I’ve started encountering a problem that I should use some assistance troubleshooting. I’ve got a Proxmox system that hosts, primarily, my Opnsense router. I’ve had this specific setup for about a year.

Recently, I’ve been experiencing sluggishness and noticed that the IO wait is through the roof. Rebooting the Opnsense VM, which normally only takes a few minutes is now taking upwards of 15-20. The entire time my IO wait sits between 50-80%.

The system has 1 disk in it that is formatted ZFS. I’ve checked dmesg, and the syslog for indications of disk errors (this feels like a failing disk) and found none. I also checked the smart statistics and they all “PASSED”.

Any pointers would be appreciated.

Example of my most recent host reboot.

Edit: I believe I’ve found the root cause of the change in performance and it was a bit of shooting myself in the foot. I’ve been experimenting with different tools for log collection and the most recent one is a SIEM tool called Wazuh. I didn’t realize that upon reboot it runs an integrity check that generates a ton of disk I/O. So when I rebooted this proxmox server, that integrity check was running on proxmox, my pihole, and (I think) opnsense concurrently. All against a single consumer grade HDD.

Thanks to everyone who responded. I really appreciate all the performance tuning guidance. I’ve also made the following changes:

  1. Added a 2nd drive (I have several of these lying around, don’t ask) converting the zfs pool into a mirror. This gives me both redundancy and should improve read performance.
  2. Configured a 2nd storage target on the same zpool with compression enabled and a 64k block size in proxmox. I then migrated the 2 VMs to that storage.
  3. Since I’m collecting logs in Wazuh I set Opnsense to use ram disks for /tmp and /var/log.

Rebooted Opensense and it was back up in 1:42 min.

  • seaQueue@lemmy.world
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    7 months ago

    Depends on the SSD, the one I linked is fine for casual home server use. You’re unlikely to see enough of a write workload that endurance will be an issue. That’s an enterprise drive btw, it certainly wasn’t cheap when it was brand new and I doubt running a couple of VMs will wear it quickly. (I’ve had a few of those in service at home for 3-4y, no problems.)

    Consumer drives have more issues, their write endurance is considerably lower than most enterprise parts. You can blow through a cheap consumer SSD’s endurance in mere months with a hypervisor workload so I’d strongly recommend using enterprise drives where possible.

    It’s always worth taking a look at drive datasheets when you’re considering them and comparing the warranty lifespan to your expected usage too. The drive linked above has an expected endurance of like 2PB (~3 DWPD, OR 2TB/day, over 3y) so you shouldn’t have any problems there. See https://www.sandisk.com/content/dam/sandisk-main/en_us/assets/resources/enterprise/data-sheets/cloudspeed-eco-genII-sata-ssd-datasheet.pdf

    Older gen retired or old stock parts are basically the only way I buy home server storage now, the value for your money is tremendous and most drives are lightly used at most.

    Edit: some select consumer SSDs can work fairly well with ZFS too, but they tend to be higher endurance parts with more baked in over provisioning. It was popular to use Samsung 850 or 860 Pros for a while due to their tremendous endurance (the 512GB 850s often had an endurance lifespan of like 10PB+ before failure thanks to good old high endurance MLC flash) but it’s a lot safer to just buy retired enterprise parts now that they’re available cheaply. There are some gotchas that come along with using high endurance consumer drives, like poor sync write performance due to lack of PLP, but you’ll still see far better performance than an HDD.