Recommeneded partitioning scheme:
- Raid 1 (mirror) 40 000MB ext4 /
- Raid 1 (mirror) 30 000MB ext4 /xshok/zfs-cache only create if an ssd and there is 1+ unused hdd which will be made into a zfspool
- Raid 1 (mirror) 5 000MB ext4 /xshok/zfs-slog only create if an ssd and there is 1+ unused hdd which will be made into a zfspool
- SWAP
-
- HDD less than 130gb = 16GB swap
-
- HDD more than 130GB and RAM less than 64GB = 32GB swap
-
- HDD more than 130GB and RAM more than 64GB = 64GB swap
- Remaining for lv xfs /var/lib/vz (LVM)
includes and runs the (install-post.sh) script
- Select the Rescue tab for the specific server, via the hetzner robot manager
-
- Operating system=Linux
-
- Architecture=64 bit
-
- Public key=optional
- --> Activate rescue system
- Select the Reset tab for the specific server,
- Check: Execute an automatic hardware reset
- --> Send
- Wait a few mins
- Connect via ssh/terminal to the rescue system running on your server and run the following
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/install-hetzner.sh -c -O install-hetzner.sh && chmod +x install-hetzner.sh
./install-hetzner.sh
- Reboot
- Connect via ssh/terminal to the new Proxmox system running on your server and run the following
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/lvm-2-zfs.sh -c -O lvm-2-zfs.sh && chmod +x lvm-2-zfs.sh
./lvm-2-zfs.sh && rm lvm-2-zfs.sh
- Reboot
- Connect via ssh/terminal to the new Proxmox system running on your server and run the following
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/network-configure.sh -c -O network-configure.sh && chmod +x network-configure.sh
./network-configure.sh && rm network-configure.sh
- Reboot
- Post Install: Now login via ssh as root and create a password, which will be used for the webinterface when logging in with pam authentication
Select install for the specific server, via the ovh manager
- --INSTALL-->
- Install from an OVH template
- --NEXT-->
- Type of OS: Ready-to-go (graphical user interface)
- VPS Proxmox VE (pick the latest non zfs version)
- Language: EN
- Target disk arrray: (always select the SSD array if you have ssd and hdd arrays)
- Enable/Tick: Customise the partition configuration
- --NEXT-->
- Disks used for this installation: (All of them)
- (Remove all the partitions and do the following)
- Type: Filesystem: Mount Point: LVM Name: RAID: Size:
-
- 1 primary Ext4 / - 1 20.0 GB
-
- 2 primary Swap swap - - 2 x 8.0 GB (minimum 16GB total, set recommended swap size)
-
- 3 LV xfs /var/lib/vz data 1 REMAINING GB (use all the remaining space)
- --NEXT-->
- Hostname: server.fqdn.com
- Installation script (URL): https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/install-post.sh
- Script return value: 0
- SSH keys: (always suggested, however if this value is used a webinterface login will not work without setting a root password in shell)
- --CONFIRM--> After installation, Connect via ssh/terminal to the new Proxmox system running on your server and run the following
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/lvm-2-zfs.sh -c -O lvm-2-zfs.sh && chmod +x lvm-2-zfs.sh
./lvm-2-zfs.sh && rm lvm-2-zfs.sh
- Reboot
- Connect via ssh/terminal to the new Proxmox system running on your server and run the following
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/network-configure.sh -c -O network-configure.sh && chmod +x network-configure.sh
./network-configure.sh && rm network-configure.sh
- Reboot
- Post Install: Now login via ssh as root and create a password, which will be used for the webinterface when logging in with pam authentication
Assumptions: Proxmox installed, SSD raid1 partitions mounted as /xshok/zfs-slog and /xshok/zfs-cache, 1+ unused hdd which will be made into a zfspool
- Connect via ssh/terminal to the new Proxmox system running on your server and run the follow
NOTE: WILL DESTROY ALL DATA ON SPECIFIED DEVICES
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/createzfs.sh -c -O createzfs.sh && chmod +x createzfs.sh
./createzfs.sh poolname /dev/device1 /dev/device2
Create ZFS cache and slog from /xshok/zfs-cache and /xshok/zfs-slog partitions and adds them to a zpool (xshok_slog_cache-2-zfs.sh) optional
NOTE: WILL DESTROY ALL DATA ON SPECIFIED PARTITIONS
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/xshok_slog_cache-2-zfs.sh -c -O xshok_slog_cache-2-zfs.sh && chmod +x xshok_slog_cache-2-zfs.sh
./xshok_slog_cache-2-zfs.sh poolname
- Reboot
not required if server setup with install-hetzner.sh
- Added: 'reboot-quick' command which uses kexec to boot the latest kernel set in the boot loader
- Disables the enterprise repo, enables the public repo
- Adds non-free sources
- Adds the latest ceph
- Fixes known bugs (public key missing, max user watches, etc)
- Updates the system
- Installs openvswitch-switch, zfsutils and common system utilities
- Protects the webinterface with fail2ban
- Increase vzdump backup speed
- Increase max File Discriptor Limits
- Increase max Key limits
- Detect AMD EPYC CPU and install kernel 4.15
- Detect AMD EPYC CPU and Apply EPYC fix to kernel
- Install and configure ZFS-auto-snapshots (12x5min, 7daily, 4weekly, 3monthly)
https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/install-post.sh
return value is 0
Or run install-post.sh after installation
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/install-post.sh -c -O install-post.sh && bash install-post.sh && rm install-post.sh
Assumptions: Debian9 installed with a valid FQDN hostname set
- Tested on KVM, VirtualBox and Dedicated Server
- Will automatically detect cloud-init and disable.
