func (cmd *add) Register(ctx context.Context, f *flag.FlagSet) { cmd.HostSystemFlag, ctx = flags.NewHostSystemFlag(ctx) cmd.HostSystemFlag.Register(ctx, f) f.StringVar(&cmd.spec.VswitchName, "vswitch", "", "vSwitch Name") f.IntVar(&cmd.spec.VlanId, "vlan", 0, "VLAN ID") }
func (cmd *change) Register(f *flag.FlagSet) { f.Int64Var(&cmd.MemoryMB, "m", 0, "Size in MB of memory") f.IntVar(&cmd.NumCPUs, "c", 0, "Number of CPUs") f.StringVar(&cmd.GuestId, "g", "", "Guest OS") f.StringVar(&cmd.Name, "name", "", "Display name") f.Var(&cmd.extraConfig, "e", "ExtraConfig. <key>=<value>") }
func (cmd *enter) Register(ctx context.Context, f *flag.FlagSet) { cmd.HostSystemFlag, ctx = flags.NewHostSystemFlag(ctx) cmd.HostSystemFlag.Register(ctx, f) f.IntVar(&cmd.timeout, "timeout", 0, "Timeout") f.BoolVar(&cmd.evacuate, "evacuate", false, "Evacuate powered off VMs") }
func flagPointer(incoming reflect.Value, data *flag.FlagSet) error { if incoming.Type().Kind() == reflect.Ptr { return flagPointer(incoming.Elem(), data) } for i := 0; i < incoming.NumField(); i++ { field := incoming.Field(i) fieldType := incoming.Type().Field(i) if it := fieldType.Tag.Get("flag"); it != "" { /* Register the flag */ switch field.Type().Kind() { case reflect.Int: data.IntVar( (*int)(unsafe.Pointer(field.Addr().Pointer())), it, int(field.Int()), fieldType.Tag.Get("description"), ) continue case reflect.String: data.StringVar( (*string)(unsafe.Pointer(field.Addr().Pointer())), it, field.String(), fieldType.Tag.Get("description"), ) continue default: return fmt.Errorf("Unknown type: %s", field.Type().Kind()) } } } return nil }
func (cmd *create) Register(ctx context.Context, f *flag.FlagSet) { cmd.ClientFlag, ctx = flags.NewClientFlag(ctx) cmd.ClientFlag.Register(ctx, f) cmd.DatacenterFlag, ctx = flags.NewDatacenterFlag(ctx) cmd.DatacenterFlag.Register(ctx, f) cmd.DatastoreFlag, ctx = flags.NewDatastoreFlag(ctx) cmd.DatastoreFlag.Register(ctx, f) cmd.ResourcePoolFlag, ctx = flags.NewResourcePoolFlag(ctx) cmd.ResourcePoolFlag.Register(ctx, f) cmd.HostSystemFlag, ctx = flags.NewHostSystemFlag(ctx) cmd.HostSystemFlag.Register(ctx, f) cmd.NetworkFlag, ctx = flags.NewNetworkFlag(ctx) cmd.NetworkFlag.Register(ctx, f) f.IntVar(&cmd.memory, "m", 1024, "Size in MB of memory") f.IntVar(&cmd.cpus, "c", 1, "Number of CPUs") f.StringVar(&cmd.guestID, "g", "otherGuest", "Guest OS") f.BoolVar(&cmd.link, "link", true, "Link specified disk") f.BoolVar(&cmd.on, "on", true, "Power on VM. Default is true if -disk argument is given.") f.BoolVar(&cmd.force, "force", false, "Create VM if vmx already exists") f.StringVar(&cmd.controller, "disk.controller", "scsi", "Disk controller type") f.StringVar(&cmd.iso, "iso", "", "ISO path") cmd.isoDatastoreFlag, ctx = flags.NewCustomDatastoreFlag(ctx) f.StringVar(&cmd.isoDatastoreFlag.Name, "iso-datastore", "", "Datastore for ISO file") f.StringVar(&cmd.disk, "disk", "", "Disk path") cmd.diskDatastoreFlag, ctx = flags.NewCustomDatastoreFlag(ctx) f.StringVar(&cmd.diskDatastoreFlag.Name, "disk-datastore", "", "Datastore for disk file") }
