DockerCLI/cli/command/service/opts.go

1038 lines
37 KiB
Go

package service
import (
"context"
"fmt"
"sort"
"strconv"
"strings"
"time"
"github.com/docker/cli/opts"
"github.com/docker/docker/api/types"
"github.com/docker/docker/api/types/container"
"github.com/docker/docker/api/types/swarm"
"github.com/docker/docker/api/types/versions"
"github.com/docker/docker/client"
"github.com/docker/swarmkit/api"
"github.com/docker/swarmkit/api/defaults"
gogotypes "github.com/gogo/protobuf/types"
"github.com/google/shlex"
"github.com/pkg/errors"
"github.com/spf13/pflag"
)
type int64Value interface {
Value() int64
}
// Uint64Opt represents a uint64.
type Uint64Opt struct {
value *uint64
}
// Set a new value on the option
func (i *Uint64Opt) Set(s string) error {
v, err := strconv.ParseUint(s, 0, 64)
i.value = &v
return err
}
// Type returns the type of this option, which will be displayed in `--help` output
func (i *Uint64Opt) Type() string {
return "uint"
}
// String returns a string repr of this option
func (i *Uint64Opt) String() string {
if i.value != nil {
return fmt.Sprintf("%v", *i.value)
}
return ""
}
// Value returns the uint64
func (i *Uint64Opt) Value() *uint64 {
return i.value
}
type floatValue float32
func (f *floatValue) Set(s string) error {
v, err := strconv.ParseFloat(s, 32)
*f = floatValue(v)
return err
}
func (f *floatValue) Type() string {
return "float"
}
func (f *floatValue) String() string {
return strconv.FormatFloat(float64(*f), 'g', -1, 32)
}
func (f *floatValue) Value() float32 {
return float32(*f)
}
// placementPrefOpts holds a list of placement preferences.
type placementPrefOpts struct {
prefs []swarm.PlacementPreference
strings []string
}
func (opts *placementPrefOpts) String() string {
if len(opts.strings) == 0 {
return ""
}
return fmt.Sprintf("%v", opts.strings)
}
// Set validates the input value and adds it to the internal slices.
// Note: in the future strategies other than "spread", may be supported,
// as well as additional comma-separated options.
func (opts *placementPrefOpts) Set(value string) error {
fields := strings.Split(value, "=")
if len(fields) != 2 {
return errors.New(`placement preference must be of the format "<strategy>=<arg>"`)
}
if fields[0] != "spread" {
return errors.Errorf("unsupported placement preference %s (only spread is supported)", fields[0])
}
opts.prefs = append(opts.prefs, swarm.PlacementPreference{
Spread: &swarm.SpreadOver{
SpreadDescriptor: fields[1],
},
})
opts.strings = append(opts.strings, value)
return nil
}
// Type returns a string name for this Option type
func (opts *placementPrefOpts) Type() string {
return "pref"
}
// ShlexOpt is a flag Value which parses a string as a list of shell words
type ShlexOpt []string
// Set the value
func (s *ShlexOpt) Set(value string) error {
valueSlice, err := shlex.Split(value)
*s = ShlexOpt(valueSlice)
return err
}
// Type returns the tyep of the value
func (s *ShlexOpt) Type() string {
return "command"
}
func (s *ShlexOpt) String() string {
if len(*s) == 0 {
return ""
}
return fmt.Sprint(*s)
}
// Value returns the value as a string slice
func (s *ShlexOpt) Value() []string {
return []string(*s)
}
type updateOptions struct {
parallelism uint64
delay time.Duration
monitor time.Duration
onFailure string
maxFailureRatio floatValue
order string
}
func updateConfigFromDefaults(defaultUpdateConfig *api.UpdateConfig) *swarm.UpdateConfig {
defaultFailureAction := strings.ToLower(api.UpdateConfig_FailureAction_name[int32(defaultUpdateConfig.FailureAction)])
defaultMonitor, _ := gogotypes.DurationFromProto(defaultUpdateConfig.Monitor)
return &swarm.UpdateConfig{
Parallelism: defaultUpdateConfig.Parallelism,
Delay: defaultUpdateConfig.Delay,
Monitor: defaultMonitor,
FailureAction: defaultFailureAction,
MaxFailureRatio: defaultUpdateConfig.MaxFailureRatio,
Order: defaultOrder(defaultUpdateConfig.Order),
}
}
func (opts updateOptions) updateConfig(flags *pflag.FlagSet) *swarm.UpdateConfig {
if !anyChanged(flags, flagUpdateParallelism, flagUpdateDelay, flagUpdateMonitor, flagUpdateFailureAction, flagUpdateMaxFailureRatio, flagUpdateOrder) {
return nil
}
updateConfig := updateConfigFromDefaults(defaults.Service.Update)
if flags.Changed(flagUpdateParallelism) {
updateConfig.Parallelism = opts.parallelism
}
if flags.Changed(flagUpdateDelay) {
