities.WorkAttempt{a}, work.AttemptLog...) //transactionally acquire ownership of the document ops := []txn.Op{{ C: "Work", Id: work.ID, Assert: bson.M{ "revision": work.Revision, }, Update: bson.M{ "$inc": bson.M{"revision": 1}, "$set": bson.M{ "attemptlog": log, "status": entities.WorkStatusProcessing, }, }, }} err = ctx.R.Run(ops, bson.NewObjectId(), nil) if err == txn.ErrAborted { ctx.Infof("Lost the race dispatching a work item") err = nil return } if err != nil { return } //build the task task := &rpc.BuilderTask{ Work: work.Work, Key: work.ID.Hex(), ID: a.ID.Hex(), WorkRev: work.Revision + 1, Runner: runner.URL, Response: httputil.Absolute(router.Lookup("Response")), } //send the task off to the builder queue cl := client.New(builder.URL, http.DefaultClient, client.JsonCodec) err = cl.Call("BuilderQueue.Push", task, new(rpc.None)) return }