package base import ( "bufio" "bytes" "flag" "fmt" "io" "strings" "github.com/hashicorp/consul/api" "github.com/mitchellh/cli" text "github.com/tonnerre/golang-text" ) // maxLineLength is the maximum width of any line. const maxLineLength int = 72 // FlagSetFlags is an enum to define what flags are present in the // default FlagSet returned. type FlagSetFlags uint const ( FlagSetNone FlagSetFlags = 1 << iota FlagSetClientHTTP FlagSetFlags = 1 << iota FlagSetServerHTTP FlagSetFlags = 1 << iota FlagSetHTTP = FlagSetClientHTTP | FlagSetServerHTTP ) type Command struct { UI cli.Ui Flags FlagSetFlags flagSet *flag.FlagSet hidden *flag.FlagSet // These are the options which correspond to the HTTP API options httpAddr StringValue token StringValue caFile StringValue caPath StringValue certFile StringValue keyFile StringValue tlsServerName StringValue datacenter StringValue stale BoolValue } // HTTPClient returns a client with the parsed flags. It panics if the command // does not accept HTTP flags or if the flags have not been parsed. func (c *Command) HTTPClient() (*api.Client, error) { if !c.hasClientHTTP() && !c.hasServerHTTP() { panic("no http flags defined") } if !c.flagSet.Parsed() { panic("flags have not been parsed") } config := api.DefaultConfig() c.httpAddr.Merge(&config.Address) c.token.Merge(&config.Token) c.caFile.Merge(&config.TLSConfig.CAFile) c.caPath.Merge(&config.TLSConfig.CAPath) c.certFile.Merge(&config.TLSConfig.CertFile) c.keyFile.Merge(&config.TLSConfig.KeyFile) c.tlsServerName.Merge(&config.TLSConfig.Address) c.datacenter.Merge(&config.Datacenter) return api.NewClient(config) } func (c *Command) HTTPAddr() string { return c.httpAddr.String() } func (c *Command) HTTPToken() string { return c.token.String() } func (c *Command) HTTPDatacenter() string { return c.datacenter.String() } func (c *Command) HTTPStale() bool { var stale bool c.stale.Merge(&stale) return stale } // httpFlagsClient is the list of flags that apply to HTTP connections. func (c *Command) httpFlagsClient(f *flag.FlagSet) *flag.FlagSet { if f == nil { f = flag.NewFlagSet("", flag.ContinueOnError) } f.Var(&c.caFile, "ca-file", "Path to a CA file to use for TLS when communicating with Consul. This "+ "can also be specified via the CONSUL_CACERT environment variable.") f.Var(&c.caPath, "ca-path", "Path to a directory of CA certificates to use for TLS when communicating "+ "with Consul. This can also be specified via the CONSUL_CAPATH environment variable.") f.Var(&c.certFile, "client-cert", "Path to a client cert file to use for TLS when 'verify_incoming' is enabled. This "+ "can also be specified via the CONSUL_CLIENT_CERT environment variable.") f.Var(&c.keyFile, "client-key", "Path to a client key file to use for TLS when 'verify_incoming' is enabled. This "+ "can also be specified via the CONSUL_CLIENT_KEY environment variable.") f.Var(&c.httpAddr, "http-addr", "The `address` and port of the Consul HTTP agent. The value can be an IP "+ "address or DNS address, but it must also include the port. This can "+ "also be specified via the CONSUL_HTTP_ADDR environment variable. The "+ "default value is http://127.0.0.1:8500. The scheme can also be set to "+ "HTTPS by setting the environment variable CONSUL_HTTP_SSL=true.") f.Var(&c.token, "token", "ACL token to use in the request. This can also be specified via the "+ "CONSUL_HTTP_TOKEN environment variable. If unspecified, the query will "+ "default to the token of the Consul agent at the HTTP address.") f.Var(&c.tlsServerName, "tls-server-name", "The server name to use as the SNI host when connecting via TLS. This "+ "can also be specified via the CONSUL_TLS_SERVER_NAME environment variable.") return f } // httpFlagsServer is the list of flags that apply to HTTP connections. func (c *Command) httpFlagsServer(f *flag.FlagSet) *flag.FlagSet { if f == nil { f = flag.NewFlagSet("", flag.ContinueOnError) } f.Var(&c.datacenter, "datacenter", "Name of the datacenter to query. If unspecified, this will default to "+ "the datacenter of the queried