Veritas InfoScale™ 8.0.2 Solutions in Cloud Environments

Last Published:
Product(s): InfoScale & Storage Foundation (8.0.2)
Platform: Linux,Windows
  1. Overview and preparation
    1.  
      Overview of InfoScale solutions in cloud environments
    2.  
      InfoScale agents for monitoring resources in cloud environments
    3.  
      InfoScale FSS feature for storage sharing in cloud environments
    4.  
      InfoScale non-FSS feature for storage sharing in cloud environments
    5.  
      About SmartIO in AWS environments
    6.  
      Preparing for InfoScale installations in cloud environments
    7.  
      Installing the AWS CLI package
    8.  
      VPC security groups example
  2. Configurations for Amazon Web Services - Linux
    1. Replication configurations in AWS - Linux
      1.  
        Replication from on-premises to AWS - Linux
      2.  
        Replication across AZs within an AWS region - Linux
      3.  
        Replication across AWS regions - Linux
      4.  
        Replication across multiple AWS AZs and regions (campus cluster) - Linux
    2. HA and DR configurations in AWS - Linux
      1.  
        Failover within a subnet of an AWS AZ using virtual private IP - Linux
      2.  
        Failover across AWS subnets using overlay IP - Linux
      3.  
        Public access to InfoScale cluster nodes in AWS using elastic IP - Linux
      4.  
        DR from on-premises to AWS and across AWS regions or VPCs - Linux
  3. Configurations for Amazon Web Services - Windows
    1. Replication configurations in AWS - Windows
      1.  
        Replication from on-premises to AWS - Windows
      2.  
        Replication across AZs in an AWS region - Windows
      3.  
        Replication across AWS regions - Windows
    2. HA and DR configurations in AWS - Windows
      1.  
        EBS Multi-Attach feature support with InfoScale Enterprise in AWS cloud
      2.  
        InfoScale service group configuration wizards support for EBS Multi-Attach
      3.  
        Failover within a subnet of an AWS AZ using virtual private IP - Windows
      4.  
        Failover across AWS subnets using overlay IP - Windows
      5.  
        Public access to InfoScale cluster nodes in AWS using Elastic IP - Windows
      6.  
        DR from on-premises to AWS and across AWS regions or VPCs - Windows
      7.  
        DR from on-premises to AWS - Windows
  4. Configurations for Microsoft Azure - Linux
    1. Replication configurations in Azure - Linux
      1.  
        Replication from on-premises to Azure - Linux
      2.  
        Replication within an Azure region - Linux
      3.  
        Replication across Azure regions - Linux
      4.  
        Replication across multiple Azure sites and regions (campus cluster) - Linux
      5.  
        About identifying a temporary resource disk - Linux
    2. HA and DR configurations in Azure - Linux
      1.  
        Failover within an Azure subnet using private IP - Linux
      2.  
        Failover across Azure subnets using overlay IP - Linux
      3.  
        Public access to cluster nodes in Azure using public IP - Linux
      4.  
        DR from on-premises to Azure and across Azure regions or VNets - Linux
  5. Configurations for Microsoft Azure - Windows
    1. Replication configurations in Azure - Windows
      1.  
        Replication from on-premises to Azure - Windows
      2.  
        Replication within an Azure region - Windows
      3.  
        Replication across Azure regions - Windows
    2. HA and DR configurations in Azure - Windows
      1.  
        Shared disk support in Azure cloud and InfoScale service group configuration using wizards
      2.  
        Failover within an Azure subnet using private IP - Windows
      3.  
        Failover across Azure subnets using overlay IP - Windows
      4.  
        Public access to cluster nodes in Azure using public IP - Windows
      5.  
        DR from on-premises to Azure and across Azure regions or VNets - Windows
  6. Configurations for Google Cloud Platform- Linux
    1. Replication configurations in GCP - Linux
      1.  
        Replication across GCP regions - Linux
      2.  
        Replication across multiple GCP zones and regions (campus cluster) - Linux
    2. HA and DR configurations in GCP - Linux
      1.  
        Failover within a subnet of a GCP zone using virtual private IP - Linux
      2.  
        Failover across GCP subnets using overlay IP - Linux
      3.  
        DR across GCP regions or VPC networks - Linux
      4.  
        Shared storage within a GCP zone or across GCP zones - Linux
  7. Configurations for Google Cloud Platform - Windows
    1. Replication configurations in GCP - Windows
      1.  
        Replication from on-premises to GCP - Windows
      2.  
        Replication across zones in a GCP region - Windows
      3.  
        Replication across GCP regions - Windows
    2. HA and DR configurations in GCP - Windows
      1.  
        Considerations for using InfoScale Enterprise with shared disks in the GCP cloud
      2.  
        Failover within a subnet of a GCP zone using virtual private IP - Windows
      3.  
        Failover across GCP subnets using overlay IP - Windows
      4.  
        DR across GCP regions or VPC networks - Windows
  8. Replication to and across cloud environments
    1.  
      Data replication in supported cloud environments
    2.  
      Supported replication scenarios
    3.  
      Setting up replication across AWS and Azure environments
  9. Migrating files to the cloud using Cloud Connectors
    1.  
      About cloud connectors
    2.  
      About InfoScale support for cloud connectors
    3.  
      How InfoScale migrates data using cloud connectors
    4.  
      Limitations for file-level tiering
    5.  
      About operations with Amazon Glacier
    6.  
      Migrating data from on-premise to cloud storage
    7.  
      Reclaiming object storage space
    8.  
      Removing a cloud volume
    9.  
      Examining in-cloud storage usage
    10.  
      Sample policy file
    11.  
      Replication support with cloud tiering
  10. Configuration for Load Balancer for AWS and Azure - Linux
    1.  
      Load Balancer for AWS and Azure on Linux
  11. Troubleshooting issues in cloud deployments
    1.  
      In an Azure environment, exporting a disk for Flexible Storage Sharing (FSS) may fail with "Disk not supported for FSS operation" error

