// Package cli contains the logic of the influx command line client. package cli // import "github.com/influxdata/influxdb/cmd/influx/cli" import ( "bytes" "encoding/csv" "encoding/json" "errors" "fmt" "io" "io/ioutil" "net" "os" "os/signal" "path/filepath" "reflect" "sort" "strconv" "strings" "syscall" "text/tabwriter" "golang.org/x/crypto/ssh/terminal" "github.com/influxdata/influxdb/client" "github.com/influxdata/influxdb/importer/v8" "github.com/influxdata/influxdb/influxql" "github.com/influxdata/influxdb/models" "github.com/peterh/liner" ) // ErrBlankCommand is returned when a parsed command is empty. var ErrBlankCommand = errors.New("empty input") // CommandLine holds CLI configuration and state. type CommandLine struct { Line *liner.State Host string Port int Database string Ssl bool RetentionPolicy string ClientVersion string ServerVersion string Pretty bool // controls pretty print for json Format string // controls the output format. Valid values are json, csv, or column Execute string ShowVersion bool Import bool Chunked bool ChunkSize int Quit chan struct{} IgnoreSignals bool // Ignore signals normally caught by this process (used primarily for testing) ForceTTY bool // Force the CLI to act as if it were connected to a TTY osSignals chan os.Signal historyFilePath string Client *client.Client ClientConfig client.Config // Client config options. ImporterConfig v8.Config // Importer configuration options. } // New returns an instance of CommandLine with the specified client version. func New(version string) *CommandLine { return &CommandLine{ ClientVersion: version, Quit: make(chan struct{}, 1), osSignals: make(chan os.Signal, 1), Chunked: true, } } // Run executes the CLI. func (c *CommandLine) Run() error { hasTTY := c.ForceTTY || terminal.IsTerminal(int(os.Stdin.Fd())) var promptForPassword bool // determine if they set the password flag but provided no value for _, v := range os.Args { v = strings.ToLower(v) if (strings.HasPrefix(v, "-password") || strings.HasPrefix(v, "--password")) && c.ClientConfig.Password == "" { promptForPassword = true break } } // Check if we will be able to prompt for the password later. if promptForPassword && !hasTTY { return errors.New("Unable to prompt for a password with no TTY.") } // Read environment variables for username/password. if c.ClientConfig.Username == "" { c.ClientConfig.Username = os.Getenv("INFLUX_USERNAME") } // If we are going to be prompted for a password, always use the entered password. if promptForPassword { // Open the liner (temporarily) and prompt for the password. p, e := func() (string, error) { l := liner.NewLiner() defer l.Close() return l.PasswordPrompt("password: ") }() if e != nil { return errors.New("Unable to parse password") } c.ClientConfig.Password = p } else if c.ClientConfig.Password == "" { c.ClientConfig.Password = os.Getenv("INFLUX_PASSWORD") } if err := c.Connect(""); err != nil { msg := "Please check your connection settings and ensure 'influxd' is running." if !c.Ssl && strings.Contains(err.Error(), "malformed HTTP response") { // Attempt to connect with SSL and disable secure SSL for this test. c.Ssl = true unsafeSsl := c.ClientConfig.UnsafeSsl c.ClientConfig.UnsafeSsl = true if err := c.Connect(""); err == nil { msg = "Please use the -ssl flag to connect using SSL." } c.Ssl = false c.ClientConfig.UnsafeSsl = unsafeSsl } else if c.Ssl && !c.ClientConfig.UnsafeSsl && strings.Contains(err.Error(), "certificate is valid for") { // Attempt to connect with an insecure connection just to see if it works. c.ClientConfig.UnsafeSsl = true if err := c.Connect(""); err == nil { msg = "You may use -unsafeSsl to connect anyway, but the SSL connection will not be secure." } c.ClientConfig.UnsafeSsl = false } return fmt.Errorf("Failed to connect to %s: %s\n%s", c.Client.Addr(), err.Error(), msg) } // Modify precision. c.SetPrecision(c.ClientConfig.Precision) if