OnApp storage nodes are self-managing, self-discovering, and self-contained hot-pluggable units. Each storage node manages its own content in the most efficient way possible, without loss of performance, using a thin-provisioning layer for storage space efficiency and overcommit. This ensures that data is stored optimally across the whole environment while maintaining data replication and drive resiliency properties. There is no centralized management system to fail, and each node can make decisions about data synchronization and load balancing without depending on a central controller.
The list of storage nodes can be found in the Storage > Nodes menu.
The number of NBD paths available for your virtual disks depends on the amount of RAM available to the storage node. You can use the following formula to calculate the maximum number of NBD paths, N:
N = (Controller memory size - 128) ÷ 4, where:
Controller memory size = the memory assigned to the storage controller (by default it is 1024MB, you may calculate the needed memory as the DB size (the memory assigned to the storage controller, 128MB by default) + 10 MB x vDisk parts at the controller)
128 = amount of system memory reserved for the storage controller
4 = the amount of memory needed per NBD server
So by default:
(1024 -128) = 896 MB for NBD servers
896 ÷ 4 = 224 NBD paths available
Each stripe in a datastore needs 1 NBD path, so the total number of vDisks, D, you can have is given by:
D = N ÷ (SxR)
where: S = the number of stripes in the datastore
R = the number of replicas
If the datastore has two replicas and two stripes, it requires four paths (2 strips x 2 replicas) per disk. Using the defaults for the storage controller, each controller can host:
224 ÷ 8 = 56 vDisks
Linux virtual servers have at least two disks (main disk and swap disk), so eight paths would be required (if you are using the same datastore configuration for main disk and swap). So, this configuration supports 28 Linux virtual servers or 56 Windows virtual servers.
To fit more virtual servers in the cloud, we recommend using unreplicated storage for swap drives.
If you want to get more vDisks to run, either the number of disks per controller has to be decreased or the memory for the storage controllers has to be increased.
Free space per storage node
In order to calculate free space per storage node we use the next two formulas:
a) Formula for overcommit scheme: physical_disk_size + overcommit_value_in_percentage - allocated_space
b) Formula without overcommit: physical_disk_size - allocated_space
Our physical disk which is mounted to the controller has a size of 558.6GB:
Allocated space for it - 659 GB
Overcommit - 20%
So: 558.6+20%-659=11.32 or 11 GB
The same calculation is done for the second formula but without using the overcommit value.
- Enabling overcommit and running out of physical space is a dangerous condition and should always be avoided. It is strongly recommended that you create data stores with
overcommit = nonefor production purposes.
- These calculations will not make sense for overcommit unlimited. We can use them only when we have a specific value of overcommit (for instance 20%, 50%, etc).