const dayjs = require("dayjs"); const axios = require("axios"); const { Prometheus } = require("../prometheus"); const { log, UP, DOWN, PENDING, MAINTENANCE, flipStatus, MAX_INTERVAL_SECOND, MIN_INTERVAL_SECOND, SQL_DATETIME_FORMAT, evaluateJsonQuery } = require("../../src/util"); const { tcping, ping, checkCertificate, checkStatusCode, getTotalClientInRoom, setting, mssqlQuery, postgresQuery, mysqlQuery, setSetting, httpNtlm, radius, grpcQuery, redisPingAsync, kafkaProducerAsync, getOidcTokenClientCredentials, rootCertificatesFingerprints, axiosAbortSignal } = require("../util-server"); const { R } = require("redbean-node"); const { BeanModel } = require("redbean-node/dist/bean-model"); const { Notification } = require("../notification"); const { Proxy } = require("../proxy"); const { demoMode } = require("../config"); const version = require("../../package.json").version; const apicache = require("../modules/apicache"); const { UptimeKumaServer } = require("../uptime-kuma-server"); const { DockerHost } = require("../docker"); const Gamedig = require("gamedig"); const jwt = require("jsonwebtoken"); const crypto = require("crypto"); const { UptimeCalculator } = require("../uptime-calculator"); const { CookieJar } = require("tough-cookie"); const { HttpsCookieAgent } = require("http-cookie-agent/http"); const https = require("https"); const http = require("http"); const rootCertificates = rootCertificatesFingerprints(); /** * status: * 0 = DOWN * 1 = UP * 2 = PENDING * 3 = MAINTENANCE */ class Monitor extends BeanModel { /** * Return an object that ready to parse to JSON for public Only show * necessary data to public * @param {boolean} showTags Include tags in JSON * @param {boolean} certExpiry Include certificate expiry info in * JSON * @returns {Promise} Object ready to parse */ async toPublicJSON(showTags = false, certExpiry = false) { let obj = { id: this.id, name: this.name, sendUrl: this.sendUrl, type: this.type, }; if (this.sendUrl) { obj.url = this.url; } if (showTags) { obj.tags = await this.getTags(); } if (certExpiry && (this.type === "http" || this.type === "keyword" || this.type === "json-query") && this.getURLProtocol() === "https:") { const { certExpiryDaysRemaining, validCert } = await this.getCertExpiry(this.id); obj.certExpiryDaysRemaining = certExpiryDaysRemaining; obj.validCert = validCert; } return obj; } /** * Return an object that ready to parse to JSON * @param {object} preloadData to prevent n+1 problems, we query the data in a batch outside of this function * @param {boolean} includeSensitiveData Include sensitive data in * JSON * @returns {object} Object ready to parse */ toJSON(preloadData = {}, includeSensitiveData = true) { let screenshot = null; if (this.type === "real-browser") { screenshot = "/screenshots/" + jwt.sign(this.id, UptimeKumaServer.getInstance().jwtSecret) + ".png"; } const path = preloadData.paths.get(this.id) || []; const pathName = path.join(" / "); let data = { id: this.id, name: this.name, description: this.description, path, pathName, parent: this.parent, childrenIDs: preloadData.childrenIDs.get(this.id) || [], url: this.url, method: this.method, hostname: this.hostname, port: this.port, maxretries: this.maxretries, weight: this.weight, active: preloadData.activeStatus.get(this.id), forceInactive: preloadData.forceInactive.get(this.id), type: this.type, timeout: this.timeout, interval: this.interval, retryInterval: this.retryInterval, resendInterval: this.resendInterval, keyword: this.keyword, invertKeyword: this.isInvertKeyword(), expiryNotification: this.isEnabledExpiryNotification(), ignoreTls: this.getIgnoreTls(), upsideDown: this.isUpsideDown(), packetSize: this.packetSize, maxredirects: this.maxredirects, accepted_statuscodes: this.getAcceptedStatuscodes(), dns_resolve_type: this.dns_resolve_type, dns_resolve_server: this.dns_resolve_server, dns_last_result: this.dns_last_result, docker_container: this.docker_container, docker_host: this.docker_host, proxyId: this.proxy_id, notificationIDList: preloadData.notifications.get(this.id) || {}, tags: preloadData.tags.get(this.id) || [], maintenance: preloadData.maintenanceStatus.get(this.id), mqttTopic: this.mqttTopic, mqttSuccessMessage: this.mqttSuccessMessage, mqttCheckType: this.mqttCheckType, databaseQuery: this.databaseQuery, authMethod: this.authMethod, grpcUrl: this.grpcUrl, grpcProtobuf: this.grpcProtobuf, grpcMethod: this.grpcMethod, grpcServiceName: this.grpcServiceName, grpcEnableTls: this.getGrpcEnableTls(), radiusCalledStationId: this.radiusCalledStationId, radiusCallingStationId: this.radiusCallingStationId, game: this.game, gamedigGivenPortOnly: this.getGameDigGivenPortOnly(), httpBodyEncoding: this.httpBodyEncoding, jsonPath: this.jsonPath, expectedValue: this.expectedValue, kafkaProducerTopic: this.kafkaProducerTopic, kafkaProducerBrokers: JSON.parse(this.kafkaProducerBrokers), kafkaProducerSsl: this.getKafkaProducerSsl(), kafkaProducerAllowAutoTopicCreation: this.getKafkaProducerAllowAutoTopicCreation(), kafkaProducerMessage: this.kafkaProducerMessage, screenshot, cacheBust: this.getCacheBust(), remote_browser: this.remote_browser, snmpOid: this.snmpOid, jsonPathOperator: this.jsonPathOperator, snmpVersion: this.snmpVersion, conditions: JSON.parse(this.conditions), }; if (includeSensitiveData) { data = { ...data, headers: this.headers, body: this.body, grpcBody: this.grpcBody, grpcMetadata: this.grpcMetadata, basic_auth_user: this.basic_auth_user, basic_auth_pass: this.basic_auth_pass, oauth_client_id: this.oauth_client_id, oauth_client_secret: this.oauth_client_secret, oauth_token_url: this.oauth_token_url, oauth_scopes: this.oauth_scopes, oauth_auth_method: this.oauth_auth_method, pushToken: this.pushToken, databaseConnectionString: this.databaseConnectionString, radiusUsername: this.radiusUsername, radiusPassword: this.radiusPassword, radiusSecret: this.radiusSecret, mqttUsername: this.mqttUsername, mqttPassword: this.mqttPassword, authWorkstation: this.authWorkstation, authDomain: this.authDomain, tlsCa: this.tlsCa, tlsCert: this.tlsCert, tlsKey: this.tlsKey, kafkaProducerSaslOptions: JSON.parse(this.kafkaProducerSaslOptions), }; } data.includeSensitiveData = includeSensitiveData; return data; } /** * Get all tags applied to this monitor * @returns {Promise[]>} List of tags on the * monitor */ async getTags() { return await R.getAll("SELECT mt.