package service import ( "fmt" "sort" "strings" "time" "github.com/docker/docker/api/types" "github.com/docker/docker/api/types/container" mounttypes "github.com/docker/docker/api/types/mount" "github.com/docker/docker/api/types/swarm" "github.com/docker/docker/cli" "github.com/docker/docker/cli/command" "github.com/docker/docker/client" "github.com/docker/docker/opts" runconfigopts "github.com/docker/docker/runconfig/opts" "github.com/docker/go-connections/nat" shlex "github.com/flynn-archive/go-shlex" "github.com/spf13/cobra" "github.com/spf13/pflag" "golang.org/x/net/context" ) func newUpdateCommand(dockerCli *command.DockerCli) *cobra.Command { serviceOpts := newServiceOptions() cmd := &cobra.Command{ Use: "update [OPTIONS] SERVICE", Short: "Update a service", Args: cli.ExactArgs(1), RunE: func(cmd *cobra.Command, args []string) error { return runUpdate(dockerCli, cmd.Flags(), args[0]) }, } flags := cmd.Flags() flags.String("image", "", "Service image tag") flags.String("args", "", "Service command args") flags.Bool("rollback", false, "Rollback to previous specification") flags.SetAnnotation("rollback", "version", []string{"1.25"}) flags.Bool("force", false, "Force update even if no changes require it") flags.SetAnnotation("force", "version", []string{"1.25"}) addServiceFlags(cmd, serviceOpts) flags.Var(newListOptsVar(), flagEnvRemove, "Remove an environment variable") flags.Var(newListOptsVar(), flagGroupRemove, "Remove a previously added supplementary user group from the container") flags.SetAnnotation(flagGroupRemove, "version", []string{"1.25"}) flags.Var(newListOptsVar(), flagLabelRemove, "Remove a label by its key") flags.Var(newListOptsVar(), flagContainerLabelRemove, "Remove a container label by its key") flags.Var(newListOptsVar(), flagMountRemove, "Remove a mount by its target path") // flags.Var(newListOptsVar().WithValidator(validatePublishRemove), flagPublishRemove, "Remove a published port by its target port") flags.Var(&opts.PortOpt{}, flagPublishRemove, "Remove a published port by its target port") flags.Var(newListOptsVar(), flagConstraintRemove, "Remove a constraint") flags.Var(newListOptsVar(), flagDNSRemove, "Remove a custom DNS server") flags.SetAnnotation(flagDNSRemove, "version", []string{"1.25"}) flags.Var(newListOptsVar(), flagDNSOptionRemove, "Remove a DNS option") flags.SetAnnotation(flagDNSOptionRemove, "version", []string{"1.25"}) flags.Var(newListOptsVar(), flagDNSSearchRemove, "Remove a DNS search domain") flags.SetAnnotation(flagDNSSearchRemove, "version", []string{"1.25"}) flags.Var(newListOptsVar(), flagHostRemove, "Remove a custom host-to-IP mapping (host:ip)") flags.SetAnnotation(flagHostRemove, "version", []string{"1.25"}) flags.Var(&serviceOpts.labels, flagLabelAdd, "Add or update a service label") flags.Var(&serviceOpts.containerLabels, flagContainerLabelAdd, "Add or update a container label") flags.Var(&serviceOpts.env, flagEnvAdd, "Add or update an environment variable") flags.Var(newListOptsVar(), flagSecretRemove, "Remove a secret") flags.SetAnnotation(flagSecretRemove, "version", []string{"1.25"}) flags.Var(&serviceOpts.secrets, flagSecretAdd, "Add or update a secret on a service") flags.SetAnnotation(flagSecretAdd, "version", []string{"1.25"}) flags.Var(&serviceOpts.mounts, flagMountAdd, "Add or update a mount on a service") flags.Var(&serviceOpts.constraints, flagConstraintAdd, "Add or update a placement constraint") flags.Var(&serviceOpts.endpoint.publishPorts, flagPublishAdd, "Add or update a published port") flags.Var(&serviceOpts.groups, flagGroupAdd, "Add