package docker import ( "context" "fmt" "math" "net" "net/http" "regexp" "strconv" "strings" "text/template" "time" "github.com/BurntSushi/ty/fun" "github.com/cenk/backoff" "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/containous/traefik/version" "github.com/docker/engine-api/client" dockertypes "github.com/docker/engine-api/types" dockercontainertypes "github.com/docker/engine-api/types/container" eventtypes "github.com/docker/engine-api/types/events" "github.com/docker/engine-api/types/filters" "github.com/docker/engine-api/types/swarm" swarmtypes "github.com/docker/engine-api/types/swarm" "github.com/docker/go-connections/nat" "github.com/docker/go-connections/sockets" "github.com/vdemeester/docker-events" ) const ( // SwarmAPIVersion is a constant holding the version of the Provider API traefik will use SwarmAPIVersion string = "1.24" // SwarmDefaultWatchTime is the duration of the interval when polling docker SwarmDefaultWatchTime = 15 * time.Second ) var _ provider.Provider = (*Provider)(nil) // Provider holds configurations of the provider. type Provider struct { provider.BaseProvider `mapstructure:",squash"` Endpoint string `description:"Docker server endpoint. Can be a tcp or a unix socket endpoint"` Domain string `description:"Default domain used"` TLS *provider.ClientTLS `description:"Enable Docker TLS support"` ExposedByDefault bool `description:"Expose containers by default"` UseBindPortIP bool `description:"Use the ip address from the bound port, rather than from the inner network"` SwarmMode bool `description:"Use Docker on Swarm Mode"` } // dockerData holds the need data to the Provider p type dockerData struct { ServiceName string Name string Labels map[string]string // List of labels set to container or service NetworkSettings networkSettings Health string } // NetworkSettings holds the networks data to the Provider p type networkSettings struct { NetworkMode dockercontainertypes.NetworkMode Ports nat.PortMap Networks map[string]*networkData } // Network holds the network data to the Provider p type networkData struct { Name string Addr string Port int Protocol string ID string } func (p *Provider) createClient() (client.APIClient, error) { var httpClient *http.Client httpHeaders := map[string]string{ "User-Agent": "Traefik " + version.Version, } if p.TLS != nil { config, err := p.TLS.CreateTLSConfig() if err != nil { return nil, err } tr := &http.Transport{ TLSClientConfig: config, } proto, addr, _, err := client.ParseHost(p.Endpoint) if err != nil { return nil, err } sockets.ConfigureTransport(tr, proto, addr) httpClient = &http.Client{ Transport: tr, } } var version string if p.SwarmMode { version = SwarmAPIVersion } else { version = DockerAPIVersion } return client.NewClient(p.Endpoint, version, httpClient, httpHeaders) } // Provide allows the docker 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...) // TODO register this routine in pool, and watch for stop channel safe.Go(func() { operation := func() error { var err error dockerClient, err := p.createClient() if err != nil { log.Errorf("Failed to create a client for docker, error: %s", err) return err } ctx := context.Background() version, err := dockerClient.ServerVersion(ctx) log.Debugf("Provider connection established with docker %s (API %s)", version.Version, version.APIVersion) var dockerDataList []dockerData if p.SwarmMode { dockerDataList, err = p.listServices(ctx, dockerClient) if err != nil { log.Errorf("Failed to list services for docker swarm mode, error %s", err) return err } } else { dockerDataList, err = listContainers(ctx, dockerClient) if err != nil { log.Errorf("Failed to list containers for docker, error %s", err) return err } } configuration := p.loadDockerConfig(dockerDataList) configurationChan <- types.ConfigMessage{ ProviderName: "docker", Configuration: configuration, } if p.Watch { ctx, cancel := context.WithCancel(ctx) if p.SwarmMode { errChan := make(chan error) // TODO: This need to be change. Linked to Swarm events docker/docker#23827 ticker := time.NewTicker(SwarmDefaultWatchTime) pool.Go(func(stop chan bool) { defer close(errChan) for { select { case <-ticker.C: services, err := p.listServices(ctx, dockerClient) if err != nil { log.Errorf("Failed to list services for docker, error %s", err) errChan <- err return } configuration := p.loadDockerConfig(services) if configuration != nil { configurationChan <- types.ConfigMessage{ ProviderName: "docker", Configuration: configuration, } } case <-stop: ticker.Stop() cancel() return } } }) if err, ok := <-errChan; ok { return err } // channel closed } else { pool.Go(func(stop chan bool) { for { select { case <-stop: cancel() return } } }) f := filters.NewArgs() f.Add("type", "container") options := dockertypes.EventsOptions{ Filters: f, } eventHandler := events.NewHandler(events.ByAction) startStopHandle := func(m eventtypes.Message) { log.Debugf("Provider event received %+v", m) containers, err := listContainers(ctx, dockerClient) if err != nil { log.Errorf("Failed to list containers for docker, error %s", err) // Call cancel to get out of the monitor cancel() return } configuration := p.loadDockerConfig(containers) if configuration != nil { configurationChan <- types.ConfigMessage{ ProviderName: "docker", Configuration: configuration, } } } eventHandler.Handle("start", startStopHandle) eventHandler.Handle("die", startStopHandle) eventHandler.Handle("health_status: healthy", startStopHandle) eventHandler.Handle("health_status: unhealthy", startStopHandle) eventHandler.Handle("health_status: starting", startStopHandle) errChan := events.MonitorWithHandler(ctx, dockerClient, options, eventHandler) if err := <-errChan; err != nil { return err } } } 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 docker server %+v", err) } }) return nil } func (p *Provider) loadDockerConfig(containersInspected []dockerData) *types.Configuration { var DockerFuncMap = template.FuncMap{ "getBackend": p.getBackend, "getIPAddress": p.getIPAddress, "getPort": p.getPort, "getWeight": p.getWeight, "getDomain": p.getDomain, "getProtocol": p.getProtocol, "getPassHostHeader": p.getPassHostHeader, "getPriority": p.getPriority, "getEntryPoints": p.getEntryPoints, "getBasicAuth": p.getBasicAuth, "getFrontendRule": p.getFrontendRule, "hasCircuitBreakerLabel": p.hasCircuitBreakerLabel, "getCircuitBreakerExpression": p.getCircuitBreakerExpression, "hasLoadBalancerLabel": p.hasLoadBalancerLabel, "getLoadBalancerMethod": p.getLoadBalancerMethod, "hasMaxConnLabels": p.hasMaxConnLabels, "getMaxConnAmount": p.getMaxConnAmount, "getMaxConnExtractorFunc": p.getMaxConnExtractorFunc, "getSticky": p.getSticky, "getIsBackendLBSwarm": p.getIsBackendLBSwarm, "hasServices": p.hasServices, "getServiceNames": p.getServiceNames, "getServicePort": p.getServicePort, "getServiceWeight": p.getServiceWeight, "getServiceProtocol": p.getServiceProtocol, "getServiceEntryPoints": p.getServiceEntryPoints, "getServiceBasicAuth": p.getServiceBasicAuth, "getServiceFrontendRule": p.getServiceFrontendRule, "getServicePassHostHeader": p.getServicePassHostHeader, "getServicePriority": p.getServicePriority, "getServiceBackend": p.getServiceBackend, "getWhitelistSourceRange": p.getWhitelistSourceRange, } // filter containers filteredContainers := fun.Filter(func(container dockerData) bool { return p.containerFilter(container) }, containersInspected).([]dockerData) frontends := map[string][]dockerData{} backends := map[string]dockerData{} servers := map[string][]dockerData{} for _, container := range filteredContainers { frontendName := p.getFrontendName(container) frontends[frontendName] = append(frontends[frontendName], container) backendName := p.getBackend(container) backends[backendName] = container servers[backendName] = append(servers[backendName], container) } templateObjects := struct { Containers []dockerData Frontends map[string][]dockerData Backends map[string]dockerData Servers map[string][]dockerData Domain string }{ filteredContainers, frontends, backends, servers, p.Domain, } configuration, err := p.GetConfiguration("templates/docker.tmpl", DockerFuncMap, templateObjects) if err != nil { log.Error(err) } return configuration } func (p *Provider) hasCircuitBreakerLabel(container dockerData) bool { if _, err := getLabel(container, "traefik.backend.circuitbreaker.expression"); err != nil { return false } return true } // Regexp used to extract the name of the service and the name of the property for this service // All properties are under the format traefik..frontent.*= except the port/weight/protocol directly after traefik.. var servicesPropertiesRegexp = regexp.MustCompile(`^traefik\.(?P.*?)\.(?Pport|weight|protocol|frontend\.(.