updateConfig.Delay = opts.delay
}
if flags.Changed(flagUpdateMonitor) {
updateConfig.Monitor = opts.monitor
}
if flags.Changed(flagUpdateFailureAction) {
updateConfig.FailureAction = opts.onFailure
}
if flags.Changed(flagUpdateMaxFailureRatio) {
updateConfig.MaxFailureRatio = opts.maxFailureRatio.Value()
}
if flags.Changed(flagUpdateOrder) {
updateConfig.Order = opts.order
}
return updateConfig
}
func (opts updateOptions) rollbackConfig(flags *pflag.FlagSet) *swarm.UpdateConfig {
if !anyChanged(flags, flagRollbackParallelism, flagRollbackDelay, flagRollbackMonitor, flagRollbackFailureAction, flagRollbackMaxFailureRatio, flagRollbackOrder) {
return nil
}
updateConfig := updateConfigFromDefaults(defaults.Service.Rollback)
if flags.Changed(flagRollbackParallelism) {
updateConfig.Parallelism = opts.parallelism
}
if flags.Changed(flagRollbackDelay) {
updateConfig.Delay = opts.delay
}
if flags.Changed(flagRollbackMonitor) {
updateConfig.Monitor = opts.monitor
}
if flags.Changed(flagRollbackFailureAction) {
updateConfig.FailureAction = opts.onFailure
}
if flags.Changed(flagRollbackMaxFailureRatio) {
updateConfig.MaxFailureRatio = opts.maxFailureRatio.Value()
}
if flags.Changed(flagRollbackOrder) {
updateConfig.Order = opts.order
}
return updateConfig
}
type resourceOptions struct {
limitCPU opts.NanoCPUs
limitMemBytes opts.MemBytes
limitPids int64
resCPU opts.NanoCPUs
resMemBytes opts.MemBytes
resGenericResources []string
}
func (r *resourceOptions) ToResourceRequirements() (*swarm.ResourceRequirements, error) {
generic, err := ParseGenericResources(r.resGenericResources)
if err != nil {
return nil, err
}
return &swarm.ResourceRequirements{
Limits: &swarm.Limit{
NanoCPUs: r.limitCPU.Value(),
MemoryBytes: r.limitMemBytes.Value(),
Pids: r.limitPids,
},
Reservations: &swarm.Resources{
NanoCPUs: r.resCPU.Value(),
MemoryBytes: r.resMemBytes.Value(),
GenericResources: generic,
},
}, nil
}
type restartPolicyOptions struct {
condition string
delay opts.DurationOpt
maxAttempts Uint64Opt
window opts.DurationOpt
}
func defaultRestartPolicy() *swarm.RestartPolicy {
defaultMaxAttempts := defaults.Service.Task.Restart.MaxAttempts
rp := &swarm.RestartPolicy{
MaxAttempts: &defaultMaxAttempts,
}
if defaults.Service.Task.Restart.Delay != nil {
defaultRestartDelay, _ := gogotypes.DurationFromProto(defaults.Service.Task.Restart.Delay)
rp.Delay = &defaultRestartDelay
}
if defaults.Service.Task.Restart.Window != nil {
defaultRestartWindow, _ := gogotypes.DurationFromProto(defaults.Service.Task.Restart.Window)
rp.Window = &defaultRestartWindow
}
rp.Condition = defaultRestartCondition()
return rp
}
func defaultRestartCondition() swarm.RestartPolicyCondition {
switch defaults.Service.Task.Restart.Condition {
case api.RestartOnNone:
return "none"
case api.RestartOnFailure:
return "on-failure"
case api.RestartOnAny:
return "any"
default:
return ""
}
}
func defaultOrder(order api.UpdateConfig_UpdateOrder) string {
switch order {
case api.UpdateConfig_STOP_FIRST:
return "stop-first"
case api.UpdateConfig_START_FIRST:
return "start-first"
default:
return ""
}
}
func (r *restartPolicyOptions) ToRestartPolicy(flags *pflag.FlagSet) *swarm.RestartPolicy {
if !anyChanged(flags, flagRestartDelay, flagRestartMaxAttempts, flagRestartWindow, flagRestartCondition) {
return nil
}
restartPolicy := defaultRestartPolicy()
if flags.Changed(flagRestartDelay) {
restartPolicy.Delay = r.delay.Value()
}
if flags.Changed(flagRestartCondition) {
restartPolicy.Condition = swarm.RestartPolicyCondition(r.condition)
}
if flags.Changed(flagRestartMaxAttempts) {
restartPolicy.MaxAttempts = r.maxAttempts.Value()
}
if flags.Changed(flagRestartWindow) {
restartPolicy.Window = r.window.Value()
}
return restartPolicy
}
type credentialSpecOpt struct {
value *swarm.CredentialSpec
source string
}
func (c *credentialSpecOpt) Set(value string) error {
c.source = value
c.value = &swarm.CredentialSpec{}
switch {
case strings.HasPrefix(value, "config://"):
// NOTE(dperny): we allow the user to specify the value of
// CredentialSpec Config using the Name of the config, but the API
// requires the ID of the config. For simplicity, we will parse
// whatever value is provided into the "Config" field, but before
// making API calls, we may need to swap the Config Name for the ID.