c.Execute != "" { // Make the non-interactive mode send everything through the CLI's parser // the same way the interactive mode works lines := strings.Split(c.Execute, "\n") for _, line := range lines { if err := c.ParseCommand(line); err != nil { return err } } return nil } if c.Import { addr := net.JoinHostPort(c.Host, strconv.Itoa(c.Port)) u, e := client.ParseConnectionString(addr, c.Ssl) if e != nil { return e } // Copy the latest importer config and inject the latest client config // into it. config := c.ImporterConfig config.Config = c.ClientConfig config.URL = u i := v8.NewImporter(config) if err := i.Import(); err != nil { err = fmt.Errorf("ERROR: %s\n", err) return err } return nil } if !hasTTY { cmd, err := ioutil.ReadAll(os.Stdin) if err != nil { return err } return c.ExecuteQuery(string(cmd)) } if !c.IgnoreSignals { // register OS signals for graceful termination signal.Notify(c.osSignals, syscall.SIGINT, syscall.SIGTERM) } c.Line = liner.NewLiner() defer c.Line.Close() c.Line.SetMultiLineMode(true) fmt.Printf("Connected to %s version %s\n", c.Client.Addr(), c.ServerVersion) c.Version() // Only load/write history if HOME environment variable is set. if homeDir := os.Getenv("HOME"); homeDir != "" { // Attempt to load the history file. c.historyFilePath = filepath.Join(homeDir, ".influx_history") if historyFile, err := os.Open(c.historyFilePath); err == nil { c.Line.ReadHistory(historyFile) historyFile.Close() } } // read from prompt until exit is run return c.mainLoop() } // mainLoop runs the main prompt loop for the CLI. func (c *CommandLine) mainLoop() error { for { select { case <-c.osSignals: c.exit() return nil case <-c.Quit: c.exit() return nil default: l, e := c.Line.Prompt("> ") if e == io.EOF { // Instead of die, register that someone exited the program gracefully l = "exit" } else if e != nil { c.exit() return e } if err := c.ParseCommand(l); err != ErrBlankCommand && !strings.HasPrefix(strings.TrimSpace(l), "auth") { l = influxql.Sanitize(l) c.Line.AppendHistory(l) c.saveHistory() } } } } // ParseCommand parses an instruction and calls the related method // or executes the command as a query against InfluxDB. func (c *CommandLine) ParseCommand(cmd string) error { lcmd := strings.TrimSpace(strings.ToLower(cmd)) tokens := strings.Fields(lcmd) if len(tokens) > 0 { switch tokens[0] { case "exit", "quit": close(c.Quit) case "gopher": c.gopher() case "connect": return c.Connect(cmd) case "auth": c.SetAuth(cmd) case "help": c.help() case "history": c.history() case "format": c.SetFormat(cmd) case "precision": c.SetPrecision(cmd) case "consistency": c.SetWriteConsistency(cmd) case "settings": c.Settings() case "chunked": c.Chunked = !c.Chunked if c.Chunked { fmt.Println("chunked responses enabled") } else { fmt.Println("chunked reponses disabled") } case "chunk": c.SetChunkSize(cmd) case "pretty": c.Pretty = !c.Pretty if c.Pretty { fmt.Println("Pretty print enabled") } else { fmt.Println("Pretty print disabled") } case "use": c.use(cmd) case "insert": return c.Insert(cmd) case "clear": c.clear(cmd) default: return c.ExecuteQuery(cmd) } return nil } return ErrBlankCommand } // Connect connects to a server. func (c *CommandLine) Connect(cmd string) error { // Remove the "connect" keyword if it exists addr := strings.TrimSpace(strings.Replace(cmd, "connect", "", -1)) if addr == "" { // If they didn't provide a connection string, use the current settings addr = net.JoinHostPort(c.Host, strconv.Itoa(c.Port)) } URL, err := client.ParseConnectionString(addr, c.Ssl) if err != nil { return err } // Create copy of the current client config and create a new client. ClientConfig := c.ClientConfig ClientConfig.UserAgent = "InfluxDBShell/" + c.ClientVersion ClientConfig.URL = URL client, err := client.NewClient(ClientConfig) if err != nil { return fmt.Errorf("Could not create client %s", err) } c.Client = client _, v, err := c.Client.Ping() if err != nil { return err } c.ServerVersion = v // Update the command with the current connection information if host, port, err := net.SplitHostPort(ClientConfig.URL.Host); err == nil { c.Host = host if i, err := strconv.Atoi(port); err == nil { c.Port = i } } return nil } // SetAuth sets client authentication credentials. func (c *CommandLine) SetAuth(cmd string) { // If they pass in the entire command, we should parse it // auth args := strings.Fields(cmd) if len(args) == 3 { args = args[1:] } else { args = []string{} } if len(args) == 2 { c.ClientConfig.Username = args[0] c.ClientConfig.Password = args[1] } else { u, e := c.Line.Prompt("username: ") if e != nil { fmt.Printf("Unable to process input: %s", e) return } c.ClientConfig.Username = strings.TrimSpace(u) p, e := c.Line.PasswordPrompt("password: ") if e != nil { fmt.Printf("Unable to process input: %s", e) return } c.ClientConfig.Password = p } // Update the client as well c.Client.SetAuth(c.ClientConfig.Username, c.ClientConfig.Password) } func (c *CommandLine) clear(cmd string) { args := strings.Split(strings.TrimSuffix(strings.TrimSpace(cmd), ";"), " ") v := strings.ToLower(strings.Join(args[1:], " ")) switch v { case "database", "db": c.Database = "" fmt.Println("database context cleared") return case "retention policy", "rp": c.RetentionPolicy = "" fmt.Println("retention policy context cleared") return default: if len(args) > 1 { fmt.Printf("invalid command %q.\n", v) } fmt.Println(`Possible commands for 'clear' are: # Clear the database context clear database clear db # Clear the retention policy context clear retention policy clear rp `) } } func (c *CommandLine) use(cmd string) { args := strings.Split(strings.TrimSuffix(strings.TrimSpace(cmd), ";"), " ") if len(args) != 2 { fmt.Printf("Could not parse database name from %q.\n", cmd) return } stmt := args[1] db, rp, err := parseDatabaseAndRetentionPolicy([]byte(stmt)) if err != nil { fmt.Printf("Unable to parse database or retention policy from %s", stmt) return } if !c.databaseExists(db) { return } c.Database = db fmt.Printf("Using database %s\n", db) if rp != "" { if !c.retentionPolicyExists(db, rp) { return } c.RetentionPolicy = rp fmt.Printf("Using retention policy %s\n", rp) } } func (c *CommandLine) databaseExists(db string) bool { // Validate if specified database exists response, err := c.Client.Query(client.Query{Command: "SHOW DATABASES"}) if err != nil { fmt.Printf("ERR: %s\n", err) return false } else if err := response.Error(); err != nil { if c.ClientConfig.Username == "" { fmt.Printf("ERR: %s\n", err) return false } // TODO(jsternberg): Fix SHOW DATABASES to be user-aware #6397. // If we are unable to run SHOW DATABASES, display a warning and use the // database anyway in case the person doesn't have permission to run the // command, but does have permission to use the database. fmt.Printf("WARN: %s\n", err) } else { // Verify the provided database exists if databaseExists := func() bool { for _, result := range response.Results { for _, row := range result.Series { if row.Name == "databases" { for _, values := range row.Values { for _, database := range values { if database == db { return true } } } } } } return false }(); !databaseExists { fmt.Printf("ERR: Database %s doesn't exist. Run SHOW DATABASES for a list of existing databases.\n", db) return false } } return true } func (c *CommandLine) retentionPolicyExists(db, rp string) bool { // Validate if specified database exists response, err := c.Client.Query(client.Query{Command: fmt.Sprintf("SHOW RETENTION POLICIES ON %q", db)}) if err != nil { fmt.Printf("ERR: %s\n", err) return false } else if err := response.Error(); err != nil { if c.ClientConfig.Username == "" { fmt.Printf("ERR: %s\n", err) return false } fmt.Printf("WARN: %s\n", err) } else { // Verify the provided database exists if retentionPolicyExists := func() bool { for _, result := range response.Results { for _, row := range result.Series { for _, values := range row.Values { for i, v := range values { if i != 0 { continue } if v == rp { return true } } } } } return false }(); !retentionPolicyExists { fmt.Printf("ERR: RETENTION POLICY %s doesn't exist. Run SHOW RETENTION POLICIES ON %q for a list of existing retention polices.