package dnsfilter import ( "encoding/json" "fmt" "log" "net/http" "sync" "time" "github.com/coredns/coredns/plugin" "github.com/prometheus/client_golang/prometheus" ) var ( requests = newDNSCounter("requests_total", "Count of requests seen by dnsfilter.") filtered = newDNSCounter("filtered_total", "Count of requests filtered by dnsfilter.") filteredLists = newDNSCounter("filtered_lists_total", "Count of requests filtered by dnsfilter using lists.") filteredSafebrowsing = newDNSCounter("filtered_safebrowsing_total", "Count of requests filtered by dnsfilter using safebrowsing.") filteredParental = newDNSCounter("filtered_parental_total", "Count of requests filtered by dnsfilter using parental.") filteredInvalid = newDNSCounter("filtered_invalid_total", "Count of requests filtered by dnsfilter because they were invalid.") whitelisted = newDNSCounter("whitelisted_total", "Count of requests not filtered by dnsfilter because they are whitelisted.") safesearch = newDNSCounter("safesearch_total", "Count of requests replaced by dnsfilter safesearch.") errorsTotal = newDNSCounter("errors_total", "Count of requests that dnsfilter couldn't process because of transitive errors.") elapsedTime = newDNSHistogram("request_duration", "Histogram of the time (in seconds) each request took.") ) // entries for single time period (for example all per-second entries) type statsEntries map[string][statsHistoryElements]float64 // how far back to keep the stats const statsHistoryElements = 60 + 1 // +1 for calculating delta // each periodic stat is a map of arrays type periodicStats struct { Entries statsEntries period time.Duration // how long one entry lasts LastRotate time.Time // last time this data was rotated sync.RWMutex } type stats struct { PerSecond periodicStats PerMinute periodicStats PerHour periodicStats PerDay periodicStats } // per-second/per-minute/per-hour/per-day stats var statistics stats func initPeriodicStats(periodic *periodicStats, period time.Duration) { periodic.Entries = statsEntries{} periodic.LastRotate = time.Now() periodic.period = period } func init() { purgeStats() } func purgeStats() { initPeriodicStats(&statistics.PerSecond, time.Second) initPeriodicStats(&statistics.PerMinute, time.Minute) initPeriodicStats(&statistics.PerHour, time.Hour) initPeriodicStats(&statistics.PerDay, time.Hour*24) } func (p *periodicStats) Inc(name string, when time.Time) { // calculate how many periods ago this happened elapsed := int64(time.Since(when) / p.period) // trace("%s: %v as %v -> [%v]", name, time.Since(when), p.period, elapsed) if elapsed >= statsHistoryElements { return // outside of our timeframe } p.Lock() currentValues := p.Entries[name] currentValues[elapsed]++ p.Entries[name] = currentValues p.Unlock() } func (p *periodicStats) Observe(name string, when time.Time, value float64) { // calculate how many periods ago this happened elapsed := int64(time.Since(when) / p.period) // trace("%s: %v as %v -> [%v]", name, time.Since(when), p.period, elapsed) if elapsed >= statsHistoryElements { return // outside of our timeframe } p.Lock() { countname := name + "_count" currentValues := p.Entries[countname] value := currentValues[elapsed] // trace("Will change p.Entries[%s][%d] from %v to %v", countname, elapsed, value, value+1) value += 1 currentValues[elapsed] = value p.Entries[countname] = currentValues } { totalname := name + "_sum" currentValues := p.Entries[totalname] currentValues[elapsed] += value p.Entries[totalname] = currentValues } p.Unlock() } func (p *periodicStats) statsRotate(now time.Time) { p.Lock() rotations := int64(now.Sub(p.LastRotate) / p.period) if rotations > statsHistoryElements { rotations = statsHistoryElements } // calculate how many times we should rotate for r := int64(0); r < rotations; r++ { for key, values := range p.Entries { newValues := [statsHistoryElements]float64{} for i := 1; i < len(values); i++ { newValues[i] = values[i-1] } p.Entries[key] = newValues } } if rotations > 0 { p.LastRotate = now } p.Unlock() } func statsRotator() { for range time.Tick(time.Second) { now := time.Now() statistics.PerSecond.statsRotate(now) statistics.PerMinute.statsRotate(now) statistics.PerHour.statsRotate(now) statistics.PerDay.statsRotate(now) } } // counter that wraps around prometheus Counter but also adds to periodic stats type counter struct { name string // used as key in periodic stats value int64 prom prometheus.Counter } func newDNSCounter(name string, help string) *counter { // trace("called") c := &counter{} c.prom = prometheus.NewCounter(prometheus.CounterOpts{ Namespace: plugin.Namespace, Subsystem: "dnsfilter", Name: name, Help: help, }) c.name = name return c } func (c *counter) IncWithTime(when time.Time) { statistics.PerSecond.Inc(c.name, when) statistics.PerMinute.Inc(c.name, when) statistics.PerHour.Inc(c.name, when) statistics.PerDay.Inc(c.name, when) c.value++ c.prom.Inc() } func (c *counter) Inc() { c.IncWithTime(time.Now()) } func (c *counter) Describe(ch chan<- *prometheus.Desc) { c.prom.Describe(ch) } func (c *counter) Collect(ch chan<- prometheus.Metric) { c.prom.Collect(ch) } type histogram struct { name string // used as key in periodic stats count int64 total float64 prom prometheus.Histogram } func newDNSHistogram(name