package service import ( "fmt" "sort" "strconv" "strings" "time" "github.com/distribution/reference" "github.com/docker/cli/cli/command/formatter" "github.com/docker/cli/cli/command/inspect" "github.com/docker/docker/api/types/container" mounttypes "github.com/docker/docker/api/types/mount" "github.com/docker/docker/api/types/network" "github.com/docker/docker/api/types/swarm" "github.com/docker/docker/pkg/stringid" units "github.com/docker/go-units" "github.com/fvbommel/sortorder" "github.com/pkg/errors" ) const serviceInspectPrettyTemplate formatter.Format = ` ID: {{.ID}} Name: {{.Name}} {{- if .Labels }} Labels: {{- range $k, $v := .Labels }} {{ $k }}{{if $v }}={{ $v }}{{ end }} {{- end }}{{ end }} Service Mode: {{- if .IsModeGlobal }} Global {{- else if .IsModeReplicated }} Replicated {{- if .ModeReplicatedReplicas }} Replicas: {{ .ModeReplicatedReplicas }} {{- end }}{{ end }} {{- if .HasUpdateStatus }} UpdateStatus: State: {{ .UpdateStatusState }} {{- if .HasUpdateStatusStarted }} Started: {{ .UpdateStatusStarted }} {{- end }} {{- if .UpdateIsCompleted }} Completed: {{ .UpdateStatusCompleted }} {{- end }} Message: {{ .UpdateStatusMessage }} {{- end }} Placement: {{- if .TaskPlacementConstraints }} Constraints: {{ .TaskPlacementConstraints }} {{- end }} {{- if .TaskPlacementPreferences }} Preferences: {{ .TaskPlacementPreferences }} {{- end }} {{- if .MaxReplicas }} Max Replicas Per Node: {{ .MaxReplicas }} {{- end }} {{- if .HasUpdateConfig }} UpdateConfig: Parallelism: {{ .UpdateParallelism }} {{- if .HasUpdateDelay}} Delay: {{ .UpdateDelay }} {{- end }} On failure: {{ .UpdateOnFailure }} {{- if .HasUpdateMonitor}} Monitoring Period: {{ .UpdateMonitor }} {{- end }} Max failure ratio: {{ .UpdateMaxFailureRatio }} Update order: {{ .UpdateOrder }} {{- end }} {{- if .HasRollbackConfig }} RollbackConfig: Parallelism: {{ .RollbackParallelism }} {{- if .HasRollbackDelay}} Delay: {{ .RollbackDelay }} {{- end }} On failure: {{ .RollbackOnFailure }} {{- if .HasRollbackMonitor}} Monitoring Period: {{ .RollbackMonitor }} {{- end }} Max failure ratio: {{ .RollbackMaxFailureRatio }} Rollback order: {{ .RollbackOrder }} {{- end }} ContainerSpec: Image: {{ .ContainerImage }} {{- if .ContainerArgs }} Args: {{ range $arg := .ContainerArgs }}{{ $arg }} {{ end }} {{- end -}} {{- if .ContainerEnv }} Env: {{ range $env := .ContainerEnv }}{{ $env }} {{ end }} {{- end -}} {{- if .ContainerWorkDir }} Dir: {{ .ContainerWorkDir }} {{- end -}} {{- if .HasContainerInit }} Init: {{ .ContainerInit }} {{- end -}} {{- if .ContainerUser }} User: {{ .ContainerUser }} {{- end }} {{- if .HasCapabilities }} Capabilities: {{- if .HasCapabilityAdd }} Add: {{ .CapabilityAdd }} {{- end }} {{- if .HasCapabilityDrop }} Drop: {{ .CapabilityDrop }} {{- end }} {{- end }} {{- if .ContainerSysCtls }} SysCtls: {{- range $k, $v := .ContainerSysCtls }} {{ $k }}{{if $v }}: {{ $v }}{{ end }} {{- end }}{{ end }} {{- if .ContainerUlimits }} Ulimits: {{- range $k, $v := .ContainerUlimits }} {{ $k }}: {{ $v }} {{- end }}{{ end }} {{- if .ContainerMounts }} Mounts: {{- end }} {{- range $mount := .ContainerMounts }} Target: {{ $mount.Target }} Source: {{ $mount.Source }} ReadOnly: {{ $mount.ReadOnly }} Type: {{ $mount.Type }} {{- end -}} {{- if .Configs}} Configs: {{- range $config := .Configs }} Target: {{$config.File.Name}} Source: {{$config.ConfigName}} {{- end }}{{ end }} {{- if .Secrets }} Secrets: {{- range $secret := .Secrets }} Target: {{$secret.File.Name}} Source: {{$secret.SecretName}} {{- end }}{{ end }} {{- if .HasLogDriver }} Log Driver: {{- if .HasLogDriverName }} Name: {{ .LogDriverName }} {{- end }} {{- if .LogOpts }} LogOpts: {{- range $k, $v := .LogOpts }} {{ $k }}{{if $v }}: {{ $v }}{{ end }} {{- end }}{{ end }} {{ end }} {{- if .HasResources }} Resources: {{- if .HasResourceReservations }} Reservations: {{- if gt .ResourceReservationNanoCPUs 0.0 }} CPU: {{ .ResourceReservationNanoCPUs }} {{- end }} {{- if .ResourceReservationMemory }} Memory: {{ .ResourceReservationMemory }} {{- end }}{{ end }} {{- if .HasResourceLimits }} Limits: {{- if gt .ResourceLimitsNanoCPUs 0.0 }} CPU: {{ .ResourceLimitsNanoCPUs }} {{- end }} {{- if .ResourceLimitMemory }} Memory: {{ .ResourceLimitMemory }} {{- end }}{{ end }}{{ end }} {{- if gt .ResourceLimitPids 0 }} PIDs: {{ .ResourceLimitPids }} {{- end }} {{- if .Networks }} Networks: {{- range $network := .Networks }} {{ $network }}{{ end }} {{ end }} Endpoint Mode: {{ .EndpointMode }} {{- if .Ports }} Ports: {{- range $port := .Ports }} PublishedPort = {{ $port.PublishedPort }} Protocol = {{ $port.Protocol }} TargetPort = {{ $port.TargetPort }} PublishMode = {{ $port.PublishMode }} {{- end }} {{ end -}} {{- if .Healthcheck }} Healthcheck: Interval = {{ .Healthcheck.Interval }} Retries = {{ .Healthcheck.Retries }} StartPeriod = {{ .Healthcheck.StartPeriod }} Timeout = {{ .Healthcheck.Timeout }} {{- if .Healthcheck.Test }} Tests: {{- range $test := .Healthcheck.Test }} Test = {{ $test }} {{- end }} {{ end -}} {{- end }} ` // NewFormat returns a Format for rendering using a Context func NewFormat(source string) formatter.Format { switch source { case formatter.PrettyFormatKey: return serviceInspectPrettyTemplate default: return formatter.Format(strings.TrimPrefix(source, formatter.RawFormatKey)) } } func resolveNetworks(service swarm.Service, getNetwork inspect.GetRefFunc) map[string]string { networkNames := make(map[string]string) for _, nw := range service.Spec.TaskTemplate.Networks { if resolved, _, err := getNetwork(nw.Target); err == nil { if resolvedNetwork, ok := resolved.(network.Summary); ok { networkNames[resolvedNetwork.ID] = resolvedNetwork.Name } } } return networkNames } // InspectFormatWrite renders the context for a list of services func InspectFormatWrite(ctx formatter.Context, refs []string, getRef, getNetwork inspect.GetRefFunc) error { if ctx.Format != serviceInspectPrettyTemplate { return inspect.Inspect(ctx.Output, refs, string(ctx.Format), getRef) } render := func(format func(subContext formatter.SubContext) error) error { for _, ref := range refs { serviceI, _, err := getRef(ref) if err != nil { return err } service, ok := serviceI.(swarm.Service) if !ok { return errors.Errorf("got wrong object to inspect") } if err := format(&serviceInspectContext{Service: service, networkNames: resolveNetworks(service, getNetwork)}); err != nil { return err } } return nil } return ctx.Write(&serviceInspectContext{}, render) } type serviceInspectContext struct { swarm.Service formatter.SubContext // networkNames is a map from network IDs (as found in // Networks[x].Target) to network names. networkNames map[string]string } func (ctx *serviceInspectContext) MarshalJSON() ([]byte, error) { return formatter.MarshalJSON(ctx) } func (ctx *serviceInspectContext) ID() string { return ctx.Service.ID } func (ctx *serviceInspectContext) Name() string { return ctx.Service.Spec.Name } func (ctx *serviceInspectContext) Labels() map[string]string { return ctx.Service.Spec.Labels } func (ctx *serviceInspectContext) HasLogDriver() bool { return ctx.Service.Spec.TaskTemplate.LogDriver != nil } func (ctx *serviceInspectContext) HasLogDriverName() bool { return ctx.Service.Spec.TaskTemplate.LogDriver.Name != "" } func (ctx *serviceInspectContext) LogDriverName() string { return ctx.Service.Spec.TaskTemplate.LogDriver.Name } func (ctx *serviceInspectContext) LogOpts() map[string]string { return ctx.Service.Spec.TaskTemplate.LogDriver.Options } func (ctx *serviceInspectContext) Configs() []*swarm.ConfigReference { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Configs } func (ctx *serviceInspectContext) Secrets() []*swarm.SecretReference { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Secrets } func (ctx *serviceInspectContext) Healthcheck() *container.HealthConfig { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Healthcheck } func (ctx *serviceInspectContext) IsModeGlobal() bool { return ctx.Service.Spec.Mode.Global != nil } func (ctx *serviceInspectContext) IsModeReplicated() bool { return ctx.Service.Spec.Mode.Replicated != nil } func (ctx *serviceInspectContext) ModeReplicatedReplicas() *uint64 { return ctx.Service.Spec.Mode.Replicated.Replicas } func (ctx *serviceInspectContext) HasUpdateStatus() bool { return ctx.Service.UpdateStatus != nil && ctx.Service.UpdateStatus.State != "" } func (ctx *serviceInspectContext) UpdateStatusState() swarm.UpdateState { return ctx.Service.UpdateStatus.State } func (ctx *serviceInspectContext) HasUpdateStatusStarted() bool { return ctx.Service.UpdateStatus.StartedAt != nil } func (ctx *serviceInspectContext) UpdateStatusStarted() string { return units.HumanDuration(time.Since(*ctx.Service.UpdateStatus.StartedAt)) + " ago" } func (ctx *serviceInspectContext) UpdateIsCompleted() bool { return ctx.Service.UpdateStatus.State == swarm.UpdateStateCompleted && ctx.Service.UpdateStatus.CompletedAt != nil } func (ctx *serviceInspectContext) UpdateStatusCompleted() string { return units.HumanDuration(time.Since(*ctx.Service.UpdateStatus.CompletedAt)) + " ago" } func (ctx *serviceInspectContext) UpdateStatusMessage() string { return ctx.Service.UpdateStatus.Message } func (ctx *serviceInspectContext) TaskPlacementConstraints() []string { if ctx.Service.Spec.TaskTemplate.Placement != nil { return ctx.Service.Spec.TaskTemplate.Placement.Constraints } return nil } func (ctx *serviceInspectContext) TaskPlacementPreferences() []string { if ctx.Service.Spec.TaskTemplate.Placement == nil { return nil } var out []string for _, pref := range ctx.Service.Spec.TaskTemplate.Placement.Preferences { if pref.Spread != nil { out = append(out, "spread="+pref.Spread.SpreadDescriptor) } } return out } func (ctx *serviceInspectContext) MaxReplicas() uint64 { if ctx.Service.Spec.TaskTemplate.Placement != nil { return ctx.Service.Spec.TaskTemplate.Placement.MaxReplicas } return 0 } func (ctx *serviceInspectContext) HasUpdateConfig() bool { return ctx.Service.Spec.UpdateConfig != nil } func (ctx *serviceInspectContext) UpdateParallelism() uint64 { return ctx.Service.Spec.UpdateConfig.Parallelism } func (ctx *serviceInspectContext) HasUpdateDelay() bool { return ctx.Service.Spec.UpdateConfig.Delay.Nanoseconds() > 0 } func (ctx *serviceInspectContext) UpdateDelay() time.Duration { return ctx.Service.Spec.UpdateConfig.Delay } func (ctx *serviceInspectContext) UpdateOnFailure() string { return ctx.Service.Spec.UpdateConfig.FailureAction } func (ctx *serviceInspectContext) UpdateOrder() string { return ctx.Service.Spec.UpdateConfig.Order } func (ctx *serviceInspectContext) HasUpdateMonitor() bool { return ctx.Service.Spec.UpdateConfig.Monitor.Nanoseconds() > 0 } func (ctx *serviceInspectContext) UpdateMonitor() time.Duration { return ctx.Service.Spec.UpdateConfig.Monitor } func (ctx *serviceInspectContext) UpdateMaxFailureRatio() float32 { return ctx.Service.Spec.UpdateConfig.MaxFailureRatio } func (ctx *serviceInspectContext) HasRollbackConfig() bool { return ctx.Service.Spec.RollbackConfig != nil } func (ctx *serviceInspectContext) RollbackParallelism() uint64 { return ctx.Service.Spec.RollbackConfig.Parallelism } func (ctx *serviceInspectContext) HasRollbackDelay() bool { return ctx.Service.Spec.RollbackConfig.Delay.Nanoseconds() > 0 } func (ctx *serviceInspectContext) RollbackDelay() time.Duration { return ctx.Service.Spec.RollbackConfig.Delay } func (ctx *serviceInspectContext) RollbackOnFailure() string { return ctx.Service.Spec.RollbackConfig.FailureAction } func (ctx *serviceInspectContext) HasRollbackMonitor() bool { return ctx.Service.Spec.RollbackConfig.Monitor.Nanoseconds() > 0 } func (ctx *serviceInspectContext) RollbackMonitor() time.Duration { return ctx.Service.Spec.RollbackConfig.Monitor } func (ctx *serviceInspectContext) RollbackMaxFailureRatio() float32 { return ctx.Service.Spec.RollbackConfig.MaxFailureRatio } func (ctx *serviceInspectContext) RollbackOrder() string { return ctx.Service.Spec.RollbackConfig.Order } func (ctx *serviceInspectContext) ContainerImage() string { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Image } func (ctx *serviceInspectContext) ContainerArgs() []string { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Args } func (ctx *serviceInspectContext) ContainerEnv() []string { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Env } func (ctx *serviceInspectContext) ContainerWorkDir() string { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Dir } func (ctx *serviceInspectContext) ContainerUser() string { return ctx.Service.Spec.TaskTemplate.ContainerSpec.User } func (ctx *serviceInspectContext) HasContainerInit() bool { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Init != nil } func (ctx *serviceInspectContext) ContainerInit() bool { return *ctx.Service.Spec.TaskTemplate.ContainerSpec.Init } func (ctx *serviceInspectContext) ContainerMounts() []mounttypes.Mount { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Mounts } func (ctx *serviceInspectContext) ContainerSysCtls() map[string]string { return ctx.Service.Spec.TaskTemplate.ContainerSpec.Sysctls } func (ctx *serviceInspectContext) HasContainerSysCtls() bool { return len(ctx.Service.Spec.TaskTemplate.ContainerSpec.Sysctls) > 0 } func (ctx *serviceInspectContext) ContainerUlimits() map[string]string { ulimits := map[string]string{} for _, u := range ctx.Service.Spec.TaskTemplate.ContainerSpec.Ulimits { ulimits[u.Name] = fmt.Sprintf("%d:%d", u.Soft, u.Hard) } return ulimits } func (ctx *serviceInspectContext) HasContainerUlimits() bool { return len(ctx.Service.Spec.TaskTemplate.ContainerSpec.Ulimits) > 0 } func (ctx *serviceInspectContext) HasResources() bool { return ctx.Service.Spec.TaskTemplate.Resources != nil } func (ctx *serviceInspectContext) HasResourceReservations() bool { if ctx.Service.Spec.TaskTemplate.Resources == nil || ctx.Service.Spec.TaskTemplate.Resources.Reservations == nil { return false } return ctx.Service.Spec.TaskTemplate.Resources.Reservations.NanoCPUs > 0 || ctx.Service.Spec.TaskTemplate.Resources.Reservations.MemoryBytes > 0 } func (ctx *serviceInspectContext) ResourceReservationNanoCPUs() float64 { if ctx.Service.Spec.TaskTemplate.Resources.Reservations.NanoCPUs == 0 { return float64(0) } return float64(ctx.Service.Spec.TaskTemplate.Resources.Reservations.NanoCPUs) / 1e9 } func (ctx *serviceInspectContext) ResourceReservationMemory() string { if ctx.Service.Spec.TaskTemplate.Resources.Reservations.MemoryBytes == 0 { return "" } return units.BytesSize(float64(ctx.Service.Spec.TaskTemplate.Resources.Reservations.MemoryBytes)) } func (ctx *serviceInspectContext) HasResourceLimits() bool { if ctx.Service.Spec.TaskTemplate.Resources == nil || ctx.Service.Spec.TaskTemplate.Resources.Limits == nil { return false } return ctx.Service.Spec.TaskTemplate.Resources.Limits.NanoCPUs > 0 || ctx.Service.Spec.TaskTemplate.Resources.Limits.MemoryBytes > 0 || ctx.Service.Spec.TaskTemplate.Resources.Limits.Pids > 0 } func (ctx *serviceInspectContext) ResourceLimitsNanoCPUs() float64 { return float64(ctx.Service.Spec.TaskTemplate.Resources.Limits.NanoCPUs) / 1e9 } func (ctx *serviceInspectContext) ResourceLimitMemory() string { if ctx.Service.Spec.TaskTemplate.Resources.Limits.MemoryBytes == 0 { return "" } return units.BytesSize(float64(ctx.Service.Spec.TaskTemplate.Resources.Limits.MemoryBytes)) } func (ctx *serviceInspectContext) ResourceLimitPids() int64 { if ctx.Service.Spec.TaskTemplate.Resources == nil || ctx.Service.Spec.TaskTemplate.Resources.Limits == nil { return 0 } return ctx.Service.Spec.TaskTemplate.Resources.Limits.Pids } func (ctx *serviceInspectContext) Networks() []string { var out []string for _, n := range ctx.Service.Spec.TaskTemplate.Networks { if name, ok := ctx.networkNames[n.Target]; ok { out = append(out, name) } else { out = append(out, n.Target) } } return out } func (ctx *serviceInspectContext) EndpointMode() string { if ctx.Service.Spec.EndpointSpec == nil { return "" } return string(ctx.Service.Spec.EndpointSpec.Mode) } func (ctx *serviceInspectContext) Ports() []swarm.PortConfig { return ctx.Service.Endpoint.Ports } func (ctx *serviceInspectContext) HasCapabilities() bool { return len(ctx.Service.Spec.TaskTemplate.ContainerSpec.CapabilityAdd) > 0 || len(ctx.Service.Spec.TaskTemplate.ContainerSpec.CapabilityDrop) > 0 } func (ctx *serviceInspectContext) HasCapabilityAdd() bool { return len(ctx.Service.Spec.TaskTemplate.ContainerSpec.CapabilityAdd) > 0 } func (ctx *serviceInspectContext) HasCapabilityDrop() bool { return len(ctx.Service.Spec.TaskTemplate.ContainerSpec.CapabilityDrop) > 0 } func (ctx *serviceInspectContext) CapabilityAdd() string { return strings.Join(ctx.Service.Spec.TaskTemplate.ContainerSpec.CapabilityAdd, ", ") } func (ctx *serviceInspectContext) CapabilityDrop() string { return strings.Join(ctx.Service.Spec.TaskTemplate.ContainerSpec.CapabilityDrop, ", ") } const ( defaultServiceTableFormat = "table {{.ID}}\t{{.Name}}\t{{.Mode}}\t{{.Replicas}}\t{{.Image}}\t{{.Ports}}" serviceIDHeader = "ID" modeHeader = "MODE" replicasHeader = "REPLICAS" ) // NewListFormat returns a Format for rendering using a service Context func NewListFormat(source string, quiet bool) formatter.Format { switch source { case formatter.TableFormatKey: if quiet { return formatter.DefaultQuietFormat } return defaultServiceTableFormat case formatter.RawFormatKey: if quiet { return `id: {{.ID}}` } return `id: {{.ID}}\nname: {{.Name}}\nmode: {{.Mode}}\nreplicas: {{.Replicas}}\nimage: {{.Image}}\nports: {{.Ports}}\n` } return formatter.Format(source) } // ListFormatWrite writes the context func ListFormatWrite(ctx formatter.Context, services []swarm.Service) error { render := func(format func(subContext formatter.SubContext) error) error { sort.Slice(services, func(i, j int) bool { return sortorder.NaturalLess(services[i].Spec.Name, services[j].Spec.Name) }) for _, service := range services { serviceCtx := &serviceContext{service: service} if err := format(serviceCtx); err != nil { return err } } return nil } serviceCtx := serviceContext{} serviceCtx.Header = formatter.SubHeaderContext{ "ID": serviceIDHeader, "Name": formatter.NameHeader, "Mode": modeHeader, "Replicas": replicasHeader, "Image": formatter.ImageHeader, "Ports": formatter.PortsHeader, } return ctx.Write(&serviceCtx, render) } type serviceContext struct { formatter.HeaderContext service swarm.Service } func (c *serviceContext) MarshalJSON() ([]byte, error) { return formatter.MarshalJSON(c) } func (c *serviceContext) ID() string { return stringid.TruncateID(c.service.ID) } func (c *serviceContext) Name() string { return c.service.Spec.Name } func (c *serviceContext) Mode() string { switch { case c.service.Spec.Mode.Global != nil: return "global" case c.service.Spec.Mode.Replicated != nil: return "replicated" case c.service.Spec.Mode.ReplicatedJob != nil: return "replicated job" case c.service.Spec.Mode.GlobalJob != nil: return "global job" default: return "" } } func (c *serviceContext) Replicas() string { s := &c.service var running, desired, completed uint64 if s.ServiceStatus != nil { running = c.service.ServiceStatus.RunningTasks desired = c.service.ServiceStatus.DesiredTasks completed = c.service.ServiceStatus.CompletedTasks } // for jobs, we will not include the max per node, even if it is set. jobs // include instead the progress of the job as a whole, in addition to the // current running state. the system respects max per node, but if we // included it in the list output, the lines for jobs would be entirely too // long and make the UI look bad. if s.Spec.Mode.ReplicatedJob != nil { return fmt.Sprintf( "%d/%d (%d/%d completed)", running, desired, completed, *s.Spec.Mode.ReplicatedJob.TotalCompletions, ) } if s.Spec.Mode.GlobalJob != nil { // for global jobs, we need to do a little math. desired tasks are only // the tasks that have not yet actually reached the Completed state. // Completed tasks have reached the completed state. the TOTAL number // of tasks to run is the sum of the tasks desired to still complete, // and the tasks actually completed. return fmt.Sprintf( "%d/%d (%d/%d completed)", running, desired, completed, desired+completed, ) } if r := c.maxReplicas(); r > 0 { return fmt.Sprintf("%d/%d (max %d per node)", running, desired, r) } return