an additional supplementary user group to the container") flags.SetAnnotation(flagGroupAdd, "version", []string{"1.25"}) flags.Var(&serviceOpts.dns, flagDNSAdd, "Add or update a custom DNS server") flags.SetAnnotation(flagDNSAdd, "version", []string{"1.25"}) flags.Var(&serviceOpts.dnsOption, flagDNSOptionAdd, "Add or update a DNS option") flags.SetAnnotation(flagDNSOptionAdd, "version", []string{"1.25"}) flags.Var(&serviceOpts.dnsSearch, flagDNSSearchAdd, "Add or update a custom DNS search domain") flags.SetAnnotation(flagDNSSearchAdd, "version", []string{"1.25"}) flags.Var(&serviceOpts.hosts, flagHostAdd, "Add or update a custom host-to-IP mapping (host:ip)") flags.SetAnnotation(flagHostAdd, "version", []string{"1.25"}) return cmd } func newListOptsVar() *opts.ListOpts { return opts.NewListOptsRef(&[]string{}, nil) } func runUpdate(dockerCli *command.DockerCli, flags *pflag.FlagSet, serviceID string) error { apiClient := dockerCli.Client() ctx := context.Background() updateOpts := types.ServiceUpdateOptions{} service, _, err := apiClient.ServiceInspectWithRaw(ctx, serviceID) if err != nil { return err } rollback, err := flags.GetBool("rollback") if err != nil { return err } spec := &service.Spec if rollback { spec = service.PreviousSpec if spec == nil { return fmt.Errorf("service does not have a previous specification to roll back to") } } err = updateService(flags, spec) if err != nil { return err } if flags.Changed("image") { if err := resolveServiceImageDigest(dockerCli, spec); err != nil { return err } } updatedSecrets, err := getUpdatedSecrets(apiClient, flags, spec.TaskTemplate.ContainerSpec.Secrets) if err != nil { return err } spec.TaskTemplate.ContainerSpec.Secrets = updatedSecrets // only send auth if flag was set sendAuth, err := flags.GetBool(flagRegistryAuth) if err != nil { return err } if sendAuth { // Retrieve encoded auth token from the image reference // This would be the old image if it didn't change in this update image := spec.TaskTemplate.ContainerSpec.Image encodedAuth, err := command.RetrieveAuthTokenFromImage(ctx, dockerCli, image) if err != nil { return err } updateOpts.EncodedRegistryAuth = encodedAuth } else if rollback { updateOpts.RegistryAuthFrom = types.RegistryAuthFromPreviousSpec } else { updateOpts.RegistryAuthFrom = types.RegistryAuthFromSpec } response, err := apiClient.ServiceUpdate(ctx, service.ID, service.Version, *spec, updateOpts) if err != nil { return err } for _, warning := range response.Warnings { fmt.Fprintln(dockerCli.Err(), warning) } fmt.Fprintf(dockerCli.Out(), "%s\n", serviceID) return nil } func updateService(flags *pflag.FlagSet, spec *swarm.ServiceSpec) error { updateString := func(flag string, field *string) { if flags.Changed(flag) { *field, _ = flags.GetString(flag) } } updateInt64Value := func(flag string, field *int64) { if flags.Changed(flag) { *field = flags.Lookup(flag).Value.(int64Value).Value() } } updateFloatValue := func(flag string, field *float32) { if flags.Changed(flag) { *field = flags.Lookup(flag).Value.(*floatValue).Value() } } updateDuration := func(flag string, field *time.Duration) { if flags.Changed(flag) { *field, _ = flags.GetDuration(flag) } } updateDurationOpt := func(flag string, field **time.Duration) { if flags.Changed(flag) { val := *flags.Lookup(flag).Value.(*DurationOpt).Value() *field = &val } } updateUint64 := func(flag string, field *uint64) { if flags.Changed(flag) { *field, _ = flags.GetUint64(flag) } } updateUint64Opt := func(flag string, field **uint64) { if flags.Changed(flag) { val := *flags.Lookup(flag).Value.