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Managing your storage
Raphael Carvalho edited this page Feb 12, 2015
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This section is about explaining how to manage your storage using ZFS features, the default disk-based file system used on OSv.
ZFS and ZPOOL command-line tools are available on OSv, then if you're familiar with them, managing the storage will be easier. WARNING: Some options from these commands may not be available yet.
zpool example: Getting I/O statistics from your pools:
$ /PATH_TO_OSV/scripts/run.py -e 'zpool.so iostat'
OSv v0.17-11-ge281199
eth0: 192.168.122.15
capacity operations bandwidth
pool alloc free read write read write
---------- ----- ----- ----- ----- ----- -----
data 155K 9.94G 376 513 8.90M 3.59M
osv 16.8M 9.92G 304 148 12.1M 798K
---------- ----- ----- ----- ----- ----- -----
zfs example: Listing available file systems:
$ /PATH_TO_OSV/scripts/run.py -e 'zfs.so list'
OSv v0.17-11-ge281199
eth0: 192.168.122.15
NAME USED AVAIL REFER MOUNTPOINT
data 106K 9.78G 31K /data
osv 16.6M 9.77G 32K /
osv/zfs 16.4M 9.77G 16.4M /zfs
- Create the image for the additional vdisk using qemu-img:
$ qemu-img create -f qcow2 image.qcow2 10G
- Change run.py script (locate it at /PATH_TO_OSV/scripts/run.py) to initiate OSv instance with the additional vdisk:
- Change the file parameter from the added line accordingly.
diff --git a/scripts/run.py b/scripts/run.py
index cc8cfda..58b6392 100755
--- a/scripts/run.py
+++ b/scripts/run.py
@@ -116,6 +116,7 @@ def start_osv_qemu(options):
args += [
"-device", "virtio-blk-pci,id=blk0,bootindex=0,drive=hd0,scsi=off",
"-drive", "file=%s,if=none,id=hd0,aio=native,cache=%s" % (options.image_file, cache)]
+ args += [ "-drive", "file=/PATH/TO/IMAGE/image.qcow2,if=virtio"]
if options.no_shutdown:
args += ["-no-reboot", "-no-shutdown"]
- Create the pool by executing the following command on your host's terminal:
- /dev/vblk1 is the device associated with your additional vdisk. The second additional vdisk would be /dev/vblk2, and so on.
$ /PATH_TO_OSV/scripts/run.py -e 'zpool.so create data /dev/vblk1'
- Also on host's terminal, check that the additional file system was created successfully:
$ /PATH_TO_OSV/scripts/run.py -e 'zfs.so list'
OSv v0.17-11-ge281199
eth0: 192.168.122.15
NAME USED AVAIL REFER MOUNTPOINT
data 92.5K 9.78G 31K /data
osv 16.6M 9.77G 32K /
osv/zfs 16.4M 9.77G 16.4M /zfs
- From there, /data is available for to be used by the application, and it will be mounted automatically. Enjoy! :-)
TODO: There is a lot to be done on this page, explaining how to create a new file system on additional ZFS pool was the starting point.