\n", rp, db) return false } } return true } // SetChunkSize sets the chunk size // 0 sets it back to the default func (c *CommandLine) SetChunkSize(cmd string) { // normalize cmd cmd = strings.ToLower(cmd) cmd = strings.Join(strings.Fields(cmd), " ") // Remove the "chunk size" keyword if it exists cmd = strings.TrimPrefix(cmd, "chunk size ") // Remove the "chunk" keyword if it exists // allows them to use `chunk 50` as a shortcut cmd = strings.TrimPrefix(cmd, "chunk ") if n, err := strconv.ParseInt(cmd, 10, 64); err == nil { c.ChunkSize = int(n) if c.ChunkSize <= 0 { c.ChunkSize = 0 } fmt.Printf("chunk size set to %d\n", c.ChunkSize) } else { fmt.Printf("unable to parse chunk size from %q\n", cmd) } } // SetPrecision sets client precision. func (c *CommandLine) SetPrecision(cmd string) { // normalize cmd cmd = strings.ToLower(cmd) // Remove the "precision" keyword if it exists cmd = strings.TrimSpace(strings.Replace(cmd, "precision", "", -1)) switch cmd { case "h", "m", "s", "ms", "u", "ns": c.ClientConfig.Precision = cmd c.Client.SetPrecision(c.ClientConfig.Precision) case "rfc3339": c.ClientConfig.Precision = "" c.Client.SetPrecision(c.ClientConfig.Precision) default: fmt.Printf("Unknown precision %q. Please use rfc3339, h, m, s, ms, u or ns.\n", cmd) } } // SetFormat sets output format. func (c *CommandLine) SetFormat(cmd string) { // Remove the "format" keyword if it exists cmd = strings.TrimSpace(strings.Replace(cmd, "format", "", -1)) // normalize cmd cmd = strings.ToLower(cmd) switch cmd { case "json", "csv", "column": c.Format = cmd default: fmt.Printf("Unknown format %q. Please use json, csv, or column.\n", cmd) } } // SetWriteConsistency sets write consistency level. func (c *CommandLine) SetWriteConsistency(cmd string) { // Remove the "consistency" keyword if it exists cmd = strings.TrimSpace(strings.Replace(cmd, "consistency", "", -1)) // normalize cmd cmd = strings.ToLower(cmd) _, err := models.ParseConsistencyLevel(cmd) if err != nil { fmt.Printf("Unknown consistency level %q. Please use any, one, quorum, or all.\n", cmd) return } c.ClientConfig.WriteConsistency = cmd } // isWhitespace returns true if the rune is a space, tab, or newline. func isWhitespace(ch rune) bool { return ch == ' ' || ch == '\t' || ch == '\n' } // isLetter returns true if the rune is a letter. func isLetter(ch rune) bool { return (ch >= 'a' && ch <= 'z') || (ch >= 'A' && ch <= 'Z') } // isDigit returns true if the rune is a digit. func isDigit(ch rune) bool { return (ch >= '0' && ch <= '9') } // isIdentFirstChar returns true if the rune can be used as the first char in an unquoted identifer. func isIdentFirstChar(ch rune) bool { return isLetter(ch) || ch == '_' } // isIdentChar returns true if the rune can be used in an unquoted identifier. func isNotIdentChar(ch rune) bool { return !(isLetter(ch) || isDigit(ch) || ch == '_') } func parseUnquotedIdentifier(stmt string) (string, string) { if fields := strings.FieldsFunc(stmt, isNotIdentChar); len(fields) > 0 { return fields[0], strings.TrimPrefix(stmt, fields[0]) } return "", stmt } func parseDoubleQuotedIdentifier(stmt string) (string, string) { escapeNext := false fields := strings.FieldsFunc(stmt, func(ch rune) bool { if ch == '\\' { escapeNext = true } else if ch == '"' { if !escapeNext { return true } escapeNext = false } return false }) if len(fields) > 0 { return fields[0], strings.TrimPrefix(stmt, "\""+fields[0]+"\"") } return "", stmt } func parseNextIdentifier(stmt string) (ident, remainder