(*Uint64Opt).Value() *field = &val } } cspec := &spec.TaskTemplate.ContainerSpec task := &spec.TaskTemplate taskResources := func() *swarm.ResourceRequirements { if task.Resources == nil { task.Resources = &swarm.ResourceRequirements{} } return task.Resources } updateLabels(flags, &spec.Labels) updateContainerLabels(flags, &cspec.Labels) updateString("image", &cspec.Image) updateStringToSlice(flags, "args", &cspec.Args) updateEnvironment(flags, &cspec.Env) updateString(flagWorkdir, &cspec.Dir) updateString(flagUser, &cspec.User) updateString(flagHostname, &cspec.Hostname) if err := updateMounts(flags, &cspec.Mounts); err != nil { return err } if flags.Changed(flagLimitCPU) || flags.Changed(flagLimitMemory) { taskResources().Limits = &swarm.Resources{} updateInt64Value(flagLimitCPU, &task.Resources.Limits.NanoCPUs) updateInt64Value(flagLimitMemory, &task.Resources.Limits.MemoryBytes) } if flags.Changed(flagReserveCPU) || flags.Changed(flagReserveMemory) { taskResources().Reservations = &swarm.Resources{} updateInt64Value(flagReserveCPU, &task.Resources.Reservations.NanoCPUs) updateInt64Value(flagReserveMemory, &task.Resources.Reservations.MemoryBytes) } updateDurationOpt(flagStopGracePeriod, &cspec.StopGracePeriod) if anyChanged(flags, flagRestartCondition, flagRestartDelay, flagRestartMaxAttempts, flagRestartWindow) { if task.RestartPolicy == nil { task.RestartPolicy = &swarm.RestartPolicy{} } if flags.Changed(flagRestartCondition) { value, _ := flags.GetString(flagRestartCondition) task.RestartPolicy.Condition = swarm.RestartPolicyCondition(value) } updateDurationOpt(flagRestartDelay, &task.RestartPolicy.Delay) updateUint64Opt(flagRestartMaxAttempts, &task.RestartPolicy.MaxAttempts) updateDurationOpt(flagRestartWindow, &task.RestartPolicy.Window) } if anyChanged(flags, flagConstraintAdd, flagConstraintRemove) { if task.Placement == nil { task.Placement = &swarm.Placement{} } updatePlacement(flags, task.Placement) } if err := updateReplicas(flags, &spec.Mode); err != nil { return err } if anyChanged(flags, flagUpdateParallelism, flagUpdateDelay, flagUpdateMonitor, flagUpdateFailureAction, flagUpdateMaxFailureRatio) { if spec.UpdateConfig == nil { spec.UpdateConfig = &swarm.UpdateConfig{} } updateUint64(flagUpdateParallelism, &spec.UpdateConfig.Parallelism) updateDuration(flagUpdateDelay, &spec.UpdateConfig.Delay) updateDuration(flagUpdateMonitor, &spec.UpdateConfig.Monitor) updateString(flagUpdateFailureAction, &spec.UpdateConfig.FailureAction) updateFloatValue(flagUpdateMaxFailureRatio, &spec.UpdateConfig.MaxFailureRatio) } if flags.Changed(flagEndpointMode) { value, _ := flags.GetString(flagEndpointMode) if spec.EndpointSpec == nil { spec.EndpointSpec = &swarm.EndpointSpec{} } spec.EndpointSpec.Mode = swarm.ResolutionMode(value) } if anyChanged(flags, flagGroupAdd, flagGroupRemove) { if err := updateGroups(flags, &cspec.Groups); err != nil { return err } } if anyChanged(flags, flagPublishAdd, flagPublishRemove) { if spec.EndpointSpec == nil { spec.EndpointSpec = &swarm.EndpointSpec{} } if err := updatePorts(flags, &spec.EndpointSpec.Ports); err != nil { return err } } if anyChanged(flags, flagDNSAdd, flagDNSRemove, flagDNSOptionAdd, flagDNSOptionRemove, flagDNSSearchAdd, flagDNSSearchRemove) { if cspec.DNSConfig == nil { cspec.DNSConfig = &swarm.DNSConfig{} } if err := updateDNSConfig(flags, &cspec.DNSConfig); err != nil { return err } } if anyChanged(flags, flagHostAdd, flagHostRemove) { if err := updateHosts(flags, &cspec.Hosts); err != nil { return err } } if err := updateLogDriver(flags, &spec.TaskTemplate); err != nil { return err } force, err := flags.GetBool("force") if err != nil { return err } if force { spec.TaskTemplate.ForceUpdate++ } if err := updateHealthcheck(flags, cspec); err != nil { return err } if flags.Changed(flagTTY) { tty, err := flags.GetBool(flagTTY) if err != nil { return err } cspec.TTY = tty } return nil } func updateStringToSlice(flags *pflag.FlagSet, flag string, field *[]string) error { if !flags.Changed(flag) { return nil } value, _ := flags.GetString(flag) valueSlice, err := shlex.Split(value) *field = valueSlice return err } func anyChanged(flags *pflag.FlagSet, fields ...string) bool { for _, flag := range fields { if flags.Changed(flag) { return true } } return false } func updatePlacement(flags *pflag.FlagSet, placement *swarm.Placement) { if flags.Changed(flagConstraintAdd) { values := flags.Lookup(flagConstraintAdd).Value.(*opts.ListOpts).GetAll() placement.Constraints = append(placement.Constraints, values...) } toRemove := buildToRemoveSet(flags, flagConstraintRemove) newConstraints := []string{} for _, constraint := range placement.Constraints { if _, exists := toRemove[constraint]; !exists { newConstraints = append(newConstraints, constraint) } } // Sort so that result is predictable. sort.Strings(newConstraints) placement.Constraints = newConstraints } func updateContainerLabels(flags *pflag.FlagSet, field *map[string]string) { if flags.Changed(flagContainerLabelAdd) { if *field == nil { *field = map[string]string{} } values := flags.Lookup(flagContainerLabelAdd).Value.(*opts.ListOpts).GetAll() for key, value := range runconfigopts.ConvertKVStringsToMap(values) { (*field)[key] = value } } if *field != nil && flags.Changed(flagContainerLabelRemove) { toRemove := flags.Lookup(flagContainerLabelRemove).Value.(*opts.ListOpts).GetAll() for _, label := range toRemove { delete(*field, label) } } } func updateLabels(flags *pflag.FlagSet, field *map[string]string) { if flags.Changed(flagLabelAdd) { if *field == nil { *field = map[string]string{} } values := flags.Lookup(flagLabelAdd).Value.(*opts.ListOpts).GetAll() for key, value := range runconfigopts.ConvertKVStringsToMap(values) { (*field)[key] = value } } if *field != nil && flags.Changed(flagLabelRemove) { toRemove := flags.Lookup(flagLabelRemove).Value.(*opts.ListOpts).GetAll() for _, label := range toRemove { delete(*field, label) } } } func updateEnvironment(flags *pflag.FlagSet, field *[]string) { envSet := map[string]string{} for _, v := range *field { envSet[envKey(v)] = v } if flags.Changed(flagEnvAdd) { value := flags.Lookup(flagEnvAdd).Value.(*opts.ListOpts) for _, v := range value.GetAll() { envSet[envKey(v)] = v } } *field = []string{} for _, v := range envSet { *field = append(*field, v) } toRemove := buildToRemoveSet(flags, flagEnvRemove) *field = removeItems(*field, toRemove, envKey) } func getUpdatedSecrets(apiClient client.SecretAPIClient, flags *pflag.FlagSet, secrets []*swarm.SecretReference) ([]*swarm.SecretReference, error) { newSecrets := []*swarm.SecretReference{} toRemove := buildToRemoveSet(flags, flagSecretRemove) for _, secret := range secrets { if _, exists := toRemove[secret.SecretName]; !exists { newSecrets = append(newSecrets, secret) } } if flags.Changed(flagSecretAdd) { values := flags.Lookup(flagSecretAdd).Value.(*opts.SecretOpt).Value() addSecrets, err := ParseSecrets(apiClient, values) if err != nil { return nil, err } newSecrets = append(newSecrets, addSecrets...) } return newSecrets, nil } func envKey(value string) string { kv := strings.SplitN(value, "=", 2) return kv[0] } func itemKey(value string) string { return value } func buildToRemoveSet(flags *pflag.FlagSet, flag string) map[string]struct{} { var empty struct{} toRemove := make(map[string]struct{}) if !flags.Changed(flag) { return toRemove } toRemoveSlice := flags.Lookup(flag).Value.