*))$`) // Map of services properties // we can get it with label[serviceName][propertyName] and we got the propertyValue type labelServiceProperties map[string]map[string]string // Check if for the given container, we find labels that are defining services func (p *Provider) hasServices(container dockerData) bool { return len(extractServicesLabels(container.Labels)) > 0 } // Extract the service labels from container labels of dockerData struct func extractServicesLabels(labels map[string]string) labelServiceProperties { v := make(labelServiceProperties) for index, serviceProperty := range labels { matches := servicesPropertiesRegexp.FindStringSubmatch(index) if matches != nil { result := make(map[string]string) for i, name := range servicesPropertiesRegexp.SubexpNames() { if i != 0 { result[name] = matches[i] } } serviceName := result["service_name"] if _, ok := v[serviceName]; !ok { v[serviceName] = make(map[string]string) } v[serviceName][result["property_name"]] = serviceProperty } } return v } // Gets the entry for a service label searching in all labels of the given container func getContainerServiceLabel(container dockerData, serviceName string, entry string) (string, bool) { value, ok := extractServicesLabels(container.Labels)[serviceName][entry] return value, ok } // Gets array of service names for a given container func (p *Provider) getServiceNames(container dockerData) []string { labelServiceProperties := extractServicesLabels(container.Labels) keys := make([]string, 0, len(labelServiceProperties)) for k := range labelServiceProperties { keys = append(keys, k) } return keys } // Extract entrypoints from labels for a given service and a given docker container func (p *Provider) getServiceEntryPoints(container dockerData, serviceName string) []string { if entryPoints, ok := getContainerServiceLabel(container, serviceName, "frontend.entryPoints"); ok { return strings.Split(entryPoints, ",") } return p.getEntryPoints(container) } // Extract basic auth from labels for a given service and a given docker container func (p *Provider) getServiceBasicAuth(container dockerData, serviceName string) []string { if basicAuth, ok := getContainerServiceLabel(container, serviceName, "frontend.auth.basic"); ok { return strings.Split(basicAuth, ",") } return p.getBasicAuth(container) } // Extract passHostHeader from labels for a given service and a given docker container func (p *Provider) getServicePassHostHeader(container dockerData, serviceName string) string { if servicePassHostHeader, ok := getContainerServiceLabel(container, serviceName, "frontend.passHostHeader"); ok { return servicePassHostHeader } return p.getPassHostHeader(container) } // Extract priority from labels for a given service and a given docker container func (p *Provider) getServicePriority(container dockerData, serviceName string) string { if value, ok := getContainerServiceLabel(container, serviceName, "frontend.priority"); ok { return value } return p.getPriority(container) } // Extract backend from labels for a given service and a given docker container func (p *Provider) getServiceBackend(container dockerData, serviceName string) string { if value, ok := getContainerServiceLabel(container, serviceName, "frontend.backend"); ok { return value } return p.getBackend(container) + "-" + provider.Normalize(serviceName) } // Extract rule from labels for a given service and a given docker container func (p *Provider) getServiceFrontendRule(container dockerData, serviceName string) string { if value, ok := getContainerServiceLabel(container, serviceName, "frontend.rule"); ok { return value } return p.getFrontendRule(container) } // Extract port from labels for a given service and a given docker container func (p *Provider) getServicePort(container dockerData, serviceName string) string { if value, ok := getContainerServiceLabel(container, serviceName, "port"); ok { return value } return p.getPort(container) } // Extract weight from labels for a given service and a given docker container func (p *Provider) getServiceWeight(container dockerData, serviceName string) string { if value, ok := getContainerServiceLabel(container, serviceName, "weight"); ok { return value } return p.getWeight(container) } // Extract protocol from labels for a given service and a given docker container func (p *Provider) getServiceProtocol(container dockerData, serviceName string) string { if value, ok := getContainerServiceLabel(container, serviceName, "protocol"); ok { return value } return p.getProtocol(container) } func (p *Provider) hasLoadBalancerLabel(container dockerData) bool { _, errMethod := getLabel(container, "traefik.backend.loadbalancer.method") _, errSticky := getLabel(container, "traefik.backend.loadbalancer.sticky") if errMethod != nil && errSticky != nil { return false } return true } func (p *Provider) hasMaxConnLabels(container dockerData) bool { if _, err := getLabel(container, "traefik.backend.maxconn.amount"); err != nil { return false } if _, err := getLabel(container, "traefik.backend.maxconn.extractorfunc"); err != nil { return false } return true } func (p *Provider) getCircuitBreakerExpression(container dockerData) string { if label, err := getLabel(container, "traefik.backend.circuitbreaker.expression"); err == nil { return label } return "NetworkErrorRatio() > 1" } func (p *Provider) getLoadBalancerMethod(container dockerData) string { if label, err := getLabel(container, "traefik.backend.loadbalancer.method"); err == nil { return label } return "wrr" } func (p *Provider) getMaxConnAmount(container dockerData) int64 { if label, err := getLabel(container, "traefik.backend.maxconn.amount"); err == nil { 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(container dockerData) string { if label, err := getLabel(container, "traefik.backend.maxconn.extractorfunc"); err == nil { return label } return "request.host" } func (p *Provider) containerFilter(container dockerData) bool { _, err := strconv.Atoi(container.Labels["traefik.port"]) if len(container.NetworkSettings.Ports) == 0 && err != nil { log.Debugf("Filtering container without port and no traefik.port label %s", container.Name) return false } if !isContainerEnabled(container, p.ExposedByDefault) { log.Debugf("Filtering disabled container %s", container.Name) return false } constraintTags := strings.Split(container.Labels["traefik.tags"], ",") if ok, failingConstraint := p.MatchConstraints(constraintTags); !ok { if failingConstraint != nil { log.Debugf("Container %v pruned by '%v' constraint", container.Name, failingConstraint.String()) } return false } if container.Health != "" && container.Health != "healthy" { log.Debugf("Filtering unhealthy or starting container %s", container.Name) return false } if len(p.getFrontendRule(container)) == 0 { log.Debugf("Filtering container with empty frontend rule %s", container.Name) return false } return true } func (p *Provider) getFrontendName(container dockerData) string { // Replace '.' with '-' in quoted keys because of this issue https://github.com/BurntSushi/toml/issues/78 return provider.Normalize(p.getFrontendRule(container)) } // GetFrontendRule returns the frontend rule for the specified container, using // it's label. It returns a default one (Host) if the label is not present. func (p *Provider) getFrontendRule(container dockerData) string { if label, err := getLabel(container, "traefik.frontend.rule"); err == nil { return label } if labels, err := getLabels(container, []string{"com.docker.compose.project", "com.docker.compose.service"}); err == nil { return "Host:" + p.getSubDomain(labels["com.docker.compose.service"]+"."+labels["com.docker.compose.project"]) + "." + p.Domain } if len(p.Domain) > 0 { return "Host:" + p.getSubDomain(container.ServiceName) + "." + p.Domain } return "" } func (p *Provider) getBackend(container dockerData) string { if label, err := getLabel(container, "traefik.backend"); err == nil { return provider.Normalize(label) } if labels, err := getLabels(container, []string{"com.docker.compose.project", "com.docker.compose.service"}); err == nil { return provider.Normalize(labels["com.docker.compose.service"] + "_" + labels["com.docker.compose.project"]) } return provider.Normalize(container.ServiceName) } func (p *Provider) getIPAddress(container dockerData) string { if label, err := getLabel(container, "traefik.docker.network"); err == nil && label != "" { networkSettings := container.NetworkSettings if networkSettings.Networks != nil { network := networkSettings.Networks[label] if network != nil { return network.Addr } log.Warnf("Could not find network named '%s' for container '%s'! Maybe you're missing the project's prefix in the label? Defaulting to first available network.", label, container.Name) } } // If net==host, quick n' dirty, we return 127.0.0.1 // This will work locally, but will fail with swarm. if "host" == container.NetworkSettings.NetworkMode { return "127.0.0.1" } if p.UseBindPortIP { port := p.getPort(container) for netport, portBindings := range container.NetworkSettings.Ports { if string(netport) == port+"/TCP" || string(netport) == port+"/UDP" { for _, p := range portBindings { return p.HostIP } } } } for _, network := range container.NetworkSettings.Networks { return network.Addr } return "" } func (p *Provider) getPort(container dockerData) string { if label, err := getLabel(container, "traefik.port"); err == nil { return label } // See iteration order in https://blog.golang.org/go-maps-in-action var ports []nat.Port for p := range container.NetworkSettings.Ports { ports = append(ports, p) } less := func(i, j