plugeth/cmd/geth/monitorcmd.go

package main

import (
	"math"
	"reflect"
	"sort"
	"strings"
	"time"

	"github.com/codegangsta/cli"
	"github.com/ethereum/go-ethereum/cmd/utils"
	"github.com/ethereum/go-ethereum/rpc"
	"github.com/ethereum/go-ethereum/rpc/codec"
	"github.com/ethereum/go-ethereum/rpc/comms"
	"github.com/gizak/termui"
)

// monitor starts a terminal UI based monitoring tool for the requested metrics.
func monitor(ctx *cli.Context) {
	var (
		client comms.EthereumClient
		args   []string
		err    error
	)
	// Attach to an Ethereum node over IPC or RPC
	if ctx.Args().Present() {
		// Try to interpret the first parameter as an endpoint
		client, err = comms.ClientFromEndpoint(ctx.Args().First(), codec.JSON)
		if err == nil {
			args = ctx.Args().Tail()
		}
	}
	if !ctx.Args().Present() || err != nil {
		// Either no args were given, or not endpoint, use defaults
		cfg := comms.IpcConfig{
			Endpoint: ctx.GlobalString(utils.IPCPathFlag.Name),
		}
		args = ctx.Args()
		client, err = comms.NewIpcClient(cfg, codec.JSON)
	}
	if err != nil {
		utils.Fatalf("Unable to attach to geth node - %v", err)
	}
	defer client.Close()

	xeth := rpc.NewXeth(client)

	// Retrieve all the available metrics and resolve the user pattens
	metrics, err := xeth.Call("debug_metrics", []interface{}{true})
	if err != nil {
		utils.Fatalf("Failed to retrieve system metrics: %v", err)
	}
	monitored := resolveMetrics(metrics, args)
	sort.Strings(monitored)

	// Create the access function and check that the metric exists
	value := func(metrics map[string]interface{}, metric string) float64 {
		parts, found := strings.Split(metric, "/"), true
		for _, part := range parts[:len(parts)-1] {
			metrics, found = metrics[part].(map[string]interface{})
			if !found {
				utils.Fatalf("Metric not found: %s", metric)
			}
		}
		if v, ok := metrics[parts[len(parts)-1]].(float64); ok {
			return v
		}
		utils.Fatalf("Metric not float64: %s", metric)
		return 0
	}
	// Create and configure the chart UI defaults
	if err := termui.Init(); err != nil {
		utils.Fatalf("Unable to initialize terminal UI: %v", err)
	}
	defer termui.Close()

	termui.UseTheme("helloworld")

	rows := 5
	cols := (len(monitored) + rows - 1) / rows
	for i := 0; i < rows; i++ {
		termui.Body.AddRows(termui.NewRow())
	}
	// Create each individual data chart
	charts := make([]*termui.LineChart, len(monitored))
	data := make([][]float64, len(monitored))
	for i := 0; i < len(data); i++ {
		data[i] = make([]float64, 512)
	}
	for i, metric := range monitored {
		charts[i] = termui.NewLineChart()

		charts[i].Data = make([]float64, 512)
		charts[i].DataLabels = []string{""}
		charts[i].Height = termui.TermHeight() / rows
		charts[i].AxesColor = termui.ColorWhite
		charts[i].LineColor = termui.ColorGreen
		charts[i].PaddingBottom = -1

		charts[i].Border.Label = metric
		charts[i].Border.LabelFgColor = charts[i].Border.FgColor
		charts[i].Border.FgColor = charts[i].Border.BgColor

		row := termui.Body.Rows[i%rows]
		row.Cols = append(row.Cols, termui.NewCol(12/cols, 0, charts[i]))
	}
	termui.Body.Align()
	termui.Render(termui.Body)

	refresh := time.Tick(time.Second)
	for {
		select {
		case event := <-termui.EventCh():
			if event.Type == termui.EventKey && event.Ch == 'q' {
				return
			}
			if event.Type == termui.EventResize {
				termui.Body.Width = termui.TermWidth()
				for _, chart := range charts {
					chart.Height = termui.TermHeight() / rows
				}
				termui.Body.Align()
				termui.Render(termui.Body)
			}
		case <-refresh:
			metrics, err := xeth.Call("debug_metrics", []interface{}{true})
			if err != nil {
				utils.Fatalf("Failed to retrieve system metrics: %v", err)
			}
			for i, metric := range monitored {
				data[i] = append([]float64{value(metrics, metric)}, data[i][:len(data[i])-1]...)
				updateChart(metric, data[i], charts[i])
			}
			termui.Render(termui.Body)
		}
	}
}