agent.") f.Var(&c.stale, "stale", "Permit any Consul server (non-leader) to respond to this request. This "+ "allows for lower latency and higher throughput, but can result in "+ "stale data. This option has no effect on non-read operations. The "+ "default value is false.") return f } // NewFlagSet creates a new flag set for the given command. It automatically // generates help output and adds the appropriate API flags. func (c *Command) NewFlagSet(command cli.Command) *flag.FlagSet { f := flag.NewFlagSet("", flag.ContinueOnError) f.Usage = func() { c.UI.Error(command.Help()) } if c.hasClientHTTP() { c.httpFlagsClient(f) } if c.hasServerHTTP() { c.httpFlagsServer(f) } errR, errW := io.Pipe() errScanner := bufio.NewScanner(errR) go func() { for errScanner.Scan() { c.UI.Error(errScanner.Text()) } }() f.SetOutput(errW) c.flagSet = f c.hidden = flag.NewFlagSet("", flag.ContinueOnError) return f } // HideFlags is used to set hidden flags that will not be shown in help text func (c *Command) HideFlags(flags ...string) { for _, f := range flags { c.hidden.String(f, "", "") } } // Parse is used to parse the underlying flag set. func (c *Command) Parse(args []string) error { return c.flagSet.Parse(args) } // Help returns the help for this flagSet. func (c *Command) Help() string { // Some commands with subcommands (kv/snapshot) call this without initializing // any flags first, so exit early to avoid a panic if c.flagSet == nil { return "" } return c.helpFlagsFor(c.flagSet) } // hasClientHTTP returns true if this meta command contains client HTTP flags. func (c *Command) hasClientHTTP() bool { return c.Flags&FlagSetClientHTTP != 0 } // hasServerHTTP returns true if this meta command contains server HTTP flags. func (c *Command) hasServerHTTP() bool { return c.Flags&FlagSetServerHTTP != 0 } // helpFlagsFor visits all flags in the given flag set and prints formatted // help output. This function is sad because there's no "merging" of command // line flags. We explicitly pull out our "common" options into another section // by doing string comparisons :(. func (c *Command) helpFlagsFor(f *flag.FlagSet) string { httpFlagsClient := c.httpFlagsClient(nil) httpFlagsServer := c.httpFlagsServer(nil) var out bytes.Buffer firstHTTP := true if c.hasClientHTTP() { if firstHTTP { printTitle(&out, "HTTP API Options") firstHTTP = false } httpFlagsClient.VisitAll(func(f *flag.Flag) { printFlag(&out, f) }) } if c.hasServerHTTP() { if firstHTTP { printTitle(&out, "HTTP API Options") firstHTTP = false } httpFlagsServer.VisitAll(func(f *flag.Flag) { printFlag(&out, f) }) } firstCommand := true f.VisitAll(func(f *flag.Flag) { // Skip HTTP flags as they will be grouped separately if flagContains(httpFlagsClient, f) || flagContains(httpFlagsServer, f) || flagContains(c.hidden, f) { return } if firstCommand { printTitle(&out, "Command Options") firstCommand = false } printFlag(&out, f) }) return strings.TrimRight(out.String(), "\n") } // printTitle prints a consistently-formatted title to the given writer. func printTitle(w io.Writer, s string) { fmt.Fprintf(w, "%s\n\n", s) } // printFlag prints a single flag to the given writer. func printFlag(w io.Writer, f *flag.Flag) { example, _ := flag.UnquoteUsage(f) if example != "" { fmt.Fprintf(w, " -%s=<%s>\n", f.Name, example) } else { fmt.Fprintf(w, " -%s\n", f.Name) } indented := wrapAtLength(f.Usage, 5) fmt.Fprintf(w, "%s\n\n", indented) } // flagContains returns true if the given flag is contained in the given flag // set or false otherwise. func flagContains(fs *flag.FlagSet, f *flag.Flag) bool { var skip bool fs.VisitAll(func(hf *flag.Flag) { if skip { return } if f.Name == hf.Name { skip = true return } }) return skip } // wrapAtLength wraps the given text at the maxLineLength, taking into account // any provided left padding. func wrapAtLength(s string, pad int) string { wrapped := text.Wrap(s, maxLineLength-pad) lines := strings.Split(wrapped, "\n") for i, line := range lines { lines[i] = strings.Repeat(" ", pad) + line } return strings.Join(lines, "\n") }