*, tag.name, tag.color FROM monitor_tag mt JOIN tag ON mt.tag_id = tag.id WHERE mt.monitor_id = ? ORDER BY tag.name", [ this.id ]); } /** * Gets certificate expiry for this monitor * @param {number} monitorID ID of monitor to send * @returns {Promise>} Certificate expiry info for * monitor */ async getCertExpiry(monitorID) { let tlsInfoBean = await R.findOne("monitor_tls_info", "monitor_id = ?", [ monitorID, ]); let tlsInfo; if (tlsInfoBean) { tlsInfo = JSON.parse(tlsInfoBean?.info_json); if (tlsInfo?.valid && tlsInfo?.certInfo?.daysRemaining) { return { certExpiryDaysRemaining: tlsInfo.certInfo.daysRemaining, validCert: true }; } } return { certExpiryDaysRemaining: "", validCert: false }; } /** * Encode user and password to Base64 encoding * for HTTP "basic" auth, as per RFC-7617 * @param {string|null} user - The username (nullable if not changed by a user) * @param {string|null} pass - The password (nullable if not changed by a user) * @returns {string} Encoded Base64 string */ encodeBase64(user, pass) { return Buffer.from(`${user || ""}:${pass || ""}`).toString("base64"); } /** * Is the TLS expiry notification enabled? * @returns {boolean} Enabled? */ isEnabledExpiryNotification() { return Boolean(this.expiryNotification); } /** * Parse to boolean * @returns {boolean} Should TLS errors be ignored? */ getIgnoreTls() { return Boolean(this.ignoreTls); } /** * Parse to boolean * @returns {boolean} Is the monitor in upside down mode? */ isUpsideDown() { return Boolean(this.upsideDown); } /** * Parse to boolean * @returns {boolean} Invert keyword match? */ isInvertKeyword() { return Boolean(this.invertKeyword); } /** * Parse to boolean * @returns {boolean} Enable TLS for gRPC? */ getGrpcEnableTls() { return Boolean(this.grpcEnableTls); } /** * Parse to boolean * @returns {boolean} if cachebusting is enabled */ getCacheBust() { return Boolean(this.cacheBust); } /** * Get accepted status codes * @returns {object} Accepted status codes */ getAcceptedStatuscodes() { return JSON.parse(this.accepted_statuscodes_json); } /** * Get if game dig should only use the port which was provided * @returns {boolean} gamedig should only use the provided port */ getGameDigGivenPortOnly() { return Boolean(this.gamedigGivenPortOnly); } /** * Parse to boolean * @returns {boolean} Kafka Producer Ssl enabled? */ getKafkaProducerSsl() { return Boolean(this.kafkaProducerSsl); } /** * Parse to boolean * @returns {boolean} Kafka Producer Allow Auto Topic Creation Enabled? */ getKafkaProducerAllowAutoTopicCreation() { return Boolean(this.kafkaProducerAllowAutoTopicCreation); } /** * Start monitor * @param {Server} io Socket server instance * @returns {Promise} */ async start(io) { let previousBeat = null; let retries = 0; this.prometheus = new Prometheus(this); const beat = async () => { let beatInterval = this.interval; if (! beatInterval) { beatInterval = 1; } if (demoMode) { if (beatInterval < 20) { console.log("beat interval too low, reset to 20s"); beatInterval = 20; } } // Expose here for prometheus update // undefined if not https let tlsInfo = undefined; if (!previousBeat || this.type === "push") { previousBeat = await R.findOne("heartbeat", " monitor_id = ? ORDER BY time DESC", [ this.id, ]); if (previousBeat) { retries = previousBeat.retries; } } const isFirstBeat = !previousBeat; let bean = R.dispense("heartbeat"); bean.monitor_id = this.id; bean.time = R.isoDateTimeMillis(dayjs.utc()); bean.status = DOWN; bean.downCount = previousBeat?.downCount || 0; if (this.isUpsideDown()) { bean.status = flipStatus(bean.status); } // Runtime patch timeout if it is 0 // See https://github.com/louislam/uptime-kuma/pull/3961#issuecomment-1804149144 if (!this.timeout || this.timeout <= 0) { this.timeout = this.interval * 1000 * 0.8; } try { if (await Monitor.isUnderMaintenance(this.id)) { bean.msg = "Monitor under maintenance"; bean.status = MAINTENANCE; } else if (this.type === "group") { const children = await Monitor.getChildren(this.id); if (children.length > 0) { bean.status = UP; bean.msg = "All children up and running"; for (const child of children) { if (!child.active) { // Ignore inactive childs continue; } const lastBeat = await Monitor.getPreviousHeartbeat(child.id); // Only change state if the monitor is in worse conditions then the ones before // lastBeat.status could be null if (!lastBeat) { bean.status = PENDING; } else if (bean.status === UP && (lastBeat.status === PENDING || lastBeat.status === DOWN)) { bean.status = lastBeat.status; } else if (bean.status === PENDING && lastBeat.status === DOWN) { bean.status = lastBeat.status; } } if (bean.status !== UP) { bean.msg = "Child inaccessible"; } } else { // Set status pending if group is empty bean.status = PENDING; bean.msg = "Group empty"; } } else if (this.type === "http" || this.type === "keyword" || this.type === "json-query") { // Do not do any queries/high loading things before the "bean.ping" let startTime = dayjs().valueOf(); // HTTP basic auth let basicAuthHeader = {}; if (this.auth_method === "basic") { basicAuthHeader = { "Authorization": "Basic " + this.encodeBase64(this.basic_auth_user, this.basic_auth_pass), }; } // OIDC: Basic client credential flow. // Additional grants might be implemented in the future let oauth2AuthHeader = {}; if (this.auth_method === "oauth2-cc") { try { if (this.oauthAccessToken === undefined || new Date(this.oauthAccessToken.expires_at * 1000) <= new Date()) { this.oauthAccessToken = await this.makeOidcTokenClientCredentialsRequest(); } oauth2AuthHeader = { "Authorization": this.oauthAccessToken.token_type + " " + this.oauthAccessToken.access_token, }; } catch (e) { throw new Error("The oauth config is invalid. " + e.message); } } const httpsAgentOptions = { maxCachedSessions: 0, // Use Custom agent to disable session reuse (https://github.com/nodejs/node/issues/3940) rejectUnauthorized: !this.getIgnoreTls(), secureOptions: crypto.constants.SSL_OP_LEGACY_SERVER_CONNECT, }; log.debug("monitor", `[${this.name}] Prepare Options for axios`); let contentType = null; let bodyValue = null; if (this.body && (typeof this.body === "string" && this.body.trim().length > 0)) { if (!this.httpBodyEncoding || this.httpBodyEncoding === "json") { try { bodyValue = JSON.parse(this.body); contentType = "application/json"; } catch (e) { throw new Error("Your JSON body is invalid. " + e.message); } } else if (this.httpBodyEncoding === "form") { bodyValue = this.body; contentType = "application/x-www-form-urlencoded"; } else if (this.httpBodyEncoding === "xml") { bodyValue = this.body; contentType = "text/xml; charset=utf-8"; } } // Axios Options const options = { url: this.url, method: (this.method || "get").toLowerCase(), timeout: this.timeout * 1000, headers: { "Accept": "text/html,application/xhtml+xml,application/xml;q=0.9,image/avif,image/webp,image/apng,*/*;q=0.8,application/signed-exchange;v=b3;q=0.9", ...