Feat: Add stat_hourly & min. max. ping (#4267)

Co-authored-by: Frank Elsinga <frank@elsinga.de>
This commit is contained in:
Nelson Chan 2024-01-05 20:42:24 +08:00 committed by GitHub
parent 0060e46b91
commit bf1e3a3d5e
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4 changed files with 383 additions and 54 deletions

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@ -0,0 +1,24 @@
exports.up = function (knex) {
return knex.schema
.alterTable("stat_daily", function (table) {
table.float("ping_min").notNullable().defaultTo(0).comment("Minimum ping during this period in milliseconds");
table.float("ping_max").notNullable().defaultTo(0).comment("Maximum ping during this period in milliseconds");
})
.alterTable("stat_minutely", function (table) {
table.float("ping_min").notNullable().defaultTo(0).comment("Minimum ping during this period in milliseconds");
table.float("ping_max").notNullable().defaultTo(0).comment("Maximum ping during this period in milliseconds");
});
};
exports.down = function (knex) {
return knex.schema
.alterTable("stat_daily", function (table) {
table.dropColumn("ping_min");
table.dropColumn("ping_max");
})
.alterTable("stat_minutely", function (table) {
table.dropColumn("ping_min");
table.dropColumn("ping_max");
});
};

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@ -0,0 +1,26 @@
exports.up = function (knex) {
return knex.schema
.createTable("stat_hourly", function (table) {
table.increments("id");
table.comment("This table contains the hourly aggregate statistics for each monitor");
table.integer("monitor_id").unsigned().notNullable()
.references("id").inTable("monitor")
.onDelete("CASCADE")
.onUpdate("CASCADE");
table.integer("timestamp")
.notNullable()
.comment("Unix timestamp rounded down to the nearest hour");
table.float("ping").notNullable().comment("Average ping in milliseconds");
table.float("ping_min").notNullable().defaultTo(0).comment("Minimum ping during this period in milliseconds");
table.float("ping_max").notNullable().defaultTo(0).comment("Maximum ping during this period in milliseconds");
table.smallint("up").notNullable();
table.smallint("down").notNullable();
table.unique([ "monitor_id", "timestamp" ]);
});
};
exports.down = function (knex) {
return knex.schema
.dropTable("stat_hourly");
};

View file

@ -34,16 +34,25 @@ class UptimeCalculator {
*/
minutelyUptimeDataList = new LimitQueue(24 * 60);
/**
* Recent 30-day uptime, each item is a 1-hour interval
* Key: {number} DivisionKey
* @type {LimitQueue<number,string>}
*/
hourlyUptimeDataList = new LimitQueue(30 * 24);
/**
* Daily uptime data,
* Key: {number} DailyKey
*/
dailyUptimeDataList = new LimitQueue(365);
lastDailyUptimeData = null;
lastUptimeData = null;
lastHourlyUptimeData = null;
lastDailyUptimeData = null;
lastDailyStatBean = null;
lastHourlyStatBean = null;
lastMinutelyStatBean = null;
/**
@ -53,6 +62,10 @@ class UptimeCalculator {
* @returns {Promise<UptimeCalculator>} UptimeCalculator
*/
static async getUptimeCalculator(monitorID) {
if (!monitorID) {
throw new Error("Monitor ID is required");
}
if (!UptimeCalculator.list[monitorID]) {
UptimeCalculator.list[monitorID] = new UptimeCalculator();
await UptimeCalculator.list[monitorID].init(monitorID);
@ -108,13 +121,32 @@ class UptimeCalculator {
up: bean.up,
down: bean.down,
avgPing: bean.ping,
minPing: bean.pingMin,
maxPing: bean.pingMax,
