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  • Sudonix has recently been featured on justoverclock.it, an Italian based blog dedicated to the world of overclocking and gaming hardware, and offering news and insights on the digital world 💗

    15acf378-92ab-4147-9b24-8b0e08730647-image.png

    See the review here. It’s in Italian, so you can either use a translator (if you’re not a native Italian speaker), or view the translated article below

    "We know that launching a website is not always a simple thing, you have to set it up well and not everyone is always (alas) capable of doing it.

    Everything becomes even more complicated if you have decided to use a VPS server, and not a managed hosting.

    In fact, although having a VPS undoubtedly has advantages (such as the freedom to create your own environment without having to submit to the rules of managed hosting), it also puts you in front of a much higher level of complexity.

    In fact, managing your VPS server means having to install one by one the components that will be used by your website (apache, nginx, mysql, php, etc. …). And therefore having to do most of the command line operations.

    If despite the premise (like me) you want to try your hand in this world and learn how to manage your website, here is a very important resource that comes to our aid in a completely free way. I’m talking about Sudonix , which is a website managed by professionals in the sector that will help you step by step in the management and configuration of your server, as long as you know a minimum of English (in fact the site is not Italian).

    We have tried the service, and we will try it again since we always need new information, and for this reason we recommend it to you too!

    Visit https://sudonix.com"

    This review was provided by @justoverclock, who leveraged the free services on offer here to help him on his journey to managing his own VPS.

    And the thread that got this started ? Well, you’ll find that here

  • Sudonix has recently been featured on justoverclock.it, an Italian based blog dedicated to the world of overclocking and gaming hardware, and offering news and insights on the digital world 💗

    15acf378-92ab-4147-9b24-8b0e08730647-image.png

    See the review here. It’s in Italian, so you can either use a translator (if you’re not a native Italian speaker), or view the translated article below

    "We know that launching a website is not always a simple thing, you have to set it up well and not everyone is always (alas) capable of doing it.

    Everything becomes even more complicated if you have decided to use a VPS server, and not a managed hosting.

    In fact, although having a VPS undoubtedly has advantages (such as the freedom to create your own environment without having to submit to the rules of managed hosting), it also puts you in front of a much higher level of complexity.

    In fact, managing your VPS server means having to install one by one the components that will be used by your website (apache, nginx, mysql, php, etc. …). And therefore having to do most of the command line operations.

    If despite the premise (like me) you want to try your hand in this world and learn how to manage your website, here is a very important resource that comes to our aid in a completely free way. I’m talking about Sudonix , which is a website managed by professionals in the sector that will help you step by step in the management and configuration of your server, as long as you know a minimum of English (in fact the site is not Italian).

    We have tried the service, and we will try it again since we always need new information, and for this reason we recommend it to you too!

    Visit https://sudonix.com"

    This review was provided by @justoverclock, who leveraged the free services on offer here to help him on his journey to managing his own VPS.

    And the thread that got this started ? Well, you’ll find that here

    @phenomlab Congrats!! That is awesome! You do a phenomenal job!!

  • @phenomlab Congrats!! That is awesome! You do a phenomenal job!!