About operations with Amazon Glacier

For all the supported cloud types except Glacier, the upload and retrieval operations are synchronous. For Glacier, the retrieval operation is asynchronous and the upload operation is synchronous.

Upload to Glacier

An archive is a base unit of storage, similar to objects in Amazon S3 or Azure BLOB. A vault is a container for storing archives, similar to buckets in S3. An archive is created for each on-premises file, which means that there is a 1:1 mapping of archives and files. When a file is moved to Glacier, all the data in the file is written as one archive in a Glacier vault.

Download or retrieval of an archive from Glacier

Retrieving an archive from Glacier is an asynchronous operation in which you first initiate a job, and then download the output after the job completes. When you initiate a job, Glacier returns a job ID in the response, and executes the job asynchronously. A new fscloudd daemon is added to poll for initiated jobs, and to check whether the job initialization is complete. When a retrieval from the Glacier tier is initiated, the fscloudd daemon is started internally, if it is not running already.

InfoScale supports the following types of retrievals from Glacier:

  • Expedited retrievals, which are typically made available within 1 - 5 minutes.

  • Standard retrievals, which typically complete within 3 - 5 hours. You can access any of your archives within several hours. When a retrieval option is not specified in a request, this option is used by default.

  • Bulk retrievals, which typically complete within 5 - 12 hours. This retrieval option costs the least, and you can use it to retrieve large amounts of data, even petabytes, in a day.

To specify a retrieval type, you provide flags in the policy.xml file.

In the following example, tier2 is a Glacier tier, which indicates relocation from Glacier.

<FROM Flags="expedited_retrieval">
  <SOURCE>
    <CLASS>tier2</CLASS>
  </SOURCE>
</FROM>

Flags for the other supported retrieval types are standard_retrieval and bulk_retrieval.

Relocation from Glacier is done asynchronously, and you can track it by using the fsppadm status command. For example:

#/opt/VRTS/bin/fsppadm status /mnt1 tier2
UX:vxfs fsppadm: INFO: V-3-20000: fsppadm: 
Download Processing for 5 files is remaining.

#/opt/VRTS/bin/fsppadm status /mnt1 tier2
UX:vxfs fsppadm: INFO: V-3-20000: fsppadm: 
Download Processing for this tier is not in progress.