});
}
// Load hourly data from database (recent 30 days only)
let hourlyStatBeans = await R.find("stat_hourly", " monitor_id = ? AND timestamp > ? ORDER BY timestamp", [
monitorID,
this.getHourlyKey(now.subtract(30, "day")),
]);
for (let bean of hourlyStatBeans) {
let key = bean.timestamp;
this.hourlyUptimeDataList.push(key, {
up: bean.up,
down: bean.down,
avgPing: bean.ping,
minPing: bean.pingMin,
maxPing: bean.pingMax,
});
}
// Load daily data from database (recent 365 days only)
let dailyStatBeans = await R.find("stat_daily", " monitor_id = ? AND timestamp > ? ORDER BY timestamp", [
monitorID,
this.getDailyKey(now.subtract(365, "day").unix()),
this.getDailyKey(now.subtract(365, "day")),
]);
for (let bean of dailyStatBeans) {
@ -123,6 +155,8 @@ class UptimeCalculator {
up: bean.up,
down: bean.down,
avgPing: bean.ping,
minPing: bean.pingMin,
maxPing: bean.pingMax,
});
}
}
@ -148,13 +182,16 @@ class UptimeCalculator {
}
let divisionKey = this.getMinutelyKey(date);
let dailyKey = this.getDailyKey(divisionKey);
let hourlyKey = this.getHourlyKey(date);
let dailyKey = this.getDailyKey(date);
let minutelyData = this.minutelyUptimeDataList[divisionKey];
let hourlyData = this.hourlyUptimeDataList[hourlyKey];
let dailyData = this.dailyUptimeDataList[dailyKey];
if (flatStatus === UP) {
minutelyData.up += 1;
hourlyData.up += 1;
dailyData.up += 1;
// Only UP status can update the ping
@ -163,32 +200,57 @@ class UptimeCalculator {
// The first beat of the minute, the ping is the current ping
if (minutelyData.up === 1) {
minutelyData.avgPing = ping;
minutelyData.minPing = ping;
minutelyData.maxPing = ping;
} else {
minutelyData.avgPing = (minutelyData.avgPing * (minutelyData.up - 1) + ping) / minutelyData.up;
minutelyData.minPing = Math.min(minutelyData.minPing, ping);
minutelyData.maxPing = Math.max(minutelyData.maxPing, ping);
}
// Add avg ping
// The first beat of the hour, the ping is the current ping
if (hourlyData.up === 1) {
hourlyData.avgPing = ping;
hourlyData.minPing = ping;
hourlyData.maxPing = ping;
} else {
hourlyData.avgPing = (hourlyData.avgPing * (hourlyData.up - 1) + ping) / hourlyData.up;
hourlyData.minPing = Math.min(hourlyData.minPing, ping);
hourlyData.maxPing = Math.max(hourlyData.maxPing, ping);
}
// Add avg ping (daily)
// The first beat of the day, the ping is the current ping
if (minutelyData.up === 1) {
if (dailyData.up === 1) {
dailyData.avgPing = ping;
dailyData.minPing = ping;
dailyData.maxPing = ping;
} else {
dailyData.avgPing = (dailyData.avgPing * (dailyData.up - 1) + ping) / dailyData.up;
dailyData.minPing = Math.min(dailyData.minPing, ping);
dailyData.maxPing = Math.max(dailyData.maxPing, ping);
}
}
} else {
minutelyData.down += 1;
hourlyData.down += 1;
dailyData.down += 1;
}
if (dailyData !== this.lastDailyUptimeData) {
this.lastDailyUptimeData = dailyData;
}
if (minutelyData !== this.lastUptimeData) {
this.lastUptimeData = minutelyData;
}
if (hourlyData !== this.lastHourlyUptimeData) {
this.lastHourlyUptimeData = hourlyData;
}
if (dailyData !== this.lastDailyUptimeData) {
this.lastDailyUptimeData = dailyData;
}
// Don't store data in test mode
if (process.env.TEST_BACKEND) {
log.debug("uptime-calc", "Skip storing data in test mode");
@ -199,12 +261,24 @@ class UptimeCalculator {
dailyStatBean.up = dailyData.up;
dailyStatBean.down = dailyData.down;
dailyStatBean.ping = dailyData.avgPing;
