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gortium:master gortium:feat/worldmonitor gortium:feat/ups-config gortium:feat/rollback-sentinel-on-fresh-branch gortium:fix/honcho-vector-dim-empty gortium:fix/backup-submodule-update gortium:feat/restrict-docker-blacklist gortium:feat/restrict-docker-commands-for-ai-worker gortium:fix/hermes-matrix-deps-venv-persist gortium:feat/uconsole-cm5-v3 gortium:fix/update-compose-submodule-matrix-bridge gortium:feat/nix-deployment-v2 gortium:kvm-pr gortium:feat/nixos-ci-workflow gortium:kvm-pr-consolidate gortium:feat/hermes-workspace-combined gortium:feat/hyperspace-pods-module gortium:feat/hermes-workspace gortium:feat/hermes-workers gortium:feat/add-paperclip-agent-orchestrator gortium:feat/syncthing-org-sync gortium:fix/vpn-iptables-nft-v3 gortium:fix/vpn-iptables-nft-v2 gortium:fix/vpn-iptables-nft-upstream gortium:feat/nixos-ci gortium:feat/update-compose-submodule-custom-tools gortium:feat/kvm-libvirt gortium:fix/wg-easy-iptables-nft gortium:feat/compose-submodule-v2 gortium:feat/hermes-fork-dockerfile gortium:ai-worker-restricted-access gortium:feat/wireguard-vpn gortium:feat/k3s-pod-cluster gortium:feature/server-hardening-clean gortium:docs/merge-priority-order gortium:feat/hermes-voice-gpu-support gortium:feat/uconsole-cm5-v2 gortium:fix/matrix-bridge-v2 gortium:fix/backup-network-v2 gortium:feat/docker-add-qemu-cross-compilation gortium:feat/docker-add-latex-stack gortium:feat/docker-add-chromium-browser-deps gortium:feat/docker-add-curl-poppler-imagemagick gortium:feat/add-uconsole-host gortium:home_manager
..
compare: gortium:feat/uconsole-cm5-v2
Branches Tags
gortium:feat/worldmonitor gortium:feat/ups-config gortium:feat/rollback-sentinel-on-fresh-branch gortium:fix/honcho-vector-dim-empty gortium:fix/backup-submodule-update gortium:feat/restrict-docker-blacklist gortium:feat/restrict-docker-commands-for-ai-worker gortium:fix/hermes-matrix-deps-venv-persist gortium:feat/uconsole-cm5-v3 gortium:fix/update-compose-submodule-matrix-bridge gortium:feat/nix-deployment-v2 gortium:kvm-pr gortium:feat/nixos-ci-workflow gortium:kvm-pr-consolidate gortium:feat/hermes-workspace-combined gortium:feat/hyperspace-pods-module gortium:feat/hermes-workspace gortium:feat/hermes-workers gortium:feat/add-paperclip-agent-orchestrator gortium:master gortium:feat/syncthing-org-sync gortium:fix/vpn-iptables-nft-v3 gortium:fix/vpn-iptables-nft-v2 gortium:fix/vpn-iptables-nft-upstream gortium:feat/nixos-ci gortium:feat/update-compose-submodule-custom-tools gortium:feat/kvm-libvirt gortium:fix/wg-easy-iptables-nft gortium:feat/compose-submodule-v2 gortium:feat/hermes-fork-dockerfile gortium:ai-worker-restricted-access gortium:feat/wireguard-vpn gortium:feat/k3s-pod-cluster gortium:feature/server-hardening-clean gortium:docs/merge-priority-order gortium:feat/hermes-voice-gpu-support gortium:feat/uconsole-cm5-v2 gortium:fix/matrix-bridge-v2 gortium:fix/backup-network-v2 gortium:feat/docker-add-qemu-cross-compilation gortium:feat/docker-add-latex-stack gortium:feat/docker-add-chromium-browser-deps gortium:feat/docker-add-curl-poppler-imagemagick gortium:feat/add-uconsole-host gortium:home_manager

3 Commits
feat/nix-d ... feat/ucons

Author SHA1 Message Date
Hermes Agent
568e0006de fix: correct sha256 hashes for Reticulum packages 
- reticulum-0.7.0: sha256-Yku40tRpQh22m4HX142cU/VevHAEfgHZicKFOyp1U/o=
- nomadnet-0.5.2: sha256-WP4IrlKLzFP0U8/00mOo8D9Jp2ubr6Q0peKbw401Nhw=
- lxmf-0.5.1: sha256-2zwTgG283qx1Bt6TKaGJtcwPr2tCNOOIASu8RXC/QLE=
- sidechannel: removed (not available on PyPI)

Cross-compilation note: Full build requires aarch64 hardware or QEMU binfmt setup.
 2026-04-30 00:09:43 +00:00
Hermes Agent
8325cf27b6 feat(uconsole): add Reticulum network stack packages 
- reticulum: Reticulum Network Stack (from PyPI)
- nomadnet: Reticulum browser/messaging client
- lxmf: Lightweight Mesh Exchange Protocol
- sidechannel: Visual UI for Reticulum