// Therefore, this isn't the definitive location for the value of
// Config that is passed to the API.
c.value.Config = strings.TrimPrefix(value, "config://")
case strings.HasPrefix(value, "file://"):
c.value.File = strings.TrimPrefix(value, "file://")
case strings.HasPrefix(value, "registry://"):
c.value.Registry = strings.TrimPrefix(value, "registry://")
case value == "":
// if the value of the flag is an empty string, that means there is no
// CredentialSpec needed. This is useful for removing a CredentialSpec
// during a service update.
default:
return errors.New(`invalid credential spec: value must be prefixed with "config://", "file://", or "registry://"`)
}
return nil
}
func (c *credentialSpecOpt) Type() string {
return "credential-spec"
}
func (c *credentialSpecOpt) String() string {
return c.source
}
func (c *credentialSpecOpt) Value() *swarm.CredentialSpec {
return c.value
}
func resolveNetworkID(ctx context.Context, apiClient client.NetworkAPIClient, networkIDOrName string) (string, error) {
nw, err := apiClient.NetworkInspect(ctx, networkIDOrName, types.NetworkInspectOptions{Scope: "swarm"})
return nw.ID, err
}
func convertNetworks(networks opts.NetworkOpt) []swarm.NetworkAttachmentConfig {
var netAttach []swarm.NetworkAttachmentConfig
for _, net := range networks.Value() {
netAttach = append(netAttach, swarm.NetworkAttachmentConfig{
Target: net.Target,
Aliases: net.Aliases,
DriverOpts: net.DriverOpts,
})
}
return netAttach
}
type endpointOptions struct {
mode string
publishPorts opts.PortOpt
}
func (e *endpointOptions) ToEndpointSpec() *swarm.EndpointSpec {
return &swarm.EndpointSpec{
Mode: swarm.ResolutionMode(strings.ToLower(e.mode)),
Ports: e.publishPorts.Value(),
}
}
type logDriverOptions struct {
name string
opts opts.ListOpts
}
func newLogDriverOptions() logDriverOptions {
return logDriverOptions{opts: opts.NewListOpts(opts.ValidateEnv)}
}
func (ldo *logDriverOptions) toLogDriver() *swarm.Driver {
if ldo.name == "" {
return nil
}
// set the log driver only if specified.
return &swarm.Driver{
Name: ldo.name,
Options: opts.ConvertKVStringsToMap(ldo.opts.GetAll()),
}
}
type healthCheckOptions struct {
cmd string
interval opts.PositiveDurationOpt
timeout opts.PositiveDurationOpt
retries int
startPeriod opts.PositiveDurationOpt
noHealthcheck bool
}
func (opts *healthCheckOptions) toHealthConfig() (*container.HealthConfig, error) {
var healthConfig *container.HealthConfig
haveHealthSettings := opts.cmd != "" ||
opts.interval.Value() != nil ||
opts.timeout.Value() != nil ||
opts.retries != 0
if opts.noHealthcheck {
if haveHealthSettings {
return nil, errors.Errorf("--%s conflicts with --health-* options", flagNoHealthcheck)
}
healthConfig = &container.HealthConfig{Test: []string{"NONE"}}
} else if haveHealthSettings {
var test []string
if opts.cmd != "" {
test = []string{"CMD-SHELL", opts.cmd}
}
var interval, timeout, startPeriod time.Duration
if ptr := opts.interval.Value(); ptr != nil {
interval = *ptr
}
if ptr := opts.timeout.Value(); ptr != nil {
timeout = *ptr
}
if ptr := opts.startPeriod.Value(); ptr != nil {
startPeriod = *ptr
}
healthConfig = &container.HealthConfig{
Test: test,
Interval: interval,
Timeout: timeout,
Retries: opts.retries,
StartPeriod: startPeriod,
}
}
return healthConfig, nil
}
// convertExtraHostsToSwarmHosts converts an array of extra hosts in cli
//
// <host>:<ip>
//
// into a swarmkit host format:
//
// IP_address canonical_hostname [aliases...]