    @Madchatthew thanks


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    OGProxy : Other Memory Saturation Root Cause & Fix OGProxy was periodically saturating server RAM and swap (up to ~4 GB of arrayBuffers, swap fully consumed), causing multi-minute service degradation. After tracing through several misleading leads, the root cause was identified: OGProxy was downloading entire file-host link bodies into memory when trying to generate previews. On a file-sharing forum, links to file hosts (1fichier, etc.) are everywhere. When OGProxy received a URL like https://1fichier.com/?xxxx, it attempted to “preview” it, but that URL is a direct file download (Content-Type: application/octet-stream, Content-Length: 20.6 GB). OGProxy pulled the file into memory. Critically, neither open-graph-scraper’s downloadLimit nor an AbortController stopped this, verified by reproduction: arrayBuffers climbed ~120 MB/s past 4 GB while the abort timeout was ignored. Diagnostic path (for reference) We instrumented the process with a /debug/mem endpoint exposing process.memoryUsage() + cache size, plus a 30-second sampling trace. This let us correlate memory spikes with nginx access logs. The trace showed arrayBuffers jumping from 0 → 457 → 3669 MB in ~5 minutes, correlated via nginx log to a single GET on a 1fichier link. The cache, EventEmitter listeners, and image links were all ruled out as primary causes (cache stayed at <30 entries during the spike; heapUsed stayed low; only arrayBuffers leaked). A representative slice of the trace at the moment of the spike: 11:24:39 arrayBuffers=0 rss=161 11:25:09 arrayBuffers=457 rss=427 <- jump in one 30s sample 11:25:39 arrayBuffers=884 11:26:09 arrayBuffers=1437 ... 11:30:09 arrayBuffers=3669 No OGProxy fail log line appeared during the spike window, the offending request neither failed nor completed; it was an in-progress, never-ending download. The nginx access log for that minute pointed at the 1fichier GET. Root cause open-graph-scraper (ogs) performs its own internal fetch, and for these URLs: The downloadLimit option does not reliably abort the body download on streamed / chunked responses or on hosts that serve large application/octet-stream payloads. An AbortController passed via fetchOptions.signal does not propagate to the underlying stream read in a way that stops the transfer in time. Result: a single large file-host link could pull multiple GB into arrayBuffers before anything intervened. The fix: bounded streaming fetch The structural problem is that ogs() controls the fetch and we don’t control body consumption. The fix moves the fetch into our own code so we control every byte read: boundedFetch(url, maxBytes, timeoutMs) performs the HTTP fetch itself, then: Re-checks the final host for SSRF after redirects. Rejects any non-text/html / application/xhtml Content-Type before reading the body (aborts immediately). Reads the body chunk-by-chunk via resp.body.getReader(), tracking total bytes, and hard-aborts at 5 MB regardless of what the server claims. The retrieved HTML is then handed to ogs for parsing only: ogs({ html }). This makes the protection structural rather than cooperative: no file host can leak memory regardless of whether it honors HEAD, serves chunked, or misreports headers. Important ogs constraint You must call ogs({ html }) alone. Passing { html, url } together throws: Must specify either `url` or `html`, not both Because url is omitted, ogs cannot resolve relative og:image paths. This is fine here: the ACP client already resolves relative image paths itself (isFullPath() + host + imageUrl), so no client-side change was required. Other hardening applied in the same pass Cache: replaced memory-cache (which creates a per-entry setTimeout that retains the cached object, a secondary leak) with a plain Map using lazy expiry + a single sweep interval. Stored value is slimmed via slimResult(): only error + result + HTML truncated at </head> (preserves <title>, drops