import type { Booking, Prisma, EventType as PrismaEventType } from "@prisma/client"; import { z } from "zod"; import type { Dayjs } from "@calcom/dayjs"; import dayjs from "@calcom/dayjs"; import { parseBookingLimit, parseDurationLimit } from "@calcom/lib"; import { getWorkingHours } from "@calcom/lib/availability"; import { buildDateRanges, subtract } from "@calcom/lib/date-ranges"; import { HttpError } from "@calcom/lib/http-error"; import { descendingLimitKeys, intervalLimitKeyToUnit } from "@calcom/lib/intervalLimit"; import logger from "@calcom/lib/logger"; import { safeStringify } from "@calcom/lib/safeStringify"; import { checkBookingLimit } from "@calcom/lib/server"; import { performance } from "@calcom/lib/server/perfObserver"; import { getTotalBookingDuration } from "@calcom/lib/server/queries"; import prisma, { availabilityUserSelect } from "@calcom/prisma"; import { BookingStatus } from "@calcom/prisma/enums"; import { credentialForCalendarServiceSelect } from "@calcom/prisma/selects/credential"; import { EventTypeMetaDataSchema, stringToDayjs } from "@calcom/prisma/zod-utils"; import type { EventBusyDate, EventBusyDetails, IntervalLimit, IntervalLimitUnit, } from "@calcom/types/Calendar"; import { getBusyTimes, getBusyTimesForLimitChecks } from "./getBusyTimes"; import monitorCallbackAsync, { monitorCallbackSync } from "./sentryWrapper"; const log = logger.getSubLogger({ prefix: ["getUserAvailability"] }); const availabilitySchema = z .object({ dateFrom: stringToDayjs, dateTo: stringToDayjs, eventTypeId: z.number().optional(), username: z.string().optional(), userId: z.number().optional(), afterEventBuffer: z.number().optional(), beforeEventBuffer: z.number().optional(), duration: z.number().optional(), withSource: z.boolean().optional(), }) .refine((data) => !!data.username || !!data.userId, "Either username or userId should be filled in."); const getEventType = async ( ...args: Parameters ): Promise> => { return monitorCallbackAsync(_getEventType, ...args); }; const _getEventType = async (id: number) => { const eventType = await prisma.eventType.findUnique({ where: { id }, select: { id: true, seatsPerTimeSlot: true, bookingLimits: true, durationLimits: true, timeZone: true, length: true, metadata: true, schedule: { select: { availability: { select: { days: true, date: true, startTime: true, endTime: true, }, }, timeZone: true, }, }, availability: { select: { startTime: true, endTime: true, days: true, date: true, }, }, }, }); if (!eventType) { return eventType; } return { ...eventType, metadata: EventTypeMetaDataSchema.parse(eventType.metadata), }; }; type EventType = Awaited>; const getUser = (...args: Parameters): ReturnType => { return monitorCallbackSync(_getUser, ...args); }; const _getUser = (where: Prisma.UserWhereInput) => prisma.user.findFirst({ where, select: { ...availabilityUserSelect, credentials: { select: credentialForCalendarServiceSelect, }, }, }); type User = Awaited>; export const getCurrentSeats = ( ...args: Parameters ): ReturnType => { return monitorCallbackSync(_getCurrentSeats, ...args); }; const _getCurrentSeats = (eventTypeId: number, dateFrom: Dayjs, dateTo: Dayjs) => prisma.booking.findMany({ where: { eventTypeId, startTime: { gte: dateFrom.format(), lte: dateTo.format(), }, status: BookingStatus.ACCEPTED, }, select: { uid: true, startTime: true, _count: { select: { attendees: true, }, }, }, }); export type CurrentSeats = Awaited>; export const getUserAvailability = async ( ...args: Parameters ): Promise> => { return monitorCallbackAsync(_getUserAvailability, ...args); }; /** This should be called getUsersWorkingHoursAndBusySlots (...and remaining seats, and final timezone) */ const _getUserAvailability = async function getUsersWorkingHoursLifeTheUniverseAndEverythingElse( query: { withSource?: boolean; username?: string; userId?: number; dateFrom: string; dateTo: string; eventTypeId?: number; afterEventBuffer?: number; beforeEventBuffer?: number; duration?: number; }, initialData?: { user?: User; eventType?: EventType; currentSeats?: CurrentSeats; rescheduleUid?: string | null; currentBookings?: (Pick & { eventType: Pick< PrismaEventType, "id" | "beforeEventBuffer" | "afterEventBuffer" | "seatsPerTimeSlot" > | null; _count?: { seatsReferences: number; }; })[]; } ) { const { username, userId, dateFrom, dateTo, eventTypeId, afterEventBuffer, beforeEventBuffer, duration } = availabilitySchema.parse(query); if (!dateFrom.isValid() || !dateTo.isValid()) { throw new HttpError({ statusCode: 400, message: "Invalid time range given." }); } const where: Prisma.UserWhereInput = {}; if (username) where.username = username; if (userId) where.id = userId; const user = initialData?.user || (await getUser(where)); if (!user) throw new HttpError({ statusCode: 404, message: "No user found in getUserAvailability" }); log.debug( "getUserAvailability for user", safeStringify({ user: { id: user.id }, slot: { dateFrom, dateTo } }) ); let eventType: EventType | null = initialData?.eventType || null; if (!eventType && eventTypeId) eventType = await getEventType(eventTypeId); /* Current logic is if a booking is in a time slot mark it as busy, but seats can have more than one attendee so grab current bookings with a seats event type and display them on the calendar, even if they are full */ let currentSeats: CurrentSeats | null = initialData?.currentSeats || null; if (!currentSeats && eventType?.seatsPerTimeSlot) { currentSeats = await getCurrentSeats(eventType.id, dateFrom, dateTo); } const bookingLimits = parseBookingLimit(eventType?.bookingLimits); const durationLimits = parseDurationLimit(eventType?.durationLimits); const busyTimesFromLimits = eventType && (bookingLimits || durationLimits) ? await getBusyTimesFromLimits( bookingLimits, durationLimits, dateFrom, dateTo, duration, eventType, user.id, initialData?.rescheduleUid ) : []; // TODO: only query what we need after applying limits (shrink date range) const getBusyTimesStart = dateFrom.toISOString(); const getBusyTimesEnd = dateTo.toISOString(); const busyTimes = await getBusyTimes({ credentials: user.credentials, startTime: getBusyTimesStart, endTime: getBusyTimesEnd, eventTypeId, userId: user.id, userEmail: user.email, username: `${user.username}`, beforeEventBuffer, afterEventBuffer, selectedCalendars: user.selectedCalendars, seatedEvent: !!eventType?.seatsPerTimeSlot, rescheduleUid: initialData?.rescheduleUid || null, duration, currentBookings: initialData?.currentBookings, }); const detailedBusyTimes: EventBusyDetails[] = [ ...busyTimes.map((a) => ({ ...a, start: dayjs(a.start).toISOString(), end: dayjs(a.end).toISOString(), title: a.title, source: query.withSource ? a.source : undefined, })), ...busyTimesFromLimits, ]; const userSchedule = user.schedules.filter( (schedule) => !user?.defaultScheduleId || schedule.id === user?.defaultScheduleId )[0]; const useHostSchedulesForTeamEvent = eventType?.metadata?.config?.useHostSchedulesForTeamEvent; const schedule = !useHostSchedulesForTeamEvent && eventType?.schedule ? eventType.schedule : userSchedule; log.debug( "Using schedule:", safeStringify({ chosenSchedule: schedule, eventTypeSchedule: eventType?.schedule, userSchedule: userSchedule, useHostSchedulesForTeamEvent: eventType?.metadata?.config?.useHostSchedulesForTeamEvent, }) ); const startGetWorkingHours = performance.now(); const timeZone = schedule?.timeZone || eventType?.timeZone || user.timeZone; const availability = ( schedule.availability || (eventType?.availability.length ? eventType.availability : user.availability) ).map((a) => ({ ...a, userId: user.id, })); const workingHours = getWorkingHours({ timeZone }, availability); const endGetWorkingHours = performance.now(); const dateOverrides = availability .filter((availability) => !!availability.date) .map((override) => { const startTime = dayjs.utc(override.startTime); const endTime = dayjs.utc(override.endTime); return { start: dayjs.utc(override.date).hour(startTime.hour()).minute(startTime.minute()).toDate(), end: dayjs.utc(override.date).hour(endTime.hour()).minute(endTime.minute()).toDate(), }; }); const dateRanges = buildDateRanges({ dateFrom, dateTo, availability, timeZone, }); const formattedBusyTimes = detailedBusyTimes.map((busy) => ({ start: dayjs(busy.start), end: dayjs(busy.end), })); const dateRangesInWhichUserIsAvailable = subtract(dateRanges, formattedBusyTimes); log.debug( `getWorkingHours took ${endGetWorkingHours - startGetWorkingHours}ms for userId ${userId}`, JSON.stringify({ workingHoursInUtc: workingHours, dateOverrides, dateRangesAsPerAvailability: dateRanges, dateRangesInWhichUserIsAvailable, detailedBusyTimes, }) ); return { busy: detailedBusyTimes, timeZone, dateRanges: dateRangesInWhichUserIsAvailable, workingHours, dateOverrides, currentSeats, }; }; const getPeriodStartDatesBetween = ( ...args: Parameters ): ReturnType => { return monitorCallbackSync(_getPeriodStartDatesBetween, ...args); }; const _getPeriodStartDatesBetween = (dateFrom: Dayjs, dateTo: Dayjs, period: IntervalLimitUnit) => { const dates = []; let startDate = dayjs(dateFrom).startOf(period); const endDate = dayjs(dateTo).endOf(period); while (startDate.isBefore(endDate)) { dates.push(startDate); startDate = startDate.add(1, period); } return dates; }; type BusyMapKey = `${IntervalLimitUnit}-${ReturnType}`; /** * Helps create, check, and return busy times from limits (with parallel support) */ class LimitManager { private busyMap: Map = new Map(); /** * Creates a busy map key */ private static createKey(start: Dayjs, unit: IntervalLimitUnit): BusyMapKey { return `${unit}-${start.startOf(unit).toISOString()}`; } /** * Checks if already marked busy by ancestors or siblings */ isAlreadyBusy(start: Dayjs, unit: IntervalLimitUnit) { if (this.busyMap.has(LimitManager.createKey(start, "year"))) return true; if (unit === "month" && this.busyMap.has(LimitManager.createKey(start, "month"))) { return true; } else if ( unit === "week" && // weeks can be part of two months ((this.busyMap.has(LimitManager.createKey(start, "month")) && this.busyMap.has(LimitManager.createKey(start.endOf("week"), "month"))) || this.busyMap.has(LimitManager.createKey(start, "week"))) ) { return true; } else if ( unit === "day" && (this.busyMap.has(LimitManager.createKey(start, "month")) || this.busyMap.has(LimitManager.createKey(start, "week")) || this.busyMap.has(LimitManager.createKey(start, "day"))) ) { return true; } else { return false; } } /** * Adds a new busy time */ addBusyTime(start: Dayjs, unit: IntervalLimitUnit) { this.busyMap.set(`${unit}-${start.toISOString()}`, { start: start.toISOString(), end: start.endOf(unit).toISOString(), }); } /** * Returns all busy times */ getBusyTimes() { return Array.from(this.busyMap.values()); } } const getBusyTimesFromLimits = async ( ...args: Parameters ): Promise> => { return monitorCallbackAsync(_getBusyTimesFromLimits, ...args); }; const _getBusyTimesFromLimits = async ( bookingLimits: IntervalLimit | null, durationLimits: IntervalLimit | null, dateFrom: Dayjs, dateTo: Dayjs, duration: number | undefined, eventType: NonNullable, userId: number, rescheduleUid?: string | null ) => { performance.mark("limitsStart"); // shared amongst limiters to prevent processing known busy periods const limitManager = new LimitManager(); let limitDateFrom = dayjs(dateFrom); let limitDateTo = dayjs(dateTo); // expand date ranges by absolute minimum required to apply limits // (yearly limits are handled separately for performance) for (const key of ["PER_MONTH", "PER_WEEK", "PER_DAY"] as Exclude[]) { if (bookingLimits?.[key] || durationLimits?.