string, help string) *histogram { // trace("called") h := &histogram{} h.prom = prometheus.NewHistogram(prometheus.HistogramOpts{ Namespace: plugin.Namespace, Subsystem: "dnsfilter", Name: name, Help: help, }) h.name = name return h } func (h *histogram) ObserveWithTime(value float64, when time.Time) { statistics.PerSecond.Observe(h.name, when, value) statistics.PerMinute.Observe(h.name, when, value) statistics.PerHour.Observe(h.name, when, value) statistics.PerDay.Observe(h.name, when, value) h.count++ h.total += value h.prom.Observe(value) } func (h *histogram) Observe(value float64) { h.ObserveWithTime(value, time.Now()) } func (h *histogram) Describe(ch chan<- *prometheus.Desc) { h.prom.Describe(ch) } func (h *histogram) Collect(ch chan<- prometheus.Metric) { h.prom.Collect(ch) } // ----- // stats // ----- func handleStats(w http.ResponseWriter, r *http.Request) { histrical := generateMapFromStats(&statistics.PerHour, 0, 24) // sum them up summed := map[string]interface{}{} for key, values := range histrical { summedValue := 0.0 floats, ok := values.([]float64) if !ok { continue } for _, v := range floats { summedValue += v } summed[key] = summedValue } summed["stats_period"] = "24 hours" json, err := json.Marshal(summed) if err != nil { errortext := fmt.Sprintf("Unable to marshal status json: %s", err) log.Println(errortext) http.Error(w, errortext, 500) return } w.Header().Set("Content-Type", "application/json") _, err = w.Write(json) if err != nil { errortext := fmt.Sprintf("Unable to write response json: %s", err) log.Println(errortext) http.Error(w, errortext, 500) return } } func generateMapFromStats(stats *periodicStats, start int, end int) map[string]interface{} { // clamp start = clamp(start, 0, statsHistoryElements) end = clamp(end, 0, statsHistoryElements) avgProcessingTime := make([]float64, 0) count := getReversedSlice(stats.Entries[elapsedTime.name+"_count"], start, end) sum := getReversedSlice(stats.Entries[elapsedTime.name+"_sum"], start, end) for i := 0; i < len(count); i++ { var avg float64 if count[i] != 0 { avg = sum[i] / count[i] avg *= 1000 } avgProcessingTime = append(avgProcessingTime, avg) } result := map[string]interface{}{ "dns_queries": getReversedSlice(stats.Entries[requests.name], start, end), "blocked_filtering": getReversedSlice(stats.Entries[filtered.name], start, end), "replaced_safebrowsing": getReversedSlice(stats.Entries[filteredSafebrowsing.name], start, end), "replaced_safesearch": getReversedSlice(stats.Entries[safesearch.name], start, end), "replaced_parental": getReversedSlice(stats.Entries[filteredParental.name], start, end), "avg_processing_time": avgProcessingTime, } return result } func handleStatsHistory(w http.ResponseWriter, r *http.Request) { // handle time unit and prepare our time window size now := time.Now() timeUnitString := r.URL.Query().Get("time_unit") var stats *periodicStats var timeUnit time.Duration switch timeUnitString { case "seconds": timeUnit = time.Second stats = &statistics.PerSecond case "minutes": timeUnit = time.Minute stats = &statistics.PerMinute case "hours": timeUnit = time.Hour stats = &statistics.PerHour case "days": timeUnit = time.Hour * 24 stats = &statistics.PerDay default: http.Error(w, "Must specify valid time_unit parameter", 400) return } // parse start and end time startTime, err := time.Parse(time.RFC3339, r.URL.Query().Get("start_time")) if err != nil { errortext := fmt.Sprintf("Must specify valid start_time parameter: %s", err) log.Println(errortext) http.Error(w, errortext, 400) return } endTime, err := time.Parse(time.RFC3339, r.URL.Query().Get("end_time")) if err != nil { errortext := fmt.Sprintf("Must specify valid end_time parameter: %s", err) log.Println(errortext) http.Error(w, errortext, 400) return } // check if start and time times are within supported time range timeRange := timeUnit * statsHistoryElements if startTime.Add(timeRange).Before(now) { http.Error(w, "start_time parameter is outside of supported range", 501) return } if endTime.Add(timeRange).Before(now) { http.Error(w, "end_time parameter is outside of supported range", 501) return } // calculate start and end of our array // basically it's how many hours/minutes/etc have passed since now start := int(now.Sub(endTime) / timeUnit) end := int(now.Sub(startTime) / timeUnit) // swap them around if they're inverted if start > end { start, end = end, start } data := generateMapFromStats(stats, start, end) json, err := json.Marshal(data) if err != nil { errortext := fmt.Sprintf("Unable to marshal status json: %s", err) log.Println(errortext) http.Error(w, errortext, 500) return } w.Header().Set("Content-Type", "application/json") _, err = w.Write(json) if err != nil { errortext := fmt.Sprintf("Unable to write response json: %s", err) log.Println(errortext) http.Error(w, errortext, 500) return } } func clamp(value, low, high int) int { if value < low { return low } if value > high { return high } return value } // -------------------------- // helper functions for stats // -------------------------- func getReversedSlice(input [statsHistoryElements]float64, start int, end int) []float64 { output := make([]float64, 0) for i := start; i <= end; i++ { output = append([]float64{input[i]}, output...) } return output }