the multi-MB body and the undici response object). Cap 300 entries, 30 min TTL, 10 min negative-cache TTL. Negative cache: failed/rejected URLs are cached to prevent re-scrape hammering from the client. SSRF guards (three layers): static host/IP blocklist (private ranges, loopback, link-local, CGNAT, IPv6 ULA/link-local), DNS resolution check, and post-redirect re-validation of the final host. (Also backed at the OS level by systemd IPAddressDeny on the unit.) AbortController + clearTimeout in finally to stop the earlier MaxListenersExceededWarning listener leak on timed-out requests. nginx rate limit: limit_req_zone (10 r/s, burst 50, nodelay, returns 429) on the /ogproxy location. The API key is necessarily exposed client-side (it ships in the ACP JS), so it provides no real protection on its own; the rate limit is the actual abuse mitigation. systemd guard rail: MemoryMax=512M / MemoryHigh=400M so OGProxy can never take the whole box down again, this was the silent hero that kept the server alive throughout diagnosis. Validation Test URL Expected Result https://1fichier.com/?xxxx (20.6 GB) reject, no body read 415, arrayBuffers stays 0 Direct image (pbs.twimg.com/...jpg) reject on content-type 415 https://github.com full preview 200, OG title/image/description, HTML truncated at </head> Process idles at ~100 MB RSS; under load heapUsed oscillates and returns to baseline (no step-up accumulation). Reproduction of the bounded fetch against the 20.6 GB link, confirming zero body is pulled: arrayBuffers AVANT: 0 MB pendant: 0 MB Resultat 1fichier: REJETE: non-HTML content-type: application/octet-stream arrayBuffers APRES: 0 MB Note on dependencies Reproduced on open-graph-scraper 6.1.0 / undici 5.22.1 / Node 24. The unreliable downloadLimit behavior may be version-specific; a newer undici might handle aborts on large streams better. The bounded-fetch approach is robust regardless of the underlying library version, so it is the recommended long-term fix. Appendix A: Full server.js const express = require('express'); const ogs = require('open-graph-scraper'); const cors = require('cors'); const { URL } = require('url'); const dns = require('dns').promises; const net = require('net'); require('events').EventEmitter.defaultMaxListeners = 50; const app = express(); const port = 2000; const apiKey = process.env.OGPROXY_API_KEY || '<API_KEY>'; const REQUEST_TIMEOUT = 12000; const MAX_CONTENT_BYTES = 5 * 1024 * 1024; // 5 MB hard cap on body const CACHE_TTL_MS = 30 * 60 * 1000; const FAIL_CACHE_TTL_MS = 10 * 60 * 1000; const CACHE_MAX_ENTRIES = 300; const MAX_REDIRECTS = 3; // --- Map cache (lazy expiry, no per-entry timers) --- const cacheStore = new Map(); function cacheGet(key) { const e = cacheStore.get(key); if (!e) return null; if (Date.now() > e.expires) { cacheStore.delete(key); return null; } return e.value; } function cacheSet(key, value, ttl) { if (cacheStore.size >= CACHE_MAX_ENTRIES) { cacheStore.delete(cacheStore.keys().next().value); } cacheStore.set(key, { value, expires: Date.now() + ttl }); } setInterval(() => { const now = Date.now(); for (const [k, e] of cacheStore) if (now > e.expires) cacheStore.delete(k); }, 60 * 1000).unref(); function slimResult(results) { if (!results || typeof results !== 'object') return results; let slimHtml = ''; if (typeof results.html === 'string') { const headEnd = results.html.search(/<\/head>/i); slimHtml = headEnd !