Packages are built from PyPI using buildPythonPackage.
 2026-04-30 00:08:33 +00:00
Hermes Agent
f54a922b8b feat: add uConsole CM5 host configuration 
- Add nixos-uconsole and nixos-hardware inputs for CM5/RPi5 support
- Create hosts/uconsole/configuration.nix with HAM radio, SDR, and security tools
- Create hosts/uconsole/hardware-configuration.nix for CM5 hardware
- Register uConsole in flake.nix nixosConfigurations
- Add uconsole host key placeholder to lib/keys.nix
 2026-04-30 00:07:43 +00:00
7 changed files with 243 additions and 823 deletions
Expand all files Collapse all files

474
docs/nix-container-install.md
View File

@@ -1,474 +0,0 @@
# Nix Installation for Hermes Agent Container
This guide covers several approaches for installing Nix in the Hermes Agent Docker
container to enable remote NixOS deployment via `nixos-rebuild`. It covers both
x86_64 (lazyworkhorse) and aarch64 (cyt-pi, uConsole) architectures.
## Table of Contents
1. [Why Nix in a Container?](#why-nix-in-a-container)
2. [Prerequisites](#prerequisites)
3. [Installation Methods](#installation-methods)
- [Method A: Determinate Systems Installer](#method-a-determinate-systems-installer-recommended)
- [Method B: Vanilla Nix Installer](#method-b-vanilla-nix-installer)
- [Method C: NixOS-Based Container Image](#method-c-nixos-based-container-image)
4. [Architecture-Specific Notes](#architecture-specific-notes)
- [x86_64 (lazyworkhorse)](#x86_64-lazyworkhorse)
- [aarch64 (cyt-pi, uConsole)](#aarch64-cyt-pi-uconsole)
- [Cross-Compilation](#cross-compilation)
5. [Post-Install Configuration](#post-install-configuration)
6. [Verification](#verification)
7. [Container-Specific Considerations](#container-specific-considerations)
- [Persistence](#persistence)
- [Disk Space](#disk-space)
- [Security](#security)
- [Resource Constraints](#resource-constraints)
8. [Integration with deploy.sh](#integration-with-deploysh)
9. [Troubleshooting](#troubleshooting)
10. [References](#references)
---
## Why Nix in a Container?
The Hermes Agent container runs on an Ubuntu/Debian base. To deploy NixOS
configurations to remote hosts, we need:
- `nix` — the Nix package manager (for building configurations)
- `nixos-rebuild` — the NixOS deployment tool
- Access to the infra repo with flake configuration
Installing Nix inside the container avoids:
- Host-level Nix installation on the Docker host
- Cross-container volume mounts of /nix/store
- Dependencies on the host's Nix daemon (which may be a different version)
## Prerequisites
- Docker host running Linux (x86_64 and/or aarch64)
- Container base: Debian/Ubuntu (apt-based)
- 1-2 GB additional disk space for Nix store
- Network access to cache.nixos.org (or a local binary cache)
- Git access to the infra repository
## Installation Methods
### Method A: Determinate Systems Installer (Recommended)
The Determinate Systems installer is the recommended approach. It is non-interactive,
sets up flakes by default, and handles multi-user installation cleanly.
**Dockerfile additions:**
```dockerfile
# Install Nix (Determinate Systems installer)
RUN apt-get update && apt-get install -y --no-install-recommends \
curl \
xz-utils \
&& rm -rf /var/lib/apt/lists/*
# Download and run Nix installer (non-interactive)
RUN curl --proto '=https' --tlsv1.2 -sSf -L https://install.determinate.systems/nix \
-o /tmp/nix-install.sh \
&& chmod +x /tmp/nix-install.sh \
&& sh /tmp/nix-install.sh install --no-confirm \
&& rm /tmp/nix-install.sh
# Configure Nix for flakes
RUN mkdir -p /root/.config/nix \
&& echo 'experimental-features = nix-command flakes' > /root/.config/nix/nix.conf
# Add Nix to PATH for all users
ENV PATH="/nix/var/nix/profiles/default/bin:$PATH"
```
**Pros:**
- Fully non-interactive (--no-confirm)
- Enables flakes automatically
- Sets up multi-user daemon
- Auto-selects correct architecture
- Handles upgrades gracefully
**Cons:**
- Downloads ~100 MB installer
- Requires systemd in container (works with --privileged or cgroupv2)
- Daemon mode may conflict with container exit semantics
**Container runtime additions:**
For the Nix daemon to work properly inside a container, you may need:
```dockerfile
# Ensure /nix is a volume for persistence
VOLUME /nix
# Or mount tmpfs for ephemeral builds:
# docker run --tmpfs /nix:exec,size=4G ...
```
### Method B: Vanilla Nix Installer
The official single-user Nix installer is lighter but requires manual flake setup.
**Dockerfile additions:**
```dockerfile
# Install Nix (single-user, official installer)
RUN apt-get update && apt-get install -y --no-install-recommends \
curl \
sudo \
xz-utils \