(contentType ? { "Content-Type": contentType } : {}), ...(basicAuthHeader), ...(oauth2AuthHeader), ...(this.headers ? JSON.parse(this.headers) : {}) }, maxRedirects: this.maxredirects, validateStatus: (status) => { return checkStatusCode(status, this.getAcceptedStatuscodes()); }, signal: axiosAbortSignal((this.timeout + 10) * 1000), }; if (bodyValue) { options.data = bodyValue; } if (this.cacheBust) { const randomFloatString = Math.random().toString(36); const cacheBust = randomFloatString.substring(2); options.params = { uptime_kuma_cachebuster: cacheBust, }; } if (this.proxy_id) { const proxy = await R.load("proxy", this.proxy_id); if (proxy && proxy.active) { const { httpAgent, httpsAgent } = Proxy.createAgents(proxy, { httpsAgentOptions: httpsAgentOptions, }); options.proxy = false; options.httpAgent = httpAgent; options.httpsAgent = httpsAgent; } } if (!options.httpsAgent) { let jar = new CookieJar(); let httpsCookieAgentOptions = { ...httpsAgentOptions, cookies: { jar } }; options.httpsAgent = new HttpsCookieAgent(httpsCookieAgentOptions); } if (this.auth_method === "mtls") { if (this.tlsCert !== null && this.tlsCert !== "") { options.httpsAgent.options.cert = Buffer.from(this.tlsCert); } if (this.tlsCa !== null && this.tlsCa !== "") { options.httpsAgent.options.ca = Buffer.from(this.tlsCa); } if (this.tlsKey !== null && this.tlsKey !== "") { options.httpsAgent.options.key = Buffer.from(this.tlsKey); } } let tlsInfo = {}; // Store tlsInfo when secureConnect event is emitted // The keylog event listener is a workaround to access the tlsSocket options.httpsAgent.once("keylog", async (line, tlsSocket) => { tlsSocket.once("secureConnect", async () => { tlsInfo = checkCertificate(tlsSocket); tlsInfo.valid = tlsSocket.authorized || false; await this.handleTlsInfo(tlsInfo); }); }); log.debug("monitor", `[${this.name}] Axios Options: ${JSON.stringify(options)}`); log.debug("monitor", `[${this.name}] Axios Request`); // Make Request let res = await this.makeAxiosRequest(options); bean.msg = `${res.status} - ${res.statusText}`; bean.ping = dayjs().valueOf() - startTime; // fallback for if kelog event is not emitted, but we may still have tlsInfo, // e.g. if the connection is made through a proxy if (this.getUrl()?.protocol === "https:" && tlsInfo.valid === undefined) { const tlsSocket = res.request.res.socket; if (tlsSocket) { tlsInfo = checkCertificate(tlsSocket); tlsInfo.valid = tlsSocket.authorized || false; await this.handleTlsInfo(tlsInfo); } } if (process.env.UPTIME_KUMA_LOG_RESPONSE_BODY_MONITOR_ID === this.id) { log.info("monitor", res.data); } if (this.type === "http") { bean.status = UP; } else if (this.type === "keyword") { let data = res.data; // Convert to string for object/array if (typeof data !== "string") { data = JSON.stringify(data); } let keywordFound = data.includes(this.keyword); if (keywordFound === !this.isInvertKeyword()) { bean.msg += ", keyword " + (keywordFound ? "is" : "not") + " found"; bean.status = UP; } else { data = data.replace(/<[^>]*>?|[\n\r]|\s+/gm, " ").trim(); if (data.length > 50) { data = data.substring(0, 47) + "..."; } throw new Error(bean.msg + ", but keyword is " + (keywordFound ? "present" : "not") + " in [" + data + "]"); } } else if (this.type === "json-query") { let data = res.data; const { status, response } = await evaluateJsonQuery(data, this.jsonPath, this.jsonPathOperator, this.expectedValue); if (status) { bean.status = UP; bean.msg = `JSON query passes (comparing ${response} ${this.jsonPathOperator} ${this.expectedValue})`; } else { throw new Error(`JSON query does not pass (comparing ${response} ${this.jsonPathOperator} ${this.expectedValue})`); } } } else if (this.type === "port") { bean.ping = await tcping(this.hostname, this.port); bean.msg = ""; bean.status = UP; } else if (this.type === "ping") { bean.ping = await ping(this.hostname, this.packetSize); bean.msg = ""; bean.status = UP; } else if (this.type === "push") { // Type: Push log.debug("monitor", `[${this.name}] Checking monitor at ${dayjs().format("YYYY-MM-DD HH:mm:ss.SSS")}`); const bufferTime = 1000; // 1s buffer to accommodate clock differences if (previousBeat) { const msSinceLastBeat = dayjs.utc().valueOf() - dayjs.utc(previousBeat.time).valueOf(); log.debug("monitor", `[${this.name}] msSinceLastBeat = ${msSinceLastBeat}`); // If the previous beat was down or pending we use the regular // beatInterval/retryInterval in the setTimeout further below if (previousBeat.status !== (this.isUpsideDown() ? DOWN : UP) || msSinceLastBeat > beatInterval * 1000 + bufferTime) { bean.duration = Math.round(msSinceLastBeat / 1000); throw new Error("No heartbeat in the time window"); } else { let timeout = beatInterval * 1000 - msSinceLastBeat; if (timeout < 0) { timeout = bufferTime; } else { timeout += bufferTime; } // No need to insert successful heartbeat for push type, so end here retries = 0; log.debug("monitor", `[${this.name}] timeout = ${timeout}`); this.heartbeatInterval = setTimeout(safeBeat, timeout); return; } } else { bean.duration = beatInterval; throw new Error("No heartbeat in the time window"); } } else if (this.type === "steam") { const steamApiUrl = "https://api.steampowered.com/IGameServersService/GetServerList/v1/"; const steamAPIKey = await setting("steamAPIKey"); const filter = `addr\\${this.hostname}:${this.port}`; if (!steamAPIKey) { throw new Error("Steam API Key not found"); } let res = await axios.get(steamApiUrl, { timeout: this.timeout * 1000, headers: { "Accept": "*/*", }, httpsAgent: new https.Agent({ maxCachedSessions: 0, // Use Custom agent to disable session reuse (https://github.com/nodejs/node/issues/3940) rejectUnauthorized: !this.getIgnoreTls(), secureOptions: crypto.constants.SSL_OP_LEGACY_SERVER_CONNECT, }), httpAgent: new http.Agent({ maxCachedSessions: 0, }), maxRedirects: this.maxredirects, validateStatus: (status) => { return checkStatusCode(status, this.getAcceptedStatuscodes()); }, params: { filter: filter, key: steamAPIKey, } }); if (res.data.response && res.data.response.servers && res.data.response.servers.length > 0) { bean.status = UP; bean.msg = res.data.response.servers[0].name; try { bean.ping = await ping(this.hostname, this.packetSize); } catch (_) { } } else { throw new Error("Server not found on Steam"); } } else if (this.type === "gamedig") { try { const state = await Gamedig.query({ type: this.game, host: this.hostname, port: this.port, givenPortOnly: this.getGameDigGivenPortOnly(), }); bean.msg = state.name; bean.status = UP; bean.ping = state.ping; } catch (e) { throw new Error(e.message); } } else if (this.type === "docker") { log.debug("monitor", `[${this.name}] Prepare Options for Axios`); const options = { url: `/containers/${this.docker_container}/json`, timeout: this.interval * 1000 * 0.8, headers: { "Accept": "*/*", }, httpsAgent: new https.Agent({ maxCachedSessions: 0, // Use Custom agent to disable session reuse (https://github.com/nodejs/node/issues/3940) rejectUnauthorized: !this.getIgnoreTls(), secureOptions: crypto.constants.SSL_OP_LEGACY_SERVER_CONNECT, }), httpAgent: new http.Agent({ maxCachedSessions: 0, }), }; const dockerHost = await R.load("docker_host", this.docker_host); if (!dockerHost) { throw new Error("Failed to load docker host config"); } if (dockerHost._dockerType === "socket") { options.socketPath = dockerHost._dockerDaemon; } else if (dockerHost._dockerType === "tcp") { options.baseURL = DockerHost.patchDockerURL(dockerHost._dockerDaemon); options.httpsAgent = new https.Agent( DockerHost.getHttpsAgentOptions(dockerHost._dockerType, options.baseURL) ); } log.debug("monitor", `[${this.name}] Axios Request`); let res = await axios.request(options); if (res.data.State.Running) { if (res.data.State.Health && res.data.State.Health.Status !== "healthy") { bean.status = PENDING; bean.msg = res.data.State.Health.Status; } else { bean.status = UP; bean.msg = res.data.State.Health ? res.data.State.Health.Status : res.data.State.Status; } } else { throw Error("Container State is " + res.data.State.Status); } } else if (this.type === "sqlserver") { let startTime = dayjs().valueOf(); await mssqlQuery(this.databaseConnectionString, this.databaseQuery || "SELECT 1"); bean.msg = ""; bean.status = UP; bean.ping = dayjs().valueOf() - startTime; } else if (this.type === "grpc-keyword") { let startTime = dayjs().valueOf(); const options = { grpcUrl: this.grpcUrl, grpcProtobufData: this.grpcProtobuf, grpcServiceName: this.grpcServiceName, grpcEnableTls: this.grpcEnableTls, grpcMethod: this.grpcMethod, grpcBody: this.grpcBody, }; const response = await grpcQuery(options); bean.ping = dayjs().valueOf() - startTime; log.debug("monitor:", `gRPC response: ${JSON.stringify(response)}`); let responseData = response.data; if (responseData.length > 50) { responseData = responseData.toString().substring(0, 47) + "..."; } if (response.code !== 1) { bean.status = DOWN; bean.msg = `Error in send gRPC ${response.code} ${response.errorMessage}`; } else { let keywordFound = response.data.toString().includes(this.keyword); if (keywordFound === !this.isInvertKeyword()) { bean.status = UP; bean.msg = `${responseData}, keyword [${this.keyword}] ${keywordFound ? "is" : "not"} found`; } else { log.debug("monitor:", `GRPC response [${response.data}] + ", but keyword [${this.keyword}] is ${keywordFound ? "present" : "not"} in [" + ${response.data} + "]"`); bean.status = DOWN; bean.msg = `, but keyword [${this.keyword}] is ${keywordFound ? "present" : "not"} in [" + ${responseData} + "]`; } } } else if (this.type === "postgres") { let startTime = dayjs().valueOf(); await postgresQuery(this.databaseConnectionString, this.databaseQuery || "SELECT 1"); bean.msg = ""; bean.status = UP; bean.ping = dayjs().valueOf() - startTime; } else if (this.type === "mysql") { let startTime = dayjs().valueOf(); // Use `radius_password` as `password` field, since there are too many unnecessary fields // TODO: rename `radius_password` to `password` later for general use let mysqlPassword = this.radiusPassword; bean.msg = await mysqlQuery(this.databaseConnectionString, this.databaseQuery || "SELECT 1", mysqlPassword); bean.status = UP; bean.ping = dayjs().valueOf() - startTime; } else if (this.type === "radius") { let startTime = dayjs().valueOf(); // Handle monitors that were created before the // update and as such don't have a value for // this.port. let port; if (this.port == null) { port = 1812; } else { port = this.port; } const resp = await radius( this.hostname, this.radiusUsername, this.radiusPassword, this.radiusCalledStationId, this.radiusCallingStationId, this.radiusSecret, port, this.interval * 1000 * 0.4, ); bean.msg = resp.code; bean.status = UP; bean.ping = dayjs().valueOf() - startTime; } else if (this.type === "redis") { let startTime = dayjs().valueOf(); bean.msg = await redisPingAsync(this.databaseConnectionString, !this.ignoreTls); bean.status = UP; bean.ping = dayjs().valueOf() - startTime; } else if (this.type in UptimeKumaServer.monitorTypeList) { let startTime = dayjs().valueOf(); const monitorType = UptimeKumaServer.monitorTypeList[this.type]; await monitorType.check(this, bean, UptimeKumaServer.getInstance()); if (!bean.ping) { bean.ping = dayjs().valueOf() - startTime; } } else if (this.type === "kafka-producer") { let startTime = dayjs().valueOf(); bean.msg = await kafkaProducerAsync( JSON.parse(this.kafkaProducerBrokers), this.kafkaProducerTopic, this.kafkaProducerMessage, { allowAutoTopicCreation: this.kafkaProducerAllowAutoTopicCreation, ssl: this.kafkaProducerSsl, clientId: `Uptime-Kuma/${version}`, interval: this.interval, }, JSON.parse(this.kafkaProducerSaslOptions), ); bean.status = UP; bean.ping = dayjs().valueOf() - startTime; } else { throw new Error("Unknown Monitor Type"); } if (this.isUpsideDown()) { bean.status = flipStatus(bean.status); if (bean.status === DOWN) { throw new Error("Flip UP to DOWN"); } } retries = 0; } catch (error) { if (error?.name === "CanceledError") { bean.msg = `timeout