package docker import ( "context" "crypto/md5" "encoding/hex" "fmt" "net" "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/docker/go-connections/nat" ) const ( labelDockerNetwork = "traefik.docker.network" labelBackendLoadBalancerSwarm = "traefik.backend.loadbalancer.swarm" labelDockerComposeProject = "com.docker.compose.project" labelDockerComposeService = "com.docker.compose.service" ) func (p *Provider) buildConfigurationV2(containersInspected []dockerData) *types.Configuration { dockerFuncMap := template.FuncMap{ "getLabelValue": label.GetStringValue, "getSubDomain": getSubDomain, "isBackendLBSwarm": isBackendLBSwarm, "getDomain": label.GetFuncString(label.TraefikDomain, p.Domain), // Backend functions "getIPAddress": p.getDeprecatedIPAddress, // TODO: Should we expose getIPPort instead? "getServers": p.getServers, "getMaxConn": label.GetMaxConn, "getHealthCheck": label.GetHealthCheck, "getBuffering": label.GetBuffering, "getCircuitBreaker": label.GetCircuitBreaker, "getLoadBalancer": label.GetLoadBalancer, // Frontend functions "getBackendName": getBackendName, "getPriority": label.GetFuncInt(label.TraefikFrontendPriority, label.DefaultFrontendPriority), "getPassHostHeader": label.GetFuncBool(label.TraefikFrontendPassHostHeader, label.DefaultPassHostHeader), "getPassTLSCert": label.GetFuncBool(label.TraefikFrontendPassTLSCert, label.DefaultPassTLSCert), "getEntryPoints": label.GetFuncSliceString(label.TraefikFrontendEntryPoints), "getBasicAuth": label.GetFuncSliceString(label.TraefikFrontendAuthBasic), // Deprecated "getAuth": label.GetAuth, "getFrontendRule": p.getFrontendRule, "getRedirect": label.GetRedirect, "getErrorPages": label.GetErrorPages, "getRateLimit": label.GetRateLimit, "getHeaders": label.GetHeaders, "getWhiteList": label.GetWhiteList, } // filter containers filteredContainers := fun.Filter(p.containerFilter, containersInspected).([]dockerData) frontends := map[string][]dockerData{} servers := map[string][]dockerData{} serviceNames := make(map[string]struct{}) for idx, container := range filteredContainers { segmentProperties := label.ExtractTraefikLabels(container.Labels) for segmentName, labels := range segmentProperties { container.SegmentLabels = labels container.SegmentName = segmentName serviceNamesKey := getServiceNameKey(container, p.SwarmMode, segmentName) if _, exists := serviceNames[serviceNamesKey]; !exists { frontendName := p.getFrontendName(container, idx) frontends[frontendName] = append(frontends[frontendName], container) if len(serviceNamesKey) > 0 { serviceNames[serviceNamesKey] = struct{}{} } } // Backends backendName := getBackendName(container) // Servers servers[backendName] = append(servers[backendName], container) } } templateObjects := struct { Containers []dockerData Frontends map[string][]dockerData Servers map[string][]dockerData Domain string }{ Containers: filteredContainers, Frontends: frontends, Servers: servers, Domain: p.Domain, } configuration, err := p.GetConfiguration("templates/docker.tmpl", dockerFuncMap, templateObjects) if err != nil { log.Error(err) } return configuration } func getServiceNameKey(container dockerData, swarmMode bool, segmentName string) string { if swarmMode { return container.ServiceName + segmentName } return getServiceName(container) + segmentName } func (p *Provider) containerFilter(container dockerData) bool { if !label.IsEnabled(container.Labels, p.ExposedByDefault) { log.Debugf("Filtering disabled container %s", container.Name) return false } segmentProperties := label.ExtractTraefikLabels(container.Labels) var errPort error for segmentName, labels := range segmentProperties { errPort = checkSegmentPort(labels, segmentName) if len(p.getFrontendRule(container, labels)) == 0 { log.Debugf("Filtering container with empty frontend rule %s %s", container.Name, segmentName) return false } } if len(container.NetworkSettings.Ports) == 0 && errPort != nil { log.Debugf("Filtering container without port, %s: %v", container.Name, errPort) return false } constraintTags := label.SplitAndTrimString(container.Labels[label.TraefikTags], ",") if ok, failingConstraint := p.MatchConstraints(constraintTags); !ok { if failingConstraint != nil { log.Debugf("Container %s pruned by %q 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 } return true } func checkSegmentPort(labels map[string]string, segmentName string) error { if port, ok := labels[label.TraefikPort]; ok { _, err := strconv.Atoi(port) if err != nil { return fmt.Errorf("invalid port value %q for the segment %q: %v", port, segmentName, err) } } else { return fmt.Errorf("port label is missing, please use %s as default value or define port label for all segments ('traefik..port')", label.TraefikPort) } return nil } func (p *Provider) getFrontendName(container dockerData, idx int) string { var name string if len(container.SegmentName) > 0 { name = container.SegmentName + "-" + getBackendName(container) } else { name = p.getFrontendRule(container, container.SegmentLabels) + "-" + strconv.Itoa(idx) } return provider.Normalize(name) } func (p *Provider) getFrontendRule(container dockerData, segmentLabels map[string]string) string { if value := label.GetStringValue(segmentLabels, label.TraefikFrontendRule, ""); len(value) != 0 { return value } domain := label.GetStringValue(segmentLabels, label.TraefikDomain, p.Domain) if values, err := label.GetStringMultipleStrict(container.Labels, labelDockerComposeProject, labelDockerComposeService); err == nil { return "Host:" + getSubDomain(values[labelDockerComposeService]+"."