crowdsec/cmd/crowdsec-cli/metrics_table.go
mmetc e976614645
cscli metrics: rename buckets -> scenarios (#2848)
* cscli metrics: rename buckets -> scenarios
* update lint configuration
* lint
2024-02-15 14:34:12 +01:00

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package main
import (
"errors"
"fmt"
"io"
"sort"
"strconv"
"github.com/aquasecurity/table"
log "github.com/sirupsen/logrus"
"github.com/crowdsecurity/go-cs-lib/maptools"
)
// ErrNilTable means a nil pointer was passed instead of a table instance. This is a programming error.
var ErrNilTable = errors.New("nil table")
func lapiMetricsToTable(t *table.Table, stats map[string]map[string]map[string]int) int {
// stats: machine -> route -> method -> count
// sort keys to keep consistent order when printing
machineKeys := []string{}
for k := range stats {
machineKeys = append(machineKeys, k)
}
sort.Strings(machineKeys)
numRows := 0
for _, machine := range machineKeys {
// oneRow: route -> method -> count
machineRow := stats[machine]
for routeName, route := range machineRow {
for methodName, count := range route {
row := []string{
machine,
routeName,
methodName,
}
if count != 0 {
row = append(row, strconv.Itoa(count))
} else {
row = append(row, "-")
}
t.AddRow(row...)
numRows++
}
}
}
return numRows
}
func wlMetricsToTable(t *table.Table, stats map[string]map[string]map[string]int, noUnit bool) (int, error) {
if t == nil {
return 0, ErrNilTable
}
numRows := 0
for _, name := range maptools.SortedKeys(stats) {
for _, reason := range maptools.SortedKeys(stats[name]) {
row := []string{
name,
reason,
"-",
"-",
}
for _, action := range maptools.SortedKeys(stats[name][reason]) {
value := stats[name][reason][action]
switch action {
case "whitelisted":
row[3] = strconv.Itoa(value)
case "hits":
row[2] = strconv.Itoa(value)
default:
log.Debugf("unexpected counter '%s' for whitelists = %d", action, value)
}
}
t.AddRow(row...)
numRows++
}
}
return numRows, nil
}
func metricsToTable(t *table.Table, stats map[string]map[string]int, keys []string, noUnit bool) (int, error) {
if t == nil {
return 0, ErrNilTable
}
numRows := 0
for _, alabel := range maptools.SortedKeys(stats) {
astats, ok := stats[alabel]
if !ok {
continue
}
row := []string{
alabel,
}
for _, sl := range keys {
if v, ok := astats[sl]; ok && v != 0 {
numberToShow := strconv.Itoa(v)
if !noUnit {
numberToShow = formatNumber(v)
}
row = append(row, numberToShow)
} else {
row = append(row, "-")
}
}
t.AddRow(row...)
numRows++
}
return numRows, nil
}
func (s statBucket) Description() (string, string) {
return "Scenario Metrics",
`Measure events in different scenarios. Current count is the number of buckets during metrics collection. ` +
`Overflows are past event-producing buckets, while Expired are the ones that didnt receive enough events to Overflow.`
}
func (s statBucket) Process(bucket, metric string, val int) {
if _, ok := s[bucket]; !ok {
s[bucket] = make(map[string]int)
}
s[bucket][metric] += val
}
func (s statBucket) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Scenario", "Current Count", "Overflows", "Instantiated", "Poured", "Expired")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft)
keys := []string{"curr_count", "overflow", "instantiation", "pour", "underflow"}
if numRows, err := metricsToTable(t, s, keys, noUnit); err != nil {
log.Warningf("while collecting scenario stats: %s", err)
} else if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statAcquis) Description() (string, string) {
return "Acquisition Metrics",
`Measures the lines read, parsed, and unparsed per datasource. ` +
`Zero read lines indicate a misconfigured or inactive datasource. ` +
`Zero parsed lines mean the parser(s) failed. ` +
`Non-zero parsed lines are fine as crowdsec selects relevant lines.`
}
func (s statAcquis) Process(source, metric string, val int) {
if _, ok := s[source]; !ok {
s[source] = make(map[string]int)
}
s[source][metric] += val
}
func (s statAcquis) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Source", "Lines read", "Lines parsed", "Lines unparsed", "Lines poured to bucket", "Lines whitelisted")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft)
keys := []string{"reads", "parsed", "unparsed", "pour", "whitelisted"}
if numRows, err := metricsToTable(t, s, keys, noUnit); err != nil {