by AbortSignal (${this.timeout}s)`; } else { bean.msg = error.message; } // If UP come in here, it must be upside down mode // Just reset the retries if (this.isUpsideDown() && bean.status === UP) { retries = 0; } else if ((this.maxretries > 0) && (retries < this.maxretries)) { retries++; bean.status = PENDING; } else { // Continue counting retries during DOWN retries++; } } bean.retries = retries; log.debug("monitor", `[${this.name}] Check isImportant`); let isImportant = Monitor.isImportantBeat(isFirstBeat, previousBeat?.status, bean.status); // Mark as important if status changed, ignore pending pings, // Don't notify if disrupted changes to up if (isImportant) { bean.important = true; if (Monitor.isImportantForNotification(isFirstBeat, previousBeat?.status, bean.status)) { log.debug("monitor", `[${this.name}] sendNotification`); await Monitor.sendNotification(isFirstBeat, this, bean); } else { log.debug("monitor", `[${this.name}] will not sendNotification because it is (or was) under maintenance`); } // Reset down count bean.downCount = 0; // Clear Status Page Cache log.debug("monitor", `[${this.name}] apicache clear`); apicache.clear(); await UptimeKumaServer.getInstance().sendMaintenanceListByUserID(this.user_id); } else { bean.important = false; if (bean.status === DOWN && this.resendInterval > 0) { ++bean.downCount; if (bean.downCount >= this.resendInterval) { // Send notification again, because we are still DOWN log.debug("monitor", `[${this.name}] sendNotification again: Down Count: ${bean.downCount} | Resend Interval: ${this.resendInterval}`); await Monitor.sendNotification(isFirstBeat, this, bean); // Reset down count bean.downCount = 0; } } } if (bean.status === UP) { log.debug("monitor", `Monitor #${this.id} '${this.name}': Successful Response: ${bean.ping} ms | Interval: ${beatInterval} seconds | Type: ${this.type}`); } else if (bean.status === PENDING) { if (this.retryInterval > 0) { beatInterval = this.retryInterval; } log.warn("monitor", `Monitor #${this.id} '${this.name}': Pending: ${bean.msg} | Max retries: ${this.maxretries} | Retry: ${retries} | Retry Interval: ${beatInterval} seconds | Type: ${this.type}`); } else if (bean.status === MAINTENANCE) { log.warn("monitor", `Monitor #${this.id} '${this.name}': Under Maintenance | Type: ${this.type}`); } else { log.warn("monitor", `Monitor #${this.id} '${this.name}': Failing: ${bean.msg} | Interval: ${beatInterval} seconds | Type: ${this.type} | Down Count: ${bean.downCount} | Resend Interval: ${this.resendInterval}`); } // Calculate uptime let uptimeCalculator = await UptimeCalculator.getUptimeCalculator(this.id); let endTimeDayjs = await uptimeCalculator.update(bean.status, parseFloat(bean.ping)); bean.end_time = R.isoDateTimeMillis(endTimeDayjs); // Send to frontend log.debug("monitor", `[${this.name}] Send to socket`); io.to(this.user_id).emit("heartbeat", bean.toJSON()); Monitor.sendStats(io, this.id, this.user_id); // Store to database log.debug("monitor", `[${this.name}] Store`); await R.store(bean); log.debug("monitor", `[${this.name}] prometheus.update`); this.prometheus?.update(bean, tlsInfo); previousBeat = bean; if (! this.isStop) { log.debug("monitor", `[${this.name}] SetTimeout for next check.`); let intervalRemainingMs = Math.max( 1, beatInterval * 1000 - dayjs().diff(dayjs.utc(bean.time)) ); log.debug("monitor", `[${this.name}] Next heartbeat in: ${intervalRemainingMs}ms`); this.heartbeatInterval = setTimeout(safeBeat, intervalRemainingMs); } else { log.info("monitor", `[${this.name}] isStop = true, no next check.`); } }; /** * Get a heartbeat and handle errors7 * @returns {void} */ const safeBeat = async () => { try { await beat(); } catch (e) { console.trace(e); UptimeKumaServer.errorLog(e, false); log.error("monitor", "Please report to https://github.com/louislam/uptime-kuma/issues"); if (! this.isStop) { log.info("monitor", "Try to restart the monitor"); this.heartbeatInterval = setTimeout(safeBeat, this.interval * 1000); } } }; // Delay Push Type if (this.type === "push") { setTimeout(() => { safeBeat(); }, this.interval * 1000); } else { safeBeat(); } } /** * Make a request using axios * @param {object} options Options for Axios * @param {boolean} finalCall Should this be the final call i.e * don't retry on failure * @returns {object} Axios response */ async makeAxiosRequest(options, finalCall = false) { try { let res; if (this.auth_method === "ntlm") { options.httpsAgent.keepAlive = true; res = await httpNtlm(options, { username: this.basic_auth_user, password: this.basic_auth_pass, domain: this.authDomain, workstation: this.authWorkstation ? this.authWorkstation : undefined }); } else { res = await axios.request(options); } return res; } catch (error) { /** * Make a single attempt to obtain an new access token in the event that * the recent api request failed for authentication purposes */ if (this.auth_method === "oauth2-cc" && error.response.status === 401 && !finalCall) { this.oauthAccessToken = await this.makeOidcTokenClientCredentialsRequest(); let oauth2AuthHeader = { "Authorization": this.oauthAccessToken.token_type + " " + this.oauthAccessToken.access_token, }; options.headers = { ...(options.headers), ...(oauth2AuthHeader) }; return this.makeAxiosRequest(options, true); } // Fix #2253 // Read more: https://stackoverflow.com/questions/1759956/curl-error-18-transfer-closed-with-outstanding-read-data-remaining if (!finalCall && typeof error.message === "string" && error.message.includes("maxContentLength size of -1 exceeded")) { log.debug("monitor", "makeAxiosRequest with gzip"); options.headers["Accept-Encoding"] = "gzip, deflate"; return this.makeAxiosRequest(options, true); } else { if (typeof error.message === "string" && error.message.includes("maxContentLength size of -1 exceeded")) { error.message = "response timeout: incomplete response within a interval"; } throw error; } } } /** * Stop monitor * @returns {Promise} */ async stop() { clearTimeout(this.heartbeatInterval); this.isStop = true; this.prometheus?.remove(); } /** * Get prometheus instance * @returns {Prometheus|undefined} Current prometheus instance */ getPrometheus() { return this.prometheus; } /** * Helper Method: * returns URL object for further usage * returns null if url is invalid * @returns {(null|URL)} Monitor URL */ getUrl() { try { return new URL(this.url); } catch (_) { return null; } } /** * Example: http: or https: * @returns {(null|string)} URL's protocol */ getURLProtocol() { const url = this.getUrl(); if (url) { return this.getUrl().protocol; } else { return null; } } /** * Store TLS info to database * @param {object} checkCertificateResult Certificate to update * @returns {Promise} Updated certificate */ async updateTlsInfo(checkCertificateResult) { let tlsInfoBean = await R.findOne("monitor_tls_info", "monitor_id = ?", [ this.id, ]); if (tlsInfoBean == null) { tlsInfoBean = R.dispense("monitor_tls_info"); tlsInfoBean.monitor_id = this.id; } else { // Clear sent history if the cert changed. try { let oldCertInfo = JSON.parse(tlsInfoBean.info_json); let isValidObjects = oldCertInfo && oldCertInfo.certInfo && checkCertificateResult && checkCertificateResult.certInfo; if (isValidObjects) { if (oldCertInfo.certInfo.fingerprint256 !