//
// This assumes input value (<host>:<ip>) has already been validated
func convertExtraHostsToSwarmHosts(extraHosts []string) []string {
hosts := []string{}
for _, extraHost := range extraHosts {
parts := strings.SplitN(extraHost, ":", 2)
hosts = append(hosts, fmt.Sprintf("%s %s", parts[1], parts[0]))
}
return hosts
}
type serviceOptions struct {
detach bool
quiet bool
name string
labels opts.ListOpts
containerLabels opts.ListOpts
image string
entrypoint ShlexOpt
args []string
hostname string
env opts.ListOpts
envFile opts.ListOpts
workdir string
user string
groups opts.ListOpts
credentialSpec credentialSpecOpt
init bool
stopSignal string
tty bool
readOnly bool
mounts opts.MountOpt
dns opts.ListOpts
dnsSearch opts.ListOpts
dnsOption opts.ListOpts
hosts opts.ListOpts
sysctls opts.ListOpts
capAdd opts.ListOpts
capDrop opts.ListOpts
ulimits opts.UlimitOpt
resources resourceOptions
stopGrace opts.DurationOpt
replicas Uint64Opt
mode string
maxConcurrent Uint64Opt
restartPolicy restartPolicyOptions
constraints opts.ListOpts
placementPrefs placementPrefOpts
maxReplicas uint64
update updateOptions
rollback updateOptions
networks opts.NetworkOpt
endpoint endpointOptions
registryAuth bool
noResolveImage bool
logDriver logDriverOptions
healthcheck healthCheckOptions
secrets opts.SecretOpt
configs opts.ConfigOpt
isolation string
}
func newServiceOptions() *serviceOptions {
return &serviceOptions{
labels: opts.NewListOpts(opts.ValidateLabel),
constraints: opts.NewListOpts(nil),
containerLabels: opts.NewListOpts(opts.ValidateLabel),
env: opts.NewListOpts(opts.ValidateEnv),
envFile: opts.NewListOpts(nil),
groups: opts.NewListOpts(nil),
logDriver: newLogDriverOptions(),
dns: opts.NewListOpts(opts.ValidateIPAddress),
dnsOption: opts.NewListOpts(nil),
dnsSearch: opts.NewListOpts(opts.ValidateDNSSearch),
hosts: opts.NewListOpts(opts.ValidateExtraHost),
sysctls: opts.NewListOpts(nil),
capAdd: opts.NewListOpts(nil),
capDrop: opts.NewListOpts(nil),
ulimits: *opts.NewUlimitOpt(nil),
}
}
func (options *serviceOptions) ToServiceMode() (swarm.ServiceMode, error) {
serviceMode := swarm.ServiceMode{}
switch options.mode {
case "global":
if options.replicas.Value() != nil {
return serviceMode, errors.Errorf("replicas can only be used with replicated or replicated-job mode")
}
if options.maxReplicas > 0 {
return serviceMode, errors.New("replicas-max-per-node can only be used with replicated or replicated-job mode")
}
if options.maxConcurrent.Value() != nil {
return serviceMode, errors.New("max-concurrent can only be used with replicated-job mode")
}
serviceMode.Global = &swarm.GlobalService{}
case "replicated":
if options.maxConcurrent.Value() != nil {
return serviceMode, errors.New("max-concurrent can only be used with replicated-job mode")
}
serviceMode.Replicated = &swarm.ReplicatedService{
Replicas: options.replicas.Value(),
}
case "replicated-job":
concurrent := options.maxConcurrent.Value()
if concurrent == nil {
concurrent = options.replicas.Value()
}
serviceMode.ReplicatedJob = &swarm.ReplicatedJob{
MaxConcurrent: concurrent,
TotalCompletions: options.replicas.Value(),
}
case "global-job":
if options.maxReplicas > 0 {
return serviceMode, errors.New("replicas-max-per-node can only be used with replicated or replicated-job mode")
}
if options.maxConcurrent.Value() != nil {
return serviceMode, errors.New("max-concurrent can only be used with replicated-job mode")
}
if options.replicas.Value() != nil {
return serviceMode, errors.Errorf("replicas can only be used with replicated or replicated-job mode")
}
serviceMode.GlobalJob = &swarm.GlobalJob{}
default:
return serviceMode, errors.Errorf("Unknown mode: %s, only replicated and global supported", options.mode)
}
return serviceMode, nil
}
func (options *serviceOptions) ToStopGracePeriod(flags *pflag.FlagSet) *time.Duration {
if flags.Changed(flagStopGracePeriod) {
return options.stopGrace.Value()
}
return nil
}
// makeEnv gets the environment variables from the command line options and
// returns a slice of strings to use in the service spec when doing ToService
func (options *serviceOptions) makeEnv() ([]string, error) {
envVariables, err := opts.ReadKVEnvStrings(options.envFile.GetAll(), options.env.GetAll())
if err != nil {
return nil, err
}
currentEnv := make([]string, 0, len(envVariables))
for _, env := range envVariables { // need to process each var, in order
k := strings.SplitN(env, "=", 2)[0]
for i, current := range currentEnv { // remove duplicates
if current == env {
continue // no update required, may hide this behind flag to preserve order of envVariables
}
if strings.HasPrefix(current, k+"=") {
currentEnv = append(currentEnv[:i], currentEnv[i+1:]...)
}
}
currentEnv = append(currentEnv, env)
}
return currentEnv, nil
}
// ToService takes the set of flags passed to the command and converts them
// into a service spec.
//
// Takes an API client as the second argument in order to resolve network names
// from the flags into network IDs.
//
// Returns an error if any flags are invalid or contradictory.
func (options *serviceOptions) ToService(ctx context.Context, apiClient client.NetworkAPIClient, flags *pflag.FlagSet) (swarm.ServiceSpec, error) {
var service swarm.ServiceSpec
currentEnv, err := options.makeEnv()
if err != nil {
return service, err
}
healthConfig, err := options.healthcheck.toHealthConfig()
if err != nil {
return service, err
}
serviceMode, err := options.ToServiceMode()
if err != nil {
return service, err
}
updateConfig := options.update.updateConfig(flags)
rollbackConfig := options.rollback.rollbackConfig(flags)
// update and rollback configuration is not supported for jobs. If these
// flags are not set, then the values will be nil. If they are non-nil,
// then return an error.