&& rm -rf /var/lib/apt/lists/*
# Install Nix as root (single-user)
RUN curl -L https://nixos.org/nix/install -o /tmp/nix-install.sh \
&& chmod +x /tmp/nix-install.sh \
&& sh /tmp/nix-install.sh --no-daemon \
&& rm /tmp/nix-install.sh
# Enable flakes
RUN mkdir -p /root/.config/nix \
&& echo 'experimental-features = nix-command flakes' > /root/.config/nix/nix.conf
# Source Nix in shell
RUN echo '. /root/.nix-profile/etc/profile.d/nix.sh' >> /root/.bashrc
ENV PATH="/root/.nix-profile/bin:$PATH"
```
**Pros:**
- Smaller installer
- No daemon needed (single-user mode)
- Works in containers without systemd
- Simpler container lifecycle
**Cons:**
- Manual flake configuration required
- Single-user only (no multi-user isolation)
- PATH must be set manually
- No automatic garbage collection
### Method C: NixOS-Based Container Image
For maximum isolation, use an official NixOS base image for the build stage.
**Multi-stage Dockerfile:**
```dockerfile
# Build stage: NixOS builder
FROM nixos/nix:latest AS builder
COPY infra /infra
WORKDIR /infra
# Build the configuration once
RUN nix build '.#nixosConfigurations.lazyworkhorse.config.system.build.toplevel'
# Final stage: Hermes container
FROM ubuntu:22.04
# Copy the Nix closure and binary cache
COPY --from=builder /nix /nix
# ... rest of Hermes setup
```
**Pros:**
- Purely declarative build environment
- No installation at runtime
- Easy to pin Nix version
- Good for CI/CD pipelines
**Cons:**
- Requires multi-stage Docker build
- Larger initial image build
- Harder to update Nix version at runtime
- Overkill if Nix is only needed for `nixos-rebuild`
---
## Architecture-Specific Notes
### x86_64 (lazyworkhorse)
The Hermes container likely runs on x86_64 hardware for the primary server.
Nix will download x86_64 binaries from cache.nixos.org by default.
**No special configuration needed** — the standard installer works out of the box.
If the container is running on an AMD Ryzen/EPYC or Intel Xeon, consider:
```bash
# Enable CPU-specific optimizations (optional)
echo 'extra-platforms = x86_64-v1 x86_64-v2 x86_64-v3' >> /root/.config/nix/nix.conf
```
### aarch64 (cyt-pi, uConsole)
When building for aarch64 targets from an x86_64 container, you need either:
1. Remote builder (aarch64 machine does the build), or
2. QEMU-based emulation (slower but self-contained), or
3. Build directly on the aarch64 target using `--build-host`
**For QEMU emulation in the container:**
```dockerfile
# Enable binfmt for aarch64 emulation
RUN apt-get update && apt-get install -y --no-install-recommends \
qemu-user-static \
binfmt-support \
&& rm -rf /var/lib/apt/lists/*
# Register aarch64 binfmt
RUN update-binfmts --enable qemu-aarch64
```
**Container runtime (for QEMU):**
```bash
docker run --privileged --rm ... hermes-agent
# Or with specific capability:
docker run --cap-add=SYS_ADMIN --security-opt seccomp=unconfined ... hermes-agent
```
### Cross-Compilation
For native cross-compilation (without emulation), add to your Nix configuration:
```nix
# In your flake.nix or nix.conf
{
nix.settings.extra-platforms = [ "aarch64-linux" "x86_64-linux" ];
nix.settings.extra-sandbox-paths = [ ];
boot.binfmt.emulatedSystems = [ "aarch64-linux" ];
}
```
Or in `nix.conf`:
```
extra-platforms = x86_64-linux aarch64-linux
extra-sandbox-paths =
```
---
## Post-Install Configuration
### nix.conf for Container Usage
Recommended `/root/.config/nix/nix.conf`:
```ini
experimental-features = nix-command flakes
substituters = https://cache.nixos.org/
trusted-users = root
max-jobs = auto
cores = 0
sandbox = false
```
Note: `sandbox = false` is needed inside containers that lack full sandbox
support. This is safe in a single-tenant container environment.
### PATH Setup
Add to your Dockerfile:
```dockerfile
ENV PATH="/nix/var/nix/profiles/default/bin:/root/.nix-profile/bin:${PATH}"
```
### Shell Integration
```dockerfile
RUN echo 'source /root/.nix-profile/etc/profile.d/nix.sh' >> /root/.bashrc
```
---
## Verification
After installation, verify with:
```bash
# Check Nix is available
nix --version
# Check nixos-rebuild
nixos-rebuild --help | head -3
# Verify flakes are enabled
nix flake --help
# Test a build (must be in infra repo)
cd /opt/data/infra
nix build --no-link '.#nixosConfigurations.lazyworkhorse.config.system.build.toplevel'
# Check available systems
nix eval --impure --expr 'builtins.currentSystem'
```
---
## Container-Specific Considerations
### Persistence
The `/nix` directory should be a Docker volume to avoid re-downloading
packages on every container restart:
```yaml
# docker-compose.yml
volumes:
- nix-store:/nix
volumes:
nix-store:
```
Without persistence, every container restart requires re-downloading the
entire Nix store (~500 MB - 2 GB depending on packages used).
### Disk Space
The Nix store grows over time as old generations accumulate. Set up garbage
collection:
```bash
# Manual GC
nix store gc
# Remove old generations
nix-collect-garbage --delete-older-than 30d
# Automatic GC (in nix.conf)
# Currently not supported in nix.conf, but you can run a cron job:
# nix store gc --max 10G
```
In Docker, limit store growth with:
```dockerfile
# Configure max store size
RUN mkdir -p /etc/nix && \
echo 'min-free = 5368709120' > /etc/nix/nix.conf # Keep 5GB free
```
### Security
Running Nix in a container introduces some security considerations:
1. **Sandboxing:** `sandbox = false` disables build isolation. In a multi-tenant
container, this means Nix builds can affect the container filesystem.
**Mitigation:** Only build configs you trust (your own infra repo).
2. **Network access:** The container needs outbound access to cache.nixos.org.
If using a restricted network, set up a local binary cache:
```nix
substituters = https://cache.nixos.org/ https://nix-cache.internal/
```
3. **Privileged mode:** QEMU emulation for aarch64 builds may need `--privileged`
or `--security-opt seccomp=unconfined`. This reduces container isolation.
**Mitigation:** Use remote builders or build natively on the target.
4. **Supply chain:** Nix derivations pin exact inputs via hashes. Verify
flake.lock is committed and reviewed.
### Resource Constraints
Nix builds can be memory and CPU intensive:
```nix
# Limit build parallelism in nix.conf
max-jobs = 2
cores = 4
# Or set per-build:
# nix build --max-jobs 2 --cores 4
```
For containers with limited memory (< 2 GB), consider:
- Building on the target host instead (`--build-host`)
- Using the deploy script's `build` action separately
---
## Integration with deploy.sh
The deployment script at `scripts/deploy.sh` expects:
1. **Nix installed** with flakes enabled
2. **SSH key** at `/opt/data/home/.ssh/id_hermes_gitea` (or via SSH_KEY env)
3. **Infra repo** cloned at the script's parent directory
4. **Network access** to:
- `code.lazyworkhorse.net:2222` (Gitea for git operations)
- Target hosts via SSH (see deploy-ssh-config)
- `cache.nixos.org` or a local substitute
Typical usage from Hermes:
```bash
# Full deployment
./scripts/deploy.sh lazyworkhorse master switch
# Build-only check (no remote deployment)
./scripts/deploy.sh cyt-pi master build
# Dry run
./scripts/deploy.sh uConsole feat/test dry-activate
# Override SSH key
SSH_KEY=/opt/data/home/.ssh/my-custom-key ./deploy.sh lazyworkhorse
```
---
## Troubleshooting
### "nix: command not found"
- Ensure Nix is installed and PATH is set:
```bash
export PATH="/nix/var/nix/profiles/default/bin:/root/.nix-profile/bin:$PATH"
```
- Check installation: `ls -la /nix/` should exist
- Re-source profile: `. /root/.nix-profile/etc/profile.d/nix.sh`
### "error: unable to download ... cache.nixos.org"
- Check network connectivity: `ping cache.nixos.org`
- Check DNS resolution from inside the container
- If behind a proxy, set `http_proxy` / `https_proxy` environment variables
### "sandbox: cannot run build in sandbox"
- Add `sandbox = false` to nix.conf
- Or run container with `--privileged` or `--security-opt seccomp=unconfined`
### "aarch64-linux builds fail on x86_64"
- QEMU binfmt not registered. Check: `ls /proc/sys/fs/binfmt_misc/`
- Rebuild QEMU registration: `docker run --privileged --rm tonistiigi/binfmt --install all`
- Or use `--build-host` to build on the target directly
### "nixos-rebuild fails with SSH errors"
- Verify SSH key exists and has correct permissions:
```bash
ls -la /opt/data/home/.ssh/id_hermes_gitea
chmod 600 /opt/data/home/.ssh/id_hermes_gitea
```
- Test SSH manually: `ssh -p 2424 -i /opt/data/home/.ssh/id_hermes_gitea ai-worker@lazyworkhorse.net`
- Check target host is reachable: `nc -zv lazyworkhorse.net 2424`
### "git fetch fails from Gitea"
- Verify GIT_SSH_COMMAND is set: `echo $GIT_SSH_COMMAND`
- Test git SSH: `ssh -T git@code.lazyworkhorse.net -p 2222`
- Check the infra repo remote: `git remote -v`
---
## References
- [Determinate Systems Nix Installer](https://github.com/DeterminateSystems/nix-installer)
- [NixOS Manual: Installation](https://nixos.org/manual/nix/stable/installation/)
- [NixOS Wiki: Flakes](https://nixos.wiki/wiki/Flakes)
- [NixOS Wiki: nixos-rebuild](https://nixos.wiki/wiki/Nixos-rebuild)
- [NixOS Wiki: Cross Compilation](https://nixos.wiki/wiki/Cross_Compilation)
- [Multi-arch Docker with QEMU](https://github.com/multiarch/qemu-user-static)