log.Warningf("while collecting acquis stats: %s", err)
} else if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statAppsecEngine) Description() (string, string) {
return "Appsec Metrics",
`Measures the number of parsed and blocked requests by the AppSec Component.`
}
func (s statAppsecEngine) Process(appsecEngine, metric string, val int) {
if _, ok := s[appsecEngine]; !ok {
s[appsecEngine] = make(map[string]int)
}
s[appsecEngine][metric] += val
}
func (s statAppsecEngine) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Appsec Engine", "Processed", "Blocked")
t.SetAlignment(table.AlignLeft, table.AlignLeft)
keys := []string{"processed", "blocked"}
if numRows, err := metricsToTable(t, s, keys, noUnit); err != nil {
log.Warningf("while collecting appsec stats: %s", err)
} else if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statAppsecRule) Description() (string, string) {
return "Appsec Rule Metrics",
`Provides “per AppSec Component” information about the number of matches for loaded AppSec Rules.`
}
func (s statAppsecRule) Process(appsecEngine, appsecRule string, metric string, val int) {
if _, ok := s[appsecEngine]; !ok {
s[appsecEngine] = make(map[string]map[string]int)
}
if _, ok := s[appsecEngine][appsecRule]; !ok {
s[appsecEngine][appsecRule] = make(map[string]int)
}
s[appsecEngine][appsecRule][metric] += val
}
func (s statAppsecRule) Table(out io.Writer, noUnit bool, showEmpty bool) {
for appsecEngine, appsecEngineRulesStats := range s {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Rule ID", "Triggered")
t.SetAlignment(table.AlignLeft, table.AlignLeft)
keys := []string{"triggered"}
if numRows, err := metricsToTable(t, appsecEngineRulesStats, keys, noUnit); err != nil {
log.Warningf("while collecting appsec rules stats: %s", err)
} else if numRows > 0 || showEmpty {
renderTableTitle(out, fmt.Sprintf("\nAppsec '%s' Rules Metrics:", appsecEngine))
t.Render()
}
}
}
func (s statWhitelist) Description() (string, string) {
return "Whitelist Metrics",
`Tracks the number of events processed and possibly whitelisted by each parser whitelist.`
}
func (s statWhitelist) Process(whitelist, reason, metric string, val int) {
if _, ok := s[whitelist]; !ok {
s[whitelist] = make(map[string]map[string]int)
}
if _, ok := s[whitelist][reason]; !ok {
s[whitelist][reason] = make(map[string]int)
}
s[whitelist][reason][metric] += val
}
func (s statWhitelist) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Whitelist", "Reason", "Hits", "Whitelisted")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft)
if numRows, err := wlMetricsToTable(t, s, noUnit); err != nil {
log.Warningf("while collecting parsers stats: %s", err)
} else if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statParser) Description() (string, string) {
return "Parser Metrics",
`Tracks the number of events processed by each parser and indicates success of failure. ` +
`Zero parsed lines means the parer(s) failed. ` +
`Non-zero unparsed lines are fine as crowdsec select relevant lines.`
}
func (s statParser) Process(parser, metric string, val int) {
if _, ok := s[parser]; !ok {
s[parser] = make(map[string]int)
}
s[parser][metric] += val
}
func (s statParser) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Parsers", "Hits", "Parsed", "Unparsed")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft)
keys := []string{"hits", "parsed", "unparsed"}
if numRows, err := metricsToTable(t, s, keys, noUnit); err != nil {
log.Warningf("while collecting parsers stats: %s", err)
} else if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statStash) Description() (string, string) {
return "Parser Stash Metrics",
`Tracks the status of stashes that might be created by various parsers and scenarios.`
}
func (s statStash) Process(name, mtype string, val int) {
s[name] = struct {
Type string
Count int
}{
Type: mtype,
Count: val,
}
}
func (s statStash) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Name", "Type", "Items")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft)
// unfortunately, we can't reuse metricsToTable as the structure is too different :/
numRows := 0
for _, alabel := range maptools.SortedKeys(s) {
astats := s[alabel]
row := []string{
alabel,
astats.Type,
strconv.Itoa(astats.Count),
}
t.AddRow(row...)
