63ac69a222
Reverts PR #44's approach of swapping GITHUB_TOKEN for a PAT on action-gh-release. That approach worked in principle but failed in practice during the v0.10.2 cut: HOMEBREW_TAP_GITHUB_TOKEN is a fine-grained PAT scoped only to razvandimescu/homebrew-tap, so when action-gh-release tried to create a release on razvandimescu/numa it got 403 Resource not accessible. v0.10.2 had to be recovered manually via `gh release create` from a user PAT. Root cause of the original bug (from #44): GitHub Actions deliberately does not propagate workflow events triggered by GITHUB_TOKEN, so a release created by GITHUB_TOKEN silently failed to fire homebrew-bump's `release: published` trigger. Fix: sidestep the event-propagation rule entirely by invoking homebrew-bump.yml directly as a reusable workflow via `workflow_call`. - release.yml: drop the `token:` override on action-gh-release (reverts to GITHUB_TOKEN default, which v0.10.0 and v0.10.1 used successfully) and add a new `bump-homebrew` job that `needs: release` and `uses:` homebrew-bump.yml with `secrets: inherit`. - homebrew-bump.yml: add `workflow_call` trigger with a `version` input, remove the `release: published` trigger (no longer needed), keep `workflow_dispatch` for manual recovery, and collapse the version determination step to a single `inputs.version` read. Each token now does exactly what its scope permits: - GITHUB_TOKEN creates the release on numa (contents: write, default) - HOMEBREW_TAP_GITHUB_TOKEN pushes to homebrew-tap (unchanged) The tap update becomes a child job in the release run, so failures are visible in one place instead of "why didn't the release event fire?" mysteries. Co-authored-by: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
Numa
DNS you own. Everywhere you go. — numa.rs
A portable DNS resolver in a single binary. Block ads on any network, name your local services (frontend.numa), and override any hostname with auto-revert — all from your laptop, no cloud account or Raspberry Pi required.
Built from scratch in Rust. Zero DNS libraries. RFC 1035 wire protocol parsed by hand. Caching, ad blocking, and local service domains out of the box. Optional recursive resolution from root nameservers with full DNSSEC chain-of-trust validation, plus a DNS-over-TLS listener for encrypted client connections (iOS Private DNS, systemd-resolved, etc.). One ~8MB binary, everything embedded.
Quick Start
# macOS
brew install razvandimescu/tap/numa
# Linux
curl -fsSL https://raw.githubusercontent.com/razvandimescu/numa/main/install.sh | sh
# Arch Linux (AUR)
yay -S numa-git
# Windows — download from GitHub Releases
# All platforms
cargo install numa
sudo numa # run in foreground (port 53 requires root/admin)
Open the dashboard: http://numa.numa (or http://localhost:5380)
Set as system DNS:
| Platform | Install | Uninstall |
|---|---|---|
| macOS | sudo numa install |
sudo numa uninstall |
| Linux | sudo numa install |
sudo numa uninstall |
| Windows | numa install (admin) + reboot |
numa uninstall (admin) + reboot |
On macOS and Linux, numa runs as a system service (launchd/systemd). On Windows, numa auto-starts on login via registry.
Local Services
Name your dev services instead of remembering port numbers:
curl -X POST localhost:5380/services \
-d '{"name":"frontend","target_port":5173}'
Now https://frontend.numa works in your browser — green lock, valid cert, WebSocket passthrough for HMR. No mkcert, no nginx, no /etc/hosts.
Add path-based routing (app.numa/api → :5001), share services across machines via LAN discovery, or configure everything in numa.toml.
Ad Blocking & Privacy
385K+ domains blocked via Hagezi Pro. Works on any network — coffee shops, hotels, airports. Travels with your laptop.
Three resolution modes:
forward(default) — transparent proxy to your existing system DNS. Everything works as before, just with caching and ad blocking on top. Captive portals, VPNs, corporate DNS — all respected.recursive— resolve directly from root nameservers. No upstream dependency, no single entity sees your full query pattern. Add[dnssec] enabled = truefor full chain-of-trust validation.auto— probe root servers on startup, recursive if reachable, encrypted DoH fallback if blocked.