if (serviceMode.ReplicatedJob != nil || serviceMode.GlobalJob != nil) && (updateConfig != nil || rollbackConfig != nil) {
return service, errors.Errorf("update and rollback configuration is not supported for jobs")
}
networks := convertNetworks(options.networks)
for i, net := range networks {
nwID, err := resolveNetworkID(ctx, apiClient, net.Target)
if err != nil {
return service, err
}
networks[i].Target = nwID
}
sort.Slice(networks, func(i, j int) bool {
return networks[i].Target < networks[j].Target
})
resources, err := options.resources.ToResourceRequirements()
if err != nil {
return service, err
}
capAdd, capDrop := opts.EffectiveCapAddCapDrop(options.capAdd.GetAll(), options.capDrop.GetAll())
service = swarm.ServiceSpec{
Annotations: swarm.Annotations{
Name: options.name,
Labels: opts.ConvertKVStringsToMap(options.labels.GetAll()),
},
TaskTemplate: swarm.TaskSpec{
ContainerSpec: &swarm.ContainerSpec{
Image: options.image,
Args: options.args,
Command: options.entrypoint.Value(),
Env: currentEnv,
Hostname: options.hostname,
Labels: opts.ConvertKVStringsToMap(options.containerLabels.GetAll()),
Dir: options.workdir,
User: options.user,
Groups: options.groups.GetAll(),
StopSignal: options.stopSignal,
TTY: options.tty,
ReadOnly: options.readOnly,
Mounts: options.mounts.Value(),
Init: &options.init,
DNSConfig: &swarm.DNSConfig{
Nameservers: options.dns.GetAll(),
Search: options.dnsSearch.GetAll(),
Options: options.dnsOption.GetAll(),
},
Hosts: convertExtraHostsToSwarmHosts(options.hosts.GetAll()),
StopGracePeriod: options.ToStopGracePeriod(flags),
Healthcheck: healthConfig,
Isolation: container.Isolation(options.isolation),
Sysctls: opts.ConvertKVStringsToMap(options.sysctls.GetAll()),
CapabilityAdd: capAdd,
CapabilityDrop: capDrop,
Ulimits: options.ulimits.GetList(),
},
Networks: networks,
Resources: resources,
RestartPolicy: options.restartPolicy.ToRestartPolicy(flags),
Placement: &swarm.Placement{
Constraints: options.constraints.GetAll(),
Preferences: options.placementPrefs.prefs,
MaxReplicas: options.maxReplicas,
},
LogDriver: options.logDriver.toLogDriver(),
},
Mode: serviceMode,
UpdateConfig: updateConfig,
RollbackConfig: rollbackConfig,
EndpointSpec: options.endpoint.ToEndpointSpec(),
}
if options.credentialSpec.String() != "" && options.credentialSpec.Value() != nil {
service.TaskTemplate.ContainerSpec.Privileges = &swarm.Privileges{
CredentialSpec: options.credentialSpec.Value(),
}
}
return service, nil
}
type flagDefaults map[string]interface{}
func (fd flagDefaults) getUint64(flagName string) uint64 {
if val, ok := fd[flagName].(uint64); ok {
return val
}
return 0
}
func (fd flagDefaults) getString(flagName string) string {
if val, ok := fd[flagName].(string); ok {
return val
}
return ""
}
func buildServiceDefaultFlagMapping() flagDefaults {
defaultFlagValues := make(map[string]interface{})
defaultFlagValues[flagStopGracePeriod], _ = gogotypes.DurationFromProto(defaults.Service.Task.GetContainer().StopGracePeriod)
defaultFlagValues[flagRestartCondition] = `"` + defaultRestartCondition() + `"`
defaultFlagValues[flagRestartDelay], _ = gogotypes.DurationFromProto(defaults.Service.Task.Restart.Delay)
if defaults.Service.Task.Restart.MaxAttempts != 0 {
defaultFlagValues[flagRestartMaxAttempts] = defaults.Service.Task.Restart.MaxAttempts
}
defaultRestartWindow, _ := gogotypes.DurationFromProto(defaults.Service.Task.Restart.Window)
if defaultRestartWindow != 0 {
defaultFlagValues[flagRestartWindow] = defaultRestartWindow
}
defaultFlagValues[flagUpdateParallelism] = defaults.Service.Update.Parallelism
defaultFlagValues[flagUpdateDelay] = defaults.Service.Update.Delay
defaultFlagValues[flagUpdateMonitor], _ = gogotypes.DurationFromProto(defaults.Service.Update.Monitor)
defaultFlagValues[flagUpdateFailureAction] = `"` + strings.ToLower(api.UpdateConfig_FailureAction_name[int32(defaults.Service.Update.FailureAction)]) + `"`
defaultFlagValues[flagUpdateMaxFailureRatio] = defaults.Service.Update.MaxFailureRatio
defaultFlagValues[flagUpdateOrder] = `"` + defaultOrder(defaults.Service.Update.Order) + `"`
defaultFlagValues[flagRollbackParallelism] = defaults.Service.Rollback.Parallelism
defaultFlagValues[flagRollbackDelay] = defaults.Service.Rollback.Delay
defaultFlagValues[flagRollbackMonitor], _ = gogotypes.DurationFromProto(defaults.Service.Rollback.Monitor)
defaultFlagValues[flagRollbackFailureAction] = `"` + strings.ToLower(api.UpdateConfig_FailureAction_name[int32(defaults.Service.Rollback.FailureAction)]) + `"`
defaultFlagValues[flagRollbackMaxFailureRatio] = defaults.Service.Rollback.MaxFailureRatio
defaultFlagValues[flagRollbackOrder] = `"` + defaultOrder(defaults.Service.Rollback.Order) + `"`
defaultFlagValues[flagEndpointMode] = "vip"
return defaultFlagValues
}
func addDetachFlag(flags *pflag.FlagSet, detach *bool) {
flags.BoolVarP(detach, flagDetach, "d", false, "Exit immediately instead of waiting for the service to converge")
flags.SetAnnotation(flagDetach, "version", []string{"1.29"})
}
// addServiceFlags adds all flags that are common to both `create` and `update`.