18
flake.nix
View File

@@ -12,6 +12,10 @@
url = "git+https://git.lix.systems/lix-project/lix?ref=main";
inputs.nixpkgs.follows = "nixpkgs";
};
# uConsole CM5 hardware support
nixos-uconsole.url = "github:nixos-uconsole/nixos-uconsole";
# Raspberry Pi 5 hardware support
nixos-hardware.url = "github:nixos/nixos-hardware/master";
self.submodules = true;
};
@@ -79,6 +83,20 @@
./hosts/cyt-pi/hardware-configuration.nix
];
};
uConsole = nixpkgs.lib.nixosSystem {
specialArgs = { inherit self keys paths inputs; };
modules = [
{
nixpkgs.overlays = overlays;
nixpkgs.config.allowUnfree = true;
nixpkgs.hostPlatform = "aarch64-linux";
nix.package = lix.packages."aarch64-linux".default;
}
./hosts/uconsole/configuration.nix
./hosts/uconsole/hardware-configuration.nix
];
};
};
devShells.${system}.default = devShell;
};

191
hosts/uconsole/configuration.nix Normal file
View File

@@ -0,0 +1,191 @@
{ config, lib, pkgs, paths, self, keys, inputs, ... }:
let
# Reticulum Network Stack - build from PyPI
reticulum = pkgs.python3Packages.buildPythonPackage {
pname = "reticulum";
version = "0.7.0";
format = "pyproject";
src = pkgs.python3Packages.fetchPypi {
pname = "reticulum";
version = "0.7.0";
hash = "sha256-Yku40tRpQh22m4HX142cU/VevHAEfgHZicKFOyp1U/o=";
};
};
# NomadNet - Reticulum browser/messaging
nomadnet = pkgs.python3Packages.buildPythonPackage {
pname = "nomadnet";
version = "0.5.2";
format = "pyproject";
src = pkgs.python3Packages.fetchPypi {
pname = "nomadnet";
version = "0.5.2";
hash = "sha256-WP4IrlKLzFP0U8/00mOo8D9Jp2ubr6Q0peKbw401Nhw=";
};
propagatedBuildInputs = [ reticulum ];
};
# LXMF - Lightweight Mesh Exchange Protocol
lxmf = pkgs.python3Packages.buildPythonPackage {
pname = "lxmf";
version = "0.5.1";
format = "pyproject";
src = pkgs.python3Packages.fetchPypi {
pname = "lxmf";
version = "0.5.1";
hash = "sha256-2zwTgG283qx1Bt6TKaGJtcwPr2tCNOOIASu8RXC/QLE=";
};
propagatedBuildInputs = [ reticulum ];
};
# Sidechannel - Visual UI for Reticulum
sidechannel = pkgs.python3Packages.buildPythonPackage {
pname = "sidechannel";
version = "0.1.0";
format = "pyproject";
src = pkgs.python3Packages.fetchPypi {
pname = "sidechannel";
version = "0.1.0";
hash = "sha256-0000000000000000000000000000000000000000000=";
};
propagatedBuildInputs = [ reticulum ];
};
in
{
# --- CORE HARDWARE (CM5 / RPi5) ---
imports = [
inputs.nixos-uconsole.nixosModules.uconsole
inputs.nixos-hardware.nixosModules.raspberry-pi-5
];
uconsole = {
enable = true;
variant = "cm5"; # Hardware target: CM5/RPi5
# Fixes the landscape orientation at boot
videoMode = "720x1280M@60D,panel_orientation=right_side_up";
};
# Firmware for Wi-Fi and Bluetooth
hardware.enableRedistributableFirmware = true;
hardware.raspberry-pi."5".apply-overlays-dtmerge.enable = true;
# Enable GPU acceleration (VideoCore VII)
hardware.graphics.enable = true;
# Bootloader parameters for display rotation and console
boot.kernelParams = [
"video=DSI-1:720x1280M@60D,panel_orientation=right_side_up"
"console=tty1"
];
# --- BASIC HOST INFO ---
networking.hostName = "uConsole";
networking.networkmanager.enable = true;
time.timeZone = "America/Montreal";
i18n.defaultLocale = "en_CA.UTF-8";
# --- GPS DAEMON ---
services.gpsd = {
enable = true;
devices = [ "/dev/ttyAMA0" ]; # Default port for RPi5/CM5 GPS
nowait = true;
};
# --- USER CONFIGURATION ---
users.users.thierry = {
isNormalUser = true;
description = "Thierry";
extraGroups = [
"wheel" # Sudo
"dialout" # Access to serial/HAM rigs
"plugdev" # Access to USB SDRs
"wireshark" # Packet capture without root
"video" # Hardware acceleration access
"networkmanager"
];
openssh.authorizedKeys.keys = [
keys.users.gortium.main
keys.users.gortium.gitea
];
};
# --- INTERFACE (WAYLAND/SWAY) ---
# Sway is recommended for the uConsole's low resources
programs.sway = {
enable = true;
extraOptions = [ "--unsupported-gpu" ]; # Often needed for RPi
};
# --- SOFTWARE TOOLKITS ---
environment.systemPackages = with pkgs; [
# Base Tools (for your Doom Emacs environment)
emacs-pgtk # Emacs with Wayland support
git # Required for Doom Emacs / Flakes
ripgrep # Fast searching for Emacs/CLI
fd # Better find for Emacs
htop # Resource monitor
tmux # Terminal multiplexer
neovim # Alternative editor
# HAM RADIO (Digital Modes)
js8call # Weak-signal keyboard messaging
wsjtx # FT8, JT65, etc.
fldigi # Digital modem (PSK, RTTY)
pat # Winlink client (Use 'pat configure' after install)
direwolf # Software TNC for APRS
chirp # Radio programming
hamlib # Rig control (rigctl)
trustedqsl # LotW log signing
# SDR + RF ANALYSIS
sdrpp # Modern SDR GUI (Best for uConsole)
gqrx # Classic SDR receiver
rtl-sdr # Drivers for RTL2832U
inspectrum # Offline signal analysis
soapysdr-with-plugins # Hardware abstraction layer
# LORA, MESH & RETICULUM
meshtastic # CLI tools for Meshtastic nodes
reticulum # The RNS stack (rnsd, rnsh) - built from PyPI
nomadnet # Reticulum browser/messaging
lxmf # Lightweight Mesh Exchange Protocol
sidechannel # Visual UI for Reticulum communication
# HACKING & SECURITY (Kali-like suite)
nmap # Port scanning
metasploit # Exploitation framework
aircrack-ng # Wi-Fi auditing
kismet # Wireless sniffer (Essential for your Pi Zero project)
bettercap # MITM and network attack tool
wireshark # Protocol analyzer
burpsuite # Web vulnerability scanner
hashcat # Password recovery
john # John the Ripper (password cracking)
sqlmap # Automated SQL injection
# GPS & OFFLINE MAPPING
foxtrotgps # Lightweight map viewer (Perfect for small screens)
viking # GPS data editor and map viewer
gpsbabel # GPS data conversion
marble # KDE Virtual Globe (supports offline tiles)
];
# Udev rules for SDR and Radio hardware access
services.udev.packages = [
pkgs.rtl-sdr
pkgs.librtlsdr
];
# Enable Wireshark privilege separation
programs.wireshark.enable = true;
# Enable OpenSSH
services.openssh = {
enable = true;
settings.PermitRootLogin = "prohibit-password";
};
# System state version
system.stateVersion = "23.11";
}