string) { if len(stmt) > 0 { switch { case isWhitespace(rune(stmt[0])): return parseNextIdentifier(stmt[1:]) case isIdentFirstChar(rune(stmt[0])): return parseUnquotedIdentifier(stmt) case stmt[0] == '"': return parseDoubleQuotedIdentifier(stmt) } } return "", stmt } func (c *CommandLine) parseInto(stmt string) *client.BatchPoints { ident, stmt := parseNextIdentifier(stmt) db, rp := c.Database, c.RetentionPolicy if strings.HasPrefix(stmt, ".") { db = ident ident, stmt = parseNextIdentifier(stmt[1:]) } if strings.HasPrefix(stmt, " ") { rp = ident stmt = stmt[1:] } return &client.BatchPoints{ Points: []client.Point{ client.Point{Raw: stmt}, }, Database: db, RetentionPolicy: rp, Precision: c.ClientConfig.Precision, WriteConsistency: c.ClientConfig.WriteConsistency, } } func (c *CommandLine) parseInsert(stmt string) (*client.BatchPoints, error) { i, point := parseNextIdentifier(stmt) if !strings.EqualFold(i, "insert") { return nil, fmt.Errorf("found %s, expected INSERT\n", i) } if i, r := parseNextIdentifier(point); strings.EqualFold(i, "into") { bp := c.parseInto(r) return bp, nil } return &client.BatchPoints{ Points: []client.Point{ client.Point{Raw: point}, }, Database: c.Database, RetentionPolicy: c.RetentionPolicy, Precision: c.ClientConfig.Precision, WriteConsistency: c.ClientConfig.WriteConsistency, }, nil } // Insert runs an INSERT statement. func (c *CommandLine) Insert(stmt string) error { bp, err := c.parseInsert(stmt) if err != nil { fmt.Printf("ERR: %s\n", err) return nil } if _, err := c.Client.Write(*bp); err != nil { fmt.Printf("ERR: %s\n", err) if c.Database == "" { fmt.Println("Note: error may be due to not setting a database or retention policy.") fmt.Println(`Please set a database with the command "use " or`) fmt.Println("INSERT INTO . ") } } return nil } // query creates a query struct to be used with the client. func (c *CommandLine) query(query string) client.Query { return client.Query{ Command: query, Database: c.Database, Chunked: c.Chunked, ChunkSize: c.ChunkSize, } } // ExecuteQuery runs any query statement. func (c *CommandLine) ExecuteQuery(query string) error { // If we have a retention policy, we need to rewrite the statement sources if c.RetentionPolicy != "" { pq, err := influxql.NewParser(strings.NewReader(query)).ParseQuery() if err != nil { fmt.Printf("ERR: %s\n", err) return err } for _, stmt := range pq.Statements { if selectStatement, ok := stmt.(*influxql.SelectStatement); ok { influxql.WalkFunc(selectStatement.Sources, func(n influxql.Node) { if t, ok := n.(*influxql.Measurement); ok { if t.Database == "" && c.Database != "" { t.Database = c.Database } if t.RetentionPolicy == "" && c.RetentionPolicy != "" { t.RetentionPolicy = c.RetentionPolicy } } }) } } query = pq.String() } response, err := c.Client.Query(c.query(query)) if err != nil { fmt.Printf("ERR: %s\n", err) return err } c.FormatResponse(response, os.Stdout) if err := response.Error(); err != nil { fmt.Printf("ERR: %s\n", response.Error()) if c.Database == "" { fmt.Println("Warning: It is possible this error is due to not setting a database.") fmt.Println(`Please set a database with the command "use ".`) } return err } return nil } // FormatResponse formats output to the previously chosen format. func (c *CommandLine) FormatResponse(response *client.Response, w io.Writer) { switch c.Format { case "json": c.writeJSON(response, w) case "csv": c.writeCSV(response, w) case "column": c.writeColumns(response, w) default: fmt.Fprintf(w, "Unknown output format %q.