- Will automatically generate a correct /etc/hosts
- Note: will automatically run the install-post.sh script
curl -O https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/debian9-2-proxmox5.sh && chmod +x debian9-2-proxmox5.sh
./debian9-2-proxmox5.sh
There can be security implications as the LXC container is running in a higher privileged mode.
curl https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/pve-enable-lxc-docker.sh --output /usr/sbin/pve-enable-lxc-docker && chmod +x /usr/sbin/pve-enable-lxc-docker
pve-enable-lxc-docker container_id
Converts the a MDADM BASED LVM into a ZFS raid 1 (mirror)
- Defaults to mount point: /var/lib/vz
- Optional: specify the LVM_MOUNT_POINT ( ./lvm-2-zfs.sh LVM_MOUNT_POINT )
- Creates the following storage/rpools
- zfsbackup (rpool/backup)
- zfsvmdata (rpool/vmdata)
- /var/lib/vz/tmp_backup (rpool/tmp_backup)
- Will automatically detect the required raid level and optimise.
- 1 Drive = zfs
- 2 Drives = mirror
- 3-5 Drives = raidz-1
- 6-11 Drives = raidz-2
- 11+ Drives = raidz-3
NOTE: WILL DESTROY ALL DATA ON LVM_MOUNT_POINT
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/lvm-2-zfs.sh -c -O lvm-2-zfs.sh && chmod +x lvm-2-zfs.sh
./lvm-2-zfs.sh
Creates a zfs pool from specified devices
- Will automatically detect the required raid level and optimise
- 1 Drive = zfs (single)
- 2 Drives = mirror (raid1)
- 3-5 Drives = raidz-1 (raid5)
- 6-11 Drives = raidz-2 (raid6)
- 11+ Drives = raidz-3 (raid7)
NOTE: WILL DESTROY ALL DATA ON SPECIFIED DEVICES
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/createzfs.sh -c -O createzfs.sh && chmod +x createzfs.sh
./createzfs.sh poolname /dev/device1 /dev/device2
Create ZFS cache and slog from /xshok/zfs-cache and /xshok/zfs-slog partitions and adds them to a zpool (xshok_slog_cache-2-zfs.sh) optional
Creates a zfs pool from specified devices
- Will automatically mirror the slog and stripe the cache if there are multiple drives
NOTE: WILL DESTROY ALL DATA ON SPECIFIED PARTITIONS
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/xshok_slog_cache-2-zfs.sh -c -O xshok_slog_cache-2-zfs.sh && chmod +x xshok_slog_cache-2-zfs.sh
./xshok_slog_cache-2-zfs.sh poolname
CREATES A ROUTED vmbr0 AND NAT vmbr1 NETWORK CONFIGURATION FOR PROXMOX (network-configure.sh) run once
Autodetects the correct settings (interface, gatewat, netmask, etc) Supports IPv4 and IPv6, Private Network uses 10.10.10.1/24 Also installs and properly configures the isc-dhcp-server to allow for DHCP on the vmbr1 (NAT) ROUTED (vmbr0): All traffic is routed via the main IP address and uses the MAC address of the physical interface. VM's can have multiple IP addresses and they do NOT require a MAC to be set for the IP via service provider
NAT (vmbr1): Allows a VM to have internet connectivity without requiring its own IP address Assignes 10.10.10.100 - 10.10.10.200 via DHCP
Public IP's can be assigned via DHCP, adding a host define to the /etc/dhcp/hosts.public file
Tested on OVH and Hetzner based servers
ALSO CREATES A NAT Private Network as vmbr1
NOTE: WILL OVERWRITE /etc/network/interfaces A backup will be created as /etc/network/interfaces.timestamp
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/network-configure.sh -c -O network-configure.sh && chmod +x network-configure.sh
./network-configure.sh && rm network-configure.sh
If no interface is specified the default gateway interface will be detected and used.
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/network-addiprange.sh -c -O network-addiprange.sh && chmod +x network-addiprange.sh
./network-addiprange.sh ip.xx.xx.xx/cidr interface_optional
tinc private mesh vpn/network which supports multicast, ideal for private cluster communication
wget https://raw.githubusercontent.com/extremeshok/xshok-proxmox/master/tincvpn.sh -c -O tincvpn.sh && chmod +x tincvpn.sh
./tincvpn.sh -h
bash tincvpn.sh -i 1 -c host2
bash tincvpn.sh -i 2 -c host3
bash tincvpn.sh -i 3 -c host1
Run the following on the guest alpine linux
apk update && apk add qemu-guest-agent acpi
echo 'GA_PATH="/dev/vport2p1"' >> /etc/conf.d/qemu-guest-agent
rc-update add qemu-guest-agent default
rc-update add acpid default
/etc/init.d/qemu-guest-agent restart
Run the following on the proxmox server, ensure you have a valid DNS for the server which resolves
pvenode acme account register default [email protected]
pvenode config set --acme domains=example.invalid
pvenode acme cert order
# list all snapshots
zfs list -t snapshot
# create a pre-rollback snapshot
zfs-auto-snapshot --verbose --label=prerollback -r //
# rollback to a specific snapshot
zfs rollback <snapshotname>