package marathon import ( "errors" "fmt" "math" "net/url" "strconv" "strings" "text/template" "github.com/BurntSushi/ty/fun" "github.com/containous/traefik/log" "github.com/containous/traefik/provider" "github.com/containous/traefik/provider/label" "github.com/containous/traefik/types" "github.com/gambol99/go-marathon" ) func (p *Provider) buildConfiguration() *types.Configuration { var MarathonFuncMap = template.FuncMap{ "getBackend": p.getBackend, "getBackendServer": p.getBackendServer, "getPort": getPort, "getWeight": getFuncStringService(label.TraefikWeight, label.DefaultWeight), "getDomain": getFuncStringService(label.TraefikDomain, p.Domain), // FIXME DEAD? "getSubDomain": p.getSubDomain, // FIXME DEAD ? "getProtocol": getFuncStringService(label.TraefikProtocol, label.DefaultProtocol), "getPassHostHeader": getFuncStringService(label.TraefikFrontendPassHostHeader, label.DefaultPassHostHeader), "getPriority": getFuncStringService(label.TraefikFrontendPriority, label.DefaultFrontendPriority), "getEntryPoints": getFuncSliceStringService(label.TraefikFrontendEntryPoints), "getFrontendRule": p.getFrontendRule, "getFrontendName": p.getFrontendName, "hasCircuitBreakerLabels": hasFunc(label.TraefikBackendCircuitBreakerExpression), "hasLoadBalancerLabels": hasLoadBalancerLabels, "hasMaxConnLabels": hasMaxConnLabels, "getMaxConnExtractorFunc": getFuncString(label.TraefikBackendMaxConnExtractorFunc, label.DefaultBackendMaxconnExtractorFunc), "getMaxConnAmount": getFuncInt64(label.TraefikBackendMaxConnAmount, math.MaxInt64), "getLoadBalancerMethod": getFuncString(label.TraefikBackendLoadBalancerMethod, label.DefaultBackendLoadBalancerMethod), "getCircuitBreakerExpression": getFuncString(label.TraefikBackendCircuitBreakerExpression, label.DefaultCircuitBreakerExpression), "getSticky": getSticky, "hasStickinessLabel": hasFunc(label.TraefikBackendLoadBalancerStickiness), "getStickinessCookieName": getFuncString(label.TraefikBackendLoadBalancerStickinessCookieName, ""), "hasHealthCheckLabels": hasFunc(label.TraefikBackendHealthCheckPath), "getHealthCheckPath": getFuncString(label.TraefikBackendHealthCheckPath, ""), "getHealthCheckInterval": getFuncString(label.TraefikBackendHealthCheckInterval, ""), "getBasicAuth": getFuncSliceStringService(label.TraefikFrontendAuthBasic), "getServiceNames": getServiceNames, "getServiceNameSuffix": getServiceNameSuffix, } v := url.Values{} v.Add("embed", "apps.tasks") v.Add("embed", "apps.deployments") v.Add("embed", "apps.readiness") applications, err := p.marathonClient.Applications(v) if err != nil { log.Errorf("Failed to retrieve Marathon applications: %v", err) return nil } filteredApps := fun.Filter(p.applicationFilter, applications.Apps).([]marathon.Application) for i, app := range filteredApps { filteredApps[i].Tasks = fun.Filter(func(task *marathon.Task) bool { filtered := p.taskFilter(*task, app) if filtered { logIllegalServices(*task, app) } return filtered }, app.Tasks).([]*marathon.Task) } templateObjects := struct { Applications []marathon.Application Domain string // FIXME DEAD ? }{ Applications: filteredApps, Domain: p.Domain, // FIXME DEAD ? } configuration, err := p.GetConfiguration("templates/marathon.tmpl", MarathonFuncMap, templateObjects) if err != nil { log.Errorf("Failed to render Marathon configuration template: %v", err) } return configuration } func (p *Provider) applicationFilter(app marathon.Application) bool { // Filter disabled application. if !label.IsEnabledP(app.Labels, p.ExposedByDefault) { log.Debugf("Filtering disabled Marathon application %s", app.ID) return false } // Filter by constraints. constraintTags := label.GetSliceStringValueP(app.Labels, label.TraefikTags) if p.MarathonLBCompatibility { if haGroup := label.GetStringValueP(app.Labels, labelLbCompatibilityGroup, ""); len(haGroup) > 0 { constraintTags = append(constraintTags, haGroup) } } if p.FilterMarathonConstraints && app.Constraints != nil { for _, constraintParts := range *app.Constraints { constraintTags = append(constraintTags, strings.Join(constraintParts, ":")) } } if ok, failingConstraint := p.MatchConstraints(constraintTags); !ok { if failingConstraint != nil { log.Debugf("Filtering Marathon application %s pruned by %q constraint", app.ID, failingConstraint.String()) } return false } return true } func (p *Provider) taskFilter(task marathon.Task, application marathon.Application) bool { if task.State != string(taskStateRunning) { 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 } } } } if