import moment from 'moment'; import type {TableData} from 'sentry/utils/discover/discoverQuery'; import {useDiscoverQuery} from 'sentry/utils/discover/discoverQuery'; import type {EventsMetaType, MetaType} from 'sentry/utils/discover/eventView'; import type EventView from 'sentry/utils/discover/eventView'; import {encodeSort} from 'sentry/utils/discover/eventView'; import type {DiscoverQueryProps} from 'sentry/utils/discover/genericDiscoverQuery'; import {useGenericDiscoverQuery} from 'sentry/utils/discover/genericDiscoverQuery'; import {useLocation} from 'sentry/utils/useLocation'; import useOrganization from 'sentry/utils/useOrganization'; import usePageFilters from 'sentry/utils/usePageFilters'; import { getRetryDelay, shouldRetryHandler, } from 'sentry/views/insights/common/utils/retryHandlers'; import {TrackResponse} from 'sentry/views/insights/common/utils/trackResponse'; export const DATE_FORMAT = 'YYYY-MM-DDTHH:mm:ssZ'; export function useSpansQuery({ eventView, initialData, limit, enabled, referrer = 'use-spans-query', cursor, }: { cursor?: string; enabled?: boolean; eventView?: EventView; initialData?: T; limit?: number; referrer?: string; }) { const isTimeseriesQuery = (eventView?.yAxis?.length ?? 0) > 0; const queryFunction = isTimeseriesQuery ? useWrappedDiscoverTimeseriesQuery : useWrappedDiscoverQuery; const {isReady: pageFiltersReady} = usePageFilters(); if (eventView) { const newEventView = eventView.clone(); const response = queryFunction({ eventView: newEventView, initialData, limit, // We always want to wait until the pageFilters are ready to prevent clobbering requests enabled: (enabled || enabled === undefined) && pageFiltersReady, referrer, cursor, }); TrackResponse(eventView, response); return response; } throw new Error('eventView argument must be defined when Starfish useDiscover is true'); } export function useWrappedDiscoverTimeseriesQuery({ eventView, enabled, initialData, referrer, cursor, overriddenRoute, }: { eventView: EventView; cursor?: string; enabled?: boolean; initialData?: any; overriddenRoute?: string; referrer?: string; }) { const location = useLocation(); const organization = useOrganization(); const {isReady: pageFiltersReady} = usePageFilters(); const result = useGenericDiscoverQuery< { data: any[]; meta: MetaType; }, DiscoverQueryProps >({ route: overriddenRoute ?? 'events-stats', eventView, location, orgSlug: organization.slug, getRequestPayload: () => ({ ...eventView.getEventsAPIPayload(location), yAxis: eventView.yAxis, topEvents: eventView.topEvents, excludeOther: 0, partial: 1, orderby: eventView.sorts?.[0] ? encodeSort(eventView.sorts?.[0]) : undefined, interval: eventView.interval, cursor, }), options: { enabled: enabled && pageFiltersReady, refetchOnWindowFocus: false, retry: shouldRetryHandler, retryDelay: getRetryDelay, staleTime: Infinity, }, referrer, }); const isFetchingOrLoading = result.isLoading || result.isFetching; const defaultData = initialData ?? undefined; const data: T = isFetchingOrLoading ? defaultData : processDiscoverTimeseriesResult(result.data, eventView); const pageLinks = result.response?.getResponseHeader('Link') ?? undefined; return { ...result, pageLinks, data, meta: result.data?.meta, }; } export function useWrappedDiscoverQuery({ eventView, initialData, enabled, referrer, limit, cursor, }: { eventView: EventView; cursor?: string; enabled?: boolean; initialData?: T; limit?: number; referrer?: string; }) { const location = useLocation(); const organization = useOrganization(); const {isReady: pageFiltersReady} = usePageFilters(); const result = useDiscoverQuery({ eventView, orgSlug: organization.slug, location, referrer, cursor, limit, options: { enabled: enabled && pageFiltersReady, refetchOnWindowFocus: false, retry: shouldRetryHandler, retryDelay: getRetryDelay, staleTime: Infinity, }, }); // TODO: useDiscoverQuery incorrectly states that it returns MetaType, but it // does not! const meta = result.data?.meta as EventsMetaType | undefined; const data = result.isLoading && initialData ? initialData : (result.data?.data as T | undefined); return { ...result, data, meta, }; } type Interval = {interval: string; group?: string}; function processDiscoverTimeseriesResult( result: TableData | undefined, eventView: EventView ) { if (!result) { return undefined; } if (!eventView.yAxis) { return []; } const firstYAxis = typeof eventView.yAxis === 'string' ? eventView.yAxis : eventView.yAxis[0]; if (result.data) { // Result data only returned one series. This means there was only only one yAxis requested, and no sub-series. Iterate the data, and return the result return processSingleDiscoverTimeseriesResult(result, firstYAxis).map(data => ({ interval: moment(parseInt(data.interval, 10) * 1000).format(DATE_FORMAT), [firstYAxis]: data[firstYAxis], group: data.group, })); } let intervals = [] as Interval[]; // Result data had more than one series, grouped by a key. This means either multiple yAxes were requested _or_ a top-N query was set. Iterate the keys, and construct a series for each one. Object.keys(result).forEach(key => { // Each key has just one timeseries. Either this is a simple multi-axis query, or a top-N query with just one axis if (result[key].data) { intervals = mergeIntervals( intervals, processSingleDiscoverTimeseriesResult(result[key], key) ); } else { // Each key has more than one timeseries. This is a multi-axis top-N query. Iterate each series, but this time set both the key _and_ the group Object.keys(result[key]).forEach(innerKey => { if (innerKey !== 'order') { // `order` is a special value, each series has it in a multi-series query intervals = mergeIntervals( intervals, processSingleDiscoverTimeseriesResult(result[key][innerKey], innerKey, key) ); } }); } }); const processed = intervals.map(interval => ({ ...interval, interval: moment(parseInt(interval.interval, 10) * 1000).format(DATE_FORMAT), })); return processed; } function processSingleDiscoverTimeseriesResult(result, key: string, group?: string) { const intervals = [] as Interval[]; result.data.forEach(([timestamp, [{count: value}]]) => { const existingInterval = intervals.find( interval => interval.interval === timestamp && (group ? interval.group === group : true) ); if (existingInterval) { existingInterval[key] = value; return; } intervals.push({ interval: timestamp, [key]: value, group, }); }); return intervals; } function mergeIntervals(first: Interval[], second: Interval[]) { const target: Interval[] = JSON.parse(JSON.stringify(first)); second.forEach(({interval: timestamp, group, ...rest}) => { const existingInterval = target.find( interval => interval.interval === timestamp && (group ? interval.group === group : true) ); if (existingInterval) { Object.keys(rest).forEach(key => { existingInterval[key] = rest[key]; }); return; } target.push({interval: timestamp, group, ...rest}); }); return target; }