== checkCertificateResult.certInfo.fingerprint256) { log.debug("monitor", "Resetting sent_history"); await R.exec("DELETE FROM notification_sent_history WHERE type = 'certificate' AND monitor_id = ?", [ this.id ]); } else { log.debug("monitor", "No need to reset sent_history"); log.debug("monitor", oldCertInfo.certInfo.fingerprint256); log.debug("monitor", checkCertificateResult.certInfo.fingerprint256); } } else { log.debug("monitor", "Not valid object"); } } catch (e) { } } tlsInfoBean.info_json = JSON.stringify(checkCertificateResult); await R.store(tlsInfoBean); return checkCertificateResult; } /** * Checks if the monitor is active based on itself and its parents * @param {number} monitorID ID of monitor to send * @param {boolean} active is active * @returns {Promise} Is the monitor active? */ static async isActive(monitorID, active) { const parentActive = await Monitor.isParentActive(monitorID); return (active === 1) && parentActive; } /** * Send statistics to clients * @param {Server} io Socket server instance * @param {number} monitorID ID of monitor to send * @param {number} userID ID of user to send to * @returns {void} */ static async sendStats(io, monitorID, userID) { const hasClients = getTotalClientInRoom(io, userID) > 0; let uptimeCalculator = await UptimeCalculator.getUptimeCalculator(monitorID); if (hasClients) { // Send 24 hour average ping let data24h = await uptimeCalculator.get24Hour(); io.to(userID).emit("avgPing", monitorID, (data24h.avgPing) ? Number(data24h.avgPing.toFixed(2)) : null); // Send 24 hour uptime io.to(userID).emit("uptime", monitorID, 24, data24h.uptime); // Send 30 day uptime let data30d = await uptimeCalculator.get30Day(); io.to(userID).emit("uptime", monitorID, 720, data30d.uptime); // Send 1-year uptime let data1y = await uptimeCalculator.get1Year(); io.to(userID).emit("uptime", monitorID, "1y", data1y.uptime); // Send Cert Info await Monitor.sendCertInfo(io, monitorID, userID); } else { log.debug("monitor", "No clients in the room, no need to send stats"); } } /** * Send certificate information to client * @param {Server} io Socket server instance * @param {number} monitorID ID of monitor to send * @param {number} userID ID of user to send to * @returns {void} */ static async sendCertInfo(io, monitorID, userID) { let tlsInfo = await R.findOne("monitor_tls_info", "monitor_id = ?", [ monitorID, ]); if (tlsInfo != null) { io.to(userID).emit("certInfo", monitorID, tlsInfo.info_json); } } /** * Has status of monitor changed since last beat? * @param {boolean} isFirstBeat Is this the first beat of this monitor? * @param {const} previousBeatStatus Status of the previous beat * @param {const} currentBeatStatus Status of the current beat * @returns {boolean} True if is an important beat else false */ static isImportantBeat(isFirstBeat, previousBeatStatus, currentBeatStatus) { // * ? -> ANY STATUS = important [isFirstBeat] // UP -> PENDING = not important // * UP -> DOWN = important // UP -> UP = not important // PENDING -> PENDING = not important // * PENDING -> DOWN = important // PENDING -> UP = not important // DOWN -> PENDING = this case not exists // DOWN -> DOWN = not important // * DOWN -> UP = important // MAINTENANCE -> MAINTENANCE = not important // * MAINTENANCE -> UP = important // * MAINTENANCE -> DOWN = important // * DOWN -> MAINTENANCE = important // * UP -> MAINTENANCE = important return isFirstBeat || (previousBeatStatus === DOWN && currentBeatStatus === MAINTENANCE) || (previousBeatStatus === UP && currentBeatStatus === MAINTENANCE) || (previousBeatStatus === MAINTENANCE && currentBeatStatus === DOWN) || (previousBeatStatus === MAINTENANCE && currentBeatStatus === UP) || (previousBeatStatus === UP && currentBeatStatus === DOWN) || (previousBeatStatus === DOWN && currentBeatStatus === UP) || (previousBeatStatus === PENDING && currentBeatStatus === DOWN); } /** * Is this beat important for notifications? * @param {boolean} isFirstBeat Is this the first beat of this monitor? * @param {const} previousBeatStatus Status of the previous beat * @param {const} currentBeatStatus Status of the current beat * @returns {boolean} True if is an important beat else false */ static isImportantForNotification(isFirstBeat, previousBeatStatus, currentBeatStatus) { // * ? -> ANY STATUS = important [isFirstBeat] // UP -> PENDING = not important // * UP -> DOWN = important // UP -> UP = not important // PENDING -> PENDING = not important // * PENDING -> DOWN = important // PENDING -> UP = not important // DOWN -> PENDING = this case not exists // DOWN -> DOWN = not important // * DOWN -> UP = important // MAINTENANCE -> MAINTENANCE = not important // MAINTENANCE -> UP = not important // * MAINTENANCE -> DOWN = important // DOWN -> MAINTENANCE = not important // UP -> MAINTENANCE = not important return isFirstBeat || (previousBeatStatus === MAINTENANCE && currentBeatStatus === DOWN) || (previousBeatStatus === UP && currentBeatStatus === DOWN) || (previousBeatStatus === DOWN && currentBeatStatus === UP) || (previousBeatStatus === PENDING && currentBeatStatus === DOWN); } /** * Send a notification about a monitor * @param {boolean} isFirstBeat Is this beat the first of this monitor? * @param {Monitor} monitor The monitor to send a notificaton about * @param {Bean} bean Status information about monitor * @returns {void} */ static async