// RegisterFlags creates flag on the provided flagset. It can be used to // declare flags on the main flagset instance using flag.CommandLine as a // parameter. func (s *Settings) RegisterFlags(fs *flag.FlagSet) { prefix := s.FlagPrefix fs.StringVar(&s.Host, prefix+"host", s.Host, "Host on which to listen on.") fs.IntVar(&s.Port, prefix+"port", s.Port, "Port stdweb will listen on to program output.") fs.StringVar(&s.KeyFile, prefix+"keyfile", s.KeyFile, "File to store the auth cookie between sessions.") fs.StringVar(&s.StaticDir, prefix+"static_dir", s.StaticDir, "Load static content from this directory instead of using built-in data.") }
// ApplyWithError populates the flag given the flag set and environment func (f IntFlag) ApplyWithError(set *flag.FlagSet) error { if f.EnvVar != "" { for _, envVar := range strings.Split(f.EnvVar, ",") { envVar = strings.TrimSpace(envVar) if envVal, ok := syscall.Getenv(envVar); ok { envValInt, err := strconv.ParseInt(envVal, 0, 64) if err != nil { return fmt.Errorf("could not parse %s as int value for flag %s: %s", envVal, f.Name, err) } f.Value = int(envValInt) break } } } eachName(f.Name, func(name string) { if f.Destination != nil { set.IntVar(f.Destination, name, f.Value, f.Usage) return } set.Int(name, f.Value, f.Usage) }) return nil }
func Run(flag *flag.FlagSet) Command { query := crank.StartQuery{} flag.IntVar(&query.StopTimeout, "stop", -1, "Stop timeout in seconds") flag.IntVar(&query.StartTimeout, "start", -1, "Start timeout in seconds") flag.IntVar(&query.Pid, "pid", 0, "Only if the current pid matches") flag.BoolVar(&query.Wait, "wait", false, "Wait for a result") flag.StringVar(&query.Cwd, "cwd", "", "Working directory") flag.Usage = func() { fmt.Fprintf(os.Stderr, "Usage of %s run [opts] -- [command ...args]:\n", os.Args[0]) flag.PrintDefaults() } return func(client *rpc.Client) (err error) { var reply crank.StartReply // Command and args are passed after if flag.NArg() > 0 { query.Command = flag.Args() } if err = client.Call("crank.Run", &query, &reply); err != nil { fmt.Println("Failed to start:", err) return } if reply.Code > 0 { fmt.Println("Exited with code:", reply.Code) return } fmt.Println("Started successfully") return } }
func FlagsForClient(ccfg *ClientConfig, flagset *flag.FlagSet) { flagset.DurationVar(&ccfg.IdleTimeout, "timeout", DefaultIdleTimeout, "amount of idle time before timeout") flagset.IntVar(&ccfg.IdleConnectionsToInstance, "maxidle", DefaultIdleConnectionsToInstance, "maximum number of idle connections to a particular instance") flagset.IntVar(&ccfg.MaxConnectionsToInstance, "maxconns", DefaultMaxConnectionsToInstance, "maximum number of concurrent connections to a particular instance") flagset.StringVar(&ccfg.Region, "region", GetDefaultEnvVar("SKYNET_REGION", DefaultRegion), "region client is located in") flagset.StringVar(&ccfg.Host, "host", GetDefaultEnvVar("SKYNET_HOST", DefaultRegion), "host client is located in") }
func (cmd *logs) Register(ctx context.Context, f *flag.FlagSet) { cmd.HostSystemFlag, ctx = flags.NewHostSystemFlag(ctx) cmd.HostSystemFlag.Register(ctx, f) f.IntVar(&cmd.Max, "n", 25, "Output the last N logs") f.StringVar(&cmd.Key, "log", "", "Log file key") }