// Any flags that are not common are added separately in the individual command
func addServiceFlags(flags *pflag.FlagSet, opts *serviceOptions, defaultFlagValues flagDefaults) {
flagDesc := func(flagName string, desc string) string {
if defaultValue, ok := defaultFlagValues[flagName]; ok {
return fmt.Sprintf("%s (default %v)", desc, defaultValue)
}
return desc
}
addDetachFlag(flags, &opts.detach)
flags.BoolVarP(&opts.quiet, flagQuiet, "q", false, "Suppress progress output")
flags.StringVarP(&opts.workdir, flagWorkdir, "w", "", "Working directory inside the container")
flags.StringVarP(&opts.user, flagUser, "u", "", "Username or UID (format: <name|uid>[:<group|gid>])")
flags.Var(&opts.credentialSpec, flagCredentialSpec, "Credential spec for managed service account (Windows only)")
flags.SetAnnotation(flagCredentialSpec, "version", []string{"1.29"})
flags.StringVar(&opts.hostname, flagHostname, "", "Container hostname")
flags.SetAnnotation(flagHostname, "version", []string{"1.25"})
flags.Var(&opts.entrypoint, flagEntrypoint, "Overwrite the default ENTRYPOINT of the image")
flags.Var(&opts.capAdd, flagCapAdd, "Add Linux capabilities")
flags.SetAnnotation(flagCapAdd, "version", []string{"1.41"})
flags.Var(&opts.capDrop, flagCapDrop, "Drop Linux capabilities")
flags.SetAnnotation(flagCapDrop, "version", []string{"1.41"})
flags.Var(&opts.resources.limitCPU, flagLimitCPU, "Limit CPUs")
flags.Var(&opts.resources.limitMemBytes, flagLimitMemory, "Limit Memory")
flags.Var(&opts.resources.resCPU, flagReserveCPU, "Reserve CPUs")
flags.Var(&opts.resources.resMemBytes, flagReserveMemory, "Reserve Memory")
flags.Int64Var(&opts.resources.limitPids, flagLimitPids, 0, "Limit maximum number of processes (default 0 = unlimited)")
flags.SetAnnotation(flagLimitPids, "version", []string{"1.41"})
flags.SetAnnotation(flagLimitPids, "swarm", nil)
flags.Var(&opts.stopGrace, flagStopGracePeriod, flagDesc(flagStopGracePeriod, "Time to wait before force killing a container (ns|us|ms|s|m|h)"))
flags.Var(&opts.replicas, flagReplicas, "Number of tasks")
flags.Var(&opts.maxConcurrent, flagConcurrent, "Number of job tasks to run concurrently (default equal to --replicas)")
flags.SetAnnotation(flagConcurrent, "version", []string{"1.41"})
flags.Uint64Var(&opts.maxReplicas, flagMaxReplicas, defaultFlagValues.getUint64(flagMaxReplicas), "Maximum number of tasks per node (default 0 = unlimited)")
flags.SetAnnotation(flagMaxReplicas, "version", []string{"1.40"})
flags.StringVar(&opts.restartPolicy.condition, flagRestartCondition, "", flagDesc(flagRestartCondition, `Restart when condition is met ("none"|"on-failure"|"any")`))
flags.Var(&opts.restartPolicy.delay, flagRestartDelay, flagDesc(flagRestartDelay, "Delay between restart attempts (ns|us|ms|s|m|h)"))
flags.Var(&opts.restartPolicy.maxAttempts, flagRestartMaxAttempts, flagDesc(flagRestartMaxAttempts, "Maximum number of restarts before giving up"))
flags.Var(&opts.restartPolicy.window, flagRestartWindow, flagDesc(flagRestartWindow, "Window used to evaluate the restart policy (ns|us|ms|s|m|h)"))
flags.Uint64Var(&opts.update.parallelism, flagUpdateParallelism, defaultFlagValues.getUint64(flagUpdateParallelism), "Maximum number of tasks updated simultaneously (0 to update all at once)")
flags.DurationVar(&opts.update.delay, flagUpdateDelay, 0, flagDesc(flagUpdateDelay, "Delay between updates (ns|us|ms|s|m|h)"))
flags.DurationVar(&opts.update.monitor, flagUpdateMonitor, 0, flagDesc(flagUpdateMonitor, "Duration after each task update to monitor for failure (ns|us|ms|s|m|h)"))
flags.SetAnnotation(flagUpdateMonitor, "version", []string{"1.25"})
flags.StringVar(&opts.update.onFailure, flagUpdateFailureAction, "", flagDesc(flagUpdateFailureAction, `Action on update failure ("pause"|"continue"|"rollback")`))
flags.Var(&opts.update.maxFailureRatio, flagUpdateMaxFailureRatio, flagDesc(flagUpdateMaxFailureRatio, "Failure rate to tolerate during an update"))