== -1 ? results.html.slice(0, headEnd + 7) : results.html.slice(0, 8192); } return { error: results.error, result: results.result, html: slimHtml }; } function isBlockedIp(ip) { if (!ip) return true; if (net.isIPv4(ip)) { const p = ip.split('.').map(Number); if (p[0] === 10) return true; if (p[0] === 127) return true; if (p[0] === 0) return true; if (p[0] === 169 && p[1] === 254) return true; if (p[0] === 192 && p[1] === 168) return true; if (p[0] === 172 && p[1] >= 16 && p[1] <= 31) return true; if (p[0] === 100 && p[1] >= 64 && p[1] <= 127) return true; return false; } if (net.isIPv6(ip)) { const v = ip.toLowerCase(); if (v === '::1') return true; if (v.startsWith('fc') || v.startsWith('fd')) return true; if (v.startsWith('fe80')) return true; if (v.startsWith('::ffff:')) return isBlockedIp(v.split(':').pop()); return false; } return true; } function isBlockedHost(hostname) { if (!hostname) return true; const h = hostname.toLowerCase(); return ( h === 'localhost' || h.endsWith('.localhost') || h.endsWith('.internal') || h.endsWith('.local') || (net.isIP(h) && isBlockedIp(h)) ); } async function resolvesToPublicIp(hostname) { try { const records = await dns.lookup(hostname, { all: true }); if (!records || records.length === 0) return false; return records.every(r => !isBlockedIp(r.address)); } catch (e) { return false; } } // Bounded streaming fetch: reads the body chunk by chunk and aborts hard at maxBytes. // Rejects non-HTML content-types before reading any body. Structural protection // against file hosts (1fichier, etc.) - independent of what the server claims. async function boundedFetch(url, maxBytes, timeoutMs) { const controller = new AbortController(); const timer = setTimeout(() => controller.abort(), timeoutMs); try { const resp = await fetch(url, { redirect: 'follow', signal: controller.signal, headers: { 'User-Agent': 'Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/126.0.0.0 Safari/537.36', 'Accept': 'text/html,application/xhtml+xml,application/xml;q=0.9,image/avif,image/webp,*/*;q=0.8', 'Accept-Language': 'fr-FR,fr;q=0.9,en;q=0.8', }, }); // Re-check final host after redirects (anti-SSRF) try { const finalHost = new URL(resp.url || url).hostname; if (isBlockedHost(finalHost) || !(await resolvesToPublicIp(finalHost))) { controller.abort(); return { ok: false, reason: 'redirect to forbidden host' }; } } catch (e) { /* ignore */ } const ctype = (resp.headers.get('content-type') || '').toLowerCase(); if (ctype && !ctype.includes('text/html') && !ctype.includes('application/xhtml')) { controller.abort(); // not HTML: read nothing return { ok: false, reason: `non-HTML content-type: ${ctype.split(';')[0]}` }; } if (!resp.body) { return { ok: false, reason: 'no response body' }; } const reader = resp.body.getReader(); const chunks = []; let total = 0; while (true) { const { done, value } = await reader.read(); if (done) break; total += value.length; if (total > maxBytes) { controller.abort(); // hard cap reached: stop downloading return { ok: false, reason: `body exceeded ${maxBytes} bytes` }; } chunks.push(value); } const html = Buffer.concat(chunks).toString('utf8'); return { ok: true, html }; } catch (e) { return { ok: false, reason: (e && e.name === 'AbortError') ? 'timeout/abort' : (e && e.message) || 'fetch error' }; } finally { clearTimeout(timer); } } app.use(cors({ origin: 'https://YOUR_DOMAIN.EXT' })); app.get('/debug/mem', (req, res) => { const m = process.memoryUsage(); res.json({ rss_mb: Math.round(m.rss / 1048576), heapUsed_mb: Math.round(m.heapUsed / 1048576), external_mb: Math.round(m.external / 1048576), arrayBuffers_mb: Math.round(m.arrayBuffers / 1048576), cache_entries: cacheStore.size, }); }); app.get('/ogproxy', async (req, res) => { let { url } = req.query; const requestApiKey = req.headers['x-api-key']; if (requestApiKey !== apiKey) return res.status(401).send('Unauthorized'); if (!url || typeof url !== 'string') return res.status(400).send('Missing URL parameter'); if (!url.startsWith('http')) { try { url = new URL(url, `${req.protocol}://${req.get('host')}`).href; } catch (e) { return res.status(400).send('Invalid URL'); } } let parsedUrl; try { parsedUrl = new URL(url); } catch (e) { console.warn(`OGProxy reject [${url}]: invalid URL`); return res.status(400).send('Invalid URL'); } if (!['http:', 'https:'].includes(parsedUrl.protocol)) { return res.status(400).send('Invalid protocol'); } if (isBlockedHost(parsedUrl.hostname)) { console.warn(`OGProxy reject [${url}]: forbidden host (static guard)`); return res.status(403).send('Forbidden host'); } const cached = cacheGet(url); if (cached) { if (cached.