// Setup the parameters with the command line flags in args. func (pool *Pool) Setup(fs *flag.FlagSet, args []string) error { fs.IntVar(&pool.Capacity, "capacity", pool.Capacity, "max parallel sandboxes") fs.StringVar(&pool.UmlPath, "uml", pool.UmlPath, "path to the UML executable") fs.StringVar(&pool.EnvDir, "envdir", pool.EnvDir, "environments directory") fs.StringVar(&pool.TasksDir, "tasksdir", pool.TasksDir, "tasks directory") return fs.Parse(args) }
func Flags(flagSet *flag.FlagSet, prefix string, includeParallelFlags bool) { prefix = processPrefix(prefix) flagSet.Int64Var(&(GinkgoConfig.RandomSeed), prefix+"seed", time.Now().Unix(), "The seed used to randomize the spec suite.") flagSet.BoolVar(&(GinkgoConfig.RandomizeAllSpecs), prefix+"randomizeAllSpecs", false, "If set, ginkgo will randomize all specs together. By default, ginkgo only randomizes the top level Describe/Context groups.") flagSet.BoolVar(&(GinkgoConfig.SkipMeasurements), prefix+"skipMeasurements", false, "If set, ginkgo will skip any measurement specs.") flagSet.BoolVar(&(GinkgoConfig.FailOnPending), prefix+"failOnPending", false, "If set, ginkgo will mark the test suite as failed if any specs are pending.") flagSet.BoolVar(&(GinkgoConfig.FailFast), prefix+"failFast", false, "If set, ginkgo will stop running a test suite after a failure occurs.") flagSet.BoolVar(&(GinkgoConfig.DryRun), prefix+"dryRun", false, "If set, ginkgo will walk the test hierarchy without actually running anything. Best paired with -v.") flagSet.StringVar(&(GinkgoConfig.FocusString), prefix+"focus", "", "If set, ginkgo will only run specs that match this regular expression.") flagSet.StringVar(&(GinkgoConfig.SkipString), prefix+"skip", "", "If set, ginkgo will only run specs that do not match this regular expression.") flagSet.BoolVar(&(GinkgoConfig.EmitSpecProgress), prefix+"progress", false, "If set, ginkgo will emit progress information as each spec runs to the GinkgoWriter.") if includeParallelFlags { flagSet.IntVar(&(GinkgoConfig.ParallelNode), prefix+"parallel.node", 1, "This worker node's (one-indexed) node number. For running specs in parallel.") flagSet.IntVar(&(GinkgoConfig.ParallelTotal), prefix+"parallel.total", 1, "The total number of worker nodes. For running specs in parallel.") flagSet.StringVar(&(GinkgoConfig.SyncHost), prefix+"parallel.synchost", "", "The address for the server that will synchronize the running nodes.") flagSet.StringVar(&(GinkgoConfig.StreamHost), prefix+"parallel.streamhost", "", "The address for the server that the running nodes should stream data to.") } flagSet.BoolVar(&(DefaultReporterConfig.NoColor), prefix+"noColor", false, "If set, suppress color output in default reporter.") flagSet.Float64Var(&(DefaultReporterConfig.SlowSpecThreshold), prefix+"slowSpecThreshold", 5.0, "(in seconds) Specs that take longer to run than this threshold are flagged as slow by the default reporter (default: 5 seconds).") flagSet.BoolVar(&(DefaultReporterConfig.NoisyPendings), prefix+"noisyPendings", true, "If set, default reporter will shout about pending tests.") flagSet.BoolVar(&(DefaultReporterConfig.Verbose), prefix+"v", false, "If set, default reporter print out all specs as they begin.") flagSet.BoolVar(&(DefaultReporterConfig.Succinct), prefix+"succinct", false, "If set, default reporter prints out a very succinct report") flagSet.BoolVar(&(DefaultReporterConfig.FullTrace), prefix+"trace", false, "If set, default reporter prints out the full stack trace when a failure occurs") }