// resolveMetrics takes a list of input metric patterns, and resolves each to one
// or more canonical metric names.
func resolveMetrics(metrics map[string]interface{}, patterns []string) []string {
	res := []string{}
	for _, pattern := range patterns {
		res = append(res, resolveMetric(metrics, pattern, "")...)
	}
	return res
}

// resolveMetrics takes a single of input metric pattern, and resolves it to one
// or more canonical metric names.
func resolveMetric(metrics map[string]interface{}, pattern string, path string) []string {
	var ok bool

	// Build up the canonical metric path
	parts := strings.Split(pattern, "/")
	for len(parts) > 1 {
		if metrics, ok = metrics[parts[0]].(map[string]interface{}); !ok {
			utils.Fatalf("Failed to retrieve system metrics: %s", path+parts[0])
		}
		path += parts[0] + "/"
		parts = parts[1:]
	}
	// Depending what the last link is, return or expand
	switch metric := metrics[parts[0]].(type) {
	case float64:
		// Final metric value found, return as singleton
		return []string{path + parts[0]}

	case map[string]interface{}:
		return expandMetrics(metric, path+parts[0]+"/")

	default:
		utils.Fatalf("Metric pattern resolved to unexpected type: %v", reflect.TypeOf(metric))
		return nil
	}
}

// expandMetrics expands the entire tree of metrics into a flat list of paths.
func expandMetrics(metrics map[string]interface{}, path string) []string {
	// Iterate over all fields and expand individually
	list := []string{}
	for name, metric := range metrics {
		switch metric := metric.(type) {
		case float64:
			// Final metric value found, append to list
			list = append(list, path+name)

		case map[string]interface{}:
			// Tree of metrics found, expand recursively
			list = append(list, expandMetrics(metric, path+name+"/")...)

		default:
			utils.Fatalf("Metric pattern %s resolved to unexpected type: %v", path+name, reflect.TypeOf(metric))
			return nil
		}
	}
	return list
}

// updateChart inserts a dataset into a line chart, scaling appropriately as to
// not display weird labels, also updating the chart label accordingly.
func updateChart(metric string, data []float64, chart *termui.LineChart) {
	units := []string{"", "K", "M", "G", "T", "E", "P"}
	colors := []termui.Attribute{termui.ColorBlue, termui.ColorCyan, termui.ColorGreen, termui.ColorYellow, termui.ColorRed, termui.ColorRed, termui.ColorRed}

	// Find the maximum value and scale under 1K
	high := data[0]
	for _, value := range data[1:] {
		high = math.Max(high, value)
	}
	unit, scale := 0, 1.0
	for high >= 1000 {
		high, unit, scale = high/1000, unit+1, scale*1000
	}
	// Update the chart's data points with the scaled values
	for i, value := range data {
		chart.Data[i] = value / scale
	}
	// Update the chart's label with the scale units
	chart.Border.Label = metric
	if unit > 0 {
		chart.Border.Label += " [" + units[unit] + "]"
	}
	chart.LineColor = colors[unit]
}
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`package main`

			`import (`
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00			`"math"`
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`"reflect"`
			`"sort"`
			`"strings"`
			`"time"`

			`"github.com/codegangsta/cli"`
			`"github.com/ethereum/go-ethereum/cmd/utils"`
			`"github.com/ethereum/go-ethereum/rpc"`
			`"github.com/ethereum/go-ethereum/rpc/codec"`
			`"github.com/ethereum/go-ethereum/rpc/comms"`
			`"github.com/gizak/termui"`
			`)`