dailyStatBean.pingMin = dailyData.minPing;
dailyStatBean.pingMax = dailyData.maxPing;
await R.store(dailyStatBean);
let hourlyStatBean = await this.getHourlyStatBean(hourlyKey);
hourlyStatBean.up = hourlyData.up;
hourlyStatBean.down = hourlyData.down;
hourlyStatBean.ping = hourlyData.avgPing;
hourlyStatBean.pingMin = hourlyData.minPing;
hourlyStatBean.pingMax = hourlyData.maxPing;
await R.store(hourlyStatBean);
let minutelyStatBean = await this.getMinutelyStatBean(divisionKey);
minutelyStatBean.up = minutelyData.up;
minutelyStatBean.down = minutelyData.down;
minutelyStatBean.ping = minutelyData.avgPing;
minutelyStatBean.pingMin = minutelyData.minPing;
minutelyStatBean.pingMax = minutelyData.maxPing;
await R.store(minutelyStatBean);
// Remove the old data
@ -214,6 +288,11 @@ class UptimeCalculator {
this.getMinutelyKey(date.subtract(24, "hour")),
]);
await R.exec("DELETE FROM stat_hourly WHERE monitor_id = ? AND timestamp < ?", [
this.monitorID,
this.getHourlyKey(date.subtract(30, "day")),
]);
return date;
}
@ -242,6 +321,31 @@ class UptimeCalculator {
return this.lastDailyStatBean;
}
/**
* Get the hourly stat bean
* @param {number} timestamp milliseconds
* @returns {Promise<import("redbean-node").Bean>} stat_hourly bean
*/
async getHourlyStatBean(timestamp) {
if (this.lastHourlyStatBean && this.lastHourlyStatBean.timestamp === timestamp) {
return this.lastHourlyStatBean;
}
let bean = await R.findOne("stat_hourly", " monitor_id = ? AND timestamp = ?", [
this.monitorID,
timestamp,
]);
if (!bean) {
bean = R.dispense("stat_hourly");
bean.monitor_id = this.monitorID;
bean.timestamp = timestamp;
}
this.lastHourlyStatBean = bean;
return this.lastHourlyStatBean;
}
/**
* Get the minutely stat bean
* @param {number} timestamp milliseconds
@ -268,11 +372,12 @@ class UptimeCalculator {
}
/**
* Convert timestamp to minutely key
* @param {dayjs.Dayjs} date The heartbeat date
* @returns {number} Timestamp
*/
getMinutelyKey(date) {
// Convert the current date to the nearest minute (e.g. 2021-01-01 12:34:56 -> 2021-01-01 12:34:00)
// Truncate value to minutes (e.g. 2021-01-01 12:34:56 -> 2021-01-01 12:34:00)
date = date.startOf("minute");
// Convert to timestamp in second
@ -283,6 +388,33 @@ class UptimeCalculator {
up: 0,
down: 0,
avgPing: 0,
minPing: 0,
maxPing: 0,
});
}
return divisionKey;
}
/**
* Convert timestamp to hourly key
* @param {dayjs.Dayjs} date The heartbeat date
* @returns {number} Timestamp
*/
getHourlyKey(date) {
// Truncate value to hours (e.g. 2021-01-01 12:34:56 -> 2021-01-01 12:00:00)
date = date.startOf("hour");
// Convert to timestamp in second
let divisionKey = date.unix();
if (! (divisionKey in this.hourlyUptimeDataList)) {
this.hourlyUptimeDataList.push(divisionKey, {
up: 0,
down: 0,
avgPing: 0,
minPing: 0,
maxPing: 0,
});
}
@ -291,13 +423,11 @@ class UptimeCalculator {
/**
* Convert timestamp to daily key
* @param {number} timestamp Timestamp
* @param {dayjs.Dayjs} date The heartbeat date
* @returns {number} Timestamp
*/
getDailyKey(timestamp) {
let date = dayjs.unix(timestamp);
// Convert the date to the nearest day (e.g. 2021-01-01 12:34:56 -> 2021-01-01 00:00:00)
getDailyKey(date) {
// Truncate value to start of day (e.g. 2021-01-01 12:34:56 -> 2021-01-01 00:00:00)
// Considering if the user keep changing could affect the calculation, so use UTC time to avoid this problem.