func (cmd *instanceDelete) RegisterFlags(f *flag.FlagSet) { f.StringVar(&cmd.list.hostname, "hostname", "", "Filters instances by hostname.") f.StringVar(&cmd.list.env, "env", "", "Filters instances by environment.") f.IntVar(&cmd.list.id, "id", 0, "Filters instances by id.") f.BoolVar(&cmd.dry, "dry-run", false, "Dry run.") cmd.list.entries = true }
// FlagByType sets the appropriate flag for its type. func FlagByType(fs *flag.FlagSet, structName string, fval reflect.Value, ftype reflect.StructField) { // Get a pointer; FlagSet needs a pointer to set the struct's field if fval.Kind() == reflect.Ptr { // Short-circuit log.Printf("Skipping field %s: %s", ftype.Name, ftype.Type.String()) return } //log.Printf("Getting pointer to %s", ftype.Name) fval = fval.Addr() flagName := NameToFlag(ftype.Name) flagHelp := fmt.Sprintf("%s:%s", structName, ftype.Name) log.Printf("Converting %s => %s", ftype.Name, flagName) //log.Printf("Switching on type %s...", ftype.Type.String()) switch fval := fval.Interface().(type) { case *int: fs.IntVar(fval, flagName, 0, flagHelp) case *float64: fs.Float64Var(fval, flagName, 0.0, flagHelp) case *string: fs.StringVar(fval, flagName, "", flagHelp) case *bool: fs.BoolVar(fval, flagName, false, flagHelp) case *time.Time: t := (*time.Time)(fval) // Get a *time.Time pointer to fval *t = time.Now() // Set a default of time.Now() fs.Var((*TimeFlag)(fval), flagName, flagHelp) default: log.Printf("unexpected type %s\n", ftype.Type.String()) } }
func (cmd *tail) Register(ctx context.Context, f *flag.FlagSet) { cmd.DatastoreFlag, ctx = flags.NewDatastoreFlag(ctx) cmd.DatastoreFlag.Register(ctx, f) f.Int64Var(&cmd.count, "c", -1, "Output the last NUM bytes") f.IntVar(&cmd.lines, "n", 10, "Output the last NUM lines") f.BoolVar(&cmd.follow, "f", false, "Output appended data as the file grows") }
func (cmd *add) Register(ctx context.Context, f *flag.FlagSet) { cmd.HostSystemFlag, ctx = flags.NewHostSystemFlag(ctx) cmd.HostSystemFlag.Register(ctx, f) f.IntVar(&cmd.spec.NumPorts, "ports", 128, "Number of ports") f.IntVar(&cmd.spec.Mtu, "mtu", 0, "MTU") f.StringVar(&cmd.nic, "nic", "", "Bridge nic device") }
func addBaseFlags(flags *flag.FlagSet) { flags.StringVar(&BaseOptions.Connection, "connection", "", "connection parameters") flags.StringVar(&BaseOptions.CacheDir, "cachedir", defaultCacheDir, "cache directory") flags.StringVar(&BaseOptions.MappingFile, "mapping", "", "mapping file") flags.IntVar(&BaseOptions.Srid, "srid", defaultSrid, "srs id") flags.StringVar(&BaseOptions.LimitTo, "limitto", "", "limit to geometries") flags.StringVar(&BaseOptions.ConfigFile, "config", "", "config (json)") }