			`// monitor starts a terminal UI based monitoring tool for the requested metrics.`
			`func monitor(ctx *cli.Context) {`
			`var (`
			`client comms.EthereumClient`
			`args []string`
			`err error`
			`)`
			`// Attach to an Ethereum node over IPC or RPC`
			`if ctx.Args().Present() {`
			`// Try to interpret the first parameter as an endpoint`
			`client, err = comms.ClientFromEndpoint(ctx.Args().First(), codec.JSON)`
			`if err == nil {`
			`args = ctx.Args().Tail()`
			`}`
			`}`
			`if !ctx.Args().Present() \|\| err != nil {`
			`// Either no args were given, or not endpoint, use defaults`
			`cfg := comms.IpcConfig{`
			`Endpoint: ctx.GlobalString(utils.IPCPathFlag.Name),`
			`}`
			`args = ctx.Args()`
			`client, err = comms.NewIpcClient(cfg, codec.JSON)`
			`}`
			`if err != nil {`
			`utils.Fatalf("Unable to attach to geth node - %v", err)`
			`}`
			`defer client.Close()`

			`xeth := rpc.NewXeth(client)`

			`// Retrieve all the available metrics and resolve the user pattens`
			`metrics, err := xeth.Call("debug_metrics", []interface{}{true})`
			`if err != nil {`
			`utils.Fatalf("Failed to retrieve system metrics: %v", err)`
			`}`
			`monitored := resolveMetrics(metrics, args)`
			`sort.Strings(monitored)`

			`// Create the access function and check that the metric exists`
			`value := func(metrics map[string]interface{}, metric string) float64 {`
			`parts, found := strings.Split(metric, "/"), true`
			`for _, part := range parts[:len(parts)-1] {`
			`metrics, found = metrics[part].(map[string]interface{})`
			`if !found {`
			`utils.Fatalf("Metric not found: %s", metric)`
			`}`
			`}`
			`if v, ok := metrics[parts[len(parts)-1]].(float64); ok {`
			`return v`
			`}`
			`utils.Fatalf("Metric not float64: %s", metric)`
			`return 0`
			`}`
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00			`// Create and configure the chart UI defaults`
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`if err := termui.Init(); err != nil {`
			`utils.Fatalf("Unable to initialize terminal UI: %v", err)`
			`}`
			`defer termui.Close()`

			`termui.UseTheme("helloworld")`

cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00			`rows := 5`
			`cols := (len(monitored) + rows - 1) / rows`
			`for i := 0; i < rows; i++ {`
			`termui.Body.AddRows(termui.NewRow())`
			`}`
			`// Create each individual data chart`
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`charts := make([]*termui.LineChart, len(monitored))`
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00			`data := make([][]float64, len(monitored))`
			`for i := 0; i < len(data); i++ {`
			`data[i] = make([]float64, 512)`
			`}`
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`for i, metric := range monitored {`
			`charts[i] = termui.NewLineChart()`
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`charts[i].Data = make([]float64, 512)`
			`charts[i].DataLabels = []string{""}`
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00			`charts[i].Height = termui.TermHeight() / rows`
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`charts[i].AxesColor = termui.ColorWhite`
			`charts[i].LineColor = termui.ColorGreen`
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00			`charts[i].PaddingBottom = -1`
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00			`charts[i].Border.Label = metric`
			`charts[i].Border.LabelFgColor = charts[i].Border.FgColor`
			`charts[i].Border.FgColor = charts[i].Border.BgColor`

			`row := termui.Body.Rows[i%rows]`
			`row.Cols = append(row.Cols, termui.NewCol(12/cols, 0, charts[i]))`
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`}`
			`termui.Body.Align()`
			`termui.Render(termui.Body)`

