I recently purchased a used PowerEdge R420 rack server with a Compellent SC220 Storage Shelf. I currently have four 3.5" HDDs in the R420 and ten 2.5" HDDs in the SC220. The R420 server previously had TrueNAS installed, so all of the hard drives on both the R420 and the SC220 are formatted with ZFS. I’m now running Ubuntu on the R420 using ZFS.
The server I’m replacing is an old gaming PC running Manjaro and BTRFS. It has one SSD with the operating system and two 4 TB HDDs set up as RAID0. I’ve been using the RAID to store media downloaded via the Servarr stack.
So, my goal is to create a large pool out of all of the HDDs (except the one running the OS) on the R420 and SC220, and then migrate the media data on the two 4 TB RAID0 drives on my old gaming PC over to R420/SC220 pool. I would then move my Servarr stack over to the R420 as well. Ideally, I’d also like to physically move the two 4 TB HDDs over to the R420. Presumably, I would have to reformat the drives to use ZFS rather the BTRFS and then integrate them somehow into the ZFS pool?
Anyway, I’m not sure of the best procedure to accomplish all of this, so I would be grateful to hear from anyone who has any experience or insight. Thanks in advance.
Look for a raid card that can run in IT mode.
Maybe this will help?
https://serverfault.com/questions/843748/how-to-upgrade-dell-perc-h310-to-dell-perc-6i-in-dell-r420
Is it necessary (or especially advantageous) to use a hardware RAID controller to create the RAID? I’m completely ignorant of those hardware aspects of servers, so was hoping to create a software RAID using ZFS.
Initiator-target (IT) mode enables creating a JBOD with zfs vdevs on it. You can have the zfs vdevs in raidz configuration (which would give you the same drive redundancy as a hardware raid, with raidz1 performing similar to RAID5)
zfs is commonly used with a JBOD configuration on a raid controller but you can also use any other kind of controller as long as the individual drives can be written to. examples for this would be NVMe drives directly attached to the PCIe bus or normal SATA controllers. This is more a performance optimization than an issue with compatibility.
Okay, I think that’s basically what I’m trying to do, though I don’t know if I already have a JBOD. My drives certainly do show up on my desktop as just a bunch of individuals drives, haha. How do I access the hardware controller to see how it is currently set up?
just a bunch of individuals drives
that is literally what JBOD means so congratulations you already have one. a classical RAID would show up as a single drive.
That’s good to know. I’ve been experimenting with zpool with some success this afternoon. The one weird thing is that the disks in the SC220 have two device letters each, while the ones in the R420 have a single device letter in /dev/. Like so:
R240 Disk 1: sda Disk 2: sdb Disk 3: sdc Disk 4: sdd
SC220 Disk 5: sde and sdo Disk 6: sdf and sdp … Disk 14: sdn and sdx
Any idea why a single disk is assigned two device letters, and whether it matters once I create the pool?
could you run something like
sudo lsblk -o+MODELand note down the model for the drives? i kind of suspect that the HBA you are using is still doing some abstraction and is not in IT mode. the duplication could come from connecting two SAS cables to the same backplane, thus creating a sort of double image of the enclosure. this is usually handled and hidden by the HBA though if it is configured correctly.pls also check that you are in fact using the correct ports on the enclosure. if you are not building a SAN only the “A” ports are supposed to be used and the “B” ports should be unused/free.
Very interesting and thanks for helping me with this. I do have both SAS cables plugged in. I double-checked the back of the SC220 and I’m definitely only using the “A” ports. The lsblk command you suggested is interesting. Here is the output for the drives with two device letters.
