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 > } Object ready to parse
* /
async toPublicJSON ( showTags = false , certExpiry = false ) {
let obj = {
id : this . id ,
name : this . name ,
sendUrl : ! ! this . sendUrl ,
url : this . url ,
type : this . type ,
} ;
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 ,
rabbitmqNodes : JSON . parse ( this . rabbitmqNodes ) ,
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 ) ,
rabbitmqUsername : this . rabbitmqUsername ,
rabbitmqPassword : this . rabbitmqPassword ,
} ;
}
data . includeSensitiveData = includeSensitiveData ;
return data ;
}
/ * *
* Get all tags applied to this monitor
* @ returns { Promise < LooseObject < any > [ ] > } 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 < LooseObject < any >> } 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 < void > }
* /
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 < void > }
* /
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 < object > } 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 < boolean > } 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 < LooseObject < any > [ ] > } 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 < any > [ ] } notificationList List of notification providers
* @ returns { Promise < void > }
* /
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 < LooseObject < any >> } 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 < boolean > } 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 < LooseObject < any >> } 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 < LooseObject < any >> } 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 < LooseObject < any >> } 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 < LooseObject < any >> } 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 < LooseObject < any >> } 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 < string [ ] > } 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 < Array > } 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 < void > }
* /
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 < boolean > } 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 < object > } 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 < void > }
* /
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 ;