\n", c.Format) } } func (c *CommandLine) writeJSON(response *client.Response, w io.Writer) { var data []byte var err error if c.Pretty { data, err = json.MarshalIndent(response, "", " ") } else { data, err = json.Marshal(response) } if err != nil { fmt.Fprintf(w, "Unable to parse json: %s\n", err) return } fmt.Fprintln(w, string(data)) } func tagsEqual(prev, current map[string]string) bool { return reflect.DeepEqual(prev, current) } func columnsEqual(prev, current []string) bool { return reflect.DeepEqual(prev, current) } func headersEqual(prev, current models.Row) bool { if prev.Name != current.Name { return false } return tagsEqual(prev.Tags, current.Tags) && columnsEqual(prev.Columns, current.Columns) } func (c *CommandLine) writeCSV(response *client.Response, w io.Writer) { csvw := csv.NewWriter(w) var previousHeaders models.Row for _, result := range response.Results { suppressHeaders := len(result.Series) > 0 && headersEqual(previousHeaders, result.Series[0]) if !suppressHeaders && len(result.Series) > 0 { previousHeaders = models.Row{ Name: result.Series[0].Name, Tags: result.Series[0].Tags, Columns: result.Series[0].Columns, } } // Create a tabbed writer for each result as they won't always line up rows := c.formatResults(result, "\t", suppressHeaders) for _, r := range rows { csvw.Write(strings.Split(r, "\t")) } } csvw.Flush() } func (c *CommandLine) writeColumns(response *client.Response, w io.Writer) { // Create a tabbed writer for each result as they won't always line up writer := new(tabwriter.Writer) writer.Init(w, 0, 8, 1, ' ', 0) var previousHeaders models.Row for i, result := range response.Results { // Print out all messages first for _, m := range result.Messages { fmt.Fprintf(w, "%s: %s.\n", m.Level, m.Text) } // Check to see if the headers are the same as the previous row. If so, suppress them in the output suppressHeaders := len(result.Series) > 0 && headersEqual(previousHeaders, result.Series[0]) if !suppressHeaders && len(result.Series) > 0 { previousHeaders = models.Row{ Name: result.Series[0].Name, Tags: result.Series[0].Tags, Columns: result.Series[0].Columns, } } // If we are suppressing headers, don't output the extra line return. If we // aren't suppressing headers, then we put out line returns between results // (not before the first result, and not after the last result). if !suppressHeaders && i > 0 { fmt.Fprintln(writer, "") } rows := c.formatResults(result, "\t", suppressHeaders) for _, r := range rows { fmt.Fprintln(writer, r) } } writer.Flush() } // formatResults will behave differently if you are formatting for columns or csv func (c *CommandLine) formatResults(result client.Result, separator string, suppressHeaders bool) []string { rows := []string{} // Create a tabbed writer for each result as they won't always line up for i, row := range result.Series { // gather tags tags := []string{} for k, v := range row.Tags { tags = append(tags, fmt.Sprintf("%s=%s", k, v)) sort.Strings(tags) } columnNames := []string{} // Only put name/tags in a column if format is csv if c.Format == "csv" { if len(tags) > 0 { columnNames = append([]string{"tags"}, columnNames...) } if row.Name != "" { columnNames = append([]string{"name"}, columnNames...) } } columnNames = append(columnNames, row.Columns...) // Output a line separator if we have more than one set or results and format is column if i > 0 && c.Format == "column" && !suppressHeaders { rows = append(rows, "") } // If we are column format, we break out the name/tag to separate lines if c.Format == "column" && !suppressHeaders { if row.Name != "" { n := fmt.Sprintf("name: %s", row.Name) rows = append(rows, n) } if len(tags) > 0 { t := fmt.Sprintf("tags: %s", (strings.Join(tags, ", "))) rows = append(rows, t) } } if !suppressHeaders { rows = append(rows, strings.Join(columnNames, separator)) } // if format is column, write dashes under each column if c.Format == "column" && !suppressHeaders { lines := []string{} for _, columnName := range columnNames { lines = append(lines, strings.Repeat("-", len(columnName))) } rows = append(rows, strings.Join(lines, separator)) } for _, v := range row.Values { var values []string if c.Format == "csv" { if row.Name != "" { values = append(values, row.Name) } if len(tags) > 0 { values = append(values, strings.Join(tags, ",")) } } for _, vv := range v { values = append(values, interfaceToString(vv)) } rows = append(rows, strings.Join(values, separator)) } } return rows } func interfaceToString(v interface{}) string { switch t := v.(type) { case nil: return "" case bool: return fmt.Sprintf("%v", v) case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64, uintptr: return fmt.Sprintf("%d", t) case float32, float64: return fmt.Sprintf("%v", t) default: return fmt.Sprintf("%v", t) } } // Settings prints current settings. func (c *CommandLine) Settings() { w := new(tabwriter.Writer) w.Init(os.Stdout, 0, 1, 1, ' ', 0) fmt.Fprintln(w, "Setting\tValue") fmt.Fprintln(w, "--------\t--------") if c.Port > 0 { fmt.Fprintf(w, "Host\t%s:%d\n", c.Host, c.Port) } else { fmt.Fprintf(w, "Host\t%s\n", c.Host) } fmt.Fprintf(w, "Username\t%s\n", c.ClientConfig.Username) fmt.Fprintf(w, "Database\t%s\n", c.Database) fmt.Fprintf(w, "RetentionPolicy\t%s\n", c.RetentionPolicy) fmt.Fprintf(w, "Pretty\t%v\n", c.Pretty) fmt.Fprintf(w, "Format\t%s\n", c.Format) fmt.Fprintf(w, "Write Consistency\t%s\n", c.ClientConfig.WriteConsistency) fmt.Fprintf(w, "Chunked\t%v\n", c.Chunked) fmt.Fprintf(w, "Chunk Size\t%d\n", c.ChunkSize) fmt.Fprintln(w) w.Flush() } func (c *CommandLine) help() { fmt.Println(`Usage: connect connects to another node specified by host:port auth prompts for username and password pretty toggles pretty print for the json format chunked turns on chunked responses from server chunk size sets the size of the chunked responses. Set to 0 to reset to the default chunked size use sets current database format specifies the format of the server responses: json, csv, or column precision specifies the format of the timestamp: rfc3339, h, m, s, ms, u or ns consistency sets write consistency level: any, one, quorum, or all history displays command history settings outputs the current settings for the shell clear clears settings such as database or retention policy. run 'clear' for help exit/quit/ctrl+d quits the influx shell show databases show database names show series show series information show measurements show measurement information show tag keys show tag key information show field keys show field key information A full list of influxql commands can be found at: https://docs.influxdata.com/influxdb/latest/query_language/spec/ `) } func (c *CommandLine) history() { var buf bytes.Buffer c.Line.WriteHistory(&buf) fmt.Print(buf.String()) } func (c *CommandLine) saveHistory() { if historyFile, err := os.Create(c.historyFilePath); err != nil { fmt.Printf("There was an error writing history file: %s\n", err) } else { c.Line.WriteHistory(historyFile) historyFile.Close() } } func (c *CommandLine) gopher() { fmt.Println(` .-::-::://:-::- .:/++/' '://:-''/oo+//++o+/.://o- ./+: .:-. '++- .o/ '+yydhy' o- .:/. .h: :osoys .smMN- :/ -/:.' s- /MMMymh. '/y/ s' -+s:'''' d -mMMms// '-/o: -/++/++/////:. o: '... s- :s. :+-+s-' ':/' 's- /+ 'o: '+-'o: /ydhsh. '//. '-o- o- .y. o: .MMMdm+y ':+++:::/+:.' s: .-h/ y- 'sdmds'h -+ydds:::-.' 'h. .//-.d' o: '.' 'dsNMMMNh:.:++' :y +y. 'd 's. .s:mddds: ++ o/ 'N- odd 'o/. './o-s-' .---+++' o- 'N' yNd .://:/:::::. -s -+/s/./s' 'o/' so' .h '''' ////s: '+. .s +y' os/-.y' 's' 'y::+ +d' '.:o/ -+:-:.' so.---.' o' 'd-.''/s' .s' :y.''.y -s mo:::' :: yh // '''' /M' o+ .s///:/. 'N: :+ /: -s' ho 's- -/s/:+/.+h' +h ys' ':' '-. -d oh .h /o .s s. .h -y .d m/ -h +d /o 'N- y: h: m. s- -d o- s+ +- 'm' s/ oo--. y- /s ':+' s' 'od--' .d: -+ ':o: ':+-/+ y- .:+- ' //o- '.:+/. .-:+/' ''-/+/. ./:' ''.:o+/-' .+o:/:/+-' ''.-+ooo/-' o: -h///++////-. /: .o/ //+ 'y ./sooy. `) } // Version prints the CLI version. func (c *CommandLine) Version() { fmt.Println("InfluxDB shell version:", c.ClientVersion) } func (c *CommandLine) exit() { // write to history file c.saveHistory() // release line resources c.Line.Close() c.Line = nil }