DNSSEC validates the full chain of trust: RRSIG signatures, DNSKEY verification, DS delegation, NSEC/NSEC3 denial proofs. Read how it works →
DNS-over-TLS listener (RFC 7858) — accept encrypted queries on port 853 from strict clients like iOS Private DNS, systemd-resolved, or stubby. Two modes:
- Self-signed (default) — numa generates a local CA automatically.
numa installadds it to the system trust store on macOS, Linux (Debian/Ubuntu, Fedora/RHEL/SUSE, Arch), and Windows. On iOS, install the.mobileconfigfromnuma setup-phone. Firefox keeps its own NSS store and ignores the system one — trust the CA there manually if you need HTTPS for.numaservices in Firefox. - Bring-your-own cert — point
[dot] cert_path/key_pathat a publicly-trusted cert (e.g., Let's Encrypt via DNS-01 challenge on a domain pointing at your numa instance). Clients connect without any trust-store setup — same UX as AdGuard Home or Cloudflare1.1.1.1.
ALPN "dot" is advertised and enforced in both modes; a handshake with mismatched ALPN is rejected as a cross-protocol confusion defense.
LAN Discovery
Run Numa on multiple machines. They find each other automatically via mDNS:
Machine A (192.168.1.5) Machine B (192.168.1.20)
┌──────────────────────┐ ┌──────────────────────┐
│ Numa │ mDNS │ Numa │
│ - api (port 8000) │◄───────────►│ - grafana (3000) │
│ - frontend (5173) │ discovery │ │
└──────────────────────┘ └──────────────────────┘
From Machine B: curl http://api.numa → proxied to Machine A's port 8000. Enable with numa lan on.
Hub mode: run one instance with bind_addr = "0.0.0.0:53" and point other devices' DNS to it — they get ad blocking + .numa resolution without installing anything.
How It Compares
| Pi-hole | AdGuard Home | Unbound | Numa | |
|---|---|---|---|---|
| Local service proxy + auto TLS | — | — | — | .numa domains, HTTPS, WebSocket |
| LAN service discovery | — | — | — | mDNS, zero config |
| Developer overrides (REST API) | — | — | — | Auto-revert, scriptable |
| Recursive resolver | — | — | Yes | Yes, with SRTT selection |
| DNSSEC validation | — | — | Yes | Yes (RSA, ECDSA, Ed25519) |
| Ad blocking | Yes | Yes | — | 385K+ domains |
| Web admin UI | Full | Full | — | Dashboard |
| Encrypted upstream (DoH) | Needs cloudflared | Yes | — | Native |
| Encrypted clients (DoT listener) | Needs stunnel sidecar | Yes | Yes | Native (RFC 7858) |
| Portable (laptop) | No (appliance) | No (appliance) | Server | Single binary, macOS/Linux/Windows |
| Community maturity | 56K stars, 10 years | 33K stars | 20 years | New |
Performance
691ns cached round-trip. ~2.0M qps throughput. Zero heap allocations in the hot path. Recursive queries average 237ms after SRTT warmup (12x improvement over round-robin). ECDSA P-256 DNSSEC verification: 174ns. Benchmarks →
Learn More
- Blog: Implementing DNSSEC from Scratch in Rust
- Blog: I Built a DNS Resolver from Scratch
- Configuration reference — all options documented inline
- REST API — 27 endpoints across overrides, cache, blocking, services, diagnostics
Roadmap
- DNS forwarding, caching, ad blocking, developer overrides
.numalocal domains — auto TLS, path routing, WebSocket proxy- LAN service discovery — mDNS, cross-machine DNS + proxy
- DNS-over-HTTPS — encrypted upstream
- DNS-over-TLS listener — encrypted client connections (RFC 7858, ALPN strict)
- Recursive resolution + DNSSEC — chain-of-trust, NSEC/NSEC3
- SRTT-based nameserver selection
- pkarr integration — self-sovereign DNS via Mainline DHT
- Global
.numanames — DHT-backed, no registrar
License
MIT