Veritas InfoScale™ 7.4.2 Solutions in Cloud Environments
- Overview and preparation
- Overview of InfoScale solutions in cloud environments
- InfoScale agents for monitoring resources in cloud environments
- InfoScale feature for storage sharing in cloud environments
- About SmartIO in AWS environments
- Preparing for InfoScale installations in cloud environments
- Installing the AWS CLI package
- VPC security groups example
- Configurations for Amazon Web Services - Linux
- Configurations for Amazon Web Services - Windows
- Replication configurations in AWS - Windows
- HA and DR configurations in AWS - Windows
- Failover within a subnet of an AWS AZ using virtual private IP - Windows
- Failover across AWS subnets using overlay IP - Windows
- Public access to InfoScale cluster nodes in AWS using Elastic IP - Windows
- DR from on-premises to AWS and across AWS regions or VPCs - Windows
- DR from on-premises to AWS - Windows
- Configurations for Microsoft Azure - Linux
- Configurations for Microsoft Azure - Windows
- Configurations for Google Cloud Platform- Linux
- Configurations for Google Cloud Platform - Windows
- Replication to and across cloud environments
- Migrating files to the cloud using Cloud Connectors
- About cloud connectors
- About InfoScale support for cloud connectors
- How InfoScale migrates data using cloud connectors
- Limitations for file-level tiering
- About operations with Amazon Glacier
- Migrating data from on-premise to cloud storage
- Reclaiming object storage space
- Removing a cloud volume
- Examining in-cloud storage usage
- Sample policy file
- Replication support with cloud tiering
- Troubleshooting issues in cloud deployments
DR from on-premises to AWS - Windows
InfoScale Enterprise lets you use the global cluster option (GCO) for DR configurations. You can use a DR configuration to fail over applications from on-premise cluster to AWS.
The following information is required:
VPN tunnel information between regions or VPCs
The Virtual private IP address to be used for cross-cluster communication.
Note:
If you use an Amazon VPN tunnel in a global cluster configuration between an on-premises site and AWS, the cluster nodes in the cloud must be in the same subnet.
The following graphic depicts a sample DR configuration from on-premise cluster to AWS cloud:
The sample configuration includes the following elements:
VPN tunnel between on-premise data center and Region A
The primary site has the following elements:
Cluster nodes in the same subnet
Virtual private IP for cross-cluster communication
The secondary site has the following elements:
A virtual private cloud, VPC, is configured in Region Aof the AWS cloud
The same application is configured for HA on Node 3 and Node 4, which exist in the same subnet
The following snippet is a service group configuration from a sample VCS configuration file (main.cf) for a single node:
include "types.cf"
cluster vvr_aws (
ClusterAddress = "10.239.3.96"
SecureClus = 1
)
remotecluster vvr_cloud (
ClusterAddress = "10.209.57.98"
ConnectTimeout = 30000
SocketTimeout = 30000
)
heartbeat Icmp (
ClusterList = { vvr_cloud }
AYARetryLimit = 10
Arguments @vvr_cloud = { "10.209.57.98" }
)
system WIN-38PNEVJSR2K (
)
group ClusterService (
SystemList = { WIN-38PNEVJSR2K = 0 }
AutoStartList = { WIN-38PNEVJSR2K }
)
AWSIP gcoawsip (
PrivateIP = "10.239.3.96"
Device = 12-7F-CE-5B-E2-6E
)
IP csg_ip (
Address = "10.239.3.96"
SubNetMask = "255.255.254.0"
MACAddress @WIN-38PNEVJSR2K = "12:7F:CE:5B:E2:6E"
)
NIC csg_nic (
MACAddress @WIN-38PNEVJSR2K = "12:7F:CE:5B:E2:6E"
)
Process wac (
StartProgram @WIN-38PNEVJSR2K = "\"C:\\Program Files\\
Veritas\\Cluster Server\\bin\\wac.exe\""
StopProgram @WIN-38PNEVJSR2K = "\"C:\\Program Files\\
Veritas\\Cluster Server\\bin\\wacstop.exe\""
MonitorProgram @WIN-38PNEVJSR2K = "\"C:\\Program Files\\
Veritas\\Cluster Server\\bin\\wacmonitor.exe\""
)
csg_ip requires csg_nic
wac requires gcoawsip
wac requires csg_ip
group fileshare (
SystemList = { WIN-38PNEVJSR2K = 0 }
ClusterList = { vvr_cloud = 1, vvr_aws = 0 }
Authority = 1
ClusterFailOverPolicy = Auto
)
AWSIP vvrawsip (
PrivateIP = "10.239.3.97"
Device @WIN-38PNEVJSR2K = 12-7F-CE-5B-E2-6E
)
FileShare fileshare-FileShare (
PathName = "\\"
ShareName = testshare
LanmanResName = fileshare-Lanman
MountResName = mounvres
UserPermissions = { Everyone = FULL_CONTROL }
)
IP fileshare-IP (
Address = "10.239.3.97"
SubNetMask = "255.255.254.0"
MACAddress @WIN-38PNEVJSR2K = 12-7F-CE-5B-E2-6E
)
Lanman fileshare-Lanman (
VirtualName = FILESHARE-DHAWA
IPResName = fileshare-IP
)
MountV mounvres (
MountPath = "e:"
VolumeName = datavol
VMDGResName = vmnsdg
)
NIC fileshare_NIC (
MACAddress @WIN-38PNEVJSR2K = "12:7F:CE:5B:E2:6E"
)
RVGPrimary rvgprimary_1 (
RvgResourceName = vvrsg-VvrRvg
AutoResync = 1
)
requires group vvrsg online local hard
vvrawsip requires fileshare_NIC
fileshare-FileShare requires mounvres
fileshare-FileShare requires fileshare-Lanman
fileshare-IP requires vvrawsip
fileshare-Lanman requires fileshare-IP
mounvres requires rvgprimary_1
group vvrsg (
SystemList = { WIN-38PNEVJSR2K = 0 }
AutoStartList = { WIN-38PNEVJSR2K }
)
Proxy proxy_ip (
TargetResName = csg_ip
)
Proxy proxy_nic (
TargetResName = csg_nic
)
VMNSDg vmnsdg (
DiskGroupName = vvrdg
DGGuid = 03d725b1-fca3-49b2-b722-38984835e6b0
)
VvrRvg vvrsg-VvrRvg (
RVG = rvg
VMDgResName = vmnsdg
IPResName = proxy_ip
)
vvrsg-VvrRvg requires proxy_nic
vvrsg-VvrRvg requires proxy_ip
vvrsg-VvrRvg requires vmnsdg