alknet/docs/architecture/overview.md

status, last_updated

status	last_updated
draft	2026-06-01

Wraith Overview

Purpose

Wraith is a self-hostable SSH-based tunnel tool that provides VPN-like functionality without being a VPN protocol. It enables:

• Private tunneling of services (Postgres, Redis, internal APIs) over SSH
• Censorship circumvention — SSH over TLS on port 443 looks like HTTPS to DPI
• NAT traversal — iroh transport allows peer-to-peer connections without public IPs or port forwarding
• Service mesh connectivity — a lightweight transport layer for the pubsub/operations event system

The core insight: SSH tunnels work because SSH is fundamental infrastructure. Blocking it breaks the internet. Wraith makes SSH tunneling accessible through a simple CLI with pluggable transports.

Exports

Binary: wraith

A single binary with subcommands:

wraith serve     — Start the server (accepts SSH connections)
wraith connect  — Start the client (opens SSH session, exposes SOCKS5/port-forwards)

Library: wraith-core

The wraith-core crate exports the pluggable components for embedding or programmatic use:

• Transport trait — produces a duplex stream for SSH to run over
• TcpTransport — direct TCP connection
• TlsTransport — TCP + tokio-rustls TLS
• IrohTransport — iroh QUIC P2P connection
• Socks5Server — local SOCKS5 proxy that forwards through SSH channels
• PortForwarder — manages local/remote port forwards
• ServerHandler — russh server handler with configurable auth and channel policies
• ConnectOptions / ServeOptions — programmatic configuration structs (no file parsing)

Dependencies

Dependency	Purpose	Feature-gated
russh	SSH client & server	No (core)
tokio	Async runtime	No (core)
tokio-rustls	TLS wrapping	Yes (tls)
rustls	TLS implementation	Yes (tls)
rustls-acme	ACME/Let's Encrypt auto-cert	Yes (acme)
iroh	P2P QUIC transport	Yes (iroh)
clap	CLI argument parsing	No (core)
tracing	Structured logging	No (core)
anyhow / thiserror	Error handling	No (core)

Note: tun-rs is no longer a dependency. TUN support is deferred in favor of the external tun2proxy tool (ADR-014).

Architecture Constraints

1. SSH runs over transport, not alongside — The transport layer produces a single AsyncRead+AsyncWrite+Unpin+Send stream. SSH runs over that stream via russh::client::connect_stream() / russh::server::run_stream(). The SSH layer never knows what transport it's on. (ADR-001, ADR-004)

2. SOCKS5 is the primary client interface — Port forwarding is built on top of SOCKS5-like channel management. For VPN-like "route all traffic" behavior, users run tun2proxy alongside wraith's SOCKS5 proxy. TUN is not in the project scope. (ADR-005, ADR-014)

3. No logging of tunnel destinations — The server logs auth attempts and connections (for fail2ban) but does not log channel_open_direct_tcpip destinations, DNS lookups, or bytes transferred. (ADR-006, ADR-013)

4. Programmatic-first API — Configuration via CLI flags, library API structs (ConnectOptions, ServeOptions), and environment variables. No ~/.ssh/config parsing, no custom config files. (ADR-011)

5. Feature flags control transport inclusion — tls, iroh, acme are feature-gated so the base install is lean. Users opt in to heavier dependencies.

6. Authentication is key-based — Ed25519 public key (default) and OpenSSH certificate authority. No password authentication over SSH. (ADR-012)

7. NAPI exposes both connect() and serve() — The napi-rs wrapper provides client and server functionality, using napi-rs as the FFI bridge. The NAPI layer is transport-agnostic and not tied to pubsub. (ADR-015, ADR-016)

Design Decisions

ADR	Decision	Summary
001	Pluggable transport	Transport trait produces AsyncRead+AsyncWrite+Unpin+Send, SSH consumes it
002	TUN shim separate	Superseded — TUN is deferred, use tun2proxy (ADR-014)
003	iroh stream join	tokio::io::join(recv, send) combines QUIC halves
004	SSH over transport	SSH never accesses TCP/iroh/TLS directly
005	SOCKS5 first	SOCKS5 is the primary interface; TUN is external (tun2proxy)
006	No logging of tunnel destinations	Server logs auth and connections, not destinations
007	NAPI single stream	NAPI exposes duplex streams, not SSH multiplexing
008	ACME/Let's Encrypt	Auto-provision TLS certs, domain and IP paths
009	Default iroh relay	n0 relay by default, --iroh-relay override
010	Transport chaining	--proxy works with all transports natively
011	Programmatic-first	No file-based config; options are structs, env vars, CLI flags
012	Key + cert-authority	Ed25519 keys + OpenSSH CA; no password auth
013	Fail2ban-friendly	Structured auth logs + built-in rate limiting
014	Defer TUN	Use tun2proxy for VPN-like behavior; no wraith-tun binary
015	napi-rs	Standard Node.js native addon tooling
016	connect + serve	NAPI exposes both client and server from the start
017	Stealth mode	Protocol multiplexing on port 443
018	Control channel	Reserved wraith-control destination for pubsub

Open Questions

All open questions have been resolved. See open-questions.md for resolution details.

References

• Feasibility Assessment
• russh API — SSH client/server library
• Dispatch — Reference implementation of russh port forwarding
• iroh — P2P QUIC connections
• tun2proxy — Recommended external TUN-to-SOCKS5 tool
• Production certbot setup — Let's Encrypt on our infrastructure
• Production fail2ban setup — fail2ban with nftables on our infrastructure