package marathon import ( "errors" "fmt" "math" "net" "net/http" "net/url" "strconv" "strings" "text/template" "time" "github.com/BurntSushi/ty/fun" "github.com/cenk/backoff" "github.com/containous/flaeg" "github.com/containous/traefik/job" "github.com/containous/traefik/log" "github.com/containous/traefik/provider" "github.com/containous/traefik/safe" "github.com/containous/traefik/types" "github.com/gambol99/go-marathon" ) const ( labelPort = "traefik.port" labelPortIndex = "traefik.portIndex" ) var _ provider.Provider = (*Provider)(nil) // Provider holds configuration of the provider. type Provider struct { provider.BaseProvider Endpoint string `description:"Marathon server endpoint. You can also specify multiple endpoint for Marathon"` Domain string `description:"Default domain used"` ExposedByDefault bool `description:"Expose Marathon apps by default"` GroupsAsSubDomains bool `description:"Convert Marathon groups to subdomains"` DCOSToken string `description:"DCOSToken for DCOS environment, This will override the Authorization header"` MarathonLBCompatibility bool `description:"Add compatibility with marathon-lb labels"` TLS *provider.ClientTLS `description:"Enable Docker TLS support"` DialerTimeout flaeg.Duration `description:"Set a non-default connection timeout for Marathon"` KeepAlive flaeg.Duration `description:"Set a non-default TCP Keep Alive time in seconds"` Basic *Basic marathonClient marathon.Marathon } // Basic holds basic authentication specific configurations type Basic struct { HTTPBasicAuthUser string HTTPBasicPassword string } type lightMarathonClient interface { AllTasks(v url.Values) (*marathon.Tasks, error) Applications(url.Values) (*marathon.Applications, error) } // Provide allows the marathon provider to provide configurations to traefik // using the given configuration channel. func (p *Provider) Provide(configurationChan chan<- types.ConfigMessage, pool *safe.Pool, constraints types.Constraints) error { p.Constraints = append(p.Constraints, constraints...) operation := func() error { config := marathon.NewDefaultConfig() config.URL = p.Endpoint config.EventsTransport = marathon.EventsTransportSSE if p.Basic != nil { config.HTTPBasicAuthUser = p.Basic.HTTPBasicAuthUser config.HTTPBasicPassword = p.Basic.HTTPBasicPassword } if len(p.DCOSToken) > 0 { config.DCOSToken = p.DCOSToken } TLSConfig, err := p.TLS.CreateTLSConfig() if err != nil { return err } config.HTTPClient = &http.Client{ Transport: &http.Transport{ DialContext: (&net.Dialer{ KeepAlive: time.Duration(p.KeepAlive), Timeout: time.Duration(p.DialerTimeout), }).DialContext, TLSClientConfig: TLSConfig, }, } client, err := marathon.NewClient(config) if err != nil { log.Errorf("Failed to create a client for marathon, error: %s", err) return err } p.marathonClient = client if p.Watch { update, err := client.AddEventsListener(marathon.EventIDApplications) if err != nil { log.Errorf("Failed to register for events, %s", err) return err } pool.Go(func(stop chan bool) { defer close(update) for { select { case <-stop: return case event := <-update: log.Debug("Provider event receveived", event) configuration := p.loadMarathonConfig() if configuration != nil { configurationChan <- types.ConfigMessage{ ProviderName: "marathon", Configuration: configuration, } } } } }) } configuration := p.loadMarathonConfig() configurationChan <- types.ConfigMessage{ ProviderName: "marathon", Configuration: configuration, } return nil } notify := func(err error, time time.Duration) { log.Errorf("Provider connection error %+v, retrying in %s", err, time) } err := backoff.RetryNotify(safe.OperationWithRecover(operation), job.NewBackOff(backoff.NewExponentialBackOff()), notify) if err != nil { log.Errorf("Cannot connect to Provider server %+v", err) } return nil } func (p *Provider) loadMarathonConfig() *types.Configuration { var MarathonFuncMap = template.FuncMap{ "getBackend": p.getBackend, "getBackendServer": p.getBackendServer, "getPort": p.getPort, "getWeight": p.getWeight, "getDomain": p.getDomain, "getProtocol": p.getProtocol, "getPassHostHeader": p.getPassHostHeader, "getPriority": p.getPriority, "getEntryPoints": p.getEntryPoints, "getFrontendRule": p.getFrontendRule, "getFrontendBackend": p.getFrontendBackend, "hasCircuitBreakerLabels": p.hasCircuitBreakerLabels, "hasLoadBalancerLabels": p.hasLoadBalancerLabels, "hasMaxConnLabels": p.hasMaxConnLabels, "getMaxConnExtractorFunc": p.getMaxConnExtractorFunc, "getMaxConnAmount": p.getMaxConnAmount, "getLoadBalancerMethod": p.getLoadBalancerMethod, "getCircuitBreakerExpression": p.getCircuitBreakerExpression, "getSticky": p.getSticky, } applications, err := p.marathonClient.Applications(nil) if err != nil { log.Errorf("Failed to create a client for marathon, error: %s", err) return nil } tasks, err := p.marathonClient.AllTasks(&marathon.AllTasksOpts{Status: "running"}) if err != nil { log.Errorf("Failed to create a client for marathon, error: %s", err) return nil } //filter tasks filteredTasks := fun.Filter(func(task marathon.Task) bool { return p.taskFilter(task, applications, p.ExposedByDefault) }, tasks.Tasks).([]marathon.Task) //filter apps filteredApps := fun.Filter(func(app marathon.Application) bool { return p.applicationFilter(app, filteredTasks) }, applications.Apps).([]marathon.Application) templateObjects := struct { Applications []marathon.Application Tasks []marathon.Task Domain string }{ filteredApps, filteredTasks, p.Domain, } configuration, err := p.GetConfiguration("templates/marathon.tmpl", MarathonFuncMap, templateObjects) if err != nil { log.Error(err) } return configuration } func (p *Provider) taskFilter(task marathon.Task, applications *marathon.Applications, exposedByDefaultFlag bool) bool { application, err := getApplication(task, applications.Apps) if err != nil { log.Errorf("Unable to get Marathon application %s for task %s", task.AppID, task.ID) return false } if _, err = processPorts(application, task); err != nil { log.Errorf("Filtering Marathon task %s from application %s without port: %s", task.ID, application.ID, err) return false } // Filter illegal port label specification. _, hasPortIndexLabel := p.getLabel(application, labelPortIndex) _, hasPortLabel := p.getLabel(application, labelPort) if hasPortIndexLabel && hasPortLabel { log.Debugf("Filtering Marathon task %s from application %s specifying both traefik.portIndex and traefik.port labels", task.ID, application.ID) return false } // Filter by constraints. label, _ := p.getLabel(application, "traefik.tags") constraintTags := strings.Split(label, ",") if p.MarathonLBCompatibility { if label, ok := p.getLabel(application, "HAPROXY_GROUP"); ok { constraintTags = append(constraintTags, label) } } if ok, failingConstraint := p.MatchConstraints(constraintTags); !ok { if failingConstraint != nil { log.Debugf("Filtering Marathon task %s from application %s pruned by '%v' constraint", task.ID, application.ID, failingConstraint.String()) } return false } // Filter disabled application. if !isApplicationEnabled(application, exposedByDefaultFlag) { log.Debugf("Filtering disabled Marathon task %s from application %s", task.ID, application.ID) return false } // Filter task with existing, bad health check results. if application.HasHealthChecks() { if task.HasHealthCheckResults() { for _, healthcheck := range task.HealthCheckResults { if !healthcheck.Alive { log.Debugf("Filtering Marathon task %s from application %s with bad health check", task.ID, application.ID) return false } } } } return true } func (p *Provider) applicationFilter(app marathon.Application, filteredTasks []marathon.Task) bool { label, _ := p.getLabel(app, "traefik.tags") constraintTags := strings.Split(label, ",") if p.MarathonLBCompatibility { if label, ok := p.getLabel(app, "HAPROXY_GROUP"); ok { constraintTags = append(constraintTags, label) } } if ok, failingConstraint := p.MatchConstraints(constraintTags); !ok { if failingConstraint != nil { log.Debugf("Application %v pruned by '%v' constraint", app.ID, failingConstraint.String()) } return false } return fun.Exists(func(task marathon.Task) bool { return task.AppID == app.ID }, filteredTasks) } func getApplication(task marathon.Task, apps []marathon.Application) (marathon.Application, error) { for _, application := range apps { if application.ID == task.AppID { return application, nil } } return marathon.Application{}, errors.New("Application not found: " + task.AppID) } func isApplicationEnabled(application marathon.Application, exposedByDefault bool) bool { return exposedByDefault && (*application.Labels)["traefik.enable"] != "false" || (*application.Labels)["traefik.enable"] == "true" } func (p *Provider) getLabel(application marathon.Application, label string) (string, bool) { for key, value := range *application.Labels { if key == label { return value, true } } return "", false } func (p *Provider) getPort(task marathon.Task, applications []marathon.Application) string { application, err := getApplication(task, applications) if err != nil { log.Errorf("Unable to get Marathon application %s for task %s", application.ID, task.ID) return "" } port, err := processPorts(application, task) if err != nil { log.Errorf("Unable to process ports for Marathon application %s and task %s: %s", application.ID, task.ID, err) return "" } return strconv.Itoa(port) } func (p *Provider) getWeight(task marathon.Task, applications []marathon.Application) string { application, errApp := getApplication(task, applications) if errApp != nil { log.Errorf("Unable to get marathon application from task %s", task.AppID) return "0" } if label, ok := p.getLabel(application, "traefik.weight"); ok { return label } return "0" } func (p *Provider) getDomain(application marathon.Application) string { if label, ok := p.getLabel(application, "traefik.domain"); ok { return label } return p.Domain } func (p *Provider) getProtocol(task marathon.Task, applications []marathon.Application) string { application, errApp := getApplication(task, applications) if errApp != nil { log.Errorf("Unable to get marathon application from task %s", task.AppID) return "http" } if label, ok := p.getLabel(application, "traefik.protocol"); ok { return label } return "http" } func (p *Provider) getSticky(application marathon.Application) string { if sticky, ok := p.getLabel(application, "traefik.backend.loadbalancer.sticky"); ok { return sticky } return "false" } func (p *Provider) getPassHostHeader(application marathon.Application) string { if passHostHeader, ok := p.getLabel(application, "traefik.frontend.passHostHeader"); ok { return passHostHeader } return "true" } func (p *Provider) getPriority(application marathon.Application) string { if priority, ok := p.getLabel(application, "traefik.frontend.priority"); ok { return priority } return "0" } func (p *Provider) getEntryPoints(application marathon.Application) []string { if entryPoints, ok := p.getLabel(application, "traefik.frontend.entryPoints"); ok { return strings.Split(entryPoints, ",") } return []string{} } // getFrontendRule returns the frontend rule for the specified application, using // it's label. It returns a default one (Host) if the label is not present. func (p *Provider) getFrontendRule(application marathon.Application) string { if label, ok := p.getLabel(application, "traefik.frontend.rule"); ok { return label } if p.MarathonLBCompatibility { if label, ok := p.getLabel(application, "HAPROXY_0_VHOST"); ok { return "Host:" + label } } return "Host:" + p.getSubDomain(application.ID) + "." + p.Domain } func (p *Provider) getBackend(task marathon.Task, applications []marathon.Application) string { application, errApp := getApplication(task, applications) if errApp != nil { log.Errorf("Unable to get marathon application from task %s", task.AppID) return "" } return p.getFrontendBackend(application) } func (p *Provider) getFrontendBackend(application marathon.Application) string { if label, ok := p.getLabel(application, "traefik.backend"); ok { return label } return provider.Replace("/", "-", application.ID) } func (p *Provider) getSubDomain(name string) string { if p.GroupsAsSubDomains { splitedName := strings.Split(strings.TrimPrefix(name, "/"), "/") provider.ReverseStringSlice(&splitedName) reverseName := strings.Join(splitedName, ".") return reverseName } return strings.Replace(strings.TrimPrefix(name, "/"), "/", "-", -1) } func (p *Provider) hasCircuitBreakerLabels(application marathon.Application) bool { _, ok := p.getLabel(application, "traefik.backend.circuitbreaker.expression") return ok } func (p *Provider) hasLoadBalancerLabels(application marathon.Application) bool { _, errMethod := p.getLabel(application, "traefik.backend.loadbalancer.method") _, errSticky := p.getLabel(application, "traefik.backend.loadbalancer.sticky") return errMethod || errSticky } func (p *Provider) hasMaxConnLabels(application marathon.Application) bool { if _, ok := p.getLabel(application, "traefik.backend.maxconn.amount"); !ok { return false } _, ok := p.getLabel(application, "traefik.backend.maxconn.extractorfunc") return ok } func (p *Provider) getMaxConnAmount(application marathon.Application) int64 { if label, ok := p.getLabel(application, "traefik.backend.maxconn.amount"); ok { i, errConv := strconv.ParseInt(label, 10, 64) if errConv != nil { log.Errorf("Unable to parse traefik.backend.maxconn.amount %s", label) return math.MaxInt64 } return i } return math.MaxInt64 } func (p *Provider) getMaxConnExtractorFunc(application marathon.Application) string { if label, ok := p.getLabel(application, "traefik.backend.maxconn.extractorfunc"); ok { return label } return "request.host" } func (p *Provider) getLoadBalancerMethod(application marathon.Application) string { if label, ok := p.getLabel(application, "traefik.backend.loadbalancer.method"); ok { return label } return "wrr" } func (p *Provider) getCircuitBreakerExpression(application marathon.Application) string { if label, ok := p.getLabel(application, "traefik.backend.circuitbreaker.expression"); ok { return label } return "NetworkErrorRatio() > 1" } func processPorts(application marathon.Application, task marathon.Task) (int, error) { if portLabel, ok := (*application.Labels)[labelPort]; ok { port, err := strconv.Atoi(portLabel) switch { case err != nil: return 0, fmt.Errorf("failed to parse port label: %s", err) case port <= 0: return 0, fmt.Errorf("explicitly specified port %d must be larger than zero", port) } return port, nil } ports := retrieveAvailablePorts(application, task) if len(ports) == 0 { return 0, errors.New("no port found") } portIndex := 0 portIndexLabel, ok := (*application.Labels)[labelPortIndex] if ok { var err error portIndex, err = strconv.Atoi(portIndexLabel) switch { case err != nil: return 0, fmt.Errorf("failed to parse port index label: %s", err) case portIndex < 0, portIndex > len(ports)-1: return 0, fmt.Errorf("port index %d must be within port range (0, %d)", portIndex, len(ports)-1) } } return ports[portIndex], nil } func retrieveAvailablePorts(application marathon.Application, task marathon.Task) []int { // Using default port configuration if task.Ports != nil && len(task.Ports) > 0 { return task.Ports } // Using port definition if available if application.PortDefinitions != nil && len(*application.PortDefinitions) > 0 { var ports []int for _, def := range *application.PortDefinitions { if def.Port != nil { ports = append(ports, *def.Port) } } return ports } // If using IP-per-task using this port definition if application.IPAddressPerTask != nil && len(*((*application.IPAddressPerTask).Discovery).Ports) > 0 { var ports []int for _, def := range *((*application.IPAddressPerTask).Discovery).Ports { ports = append(ports, def.Number) } return ports } return []int{} } func (p *Provider) getBackendServer(task marathon.Task, applications []marathon.Application) string { application, err := getApplication(task, applications) if err != nil { log.Errorf("Unable to get marathon application from task %s", task.AppID) return "" } if len(task.IPAddresses) == 0 { return "" } else if len(task.IPAddresses) == 1 { return task.IPAddresses[0].IPAddress } else { ipAddressIdxStr, ok := p.getLabel(application, "traefik.ipAddressIdx") if !ok { log.Errorf("Unable to get marathon IPAddress from task %s", task.AppID) return "" } ipAddressIdx, err := strconv.Atoi(ipAddressIdxStr) if err != nil { log.Errorf("Invalid marathon IPAddress from task %s", task.AppID) return "" } return task.IPAddresses[ipAddressIdx].IPAddress } }