(*opts.ListOpts).GetAll() for _, key := range toRemoveSlice { toRemove[key] = empty } return toRemove } func removeItems( seq []string, toRemove map[string]struct{}, keyFunc func(string) string, ) []string { newSeq := []string{} for _, item := range seq { if _, exists := toRemove[keyFunc(item)]; !exists { newSeq = append(newSeq, item) } } return newSeq } type byMountSource []mounttypes.Mount func (m byMountSource) Len() int { return len(m) } func (m byMountSource) Swap(i, j int) { m[i], m[j] = m[j], m[i] } func (m byMountSource) Less(i, j int) bool { a, b := m[i], m[j] if a.Source == b.Source { return a.Target < b.Target } return a.Source < b.Source } func updateMounts(flags *pflag.FlagSet, mounts *[]mounttypes.Mount) error { mountsByTarget := map[string]mounttypes.Mount{} if flags.Changed(flagMountAdd) { values := flags.Lookup(flagMountAdd).Value.(*opts.MountOpt).Value() for _, mount := range values { if _, ok := mountsByTarget[mount.Target]; ok { return fmt.Errorf("duplicate mount target") } mountsByTarget[mount.Target] = mount } } // Add old list of mount points minus updated one. for _, mount := range *mounts { if _, ok := mountsByTarget[mount.Target]; !ok { mountsByTarget[mount.Target] = mount } } newMounts := []mounttypes.Mount{} toRemove := buildToRemoveSet(flags, flagMountRemove) for _, mount := range mountsByTarget { if _, exists := toRemove[mount.Target]; !exists { newMounts = append(newMounts, mount) } } sort.Sort(byMountSource(newMounts)) *mounts = newMounts return nil } func updateGroups(flags *pflag.FlagSet, groups *[]string) error { if flags.Changed(flagGroupAdd) { values := flags.Lookup(flagGroupAdd).Value.(*opts.ListOpts).GetAll() *groups = append(*groups, values...) } toRemove := buildToRemoveSet(flags, flagGroupRemove) newGroups := []string{} for _, group := range *groups { if _, exists := toRemove[group]; !exists { newGroups = append(newGroups, group) } } // Sort so that result is predictable. sort.Strings(newGroups) *groups = newGroups return nil } func removeDuplicates(entries []string) []string { hit := map[string]bool{} newEntries := []string{} for _, v := range entries { if !hit[v] { newEntries = append(newEntries, v) hit[v] = true } } return newEntries } func updateDNSConfig(flags *pflag.FlagSet, config **swarm.DNSConfig) error { newConfig := &swarm.DNSConfig{} nameservers := (*config).Nameservers if flags.Changed(flagDNSAdd) { values := flags.Lookup(flagDNSAdd).Value.(*opts.ListOpts).GetAll() nameservers = append(nameservers, values...) } nameservers = removeDuplicates(nameservers) toRemove := buildToRemoveSet(flags, flagDNSRemove) for _, nameserver := range nameservers { if _, exists := toRemove[nameserver]; !exists { newConfig.Nameservers = append(newConfig.Nameservers, nameserver) } } // Sort so that result is predictable. sort.Strings(newConfig.Nameservers) search := (*config).Search if flags.Changed(flagDNSSearchAdd) { values := flags.Lookup(flagDNSSearchAdd).Value.(*opts.ListOpts).GetAll() search = append(search, values...) } search = removeDuplicates(search) toRemove = buildToRemoveSet(flags, flagDNSSearchRemove) for _, entry := range search { if _, exists := toRemove[entry]; !exists { newConfig.Search = append(newConfig.Search, entry) } } // Sort so that result is predictable. sort.Strings(newConfig.Search) options := (*config).Options if flags.Changed(flagDNSOptionAdd) { values := flags.Lookup(flagDNSOptionAdd).Value.