Exemple #1
0
Fichier : list.go Projet : bac/juju
func (c *listCommand) formatControllerUsers(writer io.Writer, value interface{}) error {
	users, valueConverted := value.([]UserInfo)
	if !valueConverted {
		return errors.Errorf("expected value of type %T, got %T", users, value)
	}

	tw := output.TabWriter(writer)
	w := output.Wrapper{tw}
	w.Println("Controller: " + c.ControllerName())
	w.Println()
	w.Println("Name", "Display name", "Access", "Date created", "Last connection")
	for _, user := range users {
		conn := user.LastConnection
		if user.Disabled {
			conn += " (disabled)"
		}
		var highlight *ansiterm.Context
		userName := user.Username
		if c.isLoggedInUser(user.Username) {
			userName += "*"
			highlight = output.CurrentHighlight
		}
		w.PrintColor(highlight, userName)
		w.Println(user.DisplayName, user.Access, user.DateCreated, conn)
	}
	tw.Flush()
	return nil
}
Exemple #2
0
Fichier : list.go Projet : bac/juju
func (c *listCommand) formatModelUsers(writer io.Writer, value interface{}) error {
	users, ok := value.(map[string]common.ModelUserInfo)
	if !ok {
		return errors.Errorf("expected value of type %T, got %T", users, value)
	}
	modelUsers := set.NewStrings()
	for name := range users {
		modelUsers.Add(name)
	}
	tw := output.TabWriter(writer)
	w := output.Wrapper{tw}
	w.Println("Name", "Display name", "Access", "Last connection")
	for _, name := range modelUsers.SortedValues() {
		user := users[name]

		var highlight *ansiterm.Context
		userName := name
		if c.isLoggedInUser(name) {
			userName += "*"
			highlight = output.CurrentHighlight
		}
		w.PrintColor(highlight, userName)
		w.Println(user.DisplayName, user.Access, user.LastConnection)
	}
	tw.Flush()
	return nil
}
Exemple #3
0
Fichier : list.go Projet : bac/juju
// formatCloudsTabular writes a tabular summary of cloud information.
func formatCloudsTabular(writer io.Writer, value interface{}) error {
	clouds, ok := value.(*cloudList)
	if !ok {
		return errors.Errorf("expected value of type %T, got %T", clouds, value)
	}

	tw := output.TabWriter(writer)
	w := output.Wrapper{tw}
	w.Println("Cloud", "Regions", "Default", "Type", "Description")
	w.SetColumnAlignRight(1)

	cloudNamesSorted := func(someClouds map[string]*cloudDetails) []string {
		// For tabular we'll sort alphabetically, user clouds last.
		var names []string
		for name, _ := range someClouds {
			names = append(names, name)
		}
		sort.Strings(names)
		return names
	}

	printClouds := func(someClouds map[string]*cloudDetails, color *ansiterm.Context) {
		cloudNames := cloudNamesSorted(someClouds)

		for _, name := range cloudNames {
			info := someClouds[name]
			defaultRegion := ""
			if len(info.Regions) > 0 {
				defaultRegion = info.RegionsMap[info.Regions[0].Key.(string)].Name
			}
			description := info.CloudDescription
			if len(description) > 40 {
				description = description[:39]
			}
			w.PrintColor(color, name)
			w.Println(len(info.Regions), defaultRegion, info.CloudType, description)
		}
	}
	printClouds(clouds.public, nil)
	printClouds(clouds.builtin, nil)
	printClouds(clouds.personal, ansiterm.Foreground(ansiterm.BrightBlue))

	w.Println("\nTry 'list-regions <cloud>' to see available regions.")
	w.Println("'show-cloud <cloud>' or 'regions --format yaml <cloud>' can be used to see region endpoints.")
	w.Println("'add-cloud' can add private clouds or private infrastructure.")
	w.Println("Update the known public clouds with 'update-clouds'.")
	tw.Flush()
	return nil
}
// formatControllersTabular returns a tabular summary of controller/model items
// sorted by controller name alphabetically.
func formatControllersTabular(writer io.Writer, set ControllerSet, promptRefresh bool) error {
	tw := output.TabWriter(writer)
	w := output.Wrapper{tw}

	if promptRefresh && len(set.Controllers) > 0 {
		fmt.Fprintln(writer, "Use --refresh to see the latest information.")
		fmt.Fprintln(writer)
	}
	w.Println("CONTROLLER", "MODEL", "USER", "ACCESS", "CLOUD/REGION", "MODELS", "MACHINES", "HA", "VERSION")
	tw.SetColumnAlignRight(5)
	tw.SetColumnAlignRight(6)
	tw.SetColumnAlignRight(7)

	names := []string{}
	for name := range set.Controllers {
		names = append(names, name)
	}
	sort.Strings(names)

