package vlselect import ( "embed" "flag" "fmt" "net/http" "strings" "time" "github.com/VictoriaMetrics/VictoriaMetrics/app/vlselect/logsql" "github.com/VictoriaMetrics/VictoriaMetrics/lib/cgroup" "github.com/VictoriaMetrics/VictoriaMetrics/lib/httpserver" "github.com/VictoriaMetrics/VictoriaMetrics/lib/httputils" "github.com/VictoriaMetrics/VictoriaMetrics/lib/logger" "github.com/VictoriaMetrics/VictoriaMetrics/lib/timerpool" "github.com/VictoriaMetrics/metrics" ) var ( maxConcurrentRequests = flag.Int("search.maxConcurrentRequests", getDefaultMaxConcurrentRequests(), "The maximum number of concurrent search requests. "+ "It shouldn't be high, since a single request can saturate all the CPU cores, while many concurrently executed requests may require high amounts of memory. "+ "See also -search.maxQueueDuration") maxQueueDuration = flag.Duration("search.maxQueueDuration", 10*time.Second, "The maximum time the search request waits for execution when -search.maxConcurrentRequests "+ "limit is reached; see also -search.maxQueryDuration") maxQueryDuration = flag.Duration("search.maxQueryDuration", time.Second*30, "The maximum duration for query execution") ) func getDefaultMaxConcurrentRequests() int { n := cgroup.AvailableCPUs() if n <= 4 { n *= 2 } if n > 16 { // A single request can saturate all the CPU cores, so there is no sense // in allowing higher number of concurrent requests - they will just contend // for unavailable CPU time. n = 16 } return n } // Init initializes vlselect func Init() { concurrencyLimitCh = make(chan struct{}, *maxConcurrentRequests) } // Stop stops vlselect func Stop() { } var concurrencyLimitCh chan struct{} var ( concurrencyLimitReached = metrics.NewCounter(`vl_concurrent_select_limit_reached_total`) concurrencyLimitTimeout = metrics.NewCounter(`vl_concurrent_select_limit_timeout_total`) _ = metrics.NewGauge(`vl_concurrent_select_capacity`, func() float64 { return float64(cap(concurrencyLimitCh)) }) _ = metrics.NewGauge(`vl_concurrent_select_current`, func() float64 { return float64(len(concurrencyLimitCh)) }) ) //go:embed vmui var vmuiFiles embed.FS var vmuiFileServer = http.FileServer(http.FS(vmuiFiles)) // RequestHandler handles select requests for VictoriaLogs func RequestHandler(w http.ResponseWriter, r *http.Request) bool { path := r.URL.Path if !strings.HasPrefix(path, "/select/") { // Skip requests, which do not start with /select/, since these aren't our requests. return false } path = strings.TrimPrefix(path, "/select") path = strings.ReplaceAll(path, "//", "/") if path == "/vmui" { // VMUI access via incomplete url without `/` in the end. Redirect to complete url. // Use relative redirect, since the hostname and path prefix may be incorrect if VictoriaMetrics // is hidden behind vmauth or similar proxy. _ = r.ParseForm() newURL := "vmui/?" + r.Form.Encode() httpserver.Redirect(w, newURL) return true } if strings.HasPrefix(path, "/vmui/") { if strings.HasPrefix(path, "/vmui/static/") { // Allow clients caching static contents for long period of time, since it shouldn't change over time. // Path to static contents (such as js and css) must be changed whenever its contents is changed. // See https://developer.chrome.com/docs/lighthouse/performance/uses-long-cache-ttl/ w.Header().Set("Cache-Control", "max-age=31536000") } r.URL.Path = path vmuiFileServer.ServeHTTP(w, r) return true } // Limit the number of concurrent queries, which can consume big amounts of CPU. startTime := time.Now() stopCh := r.Context().Done() select { case concurrencyLimitCh <- struct{}{}: defer func() { <-concurrencyLimitCh }() default: // Sleep for a while until giving up. This should resolve short bursts in requests. concurrencyLimitReached.Inc() d := getMaxQueryDuration(r) if d > *maxQueueDuration { d = *maxQueueDuration } t := timerpool.Get(d) select { case concurrencyLimitCh <- struct{}{}: timerpool.Put(t) defer func() { <-concurrencyLimitCh }() case <-stopCh: timerpool.Put(t) remoteAddr := httpserver.GetQuotedRemoteAddr(r) requestURI := httpserver.GetRequestURI(r) logger.Infof("client has cancelled the request after %.3f seconds: remoteAddr=%s, requestURI: %q", time.Since(startTime).Seconds(), remoteAddr, requestURI) return true case <-t.C: timerpool.Put(t) concurrencyLimitTimeout.Inc() err := &httpserver.ErrorWithStatusCode{ Err: fmt.Errorf("couldn't start executing the request in %.3f seconds, since -search.maxConcurrentRequests=%d concurrent requests "+ "are executed. Possible solutions: to reduce query load; to add more compute resources to the server; "+ "to increase -search.maxQueueDuration=%s; to increase -search.maxQueryDuration; to increase -search.maxConcurrentRequests", d.Seconds(), *maxConcurrentRequests, maxQueueDuration), StatusCode: http.StatusServiceUnavailable, } httpserver.Errorf(w, r, "%s", err) return true } } switch { case path == "/logsql/query": logsqlQueryRequests.Inc() httpserver.EnableCORS(w, r) logsql.ProcessQueryRequest(w, r, stopCh) return true default: return false } } // getMaxQueryDuration returns the maximum duration for query from r. func getMaxQueryDuration(r *http.Request) time.Duration { dms, err := httputils.GetDuration(r, "timeout", 0) if err != nil { dms = 0 } d := time.Duration(dms) * time.Millisecond if d <= 0 || d > *maxQueryDuration { d = *maxQueryDuration } return d } var ( logsqlQueryRequests = metrics.NewCounter(`vl_http_requests_total{path="/select/logsql/query"}`) )