#!/usr/bin/env bash # sovran-install-headless.sh — Non-interactive remote installer for Sovran_SystemsOS usage() { cat <<'USAGE' Usage: sovran-install-headless.sh [OPTIONS] Options: --disk /dev/sda Target OS disk (required) --data-disk /dev/sdb Data disk for Bitcoin (optional) --role server|desktop|node Installation role (default: server) --deploy-key "ssh-ed25519 AAAA..." SSH pubkey for remote access after install --relay-host HOST Reverse tunnel relay hostname --relay-user USER Relay username (default: deploy) --relay-port PORT Relay SSH port (default: 22) --tunnel-port PORT Reverse tunnel port on relay (default: 2222) USAGE } set -euo pipefail # ── Defaults ────────────────────────────────────────────────────────────────── DISK="" DATA_DISK="" ROLE="server" DEPLOY_KEY="" RELAY_HOST="" RELAY_USER="deploy" RELAY_PORT="22" TUNNEL_PORT="2222" FLAKE="/etc/sovran/flake" LOG="/tmp/sovran-headless-install.log" BYTES_256GB=$((256 * 1024 * 1024 * 1024)) BYTES_2TB=$((2 * 1000 * 1000 * 1000 * 1000)) # ── Logging ─────────────────────────────────────────────────────────────────── exec > >(tee -a "$LOG") 2>&1 log() { echo "[$(date '+%Y-%m-%d %H:%M:%S')] $*" } die() { log "ERROR: $*" exit 1 } # ── Argument parsing ───────────────────────────────────────────────────────── while [[ $# -gt 0 ]]; do case "$1" in --disk) DISK="$2"; shift 2 ;; --data-disk) DATA_DISK="$2"; shift 2 ;; --role) ROLE="$2"; shift 2 ;; --deploy-key) DEPLOY_KEY="$2"; shift 2 ;; --relay-host) RELAY_HOST="$2"; shift 2 ;; --relay-user) RELAY_USER="$2"; shift 2 ;; --relay-port) RELAY_PORT="$2"; shift 2 ;; --tunnel-port) TUNNEL_PORT="$2"; shift 2 ;; -h|--help) usage exit 0 ;; *) die "Unknown argument: $1" ;; esac done # ── Validate required arguments ─────────────────────────────────────────────── [[ -n "$DISK" ]] || die "--disk is required" case "$ROLE" in server|desktop|node) ;; *) die "--role must be one of: server, desktop, node" ;; esac # ── Validate disk existence and size ───────────────────────────────────────── log "=== Validating disks ===" [[ -b "$DISK" ]] || die "OS disk not found: $DISK" disk_size_bytes() { local dev="$1" lsblk -b -dno SIZE "$dev" 2>/dev/null || echo 0 } OS_SIZE=$(disk_size_bytes "$DISK") log "OS disk $DISK: $OS_SIZE bytes" [[ "$OS_SIZE" -ge "$BYTES_256GB" ]] \ || die "OS disk $DISK is too small ($(( OS_SIZE / 1024 / 1024 / 1024 )) GB). Minimum is 256 GB." if [[ -n "$DATA_DISK" ]]; then [[ -b "$DATA_DISK" ]] || die "Data disk not found: $DATA_DISK" [[ "$DATA_DISK" != "$DISK" ]] || die "OS disk and data disk cannot be the same device" DATA_SIZE=$(disk_size_bytes "$DATA_DISK") log "Data disk $DATA_DISK: $DATA_SIZE bytes" [[ "$DATA_SIZE" -ge "$BYTES_2TB" ]] \ || die "Data disk $DATA_DISK is too small ($(( DATA_SIZE / 1024 / 1024 / 1024 )) GB). Minimum is 2 TB." fi # ── Helper: partition suffix ────────────────────────────────────────────────── part_suffix() { local dev="$1" n="$2" if [[ "$dev" == *nvme* ]]; then echo "${dev}p${n}" else echo "${dev}${n}" fi } # ── Step 1: Wipe disks ──────────────────────────────────────────────────────── log "=== Wiping disk(s) ===" sgdisk --zap-all "$DISK" wipefs --all --force "$DISK" if [[ -n "$DATA_DISK" ]]; then sgdisk --zap-all "$DATA_DISK" wipefs --all --force "$DATA_DISK" fi partprobe "$DISK" [[ -n "$DATA_DISK" ]] && partprobe "$DATA_DISK" sleep 2 # ── Step 2: Partition OS disk ───────────────────────────────────────────────── log "=== Partitioning OS disk ===" sgdisk \ -n "1:1M:+512M" -t "1:EF00" -c "1:ESP" \ -n "2:0:0" -t "2:8300" -c "2:root" \ "$DISK" partprobe "$DISK" sleep 2 # ── Step 3: Partition data disk (if present) ────────────────────────────────── if [[ -n "$DATA_DISK" ]]; then log "=== Partitioning data disk ===" sgdisk \ -n "1:1M:0" -t "1:8300" -c "1:primary" \ "$DATA_DISK" partprobe "$DATA_DISK" sleep 2 fi # ── Step 4: Format partitions ───────────────────────────────────────────────── log "=== Formatting partitions ===" BOOT_P1=$(part_suffix "$DISK" 1) BOOT_P2=$(part_suffix "$DISK" 2) mkfs.vfat -F 32 "$BOOT_P1" mkfs.ext4 -F -L sovran_systemsos "$BOOT_P2" if [[ -n "$DATA_DISK" ]]; then DATA_P1=$(part_suffix "$DATA_DISK" 1) mkfs.ext4 -F -L BTCEcoandBackup "$DATA_P1" fi # ── Step 5: Mount filesystems ───────────────────────────────────────────────── log "=== Mounting filesystems ===" mount "$BOOT_P2" /mnt mkdir -p /mnt/boot/efi mount -o umask=0077,defaults "$BOOT_P1" /mnt/boot/efi if [[ -n "$DATA_DISK" ]]; then DATA_P1=$(part_suffix "$DATA_DISK" 1) mkdir -p /mnt/run/media/Second_Drive mount "$DATA_P1" /mnt/run/media/Second_Drive # ── Step 6: Create Bitcoin data directories ───────────────────────────── log "=== Creating Bitcoin data directories ===" mkdir -p /mnt/run/media/Second_Drive/BTCEcoandBackup/Bitcoin_Node mkdir -p /mnt/run/media/Second_Drive/BTCEcoandBackup/Electrs_Data mkdir -p /mnt/run/media/Second_Drive/BTCEcoandBackup/NixOS_Snapshot_Backup fi # ── Step 7: Generate hardware config ───────────────────────────────────────── log "=== Generating hardware config ===" nixos-generate-config --root /mnt # ── Step 8: Copy flake source ───────────────────────────────────────────────── log "=== Copying flake to /mnt ===" cp /mnt/etc/nixos/hardware-configuration.nix /tmp/hardware-configuration.nix rm -rf /mnt/etc/nixos/ mkdir -p /mnt/etc/nixos cp -a "${FLAKE}/." /mnt/etc/nixos/ cp /tmp/hardware-configuration.nix /mnt/etc/nixos/hardware-configuration.nix # ── Step 9: Write role-state.nix ───────────────────────────────────────────── log "=== Writing role config ===" case "$ROLE" in server) IS_SERVER=true; IS_DESKTOP=false; IS_NODE=false ;; desktop) IS_SERVER=false; IS_DESKTOP=true; IS_NODE=false ;; node) IS_SERVER=false; IS_DESKTOP=false; IS_NODE=true ;; esac cat > /mnt/etc/nixos/role-state.nix < /mnt/etc/nixos/custom.nix <