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free-unraid

This repository is a work-in-progress of notes and experiments with attempting to replicate UNRAID features using all open-source tools, scripts and utilities.

This repository makes no guarantees; use information presented here at your own risk. Do you wish to contribute? Submit a pull request.

12/25/2022 update

My original intended configuration with BTRFS+ZFS while working in practice gave me a lot of instability issues with NFS and down several troubleshooting rabbit holes - you will find notes about those issues scattered in the individual markdown sections in the repository.

This also means that "ideal setup" is not up to date with my real current configuration. Right now my setup is:

  • /cache mdadm RAID1 NVME XFS mirror (bitmap disabled to improve performance)
  • XFS filesystem on all physical hard disks. This means I am not using snapraid-btrfs and using simple snapraid+snapraid-runner.

Once my setup has several airmiles being stable and not crashing when sharing NFS/SMB I will do a cleanup of all markdown files.

See install_steps.md for a quick and dirty guide on standing up my current environment. Other sections may have more details on the specifics (e.g: mergerfs create policies & other settings)

The "unraid" ideal setup

After several years running ZFS arrays, in 2022 I decided I wanted to experiment and take a different approach to my home media-server, which as of this writting has 30TB of digital media on a ZFS array.

ZFS is a robust filesystem and solution but it requires having all of your hard drives spinning 24x7 when serving data off the array. Most often than not I have about 2-3 concurrent Plex streams reading some media file that could be read from a single hard drive rather than 5 disks. Therefore one of my goals in 2022 is to lower my power consumption of my 24/7 home server.

What's important for me?

  1. Low power consumption for 24/7 operation. This means most hard drives must be spun-down.
  2. Must run opensource or free software (no licenses). Linux ideally.
  3. Some protection against bit-rot and checksumming of my data files.
  4. File system should be able to detect hardware errors (automatic repair is not necessary, since this isn't an array).
  5. I should be able to recover my files from a single disk catastropic event (e.g: hardware failure, or specific data block bitrot)
  6. NVME caching (tiered storage). I want to write all new files to superfast storage (nvme) and later 'archive' my data into spinning hard drives.

TheLinuxGuy's ~10 watt 10Gb Rocket Lake 2023 Build

TLG 10 watt NAS

Motherboard: Asus Prime Z790M-Plus D4

  • HW Version: Rev 1.xx
  • BIOS version 02/22/2023 v0810

CPU: Intel Raptor Lake 13400

CPU cooler: stock intel cooler

RAM: 16GB (2x8GB) G.Skill F4-3000C16-16GISB Aegis DDR4 DDR4-3000 CL16-18-18-38 1.35V

PSU: RGEEK 12V 300W Pico ATX

HDD: 1TB Crucial P3 NVME

10GB NIC: Intel X710-DA2 dual sfp+

Idle: ~10 watt. (~5 watt without 10GB nic)

The software recipe

The following open-source projects seem to be able to help reach my goals. It requires elbow grease and stich this all together manually to mimic unraid.

  • SnapRAID. Provides data parity, backups, checksumming of existing backups.
  • BRTFS Filesystem similar to ZFS in that it provides be the ability to 'send/receive' data streams (ala zfs send) with the added benefit that I can run individual disk scrubs to detect hardware issues that require me to restore from snapraid parity. My observed Btrfs performance is that its poor compared to XFS filesystem on linux. Since we use btrfs only for the 'data' disks in the slow mergerfs pool we are not sensitive to speed.
  • XFS Filesystem for NVME cache on mdadm array. After finding bugs and instability in my ZFS+NFS+mergerfs implementation my cache disks are now formatted to XFS in RAID1. I did not use btrfs raid1 natively here because btrfs performance was poor (50% throughtput penalty). XFS was able to match ZFS raw speeds (without arc) ~900MB/s.
  • MergerFS. FUSE filesystem that allows me to 'stitch together' multiple hard drives with different mountpoints and takes care of directing I/O operations based on a set of rules/criteria/policies.
  • snapraid-btrfs. Automation and helper script for BRTFS based snapraid configurations. Using BRTFS snapshots as the data source for running 'snapraid sync' allows me to continue using my system 24/7 without data corruption risks or downtime when I want to build my parity/snapraid backups.
  • snapraid-btrfs-runner. Helper script that runs snapraid-btrfs sending its output to the console, a log file and via email.
  • hd-idle. Helper script running on systemd ensuring that spinning hard drives are spun down (standby) and set into a lower power consumption power state.
  • btrfs-list. Script providing a nice tree-style view of btrfs subvolumes/snapshots (ala zfs list).

OS install and base packages install

apt-get install zfsutils-linux cockpit-pcp btrfs-progs libbtrfsutil1 btrfs-compsize duc smartmontools

ZFS cache pool setup

WARNING! DEPRECATED NFS+ZFS is unstable with this setup. Follow XFS+mdadm below.

RAID1 of two SSD disks. We'll write all stuff here then purge to 'cold-storage' slower disks via cron.

zpool create -o ashift=12 cache mirror /dev/sdb /dev/nvme0n1

XFS RAID1 mirror mdadm

See mergerfs for details on ZFS instability. For our cache pool we will use XFS filesystem. Set up the NVME cache as follows:

mdadm --create --verbose /dev/md0  --bitmap=none --level=mirror --raid-devices=2 /dev/nvme0n1 /dev/sdb
mkfs.xfs -f -L cache /dev/md0
mdadm --detail /dev/md0

Remember to add a mountpoint to start at boot.

BTRFS (disk setup guide)

BTRFS Commands TL;DR

btrfs device scan

We will format the entire disk without a partition scheme.

mkfs.btrfs -L disk1 /dev/sdb
mkdir /mnt/disk1
mount /dev/sdb /mnt/disk1
mkfs.btrfs -L disk2 /dev/sdc 
mkdir /mnt/disk2
mount /dev/sdc /mnt/disk2

Confirm

btrfs filesystem show
btrfs filesystem usage /mnt/disk1
btrfs filesystem usage /mnt/disk2

Disk scrubbing on BTRFS

btrfs scrub start /mnt/disk1
btrfs scrub status /mnt/disk1

Checking tiered storage mover process state

ps -auxq $(cat /var/run/mover.pid)

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