(*opts.ListOpts).GetAll() options = append(options, values...) } options = removeDuplicates(options) toRemove = buildToRemoveSet(flags, flagDNSOptionRemove) for _, option := range options { if _, exists := toRemove[option]; !exists { newConfig.Options = append(newConfig.Options, option) } } // Sort so that result is predictable. sort.Strings(newConfig.Options) *config = newConfig return nil } type byPortConfig []swarm.PortConfig func (r byPortConfig) Len() int { return len(r) } func (r byPortConfig) Swap(i, j int) { r[i], r[j] = r[j], r[i] } func (r byPortConfig) Less(i, j int) bool { // We convert PortConfig into `port/protocol`, e.g., `80/tcp` // In updatePorts we already filter out with map so there is duplicate entries return portConfigToString(&r[i]) < portConfigToString(&r[j]) } func portConfigToString(portConfig *swarm.PortConfig) string { protocol := portConfig.Protocol mode := portConfig.PublishMode return fmt.Sprintf("%v:%v/%s/%s", portConfig.PublishedPort, portConfig.TargetPort, protocol, mode) } // FIXME(vdemeester) port to opts.PortOpt // This validation is only used for `--publish-rm`. // The `--publish-rm` takes: // [/] (e.g., 80, 80/tcp, 53/udp) func validatePublishRemove(val string) (string, error) { proto, port := nat.SplitProtoPort(val) if proto != "tcp" && proto != "udp" { return "", fmt.Errorf("invalid protocol '%s' for %s", proto, val) } if strings.Contains(port, ":") { return "", fmt.Errorf("invalid port format: '%s', should be [/] (e.g., 80, 80/tcp, 53/udp)", port) } if _, err := nat.ParsePort(port); err != nil { return "", err } return val, nil } func updatePorts(flags *pflag.FlagSet, portConfig *[]swarm.PortConfig) error { // The key of the map is `port/protocol`, e.g., `80/tcp` portSet := map[string]swarm.PortConfig{} // Build the current list of portConfig for _, entry := range *portConfig { if _, ok := portSet[portConfigToString(&entry)]; !ok { portSet[portConfigToString(&entry)] = entry } } newPorts := []swarm.PortConfig{} // Clean current ports toRemove := flags.Lookup(flagPublishRemove).Value.(*opts.PortOpt).Value() portLoop: for _, port := range portSet { for _, pConfig := range toRemove { if equalProtocol(port.Protocol, pConfig.Protocol) && port.TargetPort == pConfig.TargetPort && equalPublishMode(port.PublishMode, pConfig.PublishMode) { continue portLoop } } newPorts = append(newPorts, port) } // Check to see if there are any conflict in flags. if flags.Changed(flagPublishAdd) { ports := flags.Lookup(flagPublishAdd).Value.(*opts.PortOpt).Value() for _, port := range ports { if _, ok := portSet[portConfigToString(&port)]; ok { continue } //portSet[portConfigToString(&port)] = port newPorts = append(newPorts, port) } } // Sort the PortConfig to avoid unnecessary updates sort.Sort(byPortConfig(newPorts)) *portConfig = newPorts return nil } func equalProtocol(prot1, prot2 swarm.PortConfigProtocol) bool { return prot1 == prot2 || (prot1 == swarm.PortConfigProtocol("") && prot2 == swarm.PortConfigProtocolTCP) || (prot2 == swarm.PortConfigProtocol("") && prot1 == swarm.PortConfigProtocolTCP) } func equalPublishMode(mode1, mode2 swarm.PortConfigPublishMode) bool { return mode1 == mode2 || (mode1 == swarm.PortConfigPublishMode("") && mode2 == swarm.PortConfigPublishModeIngress) || (mode2 == swarm.PortConfigPublishMode("") && mode1 == swarm.PortConfigPublishModeIngress) } func equalPort(targetPort nat.Port, port swarm.PortConfig) bool { return (string(port.Protocol) == targetPort.Proto() && port.TargetPort == uint32(targetPort.Int())) } func updateReplicas(flags *pflag.FlagSet, serviceMode *swarm.ServiceMode) error { if !flags.Changed(flagReplicas) { return nil } if serviceMode == nil || serviceMode.Replicated == nil { return fmt.Errorf("replicas can only be used with replicated mode") } serviceMode.Replicated.Replicas = flags.Lookup(flagReplicas).Value.