first set of device letters* sde 8:64 0 931.5G 0 disk ST91000642SS ├─sde1 8:65 0 931.5G 0 part
└─sde9 8:73 0 8M 0 part
sdf 8:80 0 931.5G 0 disk ST91000642SS ├─sdf1 8:81 0 931.5G 0 part
└─sdf9 8:89 0 8M 0 part
sdg 8:96 0 838.4G 0 disk AL13SEB900 ├─sdg1 8:97 0 838.4G 0 part
└─sdg9 8:105 0 8M 0 part
sdh 8:112 0 838.4G 0 disk AL13SEB900 ├─sdh1 8:113 0 838.4G 0 part
└─sdh9 8:121 0 8M 0 part
sdi 8:128 0 931.5G 0 disk ST91000642SS ├─sdi1 8:129 0 931.5G 0 part
└─sdi9 8:137 0 8M 0 part
sdj 8:144 0 931.5G 0 disk ST91000642SS ├─sdj1 8:145 0 931.5G 0 part
└─sdj9 8:153 0 8M 0 part
sdk 8:160 0 931.5G 0 disk ST91000642SS ├─sdk1 8:161 0 931.5G 0 part
└─sdk9 8:169 0 8M 0 part
sdl 8:176 0 931.5G 0 disk ST91000642SS ├─sdl1 8:177 0 931.5G 0 part
└─sdl9 8:185 0 8M 0 part
sdm 8:192 0 838.4G 0 disk AL13SEB900 ├─sdm1 8:193 0 838.4G 0 part
└─sdm9 8:201 0 8M 0 part
sdn 8:208 0 931.5G 0 disk ST91000642SS ├─sdn1 8:209 0 931.5G 0 part
└─sdn9 8:217 0 8M 0 part***** second set of device letters***** sdo 8:224 0 931.5G 0 disk ST91000642SS ├─sdo1 8:225 0 2G 0 part
└─sdo2 8:226 0 929.5G 0 part
sdp 8:240 0 931.5G 0 disk ST91000642SS ├─sdp1 8:241 0 2G 0 part
└─sdp2 8:242 0 929.5G 0 part
sdq 65:0 0 838.4G 0 disk AL13SEB900 ├─sdq1 65:1 0 2G 0 part
└─sdq2 65:2 0 836.4G 0 part
sdr 65:16 0 838.4G 0 disk AL13SEB900 ├─sdr1 65:17 0 2G 0 part
└─sdr2 65:18 0 836.4G 0 part
sds 65:32 0 931.5G 0 disk ST91000642SS ├─sds1 65:33 0 2G 0 part
└─sds2 65:34 0 929.5G 0 part
sdt 65:48 0 931.5G 0 disk ST91000642SS ├─sdt1 65:49 0 2G 0 part
└─sdt2 65:50 0 929.5G 0 part
sdu 65:64 0 931.5G 0 disk ST91000642SS ├─sdu1 65:65 0 2G 0 part
└─sdu2 65:66 0 929.5G 0 part
sdv 65:80 0 931.5G 0 disk ST91000642SS ├─sdv1 65:81 0 2G 0 part
└─sdv2 65:82 0 929.5G 0 part
sdw 65:96 0 838.4G 0 disk AL13SEB900 ├─sdw1 65:97 0 2G 0 part
└─sdw2 65:98 0 836.4G 0 part
sdx 65:112 0 931.5G 0 disk ST91000642SS ├─sdx1 65:113 0 2G 0 part
└─sdx2 65:114 0 929.5G 0 partThe first set and the second set do show that they are assigned to the same device model, which makes sense since I can also see in the Gnome “Disks” app that each of these disks has two device letters (e.g. sde and sdo). However, the interesting thing I noticed in the output above is that the first set of device letters show the smaller partition as 8M in size and the second set of device letters show the smaller partition as 2G in size. I recall that when I first looked at the disks, before I started using zpool to experiment with creating pools, all of the drives in the SC220 had a 2G partition labeled “swap” (in the Gnome Disks app). After I created a zpool using devices sde-sdn, the devices in the zpool have a partition that is 8M in size. Now only the second set of devices (sdo-sdx) still have the 2G partition, which seems weird. Are there two partition tables?
Nope - that’s the whole point of ZFS - you don’t need any special hardware, nor do you want that layer hiding the details since ZFS manages the drives. Plus, you probably want to use RAIDZx with spare drives to absorb failure.
Yes, thanks. After some experimenting, I did find the raidz1 setting and plan to use it for sure!