Posts Tagged ‘nfs for vmware’

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In-the-Lab: Full ESX/vMotion Test Lab in a Box, Part 4

August 26, 2009

In Part 3 of this series we showed how to install and configure a basic NexentaStor VSA using iSCSI and NFS storage. We also created a CIFS bridge for managing ISO images that are available to our ESX servers using NFS. We now have a fully functional VSA with working iSCSI target (unmounted as of yet) and read-only NFS export mounted to the hardware host.

In this segment, Part 4, we will create an ESXi instance on NFS along with an ESX instance on iSCSI, and, using writable snapshots, turn both of these installations into quick-deploy templates. We’ll then mount our large iSCSI target (created in Part 3) and NFS-based ISO images to all ESX/ESXi hosts (physical and virtual), and get ready to install our vCenter virtual machine.

Part 4, Making an ESX Cluster-in-a-Box

With a lot of things behind us in Parts 1 through 3, we are going to pick-up the pace a bit. Although ZFS snapshots are immediately available in a hidden “.zfs” folder for each snapshotted file system, we are going to use cloning and mount the cloned file systems instead.

Cloning allows us to re-use a file system as a template for a copy-on-write variant of the source. By using the clone instead of the original, we can conserve storage because only the differences between the two file systems (the clone and the source) are stored to disk. This process allows us to save time as well, leveraging “clean installations” as starting points (templates) along with their associate storage (much like VMware’s linked-clone technology for VDI.) While VMware’s “template” capability allows us save time by using a VM as a “starting point” it does so by copying storage, not cloning it, and therefore conserves no storage.

Using clones in NexentaStor to aid rapid deployment and testing.

Using clones in NexentaStor to conserve storage and aid rapid deployment and testing. Only the differences between the source and the clone require additional storage on the NexentaStor appliance.

While the ESX and ESXi use cases might not seem the “perfect candidates” for cloning in a “production” environment, in the lab it allows for an abundance of possibilities in regression and isolation testing. In production you might find that NFS and iSCSI boot capabilities could make cloned hosts just as effective for deployment and backup as they are in the lab (but that’s another blog).

Here’s the process we will continue with for this part in the lab series:

  1. Create NFS folder in NexentaStor for the ESXi template and share via NFS;
  2. Modify the NFS folder properties in NexentaStor to:
    1. limit access to the hardware ESXi host only;
    2. grant the hardware ESXi host “root” access;
  3. Create a folder in NexentaStor for the ESX template and create a Zvol;
  4. From VI Client’s “Add Storage…” function, we’ll add the new NFS and iSCSI volumes to the Datastore;
  5. Create ESX and ESXi clean installations in these “template” volumes as a cloning source;
  6. Unmount the “template” volumes using the VI Client and unshare them in NexentaStore;
  7. Clone the “template” Zvol and NFS file systems using NexentaStore;
  8. Mount the clones with VI Client and complete the ESX and ESXi installations;
  9. Mount the main Zvol and ISO storage to ESX and ESXi as primary shared storage;
Basic storage architecture for the ESX-on-ESX lab.

Basic storage architecture for the ESX-on-ESX lab.

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In-the-Lab: Full ESX/vMotion Test Lab in a Box, Part 3

August 21, 2009

In Part 2 of this series we introduced the storage architecture that we would use for the foundation of our “shared storage” necessary to allow vMotion to do its magic. As we have chosen NexentaStor for our VSA storage platform, we have the choice of either NFS or iSCSI as the storage backing.

In Part 3 of this series we will install NexentaStor, make some file systems and discuss the advantages and disadvantages of NFS and iSCSI as the storage backing. By the end of this segment, we will have everything in place for the ESX and ESXi virtual machines we’ll build in the next segment.

Part 3, Building the VSA

For DRAM memory, our lab system has 24GB of RAM which we will apportion as follows: 2GB overhead to host, 4GB to NexentaStor, 8GB to ESXi, and 8GB to ESX. This leaves 2GB that can be used to support a vCenter installation at the host level.

Our lab mule was configured with 2x250GB SATA II drives which have roughly 230GB each of VMFS partitioned storage. Subtracting 10% for overhead, the sum of our virtual disks will be limited to 415GB. Because of our relative size restrictions, we will try to maximize available storage while limiting our liability in case of disk failure. Therefore, we’ll plan to put the ESXi server on drive “A” and the ESX server on drive “B” with the virtual disks of the VSA split across both “A” and “B” disks.

Our VSA Virtual Hardware

For lab use, a VSA with 4GB RAM and 1 vCPU will suffice. Additional vCPU’s will only serve to limit CPU scheduling for our virtual ESX/ESXi servers, so we’ll leave it at the minimum. Since we’re splitting storage roughly equally across the disks, we note that an additional 4GB was taken-up on disk “A” during the installation of ESXi, therefore we’ll place the VSA’s definition and “boot” disk on disk “B” – otherwise, we’ll interleave disk slices equally across both disks.

NexentaStor-VSA-virtual-hardware

  • Datastore – vLocalStor02B, 8GB vdisk size, thin provisioned, SCSI 0:0
  • Guest Operating System – Solaris, Sun Solaris 10 (64-bit)
  • Resource Allocation
    • CPU Shares – Normal, no reservation
    • Memory Shares – Normal, 4096MB reservation
  • No floppy disk
  • CD-ROM disk – mapped to ISO image of NexentaStor 2.1 EVAL, connect at power on enabled
  • Network Adapters – Three total 
    • One to “VLAN1 Mgt NAT” and
    • Two to “VLAN2000 vSAN”
  • Additional Hard Disks – 6 total
    • vLocalStor02A, 80GB vdisk, thick, SCSI 1:0, independent, persistent
    • vLocalStor02B, 80GB vdisk, thick, SCSI 2:0, independent, persistent
    • vLocalStor02A, 65GB vdisk, thick, SCSI 1:1, independent, persistent
    • vLocalStor02B, 65GB vdisk, thick, SCSI 2:1, independent, persistent
    • vLocalStor02A, 65GB vdisk, thick, SCSI 1:2, independent, persistent
    • vLocalStor02B, 65GB vdisk, thick, SCSI 2:2, independent, persistent

NOTE: It is important to realize here that the virtual disks above could have been provided by vmdk’s on the same disk, vmdk’s spread out across multiple disks or provided by RDM’s mapped to raw SCSI drives. If your lab chassis has multiple hot-swap bays or even just generous internal storage, you might want to try providing NexentaStor with RDM’s or 1-vmdk-per-disk vmdk’s for performance testing or “near” production use. CPU, memory and storage are the basic elements of virtualization and there is no reason that storage must be the bottleneck. For instance, this environment is GREAT for testing SSD applications on a resource limited budget.

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