# CLAUDE.md - Project context for AI assistants ## What this repository is A collection of peripheral tools, scripts, and snippets for working with Incus, IncusOS, and the broader ecosystem (Operations Center, Migration Manager). Primarily targeting home lab environments but aiming for production-quality scripts. ## Repository structure ``` incu-contrib/ ├── CLAUDE.md # This file -- project context ├── README.md # Main overview ├── .gitignore ├── incusos/ # IncusOS installation tooling │ ├── README.md # Detailed usage docs │ ├── incusos-iso # ISO/IMG builder (wraps flasher-tool) │ ├── incusos-seed # Seed archive generator │ ├── incusos-proxmox # Declarative Proxmox VM deployment │ ├── lab-test # Guided lab validation (workloads, clustering, migration) │ ├── TESTING.md # Testing guide for incusos-proxmox and lab-test │ └── examples/ # Example seed + Proxmox YAML files └── notes/ # Research notes and reference material ``` ## Key technical context ### Incus version differences - **Debian stable ships Incus 6.0 LTS** which is significantly behind upstream. The Zabbly repo (https://github.com/zabbly/incus) provides latest on Debian/Ubuntu. - **macOS (Homebrew)** and **Arch Linux** both track latest upstream (currently 6.21). macOS is client-only by design; Arch has no client-only split package. - `incus remote get-client-certificate` was added in **Incus 6.3+** and does not exist in 6.0 LTS. Scripts must never depend on it as the only cert path. - Always prefer reading `~/.config/incus/client.crt` directly from disk. Fall back to the CLI command only as a secondary option. - See `notes/incus-version-compatibility.md` for full platform matrix and install instructions. ### IncusOS flasher-tool - Install: `go install github.com/lxc/incus-os/incus-osd/cmd/flasher-tool@latest` - Actual CLI flags: `-f/--format`, `-s/--seed`, `-c/--channel`, `-i/--image`, `-v/--version` - There is NO `--seed-tar` flag -- it's just `--seed` (or `-s`). - There is NO `--arch` flag -- architecture is determined by the downloaded image. For cross-arch builds, download the image manually and pass via `--image`. - CDN index: `https://images.linuxcontainers.org/os/index.json` - CDN images: `https://images.linuxcontainers.org/os/{version}/{arch}/IncusOS_{version}.{format}.gz` ### Seed archives - Tar archives containing YAML files at the root level. - Written to byte offset 2148532224 (the seed partition) in the image. - Alternative: external boot media labeled `SEED_DATA` attached as CD-ROM. - **ISO 9660** (`genisoimage -V SEED_DATA -J -r`): preferred for CD-ROM devices. Volume labels are correctly detected by the kernel on `/dev/sr*`. - **FAT image** (`mkfs.fat -n SEED_DATA`): works for USB/block devices but **NOT for CD-ROM** -- the Linux kernel's `sr_mod` driver does not expose FAT filesystem labels, so IncusOS cannot find the seed. - Key files: `install.yaml`, `applications.yaml`, `incus.yaml`, `operations-center.yaml`, `network.yaml`, `update.yaml`. ### Client certificates - Stored at `~/.config/incus/client.crt` and `~/.config/incus/client.key`. - Running `incus remote list` triggers auto-generation if no keypair exists. - For Incus seed: injected under `preseed.certificates[]` (NOT `preseed.server.certificates[]`). The `InitPreseed.Server` field uses `yaml:",inline"` so its fields (including `certificates`) are promoted to the top level of the `preseed` object. - For Operations Center seed: injected under `trusted_client_certificates[]`. - Operations Center **requires** at least one trusted certificate -- without it, you are locked out after installation. ### Proxmox VE deployment - **`incusos-proxmox`** reads a YAML config, generates per-VM SEED_DATA images via `incusos-seed --format iso`, uploads the ISO + seeds to Proxmox, creates VMs with IncusOS-correct settings, and boots them through installation. - **Connection methods**: SSH (default, `ssh root@host qm ...`) or API (`curl -k https://host:8006/api2/json/...` with `PVEAPIToken` header). - **Minimum API privileges** for token-based access: ``` VM.Allocate VM.Config.Disk VM.Config.CPU VM.Config.Memory VM.Config.Network VM.Config.CDROM VM.Config.Options VM.Config.HWType VM.PowerMgmt VM.Audit Datastore.AllocateSpace Datastore.AllocateTemplate Datastore.Audit SDN.Use ``` - **Required VM settings** (getting any wrong causes IncusOS install failure): - `bios=ovmf`, `machine=q35` -- UEFI boot required - `efidisk0`: `pre-enrolled-keys=0` -- IncusOS enrolls its own Secure Boot keys - `tpmstate0`: `version=v2.0` -- required for disk encryption - `cpu=host` -- needed for x86_64_v3 instruction set requirement - `scsihw=virtio-scsi-pci` + `scsi0` -- VirtIO-blk is broken with IncusOS - `balloon=0` -- IncusOS manages memory internally - `ide3` -- SEED_DATA **ISO 9660** image attached as second CD-ROM - Minimum 50 GiB disk, minimum 4096 MiB RAM - **Disk target**: do NOT specify `disk-target` in the seed for Proxmox VMs. IncusOS does **literal** string matching (not glob) on disk device IDs. `scsi-*` does NOT match `scsi-0QEMU_QEMU_HARDDISK_drive-scsi0`. Omit `disk-target` entirely and let IncusOS auto-detect (works for single-disk VMs). - **Install flow** (automated by `incusos-proxmox`): 1. Boot VM with ISO (ide2) + SEED_DATA (ide3) + `force_reboot: true` in seed 2. IncusOS reads seed, installs to disk (scsi0), auto-reboots 3. Detect install completion