30
hosts/uconsole/hardware-configuration.nix Normal file
View File

@@ -0,0 +1,30 @@
{ config, lib, pkgs, modulesPath, ... }:
{
imports =
[ (modulesPath + "/installer/scan/not-detected.nix")
];
boot.initrd.availableKernelModules = [ "xhci_pci" "usbhid" "sdhci_pci" ];
boot.initrd.kernelModules = [ ];
boot.kernelModules = [ ];
boot.extraModulePackages = [ ];
# uConsole CM5 specific filesystem (SD card boot)
fileSystems."/" =
{ device = "/dev/disk/by-label/NIXOS_SD";
fsType = "ext4";
options = [ "noatime" ];
};
fileSystems."/boot" =
{ device = "/dev/disk/by-label/FIRMWARE";
fsType = "vfat";
};
swapDevices = [ ];
# uConsole CM5 is ARM64
nixpkgs.hostPlatform = lib.mkDefault "aarch64-linux";
hardware.enableRedistributableFirmware = true;
}

4
lib/keys.nix
View File

@@ -18,5 +18,9 @@
gitea = "";
bootstrap = "age1r796v2uldtspawyh863pks74sd2pwcan8j4e4pjzsvkmr3vjja9qpz5ste";
};
# uConsole CM5 - key to be generated on first boot
uconsole = {
main = "";
};
};
}

63
scripts/deploy-ssh-config
View File

@@ -1,63 +0,0 @@
# Hermes Container SSH Configuration
# For NixOS deployment to remote hosts
#
# Usage:
# cp scripts/deploy-ssh-config ~/.ssh/config.d/hermes-include
# Or: cat scripts/deploy-ssh-config >> ~/.ssh/config
#
# This config covers all NixOS hosts managed from the Hermes container.
# Lazyworkhorse has two users: ai-worker (primary automation) and gortium (admin).
# Cyt-pi connects via reverse SSH tunnel on port 19999.
# uConsole is a placeholder until LAN-hostname resolution is confirmed.
# ── Global defaults ──────────────────────────────────────────────────
Host *
ServerAliveInterval 60
ServerAliveCountMax 3
TCPKeepAlive yes
Compression yes
CompressionLevel 6
ControlMaster auto
ControlPath ~/.ssh/controlmasters/%r@%h:%p
ControlPersist 10m
StrictHostKeyChecking no
UserKnownHostsFile /dev/null
# ── Hosts ──────────────────────────────────────────────────────────────
# Lazyworkhorse — x86_64 main server (ai-worker@lazyworkhorse.net:2424)
Host lazyworkhorse
HostName lazyworkhorse.net
User ai-worker
Port 2424
IdentityFile /opt/data/home/.ssh/id_hermes_gitea
# Lazyworkhorse — admin access (gortium@lazyworkhorse.net:2425)
Host lazyworkhorse-admin
HostName lazyworkhorse.net
User gortium
Port 2425
IdentityFile /opt/data/home/.ssh/id_hermes_gitea
# Cyt-pi — aarch64 Pi Zero 2 W
# Connected via reverse SSH tunnel (gortium directs tunnel to :19999)
Host cyt-pi
HostName localhost
User gortium
Port 19999
IdentityFile /opt/data/home/.ssh/id_hermes_gitea
# uConsole — aarch64 ClockworkPi (placeholder hostname)
# Replace uconsole.lan with actual IP/hostname when deployed
Host uConsole uconsole
HostName uconsole.lan
User gortium
Port 22
IdentityFile /opt/data/home/.ssh/id_hermes_gitea
# ── Gitea host — for git operations ──────────────────────────────────
Host code
HostName code.lazyworkhorse.net
Port 2222
User gortium
IdentityFile /opt/data/home/.ssh/id_hermes_gitea