	for _, name := range names {
		c := set.Controllers[name]
		modelName := noValueDisplay
		if c.ModelName != "" {
			modelName = c.ModelName
		}
		userName := noValueDisplay
		access := noValueDisplay
		if c.User != "" {
			userName = c.User
			access = notKnownDisplay
			if c.Access != "" {
				access = c.Access
			}
		}
		if name == set.CurrentController {
			name += "*"
			w.PrintColor(output.CurrentHighlight, name)
		} else {
			w.Print(name)
		}
		cloudRegion := c.Cloud
		if c.CloudRegion != "" {
			cloudRegion += "/" + c.CloudRegion
		}
		agentVersion := c.AgentVersion
		staleVersion := false
		if agentVersion == "" {
			agentVersion = notKnownDisplay
		} else {
			agentVersionNum, err := version.Parse(agentVersion)
			staleVersion = err == nil && jujuversion.Current.Compare(agentVersionNum) > 0
		}
		machineCount := noValueDisplay
		if c.MachineCount != nil && *c.MachineCount > 0 {
			machineCount = fmt.Sprintf("%d", *c.MachineCount)
		}
		modelCount := noValueDisplay
		if c.ModelCount != nil && *c.ModelCount > 0 {
			modelCount = fmt.Sprintf("%d", *c.ModelCount)
		}
		w.Print(modelName, userName, access, cloudRegion, modelCount, machineCount)
		controllerMachineInfo, warn := controllerMachineStatus(c.ControllerMachines)
		if warn {
			w.PrintColor(output.WarningHighlight, controllerMachineInfo)
		} else {
			w.Print(controllerMachineInfo)
		}
		if staleVersion {
			w.PrintColor(output.WarningHighlight, agentVersion)
		} else {
			w.Print(agentVersion)
		}
		w.Println()
	}
	tw.Flush()
	return nil
}
Exemple #5
0
// formatTabular takes an interface{} to adhere to the cmd.Formatter interface
func (c *modelsCommand) formatTabular(writer io.Writer, value interface{}) error {
	modelSet, ok := value.(ModelSet)
	if !ok {
		return errors.Errorf("expected value of type %T, got %T", modelSet, value)
	}

	// We need the tag of the user for which we're listing models,
	// and for the logged-in user. We use these below when formatting
	// the model display names.
	loggedInUser := names.NewUserTag(c.loggedInUser)
	userForLastConn := loggedInUser
	var userForListing names.UserTag
	if c.user != "" {
		userForListing = names.NewUserTag(c.user)
		userForLastConn = userForListing
	}

	tw := output.TabWriter(writer)
	w := output.Wrapper{tw}
	w.Println("Controller: " + c.ControllerName())
	w.Println()
	w.Print("Model")
	if c.listUUID {
		w.Print("UUID")
	}
	// Only owners, or users with write access or above get to see machines and cores.
	haveMachineInfo := false
	for _, m := range modelSet.Models {
		if haveMachineInfo = len(m.Machines) > 0; haveMachineInfo {
			break
		}
	}
	if haveMachineInfo {
		w.Println("Owner", "Status", "Machines", "Cores", "Access", "Last connection")
		offset := 0
		if c.listUUID {
			offset++
		}
		tw.SetColumnAlignRight(3 + offset)
		tw.SetColumnAlignRight(4 + offset)
	} else {
		w.Println("Owner", "Status", "Access", "Last connection")
	}
	for _, model := range modelSet.Models {
		owner := names.NewUserTag(model.Owner)
		name := common.OwnerQualifiedModelName(model.Name, owner, userForListing)
		if jujuclient.JoinOwnerModelName(owner, model.Name) == modelSet.CurrentModelQualified {
			name += "*"
			w.PrintColor(output.CurrentHighlight, name)
		} else {
			w.Print(name)
		}
		if c.listUUID {
			w.Print(model.UUID)
		}
		lastConnection := model.Users[userForLastConn.Id()].LastConnection
		if lastConnection == "" {
			lastConnection = "never connected"
		}
		userForAccess := loggedInUser
		if c.user != "" {
			userForAccess = names.NewUserTag(c.user)
		}
		access := model.Users[userForAccess.Id()].Access
		w.Print(model.Owner, model.Status.Current)
		if haveMachineInfo {
			machineInfo := fmt.Sprintf("%d", len(model.Machines))
			cores := uint64(0)
			for _, m := range model.Machines {
				cores += m.Cores
			}
			coresInfo := "-"
			if cores > 0 {
				coresInfo = fmt.Sprintf("%d", cores)
			}
			w.Print(machineInfo, coresInfo)
		}
		w.Println(access, lastConnection)
	}
	tw.Flush()
	return nil
}
Exemple #6
0
// FormatTabular writes a tabular summary of machines, applications, and
// units. Any subordinate items are indented by two spaces beneath
// their superior.
func FormatTabular(writer io.Writer, forceColor bool, value interface{}) error {
	const maxVersionWidth = 15
	const ellipsis = "..."
	const truncatedWidth = maxVersionWidth - len(ellipsis)