func get_my_config_int(c *config.Config, f *flag.FlagSet, val *Config_value_int) { //overwrite variable if defined in config file if c != nil { getDefinedValueInt(c, val.Section, val.Key, val.Target) } //overwrite variable if defined on command line (default values are overwritten by config file) f.IntVar(val.Target, val.Key, *val.Target, val.Descr_short) }
func (cmd *instanceList) RegisterFlags(f *flag.FlagSet) { f.StringVar(&cmd.template, "t", "", "Applies given text/template to slice of datacenters.") f.StringVar(&cmd.hostname, "hostname", "", "Filters instances by hostname.") f.StringVar(&cmd.env, "env", "", "Filters instances by environment.") f.IntVar(&cmd.id, "id", 0, "Filters instances by id.") f.BoolVar(&cmd.entries, "entries", false, "Lists entries only.") f.IntVar(&cmd.vlan, "vlan", 0, "List instances for the given vlan.") }
// Flags adds makex command-line flags to an existing flag.FlagSet (or the // global FlagSet if fs is nil). func Flags(fs *flag.FlagSet, conf *Config, prefix string) { if fs == nil { fs = flag.CommandLine } fs.BoolVar(&conf.DryRun, prefix+"n", false, "dry run (don't actually run any commands)") fs.IntVar(&conf.ParallelJobs, prefix+"j", runtime.GOMAXPROCS(0), "number of jobs to run in parallel") fs.BoolVar(&conf.Verbose, prefix+"v", false, "verbose") }
func (m *Meta) addModuleDepthFlag(flags *flag.FlagSet, moduleDepth *int) { flags.IntVar(moduleDepth, "module-depth", ModuleDepthDefault, "module-depth") if envVar := os.Getenv(ModuleDepthEnvVar); envVar != "" { if md, err := strconv.Atoi(envVar); err == nil { *moduleDepth = md } } }
func (cmd *configure) Register(f *flag.FlagSet) { f.Var(flags.NewOptionalBool(&cmd.Enabled), "enabled", "") f.IntVar(&cmd.StartDelay, "start-delay", 0, "") f.StringVar(&cmd.StopAction, "stop-action", "", "") f.IntVar(&cmd.StopDelay, "stop-delay", 0, "") f.Var(flags.NewOptionalBool(&cmd.WaitForHeartbeat), "wait-for-heartbeat", "") }
func (cmd *GroupSeal) RegisterFlags(f *flag.FlagSet) { cmd.ips.RegisterFlags(f) cmd.groupVMCache.RegisterFlags(f) f.StringVar(&cmd.kloudpem, "kloud-pem", os.Getenv("KLOUD_PEM"), "Path to the kloud_rsa.pem private key.") f.StringVar(&cmd.script, "script", "", "Script to execute on user vms.") f.IntVar(&cmd.jobs, "j", 8, "Number of parallel job executions.") }
func (cmd *find) Register(f *flag.FlagSet) { f.BoolVar(&cmd.check, "c", true, "Check if esx firewall is enabled") f.BoolVar(&cmd.enabled, "enabled", true, "Find enabled rule sets if true, disabled if false") f.StringVar((*string)(&cmd.Direction), "direction", string(types.HostFirewallRuleDirectionOutbound), "Direction") f.StringVar((*string)(&cmd.PortType), "type", string(types.HostFirewallRulePortTypeDst), "Port type") f.StringVar((*string)(&cmd.Protocol), "proto", string(types.HostFirewallRuleProtocolTcp), "Protocol") f.IntVar(&cmd.Port, "port", 0, "Port") }
func (cmd *GroupStack) RegisterFlags(f *flag.FlagSet) { cmd.groupValues.RegisterFlags(f) f.StringVar(&cmd.machineSlug, "machine", "", "Machine slug.") f.StringVar(&cmd.groupSlug, "group", "koding", "Group slug.") f.BoolVar(&cmd.rm, "rm", false, "Remove machine from stack and template.") f.StringVar(&cmd.baseID, "base-id", "53fe557af052f8e9435a04fa", "Base Stack ID for new jComputeStack documents.") f.IntVar(&cmd.jobs, "j", 1, "Number of concurrent jobs.") }