[key]) { const unit = intervalLimitKeyToUnit(key); limitDateFrom = dayjs.min(limitDateFrom, dateFrom.startOf(unit)); limitDateTo = dayjs.max(limitDateTo, dateTo.endOf(unit)); } } // fetch only the data we need to check limits const bookings = await getBusyTimesForLimitChecks({ userId, eventTypeId: eventType.id, startDate: limitDateFrom.toDate(), endDate: limitDateTo.toDate(), rescheduleUid: rescheduleUid, }); // run this first, as counting bookings should always run faster.. if (bookingLimits) { performance.mark("bookingLimitsStart"); await getBusyTimesFromBookingLimits( bookings, bookingLimits, dateFrom, dateTo, eventType.id, limitManager ); performance.mark("bookingLimitsEnd"); performance.measure(`checking booking limits took $1'`, "bookingLimitsStart", "bookingLimitsEnd"); } // ..than adding up durations (especially for the whole year) if (durationLimits) { performance.mark("durationLimitsStart"); await getBusyTimesFromDurationLimits( bookings, durationLimits, dateFrom, dateTo, duration, eventType, limitManager ); performance.mark("durationLimitsEnd"); performance.measure(`checking duration limits took $1'`, "durationLimitsStart", "durationLimitsEnd"); } performance.mark("limitsEnd"); performance.measure(`checking all limits took $1'`, "limitsStart", "limitsEnd"); return limitManager.getBusyTimes(); }; const getBusyTimesFromBookingLimits = async ( ...args: Parameters ): Promise> => { return monitorCallbackAsync(_getBusyTimesFromBookingLimits, ...args); }; const _getBusyTimesFromBookingLimits = async ( bookings: EventBusyDetails[], bookingLimits: IntervalLimit, dateFrom: Dayjs, dateTo: Dayjs, eventTypeId: number, limitManager: LimitManager ) => { for (const key of descendingLimitKeys) { const limit = bookingLimits?.[key]; if (!limit) continue; const unit = intervalLimitKeyToUnit(key); const periodStartDates = getPeriodStartDatesBetween(dateFrom, dateTo, unit); for (const periodStart of periodStartDates) { if (limitManager.isAlreadyBusy(periodStart, unit)) continue; // special handling of yearly limits to improve performance if (unit === "year") { try { await checkBookingLimit({ eventStartDate: periodStart.toDate(), limitingNumber: limit, eventId: eventTypeId, key, }); } catch (_) { limitManager.addBusyTime(periodStart, unit); if (periodStartDates.every((start) => limitManager.isAlreadyBusy(start, unit))) { return; } } continue; } const periodEnd = periodStart.endOf(unit); let totalBookings = 0; for (const booking of bookings) { // consider booking part of period independent of end date if (!dayjs(booking.start).isBetween(periodStart, periodEnd)) { continue; } totalBookings++; if (totalBookings >= limit) { limitManager.addBusyTime(periodStart, unit); break; } } } } }; const getBusyTimesFromDurationLimits = async ( ...args: Parameters ): Promise> => { return monitorCallbackAsync(_getBusyTimesFromDurationLimits, ...args); }; const _getBusyTimesFromDurationLimits = async ( bookings: EventBusyDetails[], durationLimits: IntervalLimit, dateFrom: Dayjs, dateTo: Dayjs, duration: number | undefined, eventType: NonNullable, limitManager: LimitManager ) => { for (const key of descendingLimitKeys) { const limit = durationLimits?.[key]; if (!limit) continue; const unit = intervalLimitKeyToUnit(key); const periodStartDates = getPeriodStartDatesBetween(dateFrom, dateTo, unit); for (const periodStart of periodStartDates) { if (limitManager.isAlreadyBusy(periodStart, unit)) continue; const selectedDuration = (duration || eventType.length) ?? 0; if (selectedDuration > limit) { limitManager.addBusyTime(periodStart, unit); continue; } // special handling of yearly limits to improve performance if (unit === "year") { const totalYearlyDuration = await getTotalBookingDuration({ eventId: eventType.id, startDate: periodStart.toDate(), endDate: periodStart.endOf(unit).toDate(), }); if (totalYearlyDuration + selectedDuration > limit) { limitManager.addBusyTime(periodStart, unit); if (periodStartDates.every((start) => limitManager.isAlreadyBusy(start, unit))) { return; } } continue; } const periodEnd = periodStart.endOf(unit); let totalDuration = selectedDuration; for (const booking of bookings) { // consider booking part of period independent of end date if (!dayjs(booking.start).isBetween(periodStart, periodEnd)) { continue; } totalDuration += dayjs(booking.end).diff(dayjs(booking.start), "minute"); if (totalDuration > limit) { limitManager.addBusyTime(periodStart, unit); break; } } } } };