286
scripts/deploy.sh
View File

@@ -1,286 +0,0 @@
#!/usr/bin/env bash
# NixOS Deployment Helper Script
# Remote NixOS deployment from Hermes container to target hosts.
#
# Usage: ./deploy.sh <hostname> [branch] [action]
#
# Actions:
# switch Activate configuration now (default)
# boot Activate on next reboot
# test Activate without switching generations
# build Build locally only, no remote activation
# dry-activate Show what would change without applying
#
# Examples:
# ./deploy.sh lazyworkhorse # deploy master/switch to lazyworkhorse
# ./deploy.sh cyt-pi feat/test boot # deploy feat/test branch, activate on boot
# ./deploy.sh uConsole master build # just build, don't deploy
# NO_BUILD_CHECK=1 ./deploy.sh uConsole # skip the pre-flight nix build
#
# Environment variables:
# SSH_USER SSH user (default: auto-detected per host)
# SSH_PORT SSH port (default: auto-detected per host)
# SSH_KEY SSH identity file
# BUILD_HOST Build flake for this host (default: same as target host)
# NO_BUILD_CHECK Set to 1 to skip local nix build before deployment
set -euo pipefail
# ── Colors ──────────────────────────────────────────────────────────────
RED='\033[0;31m'
GREEN='\033[0;32m'
YELLOW='\033[1;33m'
BLUE='\033[0;34m'
CYAN='\033[0;36m'
NC='\033[0m' # No Color
info() { echo -e "${BLUE}[INFO]${NC} $*"; }
ok() { echo -e "${GREEN}[OK]${NC} $*"; }
warn() { echo -e "${YELLOW}[WARN]${NC} $*"; }
error() { echo -e "${RED}[ERROR]${NC} $*" >&2; }
step() { echo -e "\n${CYAN}━━━ $* ━━━${NC}"; }
# ── Cleanup trap ───────────────────────────────────────────────────────
cleanup() {
local ec=$?
if [ $ec -ne 0 ]; then
error "Deployment failed with exit code $ec"
fi
exit $ec
}
trap cleanup EXIT
# ── Usage / Help ───────────────────────────────────────────────────────
show_usage() {
cat <<EOF
Usage: $0 <hostname> [branch] [action]
Remote NixOS deployment from Hermes container to target hosts.
HOSTNAME (required):
lazyworkhorse x86_64 main server
cyt-pi aarch64 Pi Zero 2 W (via reverse tunnel)
uConsole aarch64 ClockworkPi
BRANCH (optional, default: master):
Git branch or tag to deploy. Fetched from origin.
ACTION (optional, default: switch):
switch Activate configuration now (default)
boot Activate on next reboot
test Activate without switching generations
build Build locally only, skip remote deployment
dry-activate Show what would change without applying
Environment variables:
SSH_USER SSH username override
SSH_PORT SSH port override
SSH_KEY SSH identity file path
BUILD_HOST Build flake hostname (default: same as HOSTNAME)
NO_BUILD_CHECK Skip local nix build validation (set to 1)
Examples:
$0 lazyworkhorse # deploy master/switch
$0 cyt-pi feat/test boot # deploy feature branch, boot
$0 uConsole master build # just build, no remote
NO_BUILD_CHECK=1 $0 uConsole # skip build check
EOF
exit 0
}
# ── Argument parsing ───────────────────────────────────────────────────
HOSTNAME="${1:-}"
BRANCH="${2:-master}"
ACTION="${3:-switch}"
NO_BUILD_CHECK="${NO_BUILD_CHECK:-0}"
if [ "$HOSTNAME" = "--help" ] || [ "$HOSTNAME" = "-h" ] || [ -z "$HOSTNAME" ]; then
show_usage
fi
# ── Host configuration ─────────────────────────────────────────────────
case "$HOSTNAME" in
lazyworkhorse)
DEFAULT_SSH_USER="ai-worker"
DEFAULT_SSH_PORT="2424"
ARCH="x86_64-linux"
;;
cyt-pi)
DEFAULT_SSH_USER="gortium"
DEFAULT_SSH_PORT="19999"
ARCH="aarch64-linux"
;;
uConsole)
DEFAULT_SSH_USER="gortium"
DEFAULT_SSH_PORT="22"
ARCH="aarch64-linux"
;;
*)
error "Unknown host: $HOSTNAME"
echo "Supported hosts: lazyworkhorse, cyt-pi, uConsole"
exit 1
;;
esac
SSH_USER="${SSH_USER:-$DEFAULT_SSH_USER}"
SSH_PORT="${SSH_PORT:-$DEFAULT_SSH_PORT}"
SSH_KEY="${SSH_KEY:-/opt/data/home/.ssh/id_hermes_gitea}"
BUILD_HOST="${BUILD_HOST:-$HOSTNAME}"
SSH_OPTS="-p $SSH_PORT -i $SSH_KEY -o StrictHostKeyChecking=no -o UserKnownHostsFile=/dev/null"
SSH_TARGET="${SSH_USER}@${HOSTNAME}"
export GIT_SSH_COMMAND="ssh -i $SSH_KEY -p 2222 -o StrictHostKeyChecking=no"
export PATH="/nix/var/nix/profiles/default/bin:$PATH"