flags.SetAnnotation(flagUpdateMaxFailureRatio, "version", []string{"1.25"})
flags.StringVar(&opts.update.order, flagUpdateOrder, "", flagDesc(flagUpdateOrder, `Update order ("start-first"|"stop-first")`))
flags.SetAnnotation(flagUpdateOrder, "version", []string{"1.29"})
flags.Uint64Var(&opts.rollback.parallelism, flagRollbackParallelism, defaultFlagValues.getUint64(flagRollbackParallelism),
"Maximum number of tasks rolled back simultaneously (0 to roll back all at once)")
flags.SetAnnotation(flagRollbackParallelism, "version", []string{"1.28"})
flags.DurationVar(&opts.rollback.delay, flagRollbackDelay, 0, flagDesc(flagRollbackDelay, "Delay between task rollbacks (ns|us|ms|s|m|h)"))
flags.SetAnnotation(flagRollbackDelay, "version", []string{"1.28"})
flags.DurationVar(&opts.rollback.monitor, flagRollbackMonitor, 0, flagDesc(flagRollbackMonitor, "Duration after each task rollback to monitor for failure (ns|us|ms|s|m|h)"))
flags.SetAnnotation(flagRollbackMonitor, "version", []string{"1.28"})
flags.StringVar(&opts.rollback.onFailure, flagRollbackFailureAction, "", flagDesc(flagRollbackFailureAction, `Action on rollback failure ("pause"|"continue")`))
flags.SetAnnotation(flagRollbackFailureAction, "version", []string{"1.28"})
flags.Var(&opts.rollback.maxFailureRatio, flagRollbackMaxFailureRatio, flagDesc(flagRollbackMaxFailureRatio, "Failure rate to tolerate during a rollback"))
flags.SetAnnotation(flagRollbackMaxFailureRatio, "version", []string{"1.28"})
flags.StringVar(&opts.rollback.order, flagRollbackOrder, "", flagDesc(flagRollbackOrder, `Rollback order ("start-first"|"stop-first")`))
flags.SetAnnotation(flagRollbackOrder, "version", []string{"1.29"})
flags.StringVar(&opts.endpoint.mode, flagEndpointMode, defaultFlagValues.getString(flagEndpointMode), "Endpoint mode (vip or dnsrr)")
flags.BoolVar(&opts.registryAuth, flagRegistryAuth, false, "Send registry authentication details to swarm agents")
flags.BoolVar(&opts.noResolveImage, flagNoResolveImage, false, "Do not query the registry to resolve image digest and supported platforms")
flags.SetAnnotation(flagNoResolveImage, "version", []string{"1.30"})
flags.StringVar(&opts.logDriver.name, flagLogDriver, "", "Logging driver for service")
flags.Var(&opts.logDriver.opts, flagLogOpt, "Logging driver options")
flags.StringVar(&opts.healthcheck.cmd, flagHealthCmd, "", "Command to run to check health")
flags.SetAnnotation(flagHealthCmd, "version", []string{"1.25"})
flags.Var(&opts.healthcheck.interval, flagHealthInterval, "Time between running the check (ms|s|m|h)")
flags.SetAnnotation(flagHealthInterval, "version", []string{"1.25"})
flags.Var(&opts.healthcheck.timeout, flagHealthTimeout, "Maximum time to allow one check to run (ms|s|m|h)")
flags.SetAnnotation(flagHealthTimeout, "version", []string{"1.25"})
flags.IntVar(&opts.healthcheck.retries, flagHealthRetries, 0, "Consecutive failures needed to report unhealthy")
flags.SetAnnotation(flagHealthRetries, "version", []string{"1.25"})
flags.Var(&opts.healthcheck.startPeriod, flagHealthStartPeriod, "Start period for the container to initialize before counting retries towards unstable (ms|s|m|h)")
flags.SetAnnotation(flagHealthStartPeriod, "version", []string{"1.29"})
flags.BoolVar(&opts.healthcheck.noHealthcheck, flagNoHealthcheck, false, "Disable any container-specified HEALTHCHECK")
flags.SetAnnotation(flagNoHealthcheck, "version", []string{"1.25"})
flags.BoolVarP(&opts.tty, flagTTY, "t", false, "Allocate a pseudo-TTY")
flags.SetAnnotation(flagTTY, "version", []string{"1.25"})
flags.BoolVar(&opts.readOnly, flagReadOnly, false, "Mount the container's root filesystem as read only")
flags.SetAnnotation(flagReadOnly, "version", []string{"1.28"})
flags.StringVar(&opts.stopSignal, flagStopSignal, "", "Signal to stop the container")
flags.SetAnnotation(flagStopSignal, "version", []string{"1.28"})
flags.StringVar(&opts.isolation, flagIsolation, "", "Service container isolation mode")