date = date.utc().startOf("day");
let dailyKey = date.unix();
@ -307,12 +437,34 @@ class UptimeCalculator {
up: 0,
down: 0,
avgPing: 0,
minPing: 0,
maxPing: 0,
});
}
return dailyKey;
}
/**
* Convert timestamp to key
* @param {dayjs.Dayjs} datetime Datetime
* @param {"day" | "hour" | "minute"} type the type of data which is expected to be returned
* @returns {number} Timestamp
* @throws {Error} If the type is invalid
*/
getKey(datetime, type) {
switch (type) {
case "day":
return this.getDailyKey(datetime);
case "hour":
return this.getHourlyKey(datetime);
case "minute":
return this.getMinutelyKey(datetime);
default:
throw new Error("Invalid type");
}
}
/**
* Flat status to UP or DOWN
* @param {number} status the status which schould be turned into a flat status
@ -333,21 +485,21 @@ class UptimeCalculator {
/**
* @param {number} num the number of data points which are expected to be returned
* @param {"day" | "minute"} type the type of data which is expected to be returned
* @param {"day" | "hour" | "minute"} type the type of data which is expected to be returned
* @returns {UptimeDataResult} UptimeDataResult
* @throws {Error} The maximum number of minutes greater than 1440
*/
getData(num, type = "day") {
let key;
if (type === "day") {
key = this.getDailyKey(this.getCurrentDate().unix());
} else {
if (num > 24 * 60) {
if (type === "hour" && num > 24 * 30) {
throw new Error("The maximum number of hours is 720");
}
if (type === "minute" && num > 24 * 60) {
throw new Error("The maximum number of minutes is 1440");
}
key = this.getMinutelyKey(this.getCurrentDate());
}
// Get the current time period key based on the type
let key = this.getKey(this.getCurrentDate(), type);
let total = {
up: 0,
@ -357,20 +509,37 @@ class UptimeCalculator {
let totalPing = 0;
let endTimestamp;
if (type === "day") {
// Get the eariest timestamp of the required period based on the type
switch (type) {
case "day":
endTimestamp = key - 86400 * (num - 1);
} else {
break;
case "hour":
endTimestamp = key - 3600 * (num - 1);
break;
case "minute":
endTimestamp = key - 60 * (num - 1);
break;
default:
throw new Error("Invalid type");
}
// Sum up all data in the specified time range
while (key >= endTimestamp) {
let data;
if (type === "day") {
switch (type) {
case "day":
data = this.dailyUptimeDataList[key];
} else {
break;
case "hour":
data = this.hourlyUptimeDataList[key];
break;
case "minute":
data = this.minutelyUptimeDataList[key];
break;
default:
throw new Error("Invalid type");
}
if (data) {
@ -379,28 +548,54 @@ class UptimeCalculator {
totalPing += data.avgPing * data.up;
}
// Previous day
if (type === "day") {
// Set key to the pervious time period
switch (type) {
case "day":
key -= 86400;
} else {
break;
case "hour":
key -= 3600;
break;
case "minute":
key -= 60;
break;
default:
throw new Error("Invalid type");
}
}
let uptimeData = new UptimeDataResult();
// If there is no data in the previous time ranges, use the last data?