sendNotification(isFirstBeat, monitor, bean) { if (!isFirstBeat || bean.status === DOWN) { const notificationList = await Monitor.getNotificationList(monitor); let text; if (bean.status === UP) { text = "✅ Up"; } else { text = "🔴 Down"; } let msg = `[${monitor.name}] [${text}] ${bean.msg}`; for (let notification of notificationList) { try { const heartbeatJSON = bean.toJSON(); const monitorData = [{ id: monitor.id, active: monitor.active }]; const preloadData = await Monitor.preparePreloadData(monitorData); // Prevent if the msg is undefined, notifications such as Discord cannot send out. if (!heartbeatJSON["msg"]) { heartbeatJSON["msg"] = "N/A"; } // Also provide the time in server timezone heartbeatJSON["timezone"] = await UptimeKumaServer.getInstance().getTimezone(); heartbeatJSON["timezoneOffset"] = UptimeKumaServer.getInstance().getTimezoneOffset(); heartbeatJSON["localDateTime"] = dayjs.utc(heartbeatJSON["time"]).tz(heartbeatJSON["timezone"]).format(SQL_DATETIME_FORMAT); await Notification.send(JSON.parse(notification.config), msg, monitor.toJSON(preloadData, false), heartbeatJSON); } catch (e) { log.error("monitor", "Cannot send notification to " + notification.name); log.error("monitor", e); } } } } /** * Get list of notification providers for a given monitor * @param {Monitor} monitor Monitor to get notification providers for * @returns {Promise[]>} List of notifications */ static async getNotificationList(monitor) { let notificationList = await R.getAll("SELECT notification.* FROM notification, monitor_notification WHERE monitor_id = ? AND monitor_notification.notification_id = notification.id ", [ monitor.id, ]); return notificationList; } /** * checks certificate chain for expiring certificates * @param {object} tlsInfoObject Information about certificate * @returns {void} */ async checkCertExpiryNotifications(tlsInfoObject) { if (tlsInfoObject && tlsInfoObject.certInfo && tlsInfoObject.certInfo.daysRemaining) { const notificationList = await Monitor.getNotificationList(this); if (! notificationList.length > 0) { // fail fast. If no notification is set, all the following checks can be skipped. log.debug("monitor", "No notification, no need to send cert notification"); return; } let notifyDays = await setting("tlsExpiryNotifyDays"); if (notifyDays == null || !Array.isArray(notifyDays)) { // Reset Default await setSetting("tlsExpiryNotifyDays", [ 7, 14, 21 ], "general"); notifyDays = [ 7, 14, 21 ]; } if (Array.isArray(notifyDays)) { for (const targetDays of notifyDays) { let certInfo = tlsInfoObject.certInfo; while (certInfo) { let subjectCN = certInfo.subject["CN"]; if (rootCertificates.has(certInfo.fingerprint256)) { log.debug("monitor", `Known root cert: ${certInfo.certType} certificate "${subjectCN}" (${certInfo.daysRemaining} days valid) on ${targetDays} deadline.`); break; } else if (certInfo.daysRemaining > targetDays) { log.debug("monitor", `No need to send cert notification for ${certInfo.certType} certificate "${subjectCN}" (${certInfo.daysRemaining} days valid) on ${targetDays} deadline.`); } else { log.debug("monitor", `call sendCertNotificationByTargetDays for ${targetDays} deadline on certificate ${subjectCN}.`); await this.sendCertNotificationByTargetDays(subjectCN, certInfo.certType, certInfo.daysRemaining, targetDays, notificationList); } certInfo = certInfo.issuerCertificate; } } } } } /** * Send a certificate notification when certificate expires in less * than target days * @param {string} certCN Common Name attribute from the certificate subject * @param {string} certType certificate type * @param {number} daysRemaining Number of days remaining on certificate * @param {number} targetDays Number of days to alert after * @param {LooseObject[]} notificationList List of notification providers * @returns {Promise} */ async sendCertNotificationByTargetDays(certCN, certType, daysRemaining, targetDays, notificationList) { let row = await R.getRow("SELECT * FROM notification_sent_history WHERE type = ? AND monitor_id = ? AND days <= ?", [ "certificate", this.id, targetDays, ]); // Sent already, no need to send again if (row) { log.debug("monitor", "Sent already, no need to send again"); return; } let sent = false; log.debug("monitor", "Send certificate notification"); for (let notification of notificationList) { try { log.debug("monitor", "Sending to " + notification.name); await Notification.send(JSON.parse(notification.config), `[${this.name}][${this.url}] ${certType} certificate ${certCN} will be expired in ${daysRemaining} days`); sent = true; } catch (e) { log.error("monitor", "Cannot send cert notification to " + notification.name); log.error("monitor", e); } } if (sent) { await R.exec("INSERT INTO notification_sent_history (type, monitor_id, days) VALUES(?, ?, ?)", [ "certificate", this.id, targetDays, ]); } } /** * Get the status of the previous heartbeat * @param {number} monitorID ID of monitor to check * @returns {Promise>} Previous heartbeat */ static async getPreviousHeartbeat(monitorID) { return await R.findOne("heartbeat", " id = (select MAX(id) from heartbeat where monitor_id = ?)", [ monitorID ]); } /** * Check if monitor is under maintenance * @param {number} monitorID ID of monitor to check * @returns {Promise} Is the monitor under maintenance */ static async isUnderMaintenance(monitorID) { const maintenanceIDList = await R.getCol(` SELECT maintenance_id FROM monitor_maintenance WHERE monitor_id = ? `, [ monitorID ]); for (const maintenanceID of maintenanceIDList) { const maintenance = await UptimeKumaServer.getInstance().getMaintenance(maintenanceID); if (maintenance && await maintenance.isUnderMaintenance()) { return true; } } const parent = await Monitor.getParent(monitorID); if (parent != null) { return await Monitor.isUnderMaintenance(parent.id); } return false; } /** * Make sure monitor interval is between bounds * @returns {void} * @throws Interval is outside of range */ validate() { if (this.interval > MAX_INTERVAL_SECOND) { throw new Error(`Interval cannot be more than ${MAX_INTERVAL_SECOND} seconds`); } if (this.interval < MIN_INTERVAL_SECOND) { throw new Error(`Interval cannot be less than ${MIN_INTERVAL_SECOND} seconds`); } } /** * Gets monitor notification of multiple monitor * @param {Array} monitorIDs IDs of monitor to get * @returns {Promise>} object */ static async