	fs, valueConverted := value.(formattedStatus)
	if !valueConverted {
		return errors.Errorf("expected value of type %T, got %T", fs, value)
	}
	// To format things into columns.
	tw := output.TabWriter(writer)
	if forceColor {
		tw.SetColorCapable(forceColor)
	}
	w := output.Wrapper{tw}
	p := w.Println
	outputHeaders := func(values ...interface{}) {
		p()
		p(values...)
	}

	cloudRegion := fs.Model.Cloud
	if fs.Model.CloudRegion != "" {
		cloudRegion += "/" + fs.Model.CloudRegion
	}

	header := []interface{}{"MODEL", "CONTROLLER", "CLOUD/REGION", "VERSION"}
	values := []interface{}{fs.Model.Name, fs.Model.Controller, cloudRegion, fs.Model.Version}
	message := getModelMessage(fs.Model)
	if message != "" {
		header = append(header, "NOTES")
		values = append(values, message)
	}

	// The first set of headers don't use outputHeaders because it adds the blank line.
	p(header...)
	p(values...)

	units := make(map[string]unitStatus)
	metering := false
	relations := newRelationFormatter()
	outputHeaders("APP", "VERSION", "STATUS", "SCALE", "CHARM", "STORE", "REV", "OS", "NOTES")
	tw.SetColumnAlignRight(3)
	tw.SetColumnAlignRight(6)
	for _, appName := range utils.SortStringsNaturally(stringKeysFromMap(fs.Applications)) {
		app := fs.Applications[appName]
		version := app.Version
		// Don't let a long version push out the version column.
		if len(version) > maxVersionWidth {
			version = version[:truncatedWidth] + ellipsis
		}
		// Notes may well contain other things later.
		notes := ""
		if app.Exposed {
			notes = "exposed"
		}
		w.Print(appName, version)
		w.PrintStatus(app.StatusInfo.Current)
		scale, warn := fs.applicationScale(appName)
		if warn {
			w.PrintColor(output.WarningHighlight, scale)
		} else {
			w.Print(scale)
		}
		p(app.CharmName,
			app.CharmOrigin,
			app.CharmRev,
			app.OS,
			notes)

		for un, u := range app.Units {
			units[un] = u
			if u.MeterStatus != nil {
				metering = true
			}
		}
		// Ensure that we pick a consistent name for peer relations.
		sortedRelTypes := make([]string, 0, len(app.Relations))
		for relType := range app.Relations {
			sortedRelTypes = append(sortedRelTypes, relType)
		}
		sort.Strings(sortedRelTypes)

		subs := set.NewStrings(app.SubordinateTo...)
		for _, relType := range sortedRelTypes {
			for _, related := range app.Relations[relType] {
				relations.add(related, appName, relType, subs.Contains(related))
			}
		}

	}

	pUnit := func(name string, u unitStatus, level int) {
		message := u.WorkloadStatusInfo.Message
		agentDoing := agentDoing(u.JujuStatusInfo)
		if agentDoing != "" {
			message = fmt.Sprintf("(%s) %s", agentDoing, message)
		}
		w.Print(indent("", level*2, name))
		w.PrintStatus(u.WorkloadStatusInfo.Current)
		w.PrintStatus(u.JujuStatusInfo.Current)
		p(
			u.Machine,
			u.PublicAddress,
			strings.Join(u.OpenedPorts, ","),
			message,
		)
	}

	outputHeaders("UNIT", "WORKLOAD", "AGENT", "MACHINE", "PUBLIC-ADDRESS", "PORTS", "MESSAGE")
	for _, name := range utils.SortStringsNaturally(stringKeysFromMap(units)) {
		u := units[name]
		pUnit(name, u, 0)
		const indentationLevel = 1
		recurseUnits(u, indentationLevel, pUnit)
	}

	if metering {
		outputHeaders("METER", "STATUS", "MESSAGE")
		for _, name := range utils.SortStringsNaturally(stringKeysFromMap(units)) {
			u := units[name]
			if u.MeterStatus != nil {
				p(name, u.MeterStatus.Color, u.MeterStatus.Message)
			}
		}
	}

	p()
	printMachines(tw, fs.Machines)

	if relations.len() > 0 {
		outputHeaders("RELATION", "PROVIDES", "CONSUMES", "TYPE")
		for _, k := range relations.sorted() {
			r := relations.get(k)
			if r != nil {
				p(r.relation, r.application1, r.application2, r.relationType())
			}
		}
	}

	tw.Flush()
	return nil
}