ready := p.readyChecker.Do(task, application); !ready { log.Infof("Filtering unready task %s from application %s", task.ID, application.ID) return false } return true } // getFrontendRule returns the frontend rule for the specified application, using // its label. If service is provided, it will look for serviceName label before generic one. // It returns a default one (Host) if the label is not present. func (p *Provider) getFrontendRule(application marathon.Application, serviceName string) string { labels := getLabels(application, serviceName) lblFrontendRule := getLabelName(serviceName, label.SuffixFrontendRule) if value := label.GetStringValue(labels, lblFrontendRule, ""); len(value) > 0 { return value } if p.MarathonLBCompatibility { if value := label.GetStringValueP(application.Labels, labelLbCompatibility, ""); len(value) > 0 { return "Host:" + value } } if len(serviceName) > 0 { return "Host:" + strings.ToLower(provider.Normalize(serviceName)) + "." + p.getSubDomain(application.ID) + "." + p.Domain } return "Host:" + p.getSubDomain(application.ID) + "." + p.Domain } func (p *Provider) getBackend(application marathon.Application, serviceName string) string { labels := getLabels(application, serviceName) lblBackend := getLabelName(serviceName, label.SuffixBackend) value := label.GetStringValue(labels, lblBackend, "") if len(value) > 0 { return "backend" + value } return provider.Normalize("backend" + application.ID + getServiceNameSuffix(serviceName)) } func (p *Provider) getFrontendName(application marathon.Application, serviceName string) string { return provider.Normalize("frontend" + application.ID + getServiceNameSuffix(serviceName)) } 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) getBackendServer(task marathon.Task, application marathon.Application) string { if application.IPAddressPerTask == nil || p.ForceTaskHostname { return task.Host } numTaskIPAddresses := len(task.IPAddresses) switch numTaskIPAddresses { case 0: log.Errorf("Missing IP address for Marathon application %s on task %s", application.ID, task.ID) return "" case 1: return task.IPAddresses[0].IPAddress default: ipAddressIdx := label.GetIntValueP(application.Labels, labelIPAddressIdx, math.MinInt32) if ipAddressIdx == math.MinInt32 { log.Errorf("Found %d task IP addresses but missing IP address index for Marathon application %s on task %s", numTaskIPAddresses, application.ID, task.ID) return "" } if ipAddressIdx < 0 || ipAddressIdx > numTaskIPAddresses { log.Errorf("Cannot use IP address index to select from %d task IP addresses for Marathon application %s on task %s", numTaskIPAddresses, application.ID, task.ID) return "" } return task.IPAddresses[ipAddressIdx].IPAddress } } func identifier(app marathon.Application, task marathon.Task, serviceName string) string { id := fmt.Sprintf("Marathon task %s from application %s", task.ID, app.ID) if serviceName != "" { id += fmt.Sprintf(" (service: %s)", serviceName) } return id } // getServiceNames returns a list of service names for a given application // An empty name "" will be added if no service specific properties exist, // as an indication that there are no sub-services, but only main application func getServiceNames(application marathon.Application) []string { labelServiceProperties := label.ExtractServicePropertiesP(application.Labels) var names []string for k := range labelServiceProperties { names = append(names, k) } // An empty name "" will be added if no service specific properties exist, // as an indication that there are no sub-services, but only main application if len(names) == 0 { names = append(names, "") } return names } func getServiceNameSuffix(serviceName string) string { if len(serviceName) > 0 { return "-service-" + provider.Normalize(serviceName) } return "" } // logIllegalServices logs illegal service configurations. // While we cannot filter on the service level, they will eventually get // rejected once the server configuration is rendered. func logIllegalServices(task marathon.Task, application marathon.Application) { for _, serviceName := range getServiceNames(application) { // Check for illegal/missing ports. if _, err := processPorts(application, task, serviceName); err != nil { log.Warnf("%s has an illegal configuration: no proper port available", identifier(application, task, serviceName)) continue } // Check for illegal port label combinations. labels := getLabels(application, serviceName) hasPortLabel := label.Has(labels, getLabelName(serviceName, label.SuffixPort)) hasPortIndexLabel := label.Has(labels, getLabelName(serviceName, label.SuffixPortIndex)) if hasPortLabel && hasPortIndexLabel { log.Warnf("%s has both port and port index specified; port will take precedence", identifier(application, task, serviceName)) } } } func hasLoadBalancerLabels(application marathon.Application) bool { method := label.HasP(application.Labels, label.TraefikBackendLoadBalancerMethod) sticky := label.HasP(application.Labels, label.TraefikBackendLoadBalancerSticky) stickiness := label.HasP(application.Labels, label.TraefikBackendLoadBalancerStickiness) return method || sticky || stickiness } func hasMaxConnLabels(application marathon.Application) bool { mca := label.HasP(application.Labels, label.TraefikBackendMaxConnAmount) mcef := label.HasP(application.Labels, label.TraefikBackendMaxConnExtractorFunc) return mca && mcef } // TODO: Deprecated // Deprecated replaced by Stickiness func getSticky(application marathon.Application) string { if label.HasP(application.Labels, label.TraefikBackendLoadBalancerSticky) { log.Warnf("Deprecated configuration found: %s. Please use %s.", label.TraefikBackendLoadBalancerSticky, label.TraefikBackendLoadBalancerStickiness) } return label.GetStringValueP(application.Labels, label.TraefikBackendLoadBalancerSticky, "false") } func getPort(task marathon.Task, application marathon.Application, serviceName string) string { port, err := processPorts(application, task, serviceName) if err != nil { log.Errorf("Unable to process ports for %s: %s", identifier(application, task, serviceName), err) return "" } return strconv.Itoa(port) } // processPorts returns the configured port. // An explicitly specified port is preferred. If none is specified, it selects // one of the available port. The first such found port is returned unless an // optional index is provided. func processPorts(application marathon.Application, task marathon.Task, serviceName string) (int, error) { labels := getLabels(application, serviceName) lblPort := getLabelName(serviceName, label.SuffixPort) if label.Has(labels, lblPort) { port := label.GetIntValue(labels, lblPort, 0) if port <= 0 { return 0, fmt.Errorf("explicitly specified port %d must be larger than zero", port) } else if port > 0 { return port, nil } } ports := retrieveAvailablePorts(application, task) if len(ports) == 0 { return 0, errors.New("no port found") } lblPortIndex := getLabelName(serviceName, label.SuffixPortIndex) portIndex := label.GetIntValue(labels, lblPortIndex, 0) if portIndex < 0 || portIndex > len(ports)-1 { return 0, fmt.Errorf("index %d must be within 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 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{} } // Label functions func getLabels(application marathon.Application, serviceName string) map[string]string { if len(serviceName) > 0 { return label.ExtractServicePropertiesP(application.Labels)[serviceName] } if application.Labels != nil { return *application.Labels } return make(map[string]string) } func getLabelName(serviceName string, suffix string) string { if len(serviceName) != 0 { return suffix } return label.Prefix + suffix } func hasFunc(labelName string) func(application marathon.Application) bool { return func(application marathon.Application) bool { return label.HasP(application.Labels, labelName) } } func getFuncStringService(labelName string, defaultValue string) func(application marathon.Application, serviceName string) string { return func(application marathon.Application, serviceName string) string { labels := getLabels(application, serviceName) lbName := getLabelName(serviceName, labelName) return label.GetStringValue(labels, lbName, defaultValue) } } func getFuncSliceStringService(labelName string) func(application marathon.Application, serviceName string) []string { return func(application marathon.Application, serviceName string) []string { labels := getLabels(application, serviceName) return label.GetSliceStringValue(labels, getLabelName(serviceName, labelName)) } } func getFuncString(labelName string, defaultValue string) func(application marathon.Application) string { return func(application marathon.Application) string { return label.GetStringValueP(application.Labels, labelName, defaultValue) } } func getFuncInt64(labelName string, defaultValue int64) func(application marathon.Application) int64 { return func(application marathon.Application) int64 { return label.GetInt64ValueP(application.Labels, labelName, defaultValue) } }