nat.Port) bool { return i.Int() < j.Int() } nat.Sort(ports, less) if len(ports) > 0 { min := ports[0] return min.Port() } return "" } func (p *Provider) getWeight(container dockerData) string { if label, err := getLabel(container, "traefik.weight"); err == nil { return label } return "0" } func (p *Provider) getSticky(container dockerData) string { if label, err := getLabel(container, "traefik.backend.loadbalancer.sticky"); err == nil { return label } return "false" } func (p *Provider) getIsBackendLBSwarm(container dockerData) string { if label, err := getLabel(container, "traefik.backend.loadbalancer.swarm"); err == nil { return label } return "false" } func (p *Provider) getDomain(container dockerData) string { if label, err := getLabel(container, "traefik.domain"); err == nil { return label } return p.Domain } func (p *Provider) getProtocol(container dockerData) string { if label, err := getLabel(container, "traefik.protocol"); err == nil { return label } return "http" } func (p *Provider) getPassHostHeader(container dockerData) string { if passHostHeader, err := getLabel(container, "traefik.frontend.passHostHeader"); err == nil { return passHostHeader } return "true" } func (p *Provider) getWhitelistSourceRange(container dockerData) []string { var whitelistSourceRange []string if whitelistSourceRangeLabel, err := getLabel(container, "traefik.frontend.whitelistSourceRange"); err == nil { whitelistSourceRange = provider.SplitAndTrimString(whitelistSourceRangeLabel) } return whitelistSourceRange } func (p *Provider) getPriority(container dockerData) string { if priority, err := getLabel(container, "traefik.frontend.priority"); err == nil { return priority } return "0" } func (p *Provider) getEntryPoints(container dockerData) []string { if entryPoints, err := getLabel(container, "traefik.frontend.entryPoints"); err == nil { return strings.Split(entryPoints, ",") } return []string{} } func (p *Provider) getBasicAuth(container dockerData) []string { if basicAuth, err := getLabel(container, "traefik.frontend.auth.basic"); err == nil { return strings.Split(basicAuth, ",") } return []string{} } func isContainerEnabled(container dockerData, exposedByDefault bool) bool { return exposedByDefault && container.Labels["traefik.enable"] != "false" || container.Labels["traefik.enable"] == "true" } func getLabel(container dockerData, label string) (string, error) { for key, value := range container.Labels { if key == label { return value, nil } } return "", fmt.Errorf("label not found: %s", label) } func getLabels(container dockerData, labels []string) (map[string]string, error) { var globalErr error foundLabels := map[string]string{} for _, label := range labels { foundLabel, err := getLabel(container, label) // Error out only if one of them is defined. if err != nil { globalErr = fmt.Errorf("label not found: %s", label) continue } foundLabels[label] = foundLabel } return foundLabels, globalErr } func listContainers(ctx context.Context, dockerClient client.ContainerAPIClient) ([]dockerData, error) { containerList, err := dockerClient.ContainerList(ctx, dockertypes.ContainerListOptions{}) if err != nil { return []dockerData{}, err } containersInspected := []dockerData{} // get inspect containers for _, container := range containerList { containerInspected, err := dockerClient.ContainerInspect(ctx, container.ID) if err != nil { log.Warnf("Failed to inspect container %s, error: %s", container.ID, err) } else { dockerData := parseContainer(containerInspected) containersInspected = append(containersInspected, dockerData) } } return containersInspected, nil } func parseContainer(container dockertypes.ContainerJSON) dockerData { dockerData := dockerData{ NetworkSettings: networkSettings{}, } if container.ContainerJSONBase != nil { dockerData.Name = container.ContainerJSONBase.Name dockerData.ServiceName = dockerData.Name //Default ServiceName to be the container's Name. if container.ContainerJSONBase.HostConfig != nil { dockerData.NetworkSettings.NetworkMode = container.ContainerJSONBase.HostConfig.NetworkMode } if container.State != nil && container.State.Health != nil { dockerData.Health = container.State.Health.Status } } if container.Config != nil && container.Config.Labels != nil { dockerData.Labels = container.Config.Labels } if container.NetworkSettings != nil { if container.NetworkSettings.Ports != nil { dockerData.NetworkSettings.Ports = container.NetworkSettings.Ports } if container.NetworkSettings.Networks != nil { dockerData.NetworkSettings.Networks = make(map[string]*networkData) for name, containerNetwork := range container.NetworkSettings.Networks { dockerData.NetworkSettings.Networks[name] = &networkData{ ID: containerNetwork.NetworkID, Name: name, Addr: containerNetwork.IPAddress, } } } } return dockerData } // Escape beginning slash "/", convert all others to dash "-", and convert underscores "_" to dash "-" func (p *Provider) getSubDomain(name string) string { return strings.Replace(strings.Replace(strings.TrimPrefix(name, "/"), "/", "-", -1), "_", "-", -1) } func (p *Provider) listServices(ctx context.Context, dockerClient client.APIClient) ([]dockerData, error) { serviceList, err := dockerClient.ServiceList(ctx, dockertypes.ServiceListOptions{}) if err != nil { return []dockerData{}, err } networkListArgs := filters.NewArgs() networkListArgs.Add("driver", "overlay") networkList, err := dockerClient.NetworkList(ctx, dockertypes.NetworkListOptions{Filters: networkListArgs}) networkMap := make(map[string]*dockertypes.NetworkResource) if err != nil { log.Debug("Failed to network inspect on client for docker, error: %s", err) return []dockerData{}, err } for _, network := range networkList { networkToAdd := network networkMap[network.ID] = &networkToAdd } var dockerDataList []dockerData var dockerDataListTasks []dockerData for _, service := range serviceList { dockerData := parseService(service, networkMap) useSwarmLB, _ := strconv.ParseBool(p.getIsBackendLBSwarm(dockerData)) isGlobalSvc := service.Spec.Mode.Global != nil if useSwarmLB { dockerDataList = append(dockerDataList, dockerData) } else { dockerDataListTasks, err = listTasks(ctx, dockerClient, service.ID, dockerData, networkMap, isGlobalSvc) for _, dockerDataTask := range dockerDataListTasks { dockerDataList = append(dockerDataList, dockerDataTask) } } } return dockerDataList, err } func parseService(service swarmtypes.Service, networkMap map[string]*dockertypes.NetworkResource) dockerData { dockerData := dockerData{ ServiceName: service.Spec.Annotations.Name, Name: service.Spec.Annotations.Name, Labels: service.Spec.Annotations.Labels, NetworkSettings: networkSettings{}, } if service.Spec.EndpointSpec != nil { switch service.Spec.EndpointSpec.Mode { case swarm.ResolutionModeDNSRR: log.Debug("Ignored endpoint-mode not supported, service name: %s", dockerData.Name) case swarm.ResolutionModeVIP: dockerData.NetworkSettings.Networks = make(map[string]*networkData) for _, virtualIP := range service.Endpoint.VirtualIPs { networkService := networkMap[virtualIP.NetworkID] if networkService != nil { ip, _, _ := net.ParseCIDR(virtualIP.Addr) network := &networkData{ Name: networkService.Name, ID: virtualIP.NetworkID, Addr: ip.String(), } dockerData.NetworkSettings.Networks[network.Name] = network } else { log.Debug("Network not found, id: %s", virtualIP.NetworkID) } } } } return dockerData } func listTasks(ctx context.Context, dockerClient client.APIClient, serviceID string, serviceDockerData dockerData, networkMap map[string]*dockertypes.NetworkResource, isGlobalSvc bool) ([]dockerData, error) { serviceIDFilter := filters.NewArgs() serviceIDFilter.Add("service", serviceID) serviceIDFilter.Add("desired-state", "running") taskList, err := dockerClient.TaskList(ctx, dockertypes.TaskListOptions{Filter: serviceIDFilter}) if err != nil { return []dockerData{}, err } var dockerDataList []dockerData for _, task := range taskList { if task.Status.State != swarm.TaskStateRunning { continue } dockerData := parseTasks(task, serviceDockerData, networkMap, isGlobalSvc) dockerDataList = append(dockerDataList, dockerData) } return dockerDataList, err } func parseTasks(task swarmtypes.Task, serviceDockerData dockerData, networkMap map[string]*dockertypes.NetworkResource, isGlobalSvc bool) dockerData { dockerData := dockerData{ ServiceName: serviceDockerData.Name, Name: serviceDockerData.Name + "." + strconv.Itoa(task.Slot), Labels: serviceDockerData.Labels, NetworkSettings: networkSettings{}, } if isGlobalSvc == true { dockerData.Name = serviceDockerData.Name + "." + task.ID } if task.NetworksAttachments != nil { dockerData.NetworkSettings.Networks = make(map[string]*networkData) for _, virtualIP := range task.NetworksAttachments { if networkService, present := networkMap[virtualIP.Network.ID]; present { // Not sure about this next loop - when would a task have multiple IP's for the same network? for _, addr := range virtualIP.Addresses { ip, _, _ := net.ParseCIDR(addr) network := &networkData{ ID: virtualIP.Network.ID, Name: networkService.Name, Addr: ip.String(), } dockerData.NetworkSettings.Networks[network.Name] = network } } } } return dockerData }