func (serv MetricsService) Query(w http.ResponseWriter, r *http.Request) { setAccessControlHeaders(w) params := http_utils.GetQueryParams(r) expr := params.Get("expr") asText := params.Get("asText") var format ast.OutputFormat // BUG(julius): Use Content-Type negotiation. if asText == "" { format = ast.JSON w.Header().Set("Content-Type", "application/json") } else { format = ast.TEXT w.Header().Set("Content-Type", "text/plain") } exprNode, err := rules.LoadExprFromString(expr) if err != nil { fmt.Fprint(w, ast.ErrorToJSON(err)) return } timestamp := clientmodel.TimestampFromTime(serv.time.Now()) queryStats := stats.NewTimerGroup() result := ast.EvalToString(exprNode, timestamp, format, serv.Storage, queryStats) glog.Infof("Instant query: %s\nQuery stats:\n%s\n", expr, queryStats) fmt.Fprint(w, result) }
func (serv MetricsService) QueryRange(expr string, end int64, duration int64, step int64) string { exprNode, err := rules.LoadExprFromString(expr) if err != nil { return ast.ErrorToJSON(err) } if exprNode.Type() != ast.VECTOR { return ast.ErrorToJSON(errors.New("Expression does not evaluate to vector type")) } rb := serv.ResponseBuilder() rb.SetContentType(gorest.Application_Json) if end == 0 { end = serv.time.Now().Unix() } if step < 1 { step = 1 } if end-duration < 0 { duration = end } // Align the start to step "tick" boundary. end -= end % step matrix, err := ast.EvalVectorRange( exprNode.(ast.VectorNode), time.Unix(end-duration, 0), time.Unix(end, 0), time.Duration(step)*time.Second) if err != nil { return ast.ErrorToJSON(err) } sort.Sort(matrix) return ast.TypedValueToJSON(matrix, "matrix") }
func (serv MetricsService) Query(expr string, formatJson string) (result string) { exprNode, err := rules.LoadExprFromString(expr) if err != nil { return ast.ErrorToJSON(err) } timestamp := serv.time.Now() rb := serv.ResponseBuilder() var format ast.OutputFormat if formatJson != "" { format = ast.JSON rb.SetContentType(gorest.Application_Json) } else { format = ast.TEXT rb.SetContentType(gorest.Text_Plain) } return ast.EvalToString(exprNode, timestamp, format) }
func (serv MetricsService) QueryRange(w http.ResponseWriter, r *http.Request) { setAccessControlHeaders(w) w.Header().Set("Content-Type", "application/json") params := http_utils.GetQueryParams(r) expr := params.Get("expr") end, _ := strconv.ParseInt(params.Get("end"), 0, 64) duration, _ := strconv.ParseInt(params.Get("range"), 0, 64) step, _ := strconv.ParseInt(params.Get("step"), 0, 64) exprNode, err := rules.LoadExprFromString(expr) if err != nil { fmt.Fprint(w, ast.ErrorToJSON(err)) return } if exprNode.Type() != ast.VECTOR { fmt.Fprint(w, ast.ErrorToJSON(errors.New("Expression does not evaluate to vector type"))) return } if end == 0 { end = clientmodel.Now().Unix() } if step < 1 { step = 1 } if end-duration < 0 { duration = end } // Align the start to step "tick" boundary. end -= end % step queryStats := stats.NewTimerGroup() evalTimer := queryStats.GetTimer(stats.TotalEvalTime).Start() matrix, err := ast.EvalVectorRange( exprNode.(ast.VectorNode), clientmodel.TimestampFromUnix(end-duration), clientmodel.TimestampFromUnix(end), time.Duration(step)*time.Second, serv.Storage, queryStats) if err != nil { fmt.Fprint(w, ast.ErrorToJSON(err)) return } evalTimer.Stop() sortTimer := queryStats.GetTimer(stats.ResultSortTime).Start() sort.Sort(matrix) sortTimer.Stop() jsonTimer := queryStats.GetTimer(stats.JsonEncodeTime).Start() result := ast.TypedValueToJSON(matrix, "matrix") jsonTimer.Stop() glog.Infof("Range query: %s\nQuery stats:\n%s\n", expr, queryStats) fmt.Fprint(w, result) }
// QueryRange handles the /api/query_range endpoint. func (serv MetricsService) QueryRange(w http.ResponseWriter, r *http.Request) { setAccessControlHeaders(w) w.Header().Set("Content-Type", "application/json") params := httputils.GetQueryParams(r) expr := params.Get("expr") // Input times and durations are in seconds and get converted to nanoseconds. endFloat, _ := strconv.ParseFloat(params.Get("end"), 64) durationFloat, _ := strconv.ParseFloat(params.Get("range"), 64) stepFloat, _ := strconv.ParseFloat(params.Get("step"), 64) nanosPerSecond := int64(time.Second / time.Nanosecond) end := int64(endFloat) * nanosPerSecond duration := int64(durationFloat) * nanosPerSecond step := int64(stepFloat) * nanosPerSecond exprNode, err := rules.LoadExprFromString(expr) if err != nil { fmt.Fprint(w, ast.ErrorToJSON(err)) return } if exprNode.Type() != ast.VectorType { fmt.Fprint(w, ast.ErrorToJSON(errors.New("expression does not evaluate to vector type"))) return } if end == 0 { end = clientmodel.Now().UnixNano() } if step <= 0 { step = nanosPerSecond } if end-duration < 0 { duration = end } // For safety, limit the number of returned points per timeseries. // This is sufficient for 60s resolution for a week or 1h resolution for a year. if duration/step > 11000 { fmt.Fprint(w, ast.ErrorToJSON(errors.New("exceeded maximum resolution of 11,000 points per timeseries. Try decreasing the query resolution (?step=XX)"))) return } // Align the start to step "tick" boundary. end -= end % step queryStats := stats.NewTimerGroup() evalTimer := queryStats.GetTimer(stats.TotalEvalTime).Start() matrix, err := ast.EvalVectorRange( exprNode.(ast.VectorNode), clientmodel.TimestampFromUnixNano(end-duration), clientmodel.TimestampFromUnixNano(end), time.Duration(step), serv.Storage, queryStats) if err != nil { fmt.Fprint(w, ast.ErrorToJSON(err)) return } evalTimer.Stop() sortTimer := queryStats.GetTimer(stats.ResultSortTime).Start() sort.Sort(matrix) sortTimer.Stop() jsonTimer := queryStats.GetTimer(stats.JSONEncodeTime).Start() result := ast.TypedValueToJSON(matrix, "matrix") jsonTimer.Stop() glog.V(1).Infof("Range query: %s\nQuery stats:\n%s\n", expr, queryStats) fmt.Fprint(w, result) }