(*Uint64Opt).Value() return nil } func updateHosts(flags *pflag.FlagSet, hosts *[]string) error { // Combine existing Hosts (in swarmkit format) with the host to add (convert to swarmkit format) if flags.Changed(flagHostAdd) { values := convertExtraHostsToSwarmHosts(flags.Lookup(flagHostAdd).Value.(*opts.ListOpts).GetAll()) *hosts = append(*hosts, values...) } // Remove duplicate *hosts = removeDuplicates(*hosts) keysToRemove := make(map[string]struct{}) if flags.Changed(flagHostRemove) { var empty struct{} extraHostsToRemove := flags.Lookup(flagHostRemove).Value.(*opts.ListOpts).GetAll() for _, entry := range extraHostsToRemove { key := strings.SplitN(entry, ":", 2)[0] keysToRemove[key] = empty } } newHosts := []string{} for _, entry := range *hosts { // Since this is in swarmkit format, we need to find the key, which is canonical_hostname of: // IP_address canonical_hostname [aliases...] parts := strings.Fields(entry) if len(parts) > 1 { key := parts[1] if _, exists := keysToRemove[key]; !exists { newHosts = append(newHosts, entry) } } else { newHosts = append(newHosts, entry) } } // Sort so that result is predictable. sort.Strings(newHosts) *hosts = newHosts return nil } // updateLogDriver updates the log driver only if the log driver flag is set. // All options will be replaced with those provided on the command line. func updateLogDriver(flags *pflag.FlagSet, taskTemplate *swarm.TaskSpec) error { if !flags.Changed(flagLogDriver) { return nil } name, err := flags.GetString(flagLogDriver) if err != nil { return err } if name == "" { return nil } taskTemplate.LogDriver = &swarm.Driver{ Name: name, Options: runconfigopts.ConvertKVStringsToMap(flags.Lookup(flagLogOpt).Value.(*opts.ListOpts).GetAll()), } return nil } func updateHealthcheck(flags *pflag.FlagSet, containerSpec *swarm.ContainerSpec) error { if !anyChanged(flags, flagNoHealthcheck, flagHealthCmd, flagHealthInterval, flagHealthRetries, flagHealthTimeout) { return nil } if containerSpec.Healthcheck == nil { containerSpec.Healthcheck = &container.HealthConfig{} } noHealthcheck, err := flags.GetBool(flagNoHealthcheck) if err != nil { return err } if noHealthcheck { if !anyChanged(flags, flagHealthCmd, flagHealthInterval, flagHealthRetries, flagHealthTimeout) { containerSpec.Healthcheck = &container.HealthConfig{ Test: []string{"NONE"}, } return nil } return fmt.Errorf("--%s conflicts with --health-* options", flagNoHealthcheck) } if len(containerSpec.Healthcheck.Test) > 0 && containerSpec.Healthcheck.Test[0] == "NONE" { containerSpec.Healthcheck.Test = nil } if flags.Changed(flagHealthInterval) { val := *flags.Lookup(flagHealthInterval).Value.(*PositiveDurationOpt).Value() containerSpec.Healthcheck.Interval = val } if flags.Changed(flagHealthTimeout) { val := *flags.Lookup(flagHealthTimeout).Value.(*PositiveDurationOpt).Value() containerSpec.Healthcheck.Timeout = val } if flags.Changed(flagHealthRetries) { containerSpec.Healthcheck.Retries, _ = flags.GetInt(flagHealthRetries) } if flags.Changed(flagHealthCmd) { cmd, _ := flags.GetString(flagHealthCmd) if cmd != "" { containerSpec.Healthcheck.Test = []string{"CMD-SHELL", cmd} } else { containerSpec.Healthcheck.Test = nil } } return nil }