Sharkey/packages/backend/src/daemons/ServerStatsService.ts
nexryai 7de59a80a2
fix(backend): サーバーメトリクスのメモリ使用率が不正確になることがある不具合の修正 (#10728)
* FIX: サーバーメトリクスのメモリ使用率が不正確になることがある不具合の修正

* Update CHANGELOG
2023-04-30 06:47:00 +09:00

97 lines
2.1 KiB
TypeScript

import { Injectable } from '@nestjs/common';
import si from 'systeminformation';
import Xev from 'xev';
import * as osUtils from 'os-utils';
import { bindThis } from '@/decorators.js';
import type { OnApplicationShutdown } from '@nestjs/common';
const ev = new Xev();
const interval = 2000;
const roundCpu = (num: number) => Math.round(num * 1000) / 1000;
const round = (num: number) => Math.round(num * 10) / 10;
@Injectable()
export class ServerStatsService implements OnApplicationShutdown {
private intervalId: NodeJS.Timer;
constructor(
) {
}
/**
* Report server stats regularly
*/
@bindThis
public start(): void {
const log = [] as any[];
ev.on('requestServerStatsLog', x => {
ev.emit(`serverStatsLog:${x.id}`, log.slice(0, x.length ?? 50));
});
const tick = async () => {
const cpu = await cpuUsage();
const memStats = await mem();
const netStats = await net();
const fsStats = await fs();
const stats = {
cpu: roundCpu(cpu),
mem: {
used: round(memStats.total - memStats.available),
active: round(memStats.active),
},
net: {
rx: round(Math.max(0, netStats.rx_sec)),
tx: round(Math.max(0, netStats.tx_sec)),
},
fs: {
r: round(Math.max(0, fsStats.rIO_sec ?? 0)),
w: round(Math.max(0, fsStats.wIO_sec ?? 0)),
},
};
ev.emit('serverStats', stats);
log.unshift(stats);
if (log.length > 200) log.pop();
};
tick();
this.intervalId = setInterval(tick, interval);
}
@bindThis
public onApplicationShutdown(signal?: string | undefined) {
clearInterval(this.intervalId);
}
}
// CPU STAT
function cpuUsage(): Promise<number> {
return new Promise((res, rej) => {
osUtils.cpuUsage((cpuUsage) => {
res(cpuUsage);
});
});
}
// MEMORY STAT
async function mem() {
const data = await si.mem();
return data;
}
// NETWORK STAT
async function net() {
const iface = await si.networkInterfaceDefault();
const data = await si.networkStats(iface);
return data[0];
}
// FS STAT
async function fs() {
const data = await si.disksIO().catch(() => ({ rIO_sec: 0, wIO_sec: 0 }));
return data ?? { rIO_sec: 0, wIO_sec: 0 };
}