__ogproxyFail === true) return res.status(500).send('Error scraping Open Graph data (cached)'); return res.json(cached); } if (!(await resolvesToPublicIp(parsedUrl.hostname))) { console.warn(`OGProxy reject [${url}]: resolves to private IP / DNS fail (SSRF)`); cacheSet(url, { __ogproxyFail: true }, FAIL_CACHE_TTL_MS); return res.status(403).send('Forbidden host'); } if (cacheStore.size >= CACHE_MAX_ENTRIES) { cacheStore.delete(cacheStore.keys().next().value); } // Bounded fetch: download the body ourselves, capped at 5 MB, HTML-only. const fetched = await boundedFetch(url, MAX_CONTENT_BYTES, REQUEST_TIMEOUT); if (!fetched.ok) { console.error(`OGProxy reject [${url}]: ${fetched.reason}`); cacheSet(url, { __ogproxyFail: true }, FAIL_CACHE_TTL_MS); const code = (fetched.reason.startsWith('non-HTML') || fetched.reason.startsWith('body exceeded')) ? 415 : 500; return res.status(code).send('Unable to preview this URL'); } try { // Parse the already-fetched HTML (no second fetch). Client resolves relative image paths itself. const results = await ogs({ html: fetched.html }); const slim = slimResult(results); cacheSet(url, slim, CACHE_TTL_MS); return res.json(slim); } catch (error) { const reason = (error && error.result && error.result.error) || (error && error.message) || 'unknown'; console.error(`OGProxy fail [${url}]: ${reason}`); cacheSet(url, { __ogproxyFail: true }, FAIL_CACHE_TTL_MS); return res.status(500).send('Error scraping Open Graph data'); } }); app.listen(port, () => { console.log(`OGProxy server listening on port ${port}`); }); Note: /debug/mem is a temporary diagnostic endpoint. Remove it once the deployment is confirmed stable in production. Appendix B: nginx rate limit Zone definition, placed in /etc/nginx/conf.d/ogproxy-ratelimit.conf (included at the http level; survives vhost regeneration by the panel): # Rate limit zone for OGProxy - 10 MB shared memory (~160k IPs tracked) # 10 requests/second sustained per IP limit_req_zone $binary_remote_addr zone=ogproxy_limit:10m rate=10r/s; Application, inside the reverse-proxy location / of the OGProxy vhost: location / { limit_req zone=ogproxy_limit burst=50 nodelay; limit_req_status 429; proxy_set_header Host $host; proxy_pass http://127.0.0.1:2000; proxy_redirect off; proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for; proxy_set_header X-Api-Key $http_x_api_key; } burst=50 absorbs the legitimate burst when a user opens a link-heavy topic (the client fires many preview requests at once); sustained hammering beyond that is rejected with 429. Appendix C : systemd unit guard rails Key directives on ogproxy.service: [Service] MemoryHigh=400M MemoryMax=512M Restart=always RestartSec=3 # SSRF egress guard (OS-level backstop to the in-app checks) IPAddressAllow=127.0.0.1 127.0.0.53 127.0.0.54 IPAddressDeny=10.0.0.0/8 172.16.0.0/12 192.168.0.0/16 169.254.0.0/16 100.64.0.0/10 fc00::/7 fe80::/10 127.0.0.1 must stay allowed because nginx reverse-proxies to OGProxy over loopback; blocking all loopback breaks the nginx -> ogproxy hop (504s).
  • Clustering for NodeBB enabled

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    @phenomlab Inquiring minds will be curious. See my reply in the “Miscellany” thread, eh?
  • PWA support for Sudonix Platform

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    @crazycells Yes, you should install the app that is offered when you access the site. I’ve had mixed experiences with this though. It seems to work fine with Chrome and Firefox, but it’s a bit hit and miss with Apple devices because of their closed ecosystem, and the inability to access the push service directly. Android is completely different in the sense that the service is open for usage, meaning hooking into the pusher is simple. For Apple, it is closed source, so probably won’t work.
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    And it seems to be less conflicting!