getMonitorNotification(monitorIDs) { return await R.getAll(` SELECT monitor_notification.monitor_id, monitor_notification.notification_id FROM monitor_notification WHERE monitor_notification.monitor_id IN (${monitorIDs.map((_) => "?").join(",")}) `, monitorIDs); } /** * Gets monitor tags of multiple monitor * @param {Array} monitorIDs IDs of monitor to get * @returns {Promise>} object */ static async getMonitorTag(monitorIDs) { return await R.getAll(` SELECT monitor_tag.monitor_id, monitor_tag.tag_id, tag.name, tag.color FROM monitor_tag JOIN tag ON monitor_tag.tag_id = tag.id WHERE monitor_tag.monitor_id IN (${monitorIDs.map((_) => "?").join(",")}) `, monitorIDs); } /** * prepare preloaded data for efficient access * @param {Array} monitorData IDs & active field of monitor to get * @returns {Promise>} object */ static async preparePreloadData(monitorData) { const notificationsMap = new Map(); const tagsMap = new Map(); const maintenanceStatusMap = new Map(); const childrenIDsMap = new Map(); const activeStatusMap = new Map(); const forceInactiveMap = new Map(); const pathsMap = new Map(); if (monitorData.length > 0) { const monitorIDs = monitorData.map(monitor => monitor.id); const notifications = await Monitor.getMonitorNotification(monitorIDs); const tags = await Monitor.getMonitorTag(monitorIDs); const maintenanceStatuses = await Promise.all(monitorData.map(monitor => Monitor.isUnderMaintenance(monitor.id))); const childrenIDs = await Promise.all(monitorData.map(monitor => Monitor.getAllChildrenIDs(monitor.id))); const activeStatuses = await Promise.all(monitorData.map(monitor => Monitor.isActive(monitor.id, monitor.active))); const forceInactiveStatuses = await Promise.all(monitorData.map(monitor => Monitor.isParentActive(monitor.id))); const paths = await Promise.all(monitorData.map(monitor => Monitor.getAllPath(monitor.id, monitor.name))); notifications.forEach(row => { if (!notificationsMap.has(row.monitor_id)) { notificationsMap.set(row.monitor_id, {}); } notificationsMap.get(row.monitor_id)[row.notification_id] = true; }); tags.forEach(row => { if (!tagsMap.has(row.monitor_id)) { tagsMap.set(row.monitor_id, []); } tagsMap.get(row.monitor_id).push({ tag_id: row.tag_id, name: row.name, color: row.color }); }); monitorData.forEach((monitor, index) => { maintenanceStatusMap.set(monitor.id, maintenanceStatuses[index]); }); monitorData.forEach((monitor, index) => { childrenIDsMap.set(monitor.id, childrenIDs[index]); }); monitorData.forEach((monitor, index) => { activeStatusMap.set(monitor.id, activeStatuses[index]); }); monitorData.forEach((monitor, index) => { forceInactiveMap.set(monitor.id, !forceInactiveStatuses[index]); }); monitorData.forEach((monitor, index) => { pathsMap.set(monitor.id, paths[index]); }); } return { notifications: notificationsMap, tags: tagsMap, maintenanceStatus: maintenanceStatusMap, childrenIDs: childrenIDsMap, activeStatus: activeStatusMap, forceInactive: forceInactiveMap, paths: pathsMap, }; } /** * Gets Parent of the monitor * @param {number} monitorID ID of monitor to get * @returns {Promise>} Parent */ static async getParent(monitorID) { return await R.getRow(` SELECT parent.* FROM monitor parent LEFT JOIN monitor child ON child.parent = parent.id WHERE child.id = ? `, [ monitorID, ]); } /** * Gets all Children of the monitor * @param {number} monitorID ID of monitor to get * @returns {Promise>} Children */ static async getChildren(monitorID) { return await R.getAll(` SELECT * FROM monitor WHERE parent = ? `, [ monitorID, ]); } /** * Gets the full path * @param {number} monitorID ID of the monitor to get * @param {string} name of the monitor to get * @returns {Promise} Full path (includes groups and the name) of the monitor */ static async getAllPath(monitorID, name) { const path = [ name ]; if (this.parent === null) { return path; } let parent = await Monitor.getParent(monitorID); while (parent !== null) { path.unshift(parent.name); parent = await Monitor.getParent(parent.id); } return path; } /** * Gets recursive all child ids * @param {number} monitorID ID of the monitor to get * @returns {Promise} IDs of all children */ static async getAllChildrenIDs(monitorID) { const childs = await Monitor.getChildren(monitorID); if (childs === null) { return []; } let childrenIDs = []; for (const child of childs) { childrenIDs.push(child.id); childrenIDs = childrenIDs.concat(await Monitor.getAllChildrenIDs(child.id)); } return childrenIDs; } /** * Unlinks all children of the group monitor * @param {number} groupID ID of group to remove children of * @returns {Promise} */ static async unlinkAllChildren(groupID) { return await R.exec("UPDATE `monitor` SET parent = ? WHERE parent = ? ", [ null, groupID ]); } /** * Checks recursive if parent (ancestors) are active * @param {number} monitorID ID of the monitor to get * @returns {Promise} Is the parent monitor active? */ static async isParentActive(monitorID) { const parent = await Monitor.getParent(monitorID); if (parent === null) { return true; } const parentActive = await Monitor.isParentActive(parent.id); return parent.active && parentActive; } /** * Obtains a new Oidc Token * @returns {Promise} OAuthProvider client */ async makeOidcTokenClientCredentialsRequest() { log.debug("monitor", `[${this.name}] The oauth access-token undefined or expired. Requesting a new token`); const oAuthAccessToken = await getOidcTokenClientCredentials(this.oauth_token_url, this.oauth_client_id, this.oauth_client_secret, this.oauth_scopes, this.oauth_auth_method); if (this.oauthAccessToken?.expires_at) { log.debug("monitor", `[${this.name}] Obtained oauth access-token. Expires at ${new Date(this.oauthAccessToken?.expires_at * 1000)}`); } else { log.debug("monitor", `[${this.name}] Obtained oauth access-token. Time until expiry was not provided`); } return oAuthAccessToken; } /** * Store TLS certificate information and check for expiry * @param {object} tlsInfo Information about the TLS connection * @returns {Promise} */ async handleTlsInfo(tlsInfo) { await this.updateTlsInfo(tlsInfo); this.prometheus?.update(null, tlsInfo); if (!this.getIgnoreTls() && this.isEnabledExpiryNotification()) { log.debug("monitor", `[${this.name}] call checkCertExpiryNotifications`); await this.checkCertExpiryNotifications(tlsInfo); } } } module.exports = Monitor;