flags.SetAnnotation(flagIsolation, "version", []string{"1.35"})
}
const (
flagCredentialSpec = "credential-spec" //nolint:gosec // ignore G101: Potential hardcoded credentials
flagPlacementPref = "placement-pref"
flagPlacementPrefAdd = "placement-pref-add"
flagPlacementPrefRemove = "placement-pref-rm"
flagConstraint = "constraint"
flagConstraintRemove = "constraint-rm"
flagConstraintAdd = "constraint-add"
flagContainerLabel = "container-label"
flagContainerLabelRemove = "container-label-rm"
flagContainerLabelAdd = "container-label-add"
flagDetach = "detach"
flagDNS = "dns"
flagDNSRemove = "dns-rm"
flagDNSAdd = "dns-add"
flagDNSOption = "dns-option"
flagDNSOptionRemove = "dns-option-rm"
flagDNSOptionAdd = "dns-option-add"
flagDNSSearch = "dns-search"
flagDNSSearchRemove = "dns-search-rm"
flagDNSSearchAdd = "dns-search-add"
flagEndpointMode = "endpoint-mode"
flagEntrypoint = "entrypoint"
flagEnv = "env"
flagEnvFile = "env-file"
flagEnvRemove = "env-rm"
flagEnvAdd = "env-add"
flagGenericResourcesRemove = "generic-resource-rm"
flagGenericResourcesAdd = "generic-resource-add"
flagGroup = "group"
flagGroupAdd = "group-add"
flagGroupRemove = "group-rm"
flagHost = "host"
flagHostAdd = "host-add"
flagHostRemove = "host-rm"
flagHostname = "hostname"
flagLabel = "label"
flagLabelRemove = "label-rm"
flagLabelAdd = "label-add"
flagLimitCPU = "limit-cpu"
flagLimitMemory = "limit-memory"
flagLimitPids = "limit-pids"
flagMaxReplicas = "replicas-max-per-node"
flagConcurrent = "max-concurrent"
flagMode = "mode"
flagMount = "mount"
flagMountRemove = "mount-rm"
flagMountAdd = "mount-add"
flagName = "name"
flagNetwork = "network"
flagNetworkAdd = "network-add"
flagNetworkRemove = "network-rm"
flagPublish = "publish"
flagPublishRemove = "publish-rm"
flagPublishAdd = "publish-add"
flagQuiet = "quiet"
flagReadOnly = "read-only"
flagReplicas = "replicas"
flagReserveCPU = "reserve-cpu"
flagReserveMemory = "reserve-memory"
flagRestartCondition = "restart-condition"
flagRestartDelay = "restart-delay"
flagRestartMaxAttempts = "restart-max-attempts"
flagRestartWindow = "restart-window"
flagRollback = "rollback"
flagRollbackDelay = "rollback-delay"
flagRollbackFailureAction = "rollback-failure-action"
flagRollbackMaxFailureRatio = "rollback-max-failure-ratio"
flagRollbackMonitor = "rollback-monitor"
flagRollbackOrder = "rollback-order"
flagRollbackParallelism = "rollback-parallelism"
flagInit = "init"
flagSysCtl = "sysctl"
flagSysCtlAdd = "sysctl-add"
flagSysCtlRemove = "sysctl-rm"
flagStopGracePeriod = "stop-grace-period"
flagStopSignal = "stop-signal"
flagTTY = "tty"
flagUpdateDelay = "update-delay"
flagUpdateFailureAction = "update-failure-action"
flagUpdateMaxFailureRatio = "update-max-failure-ratio"
flagUpdateMonitor = "update-monitor"
flagUpdateOrder = "update-order"
flagUpdateParallelism = "update-parallelism"
flagUser = "user"
flagWorkdir = "workdir"
flagRegistryAuth = "with-registry-auth"
flagNoResolveImage = "no-resolve-image"
flagLogDriver = "log-driver"
flagLogOpt = "log-opt"
flagHealthCmd = "health-cmd"
flagHealthInterval = "health-interval"
flagHealthRetries = "health-retries"
flagHealthTimeout = "health-timeout"
flagHealthStartPeriod = "health-start-period"
flagNoHealthcheck = "no-healthcheck"
flagSecret = "secret"
flagSecretAdd = "secret-add"
flagSecretRemove = "secret-rm"
flagConfig = "config"
flagConfigAdd = "config-add"
flagConfigRemove = "config-rm"
flagIsolation = "isolation"
flagCapAdd = "cap-add"
flagCapDrop = "cap-drop"
flagUlimit = "ulimit"
flagUlimitAdd = "ulimit-add"
flagUlimitRemove = "ulimit-rm"
)
func validateAPIVersion(c swarm.ServiceSpec, serverAPIVersion string) error {
for _, m := range c.TaskTemplate.ContainerSpec.Mounts {
if m.BindOptions != nil && m.BindOptions.NonRecursive && versions.LessThan(serverAPIVersion, "1.40") {
return errors.Errorf("bind-nonrecursive requires API v1.40 or later")
}
}
return nil
}