			`refresh := time.Tick(time.Second)`
			`for {`
			`select {`
			`case event := <-termui.EventCh():`
			`if event.Type == termui.EventKey && event.Ch == 'q' {`
			`return`
			`}`
			`if event.Type == termui.EventResize {`
			`termui.Body.Width = termui.TermWidth()`
			`for _, chart := range charts {`
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00			`chart.Height = termui.TermHeight() / rows`
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`}`
			`termui.Body.Align()`
			`termui.Render(termui.Body)`
			`}`
			`case <-refresh:`
			`metrics, err := xeth.Call("debug_metrics", []interface{}{true})`
			`if err != nil {`
			`utils.Fatalf("Failed to retrieve system metrics: %v", err)`
			`}`
			`for i, metric := range monitored {`
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00			`data[i] = append([]float64{value(metrics, metric)}, data[i][:len(data[i])-1]...)`
			`updateChart(metric, data[i], charts[i])`
cmd/geth, rpc/api: extend metrics API, add a basic monitor command 2015-06-24 11:38:58 +00:00			`}`
			`termui.Render(termui.Body)`
			`}`
			`}`
			`}`

			`// resolveMetrics takes a list of input metric patterns, and resolves each to one`
			`// or more canonical metric names.`
			`func resolveMetrics(metrics map[string]interface{}, patterns []string) []string {`
			`res := []string{}`
			`for _, pattern := range patterns {`
			`res = append(res, resolveMetric(metrics, pattern, "")...)`
			`}`
			`return res`
			`}`

			`// resolveMetrics takes a single of input metric pattern, and resolves it to one`
			`// or more canonical metric names.`
			`func resolveMetric(metrics map[string]interface{}, pattern string, path string) []string {`
			`var ok bool`

			`// Build up the canonical metric path`
			`parts := strings.Split(pattern, "/")`
			`for len(parts) > 1 {`
			`if metrics, ok = metrics[parts[0]].(map[string]interface{}); !ok {`
			`utils.Fatalf("Failed to retrieve system metrics: %s", path+parts[0])`
			`}`
			`path += parts[0] + "/"`
			`parts = parts[1:]`
			`}`
			`// Depending what the last link is, return or expand`
			`switch metric := metrics[parts[0]].(type) {`
			`case float64:`
			`// Final metric value found, return as singleton`
			`return []string{path + parts[0]}`

			`case map[string]interface{}:`
			`return expandMetrics(metric, path+parts[0]+"/")`

			`default:`
			`utils.Fatalf("Metric pattern resolved to unexpected type: %v", reflect.TypeOf(metric))`
			`return nil`
			`}`
			`}`

			`// expandMetrics expands the entire tree of metrics into a flat list of paths.`
			`func expandMetrics(metrics map[string]interface{}, path string) []string {`
			`// Iterate over all fields and expand individually`
			`list := []string{}`
			`for name, metric := range metrics {`
			`switch metric := metric.(type) {`
			`case float64:`
			`// Final metric value found, append to list`
			`list = append(list, path+name)`

			`case map[string]interface{}:`
			`// Tree of metrics found, expand recursively`
			`list = append(list, expandMetrics(metric, path+name+"/")...)`

			`default:`
			`utils.Fatalf("Metric pattern %s resolved to unexpected type: %v", path+name, reflect.TypeOf(metric))`
			`return nil`
			`}`
			`}`
			`return list`
			`}`
cmd/geth: polish the monitoring charts a bit 2015-06-24 13:39:22 +00:00
			`// updateChart inserts a dataset into a line chart, scaling appropriately as to`
			`// not display weird labels, also updating the chart label accordingly.`
			`func updateChart(metric string, data []float64, chart *termui.LineChart) {`
			`units := []string{"", "K", "M", "G", "T", "E", "P"}`
			`colors := []termui.Attribute{termui.ColorBlue, termui.ColorCyan, termui.ColorGreen, termui.ColorYellow, termui.ColorRed, termui.ColorRed, termui.ColorRed}`

			`// Find the maximum value and scale under 1K`
			`high := data[0]`
			`for _, value := range data[1:] {`
			`high = math.Max(high, value)`
			`}`
			`unit, scale := 0, 1.0`
			`for high >= 1000 {`
			`high, unit, scale = high/1000, unit+1, scale*1000`
			`}`
			`// Update the chart's data points with the scaled values`
			`for i, value := range data {`
			`chart.Data[i] = value / scale`
			`}`
			`// Update the chart's label with the scale units`
			`chart.Border.Label = metric`
			`if unit > 0 {`
			`chart.Border.Label += " [" + units[unit] + "]"`
			`}`
			`chart.LineColor = colors[unit]`
			`}`