1f7a81aae7
* update deps
* node16
* wip
* wip
* wip
* Update test-utils.ts
* wip
* Update tsconfig.json
* wip
* Update package.json
* wip
* Update following.vue
* Update followers.vue
* Update index.vue
* Update share.vue
* Update MkUserPopup.vue
* Update MkPostForm.vue
* wip
* Update MkTokenGenerateWindow.vue
* Update MkPagination.vue
* refactor
* update deps
* update deps
* Update sw.ts
* wip
* wip
* wip
* Update FetchInstanceMetadataService.ts
* Update FetchInstanceMetadataService.ts
* update node
* update deps
* 🎨
113 lines
2.5 KiB
TypeScript
113 lines
2.5 KiB
TypeScript
/*
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* SPDX-FileCopyrightText: syuilo and other misskey contributors
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* SPDX-License-Identifier: AGPL-3.0-only
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*/
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import { Injectable } from '@nestjs/common';
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import si from 'systeminformation';
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import Xev from 'xev';
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import * as osUtils from 'os-utils';
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import { bindThis } from '@/decorators.js';
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import { MetaService } from '@/core/MetaService.js';
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import type { OnApplicationShutdown } from '@nestjs/common';
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const ev = new Xev();
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const interval = 2000;
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const roundCpu = (num: number) => Math.round(num * 1000) / 1000;
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const round = (num: number) => Math.round(num * 10) / 10;
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@Injectable()
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export class ServerStatsService implements OnApplicationShutdown {
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private intervalId: NodeJS.Timeout | null = null;
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constructor(
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private metaService: MetaService,
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) {
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}
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/**
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* Report server stats regularly
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*/
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@bindThis
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public async start(): Promise<void> {
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if (!(await this.metaService.fetch(true)).enableServerMachineStats) return;
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const log = [] as any[];
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ev.on('requestServerStatsLog', x => {
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ev.emit(`serverStatsLog:${x.id}`, log.slice(0, x.length ?? 50));
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});
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const tick = async () => {
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const cpu = await cpuUsage();
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const memStats = await mem();
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const netStats = await net();
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const fsStats = await fs();
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const stats = {
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cpu: roundCpu(cpu),
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mem: {
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used: round(memStats.total - memStats.available),
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active: round(memStats.active),
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},
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net: {
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rx: round(Math.max(0, netStats.rx_sec)),
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tx: round(Math.max(0, netStats.tx_sec)),
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},
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fs: {
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r: round(Math.max(0, fsStats.rIO_sec ?? 0)),
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w: round(Math.max(0, fsStats.wIO_sec ?? 0)),
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},
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};
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ev.emit('serverStats', stats);
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log.unshift(stats);
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if (log.length > 200) log.pop();
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};
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tick();
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this.intervalId = setInterval(tick, interval);
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}
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@bindThis
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public dispose(): void {
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if (this.intervalId) {
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clearInterval(this.intervalId);
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}
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}
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@bindThis
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public onApplicationShutdown(signal?: string | undefined): void {
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this.dispose();
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}
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}
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// CPU STAT
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function cpuUsage(): Promise<number> {
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return new Promise((res, rej) => {
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osUtils.cpuUsage((cpuUsage) => {
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res(cpuUsage);
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});
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});
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}
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// MEMORY STAT
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async function mem() {
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const data = await si.mem();
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return data;
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}
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// NETWORK STAT
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async function net() {
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const iface = await si.networkInterfaceDefault();
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const data = await si.networkStats(iface);
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return data[0];
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}
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// FS STAT
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async function fs() {
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const data = await si.disksIO().catch(() => ({ rIO_sec: 0, wIO_sec: 0 }));
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return data ?? { rIO_sec: 0, wIO_sec: 0 };
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}
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