by polling `blockstat.scsi0.wr_bytes` via API -- when disk writes start then stop for 15s (3 stable polls), install is done 4. Stop the VM (Proxmox stop, not guest shutdown) 5. **Delete ide2 and ide3** -- IncusOS checks for install media at every boot and refuses to start if found, regardless of boot order 6. Set boot order to `order=scsi0` and start from disk - **IP detection**: IncusOS is immutable and has no QEMU guest agent. Use ARP-based lookup: get MAC from Proxmox VM config → flush stale ARP → ping broadcast → look up MAC in ARP table. Verify with direct ping before trusting the result. - **force_reboot is required**: without `force_reboot: true` in the seed, IncusOS sits at "please remove installation media" and waits indefinitely. It does NOT halt automatically. `force_reboot` triggers a guest-level reboot (note: this does NOT reset QEMU VM uptime -- only a Proxmox stop/start does). - **Resource pool isolation**: the optional `proxmox.pool` config field scopes all VM operations to a Proxmox resource pool. When set, the script only "sees" VMs in that pool (for collision detection and cleanup), and the API token ACL can be scoped to `/pool/` instead of `/`. Setup: ``` pveum pool add IncusLab --comment "IncusOS Lab VMs" pveum pool modify IncusLab --storage local-lvm,local pveum aclmod /pool/IncusLab -user automation@pve -role IncusOSDeploy ``` - **`--status` command**: `incusos-proxmox --status config.yaml` shows per-VM deployment status (Proxmox state, install status, IP, port 8443, incus remote). Also runs post-deployment checks (Incus connectivity, Operations Center URL). - **Reconcile on re-runs**: when `--phase all` detects existing VMs from config, an interactive menu offers: (1) run status checks, (2) continue install for incomplete VMs, (3) destroy and redeploy, (4) abort. With `--yes`, defaults to option 1 (safe -- never auto-destroys). - **Install idempotency**: `phase_install` checks each VM's state before acting -- already-running VMs are skipped, stopped-but-installed VMs are started from disk, only VMs with install media proceed through installation. ### Incus clustering via remotes - **Cluster formation** is done entirely through the `incus` CLI using remotes. No SSH to the IncusOS nodes is needed (IncusOS is immutable, no shell access). - **Workflow:** ```bash # Enable clustering on first node incus cluster enable : # Generate join token (on cluster, for new member name) incus cluster add : # Join second node to cluster incus cluster join : : # Verify incus cluster list : ``` - **`apply_defaults: true`** must be set on all nodes that will be clustered -- this ensures matching storage pool (`local`) and network bridge names, which are required for migration. - After joining, the cluster is managed through the init node's remote. The individual node remotes still work for node-specific operations. - **`lab-test`** automates cluster formation, workload testing, and migration. ### Lab validation (lab-test) - **`lab-test`** reads the same YAML config as `incusos-proxmox` and operates on the VM names defined there (expects `incus` remotes to exist). - **Phases:** deploy, single (workloads), cluster, workload (on cluster), migrate (stop/move + evacuate/restore). - **Test instances** use names starting with `test-` for easy cleanup. - The script reports PASS/FAIL/SKIP for each test and prints a summary. ### Operations Center - **CLI binary:** `operations-center` (installed from GitHub releases or built from source at `github.com/FuturFusion/operations-center`). - **Config directory:** `~/.config/operations-center/` (uses same cert format as Incus: copy `client.crt` and `client.key` from `~/.config/incus/`). - **Provisioning workflow:** create token → get provisioned ISO → deploy nodes with that ISO → nodes auto-register with OC → form cluster via OC. - **OC is under active development** (v0.2.2+). Commands and APIs may change. The `--doctor` command on `incusos-proxmox` reports whether the CLI is installed. ### incusos-proxmox doctor and cleanup - **`--doctor`**: standalone environment check. No config file required. Checks tool versions, IncusOS CDN, and optionally Proxmox connectivity. - **`--cleanup --deep`**: destroys VMs + deletes ISOs/seeds from Proxmox + removes incus remotes + clears local ISO cache. - **`--cleanup-all`**: pool-wide cleanup. Destroys all VMs with the `[incusos-lab:managed]` marker in the configured resource pool. ## Coding conventions for scripts - **Shell**: bash with `set -euo pipefail` - **Arithmetic**: use `var=$((var + 1))` instead of `((var++))` to avoid false exits under `set -e` when the value is 0. - **Colors**: support `NO_COLOR=1` and `TERM=dumb`; use setup_colors() pattern. - **Flags**: support both short (`-d`) and long (`--defaults`) options. - **Defaults**: sane defaults so the script does something useful with zero flags. - **Dry run**: all scripts should support `--dry-run` to preview actions. - **Cert detection order**: files on disk first, CLI command second. - **Error messages**: include actionable remediation steps, not just "failed". - **No hardcoded package managers**: say "install the Incus client" with a link, not "sudo apt install incus". ## Git workflow - Main branch: `main` - Development happens on feature branches - Remote: private Gitea at `ssh://git@192.168.1.200:2222/maarten/incu-contrib.git`