if (total.up === 0 && total.down === 0) {
if (type === "day" && this.lastDailyUptimeData) {
switch (type) {
case "day":
if (this.lastDailyUptimeData) {
total = this.lastDailyUptimeData;
totalPing = total.avgPing * total.up;
} else if (type === "minute" && this.lastUptimeData) {
} else {
return uptimeData;
}
break;
case "hour":
if (this.lastHourlyUptimeData) {
total = this.lastHourlyUptimeData;
totalPing = total.avgPing * total.up;
} else {
return uptimeData;
}
break;
case "minute":
if (this.lastUptimeData) {
total = this.lastUptimeData;
totalPing = total.avgPing * total.up;
} else {
uptimeData.uptime = 0;
uptimeData.avgPing = null;
return uptimeData;
}
break;
default:
throw new Error("Invalid type");
}
}
let avgPing;
@ -416,6 +611,85 @@ class UptimeCalculator {
return uptimeData;
}
/**
* Get data in form of an array
* @param {number} num the number of data points which are expected to be returned
* @param {"day" | "hour" | "minute"} type the type of data which is expected to be returned
* @returns {Array<object>} uptime data
* @throws {Error} The maximum number of minutes greater than 1440
*/
getDataArray(num, type = "day") {
if (type === "hour" && num > 24 * 30) {
throw new Error("The maximum number of hours is 720");
}
if (type === "minute" && num > 24 * 60) {
throw new Error("The maximum number of minutes is 1440");
}
// Get the current time period key based on the type
let key = this.getKey(this.getCurrentDate(), type);
let result = [];
let endTimestamp;
// Get the eariest timestamp of the required period based on the type
switch (type) {
case "day":
endTimestamp = key - 86400 * (num - 1);
break;
case "hour":
endTimestamp = key - 3600 * (num - 1);
break;
case "minute":
endTimestamp = key - 60 * (num - 1);
break;
default:
throw new Error("Invalid type");
}
// Get datapoints in the specified time range
while (key >= endTimestamp) {
let data;
switch (type) {
case "day":
data = this.dailyUptimeDataList[key];
break;
case "hour":
data = this.hourlyUptimeDataList[key];
break;
case "minute":
data = this.minutelyUptimeDataList[key];
break;
default:
throw new Error("Invalid type");
}
if (data) {
data.timestamp = key;
result.push(data);
}
// Set key to the pervious time period
switch (type) {
case "day":
key -= 86400;
break;
case "hour":
key -= 3600;
break;
case "minute":
key -= 60;
break;
default:
throw new Error("Invalid type");
}
}
return result;
}
/**
* Get the uptime data by duration
* @param {'24h'|'30d'|'1y'} duration Only accept 24h, 30d, 1y
@ -446,7 +720,7 @@ class UptimeCalculator {
* @returns {UptimeDataResult} UptimeDataResult
*/
get7Day() {
return this.getData(7);
return this.getData(168, "hour");
}
/**
@ -464,7 +738,7 @@ class UptimeCalculator {
}
/**
* @returns {dayjs.Dayjs} Current date
* @returns {dayjs.Dayjs} Current datetime in UTC
*/
getCurrentDate() {
return dayjs.utc();
@ -476,12 +750,12 @@ class UptimeDataResult {
/**
* @type {number} Uptime
*/
uptime;
uptime = 0;
/**
* @type {number} Average ping
*/
avgPing;
avgPing = null;
}
module.exports = {

View file

@ -78,22 +78,27 @@ test("Test getMinutelyKey", async (t) => {
test("Test getDailyKey", async (t) => {
let c2 = new UptimeCalculator();
let dailyKey = c2.getDailyKey(dayjs.utc("2023-08-12 20:46:00").unix());
let dailyKey = c2.getDailyKey(dayjs.utc("2023-08-12 20:46:00"));
assert.strictEqual(dailyKey, dayjs.utc("2023-08-12").unix());
c2 = new UptimeCalculator();
dailyKey = c2.getDailyKey(dayjs.utc("2023-08-12 23:45:30").unix());
dailyKey = c2.getDailyKey(dayjs.utc("2023-08-12 23:45:30"));
assert.strictEqual(dailyKey, dayjs.utc("2023-08-12").unix());
// Edge case 1
c2 = new UptimeCalculator();
dailyKey = c2.getDailyKey(dayjs.utc("2023-08-12 23:59:59").unix());
dailyKey = c2.getDailyKey(dayjs.utc("2023-08-12 23:59:59"));
assert.strictEqual(dailyKey, dayjs.utc("2023-08-12").unix());
// Edge case 2
c2 = new UptimeCalculator();
dailyKey = c2.getDailyKey(dayjs.utc("2023-08-12 00:00:00").unix());
dailyKey = c2.getDailyKey(dayjs.utc("2023-08-12 00:00:00"));
assert.strictEqual(dailyKey, dayjs.utc("2023-08-12").unix());
// Test timezone
c2 = new UptimeCalculator();
dailyKey = c2.getDailyKey(dayjs("Sat Dec 23 2023 05:38:39 GMT+0800 (Hong Kong Standard Time)"));
assert.strictEqual(dailyKey, dayjs.utc("2023-12-22").unix());
});
test("Test lastDailyUptimeData", async (t) => {