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1. White Paper
BUSINESS CONTINUITY AND DISASTER
RECOVERY FOR ORACLE 11g ENABLED BY
EMC SYMMETRIX VMAXe, EMC
RECOVERPOINT, AND VMWARE vCENTER
SITE RECOVERY MANAGER
An Architectural Overview
EMC SOLUTIONS GROUP
Abstract
This white paper describes a data protection and disaster recovery solution for
virtualized Oracle Database 11g OLTP environments, enabled by EMC®
Symmetrix® VMAXe™ with Enginuity™ for VMAXe, EMC RecoverPoint, and
VMware® vCenter™ Site Recovery Manager. It covers both local data protection
and automated failover and failback between remote sites.
July 2011
3. Table of contents
Executive summary ............................................................................................................... 6
Introduction to EMC Symmetrix VMAXe ............................................................................................ 6
Business case .................................................................................................................................. 7
Solution overview ............................................................................................................................ 7
Key results ....................................................................................................................................... 7
Introduction .......................................................................................................................... 8
Purpose ........................................................................................................................................... 8
Scope .............................................................................................................................................. 8
Audience.......................................................................................................................................... 8
Terminology ..................................................................................................................................... 8
Key technology components ................................................................................................ 10
Solution components ..................................................................................................................... 10
Oracle application .......................................................................................................................... 10
EMC Symmetrix VMAXe with Enginuity 5875 .................................................................................. 10
Overview ................................................................................................................................... 10
Virtual Provisioning ................................................................................................................... 11
Symmetrix Management Console .............................................................................................. 11
EMC VNX5700 ................................................................................................................................ 11
VMware vSphere ............................................................................................................................ 11
EMC RecoverPoint .......................................................................................................................... 12
Overview ................................................................................................................................... 12
RecoverPoint data protection options ........................................................................................ 12
RecoverPoint appliance ............................................................................................................. 13
RecoverPoint splitter ................................................................................................................. 13
RecoverPoint journals ................................................................................................................ 13
RecoverPoint consistency groups .............................................................................................. 13
VMware vCenter Site Recovery Manager ......................................................................................... 14
RecoverPoint and SRM integration ................................................................................................. 14
RecoverPoint CDP and CRR – how they work ................................................................................... 15
Continuous data protection ....................................................................................................... 15
Continuous remote replication .................................................................................................. 16
Solution architecture and design ......................................................................................... 17
Solution architecture...................................................................................................................... 17
Environment profile........................................................................................................................ 18
Hardware environment ................................................................................................................... 18
Software environment .................................................................................................................... 19
Symmetrix VMAXe storage allocation ............................................................................................. 20
Business Continuity and Disaster Recovery for Oracle 11g Enabled by EMC Symmetrix 3
VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
4. Virtual machine resources .............................................................................................................. 21
Oracle database configuration............................................................................................. 22
Oracle database deployment on Symmetrix VMAXe ....................................................................... 22
Virtual Provisioning for Oracle ASM disk groups ........................................................................ 22
Database schema .......................................................................................................................... 22
Configuring EMC RecoverPoint ............................................................................................. 24
Preparing the VMAXe for RecoverPoint connectivity ........................................................................ 24
RPA repository and gatekeeper provisioning .............................................................................. 24
Enabling write protect bypass for RPA initiators ......................................................................... 26
RecoverPoint configuration for this solution ................................................................................... 27
Journal size ............................................................................................................................... 27
Installing RecoverPoint................................................................................................................... 28
Configuring CLR .............................................................................................................................. 28
Overview ................................................................................................................................... 28
Step 1: Present the storage to be replicated to the RPA clusters ............................................... 29
Step 2: Tag the protected devices for RecoverPoint use ............................................................ 29
Step 3: Configure RecoverPoint access to the RecoverPoint splitters ......................................... 30
Step 4: Create the consistency group ........................................................................................ 30
Configuring the consistency group for management by SRM .......................................................... 32
Automating site recovery with VMware vCenter Site Recovery Manager ................................. 33
Overview ........................................................................................................................................ 33
Prerequisites .................................................................................................................................. 34
Step 1: Install and configure SRM .................................................................................................. 34
Step 2: Connect the protected and recovery sites ........................................................................... 35
Step 3: Configure RecoverPoint array managers ............................................................................. 35
Step 4: Configure protection groups ............................................................................................... 36
Step 5: Configure inventory mappings............................................................................................ 37
Step 6: Customize virtual machine recovery options ...................................................................... 37
Step 7: Customize recovery site IP addresses ................................................................................. 38
Step 8: Create the recovery plan..................................................................................................... 39
Testing the Oracle Failover recovery plan ............................................................................. 40
Overview ........................................................................................................................................ 40
Testing the recovery plan ............................................................................................................... 40
Verifying the success of the recovery test ....................................................................................... 42
The recovery test report .................................................................................................................. 43
Benefits of testing recovery plans .................................................................................................. 44
RecoverPoint CRR site failover process................................................................................. 45
Business Continuity and Disaster Recovery for Oracle 11g Enabled by EMC Symmetrix 4
VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
5. Overview ........................................................................................................................................ 45
Running the Oracle Failover recovery plan ...................................................................................... 45
Restarting the Oracle database ...................................................................................................... 47
Verifying data integrity at the recovery site ..................................................................................... 47
Benefits of RecoverPoint site failover with SRM .............................................................................. 48
RecoverPoint CRR site failback process ................................................................................ 49
Overview ........................................................................................................................................ 49
Housekeeping ................................................................................................................................ 49
Configuring SRM for failback .......................................................................