// registerFlags defines all cfssl command flags and associates their values with variables. func registerFlags(c *cli.Config, f *flag.FlagSet) { f.BoolVar(&c.List, "list", false, "list possible scanners") f.StringVar(&c.Family, "family", "", "scanner family regular expression") f.StringVar(&c.Scanner, "scanner", "", "scanner regular expression") f.DurationVar(&c.Timeout, "timeout", 5*time.Minute, "duration (ns, us, ms, s, m, h) to scan each host before timing out") f.StringVar(&c.IP, "ip", "", "remote server ip") f.StringVar(&c.CABundleFile, "ca-bundle", "", "path to root certificate store") f.IntVar(&log.Level, "loglevel", log.LevelInfo, "Log level") }
// call DefineFlags before myflags.Parse() func (c *TfcatConfig) DefineFlags(fs *flag.FlagSet) { fs.IntVar(&c.RawCount, "raw", 0, "count of raw messages to pass to stdout (-p, -s, -f are ignored if -raw is given). -raw is useful for extracting a few messages from the front of a file.") fs.IntVar(&c.RawSkip, "rawskip", 0, "count of raw messages to skip before passing the rest to stdout (-p, -s, and -f are ignored if -rawskip is given). -rawskip is useful for extracting messages from the middle of a file. -raw count of messages (after the skip count) are written to stdout if both -raw and -rawskip are given.") fs.BoolVar(&c.PrettyPrint, "p", false, "pretty print output.") fs.BoolVar(&c.SkipPayload, "s", false, "short display. skip printing any data payload.") fs.BoolVar(&c.Follow, "f", false, "follow the file, only printing any new additions.") fs.BoolVar(&c.ReadStdin, "stdin", false, "read input from stdin rather than a file. tfcat cannot also -f follow stdin.") fs.BoolVar(&c.Rreadable, "r", false, "display in R consumable format") }
func (cmd *vnc) Register(f *flag.FlagSet) { cmd.SearchFlag = flags.NewSearchFlag(flags.SearchVirtualMachines) f.BoolVar(&cmd.Enable, "enable", false, "Enable VNC") f.BoolVar(&cmd.Disable, "disable", false, "Disable VNC") f.IntVar(&cmd.Port, "port", -1, "VNC port (-1 for auto-select)") f.Var(&cmd.PortRange, "port-range", "VNC port auto-select range") f.StringVar(&cmd.Password, "password", "", "VNC password") }
func (cmd *configure) Register(ctx context.Context, f *flag.FlagSet) { cmd.AutostartFlag, ctx = newAutostartFlag(ctx) cmd.AutostartFlag.Register(ctx, f) f.Var(flags.NewOptionalBool(&cmd.Enabled), "enabled", "") f.IntVar(&cmd.StartDelay, "start-delay", 0, "") f.StringVar(&cmd.StopAction, "stop-action", "", "") f.IntVar(&cmd.StopDelay, "stop-delay", 0, "") f.Var(flags.NewOptionalBool(&cmd.WaitForHeartbeat), "wait-for-heartbeat", "") }
// addFlags adds this configuration's set of flags to a FlagSet. func (c *pubsubConfig) addFlags(fs *flag.FlagSet) { fs.StringVar(&c.project, "pubsub-project", "", "The name of the Pub/Sub project.") fs.StringVar(&c.subscription, "pubsub-subscription", "", "The name of the Pub/Sub subscription.") fs.StringVar(&c.topic, "pubsub-topic", "", "The name of the Pub/Sub topic. Needed if subscription must be created.") fs.IntVar(&c.batchSize, "pubsub-batch-size", maxSubscriptionPullSize, "The Pub/Sub batch size.") fs.BoolVar(&c.create, "pubsub-create", false, "Create the subscription and/or topic if they don't exist.") }