+values[labelDockerComposeProject]) + "." + domain } if len(domain) > 0 { return "Host:" + getSubDomain(container.ServiceName) + "." + domain } return "" } func (p Provider) getIPAddress(container dockerData) string { if value := label.GetStringValue(container.Labels, labelDockerNetwork, p.Network); value != "" { networkSettings := container.NetworkSettings if networkSettings.Networks != nil { network := networkSettings.Networks[value] 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.", value, container.Name) } } if container.NetworkSettings.NetworkMode.IsHost() { if container.Node != nil { if container.Node.IPAddress != "" { return container.Node.IPAddress } } return "127.0.0.1" } if container.NetworkSettings.NetworkMode.IsContainer() { dockerClient, err := p.createClient() if err != nil { log.Warnf("Unable to get IP address for container %s, error: %s", container.Name, err) return "" } connectedContainer := container.NetworkSettings.NetworkMode.ConnectedContainer() containerInspected, err := dockerClient.ContainerInspect(context.Background(), connectedContainer) if err != nil { log.Warnf("Unable to get IP address for container %s : Failed to inspect container ID %s, error: %s", container.Name, connectedContainer, err) return "" } return p.getIPAddress(parseContainer(containerInspected)) } for _, network := range container.NetworkSettings.Networks { return network.Addr } log.Warnf("Unable to find the IP address for the container %q.", container.Name) return "" } // Deprecated: Please use getIPPort instead func (p *Provider) getDeprecatedIPAddress(container dockerData) string { ip, _, err := p.getIPPort(container) if err != nil { log.Warn(err) return "" } return ip } // Escape beginning slash "/", convert all others to dash "-", and convert underscores "_" to dash "-" func getSubDomain(name string) string { return strings.Replace(strings.Replace(strings.TrimPrefix(name, "/"), "/", "-", -1), "_", "-", -1) } func isBackendLBSwarm(container dockerData) bool { return label.GetBoolValue(container.Labels, labelBackendLoadBalancerSwarm, false) } func getBackendName(container dockerData) string { if len(container.SegmentName) > 0 { return getSegmentBackendName(container) } return getDefaultBackendName(container) } func getSegmentBackendName(container dockerData) string { serviceName := getServiceName(container) if value := label.GetStringValue(container.SegmentLabels, label.TraefikBackend, ""); len(value) > 0 { return provider.Normalize(serviceName + "-" + value) } return provider.Normalize(serviceName + "-" + container.SegmentName) } func getDefaultBackendName(container dockerData) string { if value := label.GetStringValue(container.SegmentLabels, label.TraefikBackend, ""); len(value) != 0 { return provider.Normalize(value) } return provider.Normalize(getServiceName(container)) } func getServiceName(container dockerData) string { serviceName := container.ServiceName if values, err := label.GetStringMultipleStrict(container.Labels, labelDockerComposeProject, labelDockerComposeService); err == nil { serviceName = values[labelDockerComposeService] + "_" + values[labelDockerComposeProject] } return serviceName } func getPort(container dockerData) string { if value := label.GetStringValue(container.SegmentLabels, label.TraefikPort, ""); len(value) != 0 { return value } // See iteration order in https://blog.golang.org/go-maps-in-action var ports []nat.Port for port := range container.NetworkSettings.Ports { ports = append(ports, port) } 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) getPortBinding(container dockerData) (*nat.PortBinding, error) { port := getPort(container) for netPort, portBindings := range container.NetworkSettings.Ports { if strings.EqualFold(string(netPort), port+"/TCP") || strings.EqualFold(string(netPort), port+"/UDP") { for _, p := range portBindings { return &p, nil } } } return nil, fmt.Errorf("unable to find the external IP:Port for the container %q", container.Name) } func (p *Provider) getIPPort(container dockerData) (string, string, error) { var ip, port string if p.UseBindPortIP { portBinding, err := p.getPortBinding(container) if err != nil { return "", "", fmt.Errorf("unable to find a binding for the container %q: ignoring server", container.Name) } if portBinding.HostIP == "0.0.0.0" { return "", "", fmt.Errorf("cannot determine the IP address (got 0.0.0.0) for the container %q: ignoring server", container.Name) } ip = portBinding.HostIP port = portBinding.HostPort } else { ip = p.getIPAddress(container) port = getPort(container) } if len(ip) == 0 { return "", "", fmt.Errorf("unable to find the IP address for the container %q: the server is ignored", container.Name) } return ip, port, nil } func (p *Provider) getServers(containers []dockerData) map[string]types.Server { var servers map[string]types.Server for _, container := range containers { ip, port, err := p.getIPPort(container) if err != nil { log.Warn(err) continue } if servers == nil { servers = make(map[string]types.Server) } protocol := label.GetStringValue(container.SegmentLabels, label.TraefikProtocol, label.DefaultProtocol) serverURL := fmt.Sprintf("%s://%s", protocol, net.JoinHostPort(ip, port)) serverName := getServerName(container.Name, serverURL) if _, exist := servers[serverName]; exist { log.Debugf("Skipping server %q with the same URL.", serverName) continue } servers[serverName] = types.Server{ URL: serverURL, Weight: label.GetIntValue(container.SegmentLabels, label.TraefikWeight, label.DefaultWeight), } } return servers } func getServerName(containerName, url string) string { hash := md5.New() _, err := hash.Write([]byte(url)) if err != nil { // Impossible case log.Errorf("Fail to hash server URL %q", url) } return provider.Normalize("server-" + containerName + "-" + hex.EncodeToString(hash.Sum(nil))) }