fmt.Sprintf("%d/%d", running, desired) } func (c *serviceContext) maxReplicas() uint64 { if c.Mode() != "replicated" || c.service.Spec.TaskTemplate.Placement == nil { return 0 } return c.service.Spec.TaskTemplate.Placement.MaxReplicas } func (c *serviceContext) Image() string { var image string if c.service.Spec.TaskTemplate.ContainerSpec != nil { image = c.service.Spec.TaskTemplate.ContainerSpec.Image } if ref, err := reference.ParseNormalizedNamed(image); err == nil { // update image string for display, (strips any digest) if nt, ok := ref.(reference.NamedTagged); ok { if namedTagged, err := reference.WithTag(reference.TrimNamed(nt), nt.Tag()); err == nil { image = reference.FamiliarString(namedTagged) } } } return image } type portRange struct { pStart uint32 pEnd uint32 tStart uint32 tEnd uint32 protocol swarm.PortConfigProtocol } func (pr portRange) String() string { var ( pub string tgt string ) if pr.pEnd > pr.pStart { pub = fmt.Sprintf("%d-%d", pr.pStart, pr.pEnd) } else { pub = strconv.FormatUint(uint64(pr.pStart), 10) } if pr.tEnd > pr.tStart { tgt = fmt.Sprintf("%d-%d", pr.tStart, pr.tEnd) } else { tgt = strconv.FormatUint(uint64(pr.tStart), 10) } return fmt.Sprintf("*:%s->%s/%s", pub, tgt, pr.protocol) } // Ports formats published ports on the ingress network for output. // // Where possible, ranges are grouped to produce a compact output: // - multiple ports mapped to a single port (80->80, 81->80); is formatted as *:80-81->80 // - multiple consecutive ports on both sides; (80->80, 81->81) are formatted as: *:80-81->80-81 // // The above should not be grouped together, i.e.: // - 80->80, 81->81, 82->80 should be presented as : *:80-81->80-81, *:82->80 // // TODO improve: // - combine non-consecutive ports mapped to a single port (80->80, 81->80, 84->80, 86->80, 87->80); to be printed as *:80-81,84,86-87->80 // - combine tcp and udp mappings if their port-mapping is exactly the same (*:80-81->80-81/tcp+udp instead of *:80-81->80-81/tcp, *:80-81->80-81/udp) func (c *serviceContext) Ports() string { if c.service.Endpoint.Ports == nil { return "" } pr := portRange{} ports := []string{} servicePorts := c.service.Endpoint.Ports sort.Slice(servicePorts, func(i, j int) bool { if servicePorts[i].Protocol == servicePorts[j].Protocol { return servicePorts[i].PublishedPort < servicePorts[j].PublishedPort } return servicePorts[i].Protocol < servicePorts[j].Protocol }) for _, p := range c.service.Endpoint.Ports { if p.PublishMode == swarm.PortConfigPublishModeIngress { prIsRange := pr.tEnd != pr.tStart tOverlaps := p.TargetPort <= pr.tEnd // Start a new port-range if: // - the protocol is different from the current port-range // - published or target port are not consecutive to the current port-range // - the current port-range is a _range_, and the target port overlaps with the current range's target-ports if p.Protocol != pr.protocol || p.PublishedPort-pr.pEnd > 1 || p.TargetPort-pr.tEnd > 1 || prIsRange && tOverlaps { // start a new port-range, and print the previous port-range (if any) if pr.pStart > 0 { ports = append(ports, pr.String()) } pr = portRange{ pStart: p.PublishedPort, pEnd: p.PublishedPort, tStart: p.TargetPort, tEnd: p.TargetPort, protocol: p.Protocol, } continue } pr.pEnd = p.PublishedPort pr.tEnd = p.TargetPort } } if pr.pStart > 0 { ports = append(ports, pr.String()) } return strings.Join(ports, ", ") }