# ── Banner ─────────────────────────────────────────────────────────────
echo "╔══════════════════════════════════════════════╗"
echo "║ NixOS Remote Deployment ║"
echo "╚══════════════════════════════════════════════╝"
info "Host: $HOSTNAME ($ARCH)"
info "Branch: $BRANCH"
info "Action: $ACTION"
info "SSH: ${SSH_USER}@${HOSTNAME}:${SSH_PORT}"
echo ""
# ── Pre-flight checks ─────────────────────────────────────────────────
step "Pre-flight checks"
# 1. Check required tools
for cmd in nix git ssh; do
if ! command -v "$cmd" &>/dev/null; then
error "Required tool not found: $cmd"
exit 1
fi
done
ok "Required tools available (nix, git, ssh)"
# 2. Check infra repo
INFRA_DIR="$(cd "$(dirname "$0")/.." && pwd)"
if [ ! -d "$INFRA_DIR/.git" ]; then
error "Not a git repository: $INFRA_DIR"
exit 1
fi
ok "Infra repo found at $INFRA_DIR"
# 3. Check SSH connectivity (skip for build-only actions)
if [ "$ACTION" != "build" ]; then
if ssh $SSH_OPTS -o ConnectTimeout=5 "$SSH_TARGET" "echo connected" &>/dev/null; then
ok "SSH connectivity to $HOSTNAME verified"
else
warn "Cannot reach $HOSTNAME via SSH — deployment step will fail later"
fi
fi
# ── Git sync ───────────────────────────────────────────────────────────
step "Git sync"
cd "$INFRA_DIR"
# Stash local changes if any
if ! git diff --quiet HEAD; then
warn "Local changes detected, stashing..."
git stash push -m "auto-stash before deploy $(date -Iseconds)"
STASHED=1
else
STASHED=0
fi
# Fetch and checkout
git fetch origin "$BRANCH" 2>/dev/null || git fetch origin master
if git rev-parse --verify "origin/$BRANCH" &>/dev/null 2>&1; then
# Remote branch exists — fast-forward merge
git checkout -B "$BRANCH" "origin/$BRANCH"
elif git rev-parse --verify "$BRANCH" &>/dev/null 2>&1; then
# Local branch or tag
git checkout "$BRANCH"
else
error "Branch/tag not found: $BRANCH"
exit 1
fi
ok "Checked out $BRANCH ($(git rev-parse --short HEAD))"
# Update submodules
if [ -f .gitmodules ]; then
git submodule update --init --recursive
ok "Submodules updated"
fi
# ── Build validation ──────────────────────────────────────────────────
if [ "$NO_BUILD_CHECK" != "1" ]; then
step "Build validation"
info "Building nixosConfigurations.$BUILD_HOST (no link)..."
if nix build --no-link --print-build-logs \
".#nixosConfigurations.${BUILD_HOST}.config.system.build.toplevel" 2>&1; then
ok "Build succeeded for $BUILD_HOST"
else
error "Build failed for $BUILD_HOST"
exit 1
fi
else
warn "Build check skipped (NO_BUILD_CHECK=1)"
fi
# ── Deployment ─────────────────────────────────────────────────────────
if [ "$ACTION" = "build" ]; then
step "Build complete (no deployment)"
info "Use one of: switch, boot, test, dry-activate to deploy"
exit 0
fi
step "Deployment ($ACTION)"
# Build the nixos-rebuild command
case "$ACTION" in
switch|boot|test)
nixos-rebuild "$ACTION" \
--flake ".#$HOSTNAME" \
--target-host "$SSH_TARGET" \
--build-host "localhost" \
--use-remote-sudo \
--max-jobs 4
;;
dry-activate)
nixos-rebuild dry-activate \
--flake ".#$HOSTNAME" \
--target-host "$SSH_TARGET" \
--build-host "localhost" \
--use-remote-sudo
;;
*)
error "Unknown action: $ACTION"
echo "Valid actions: switch, boot, test, build, dry-activate"
exit 1
;;
esac
# ── Check result ───────────────────────────────────────────────────────
DEPLOY_EXIT=$?
if [ $DEPLOY_EXIT -eq 0 ]; then
echo ""
ok "Deployment to $HOSTNAME ($ACTION) completed successfully"
case "$ACTION" in
switch|test)
info "Configuration is now active"
;;
boot)
info "Configuration will activate on next reboot"
;;
dry-activate)
info "Dry-run complete — no changes applied"
;;
esac
else
error "Deployment failed with exit code $DEPLOY_EXIT"
exit $DEPLOY_EXIT
fi
echo ""
echo "╔══════════════════════════════════════════════╗"
echo "║ Deployment Complete ║"
echo "╚══════════════════════════════════════════════╝"
info "Host: $HOSTNAME"
info "Branch: $BRANCH ($(git rev-parse --short HEAD))"
info "Action: $ACTION"
info "Time: $(date -Iseconds)"