numRows++
}
if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statLapi) Description() (string, string) {
return "Local API Metrics",
`Monitors the requests made to local API routes.`
}
func (s statLapi) Process(route, method string, val int) {
if _, ok := s[route]; !ok {
s[route] = make(map[string]int)
}
s[route][method] += val
}
func (s statLapi) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Route", "Method", "Hits")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft)
// unfortunately, we can't reuse metricsToTable as the structure is too different :/
numRows := 0
for _, alabel := range maptools.SortedKeys(s) {
astats := s[alabel]
subKeys := []string{}
for skey := range astats {
subKeys = append(subKeys, skey)
}
sort.Strings(subKeys)
for _, sl := range subKeys {
row := []string{
alabel,
sl,
strconv.Itoa(astats[sl]),
}
t.AddRow(row...)
numRows++
}
}
if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statLapiMachine) Description() (string, string) {
return "Local API Machines Metrics",
`Tracks the number of calls to the local API from each registered machine.`
}
func (s statLapiMachine) Process(machine, route, method string, val int) {
if _, ok := s[machine]; !ok {
s[machine] = make(map[string]map[string]int)
}
if _, ok := s[machine][route]; !ok {
s[machine][route] = make(map[string]int)
}
s[machine][route][method] += val
}
func (s statLapiMachine) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Machine", "Route", "Method", "Hits")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft)
numRows := lapiMetricsToTable(t, s)
if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statLapiBouncer) Description() (string, string) {
return "Local API Bouncers Metrics",
`Tracks total hits to remediation component related API routes.`
}
func (s statLapiBouncer) Process(bouncer, route, method string, val int) {
if _, ok := s[bouncer]; !ok {
s[bouncer] = make(map[string]map[string]int)
}
if _, ok := s[bouncer][route]; !ok {
s[bouncer][route] = make(map[string]int)
}
s[bouncer][route][method] += val
}
func (s statLapiBouncer) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Bouncer", "Route", "Method", "Hits")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft)
numRows := lapiMetricsToTable(t, s)
if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statLapiDecision) Description() (string, string) {
return "Local API Bouncers Decisions",
`Tracks the number of empty/non-empty answers from LAPI to bouncers that are working in "live" mode.`
}
func (s statLapiDecision) Process(bouncer, fam string, val int) {
if _, ok := s[bouncer]; !ok {
s[bouncer] = struct {
NonEmpty int
Empty int
}{}
}
x := s[bouncer]
switch fam {
case "cs_lapi_decisions_ko_total":
x.Empty += val
case "cs_lapi_decisions_ok_total":
x.NonEmpty += val
}
s[bouncer] = x
}
func (s statLapiDecision) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Bouncer", "Empty answers", "Non-empty answers")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft)
numRows := 0
for bouncer, hits := range s {
t.AddRow(
bouncer,
strconv.Itoa(hits.Empty),
strconv.Itoa(hits.NonEmpty),
)
numRows++
}
if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statDecision) Description() (string, string) {
return "Local API Decisions",
`Provides information about all currently active decisions. ` +
`Includes both local (crowdsec) and global decisions (CAPI), and lists subscriptions (lists).`
}
func (s statDecision) Process(reason, origin, action string, val int) {
if _, ok := s[reason]; !ok {
s[reason] = make(map[string]map[string]int)
}
if _, ok := s[reason][origin]; !ok {
s[reason][origin] = make(map[string]int)
}
s[reason][origin][action] += val
}
func (s statDecision) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Reason", "Origin", "Action", "Count")
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft, table.AlignLeft)
numRows := 0
for reason, origins := range s {
for origin, actions := range origins {
for action, hits := range actions {
t.AddRow(
reason,
origin,
action,
strconv.Itoa(hits),
)
numRows++
}
}
}
if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}
func (s statAlert) Description() (string, string) {
return "Local API Alerts",
`Tracks the total number of past and present alerts for the installed scenarios.`
}
func (s statAlert) Process(reason string, val int) {
s[reason] += val
}
func (s statAlert) Table(out io.Writer, noUnit bool, showEmpty bool) {
t := newTable(out)
t.SetRowLines(false)
t.SetHeaders("Reason", "Count")
t.SetAlignment(table.AlignLeft, table.AlignLeft)
numRows := 0
for scenario, hits := range s {
t.AddRow(
scenario,
strconv.Itoa(hits),
)
numRows++
}
if numRows > 0 || showEmpty {
title, _ := s.Description()
renderTableTitle(out, "\n"+title+":")
t.Render()
}
}