package main import ( "fmt" "io" "os" "text/tabwriter" "time" monitor "github.com/tendermint/tendermint/tools/tm-monitor/monitor" ) const ( // Default refresh rate - 200ms defaultRefreshRate = time.Millisecond * 200 ) // Ton - table of nodes. // // It produces the unordered list of nodes and updates it periodically. // // Default output is stdout, but it could be changed. Note if you want for // refresh to work properly, output must support [ANSI escape // codes](http://en.wikipedia.org/wiki/ANSI_escape_code). // // Ton was inspired by [Linux top // program](https://en.wikipedia.org/wiki/Top_(software)) as the name suggests. type Ton struct { monitor *monitor.Monitor RefreshRate time.Duration Output io.Writer quit chan struct{} } func NewTon(m *monitor.Monitor) *Ton { return &Ton{ RefreshRate: defaultRefreshRate, Output: os.Stdout, quit: make(chan struct{}), monitor: m, } } func (o *Ton) Start() { clearScreen(o.Output) o.Print() go o.refresher() } func (o *Ton) Print() { moveCursor(o.Output, 1, 1) o.printHeader() fmt.Println() o.printTable() } func (o *Ton) Stop() { close(o.quit) } func (o *Ton) printHeader() { n := o.monitor.Network fmt.Fprintf(o.Output, "%v up %.2f%%\n", n.StartTime(), n.Uptime()) fmt.Println() fmt.Fprintf(o.Output, "Height: %d\n", n.Height) fmt.Fprintf(o.Output, "Avg block time: %.3f ms\n", n.AvgBlockTime) fmt.Fprintf(o.Output, "Avg tx throughput: %.0f per sec\n", n.AvgTxThroughput) fmt.Fprintf(o.Output, "Avg block latency: %.3f ms\n", n.AvgBlockLatency) fmt.Fprintf(o.Output, "Active nodes: %d/%d (health: %s) Validators: %d\n", n.NumNodesMonitoredOnline, n.NumNodesMonitored, n.GetHealthString(), n.NumValidators) } func (o *Ton) printTable() { w := tabwriter.NewWriter(o.Output, 0, 0, 5, ' ', 0) fmt.Fprintln(w, "NAME\tHEIGHT\tBLOCK LATENCY\tONLINE\tVALIDATOR\t") for _, n := range o.monitor.Nodes { fmt.Fprintln(w, fmt.Sprintf("%s\t%d\t%.3f ms\t%v\t%v\t", n.Name, n.Height, n.BlockLatency, n.Online, n.IsValidator)) } w.Flush() } // Internal loop for refreshing func (o *Ton) refresher() { for { select { case <-o.quit: return case <-time.After(o.RefreshRate): o.Print() } } } func clearScreen(w io.Writer) { fmt.Fprint(w, "\033[2J") } func moveCursor(w io.Writer, x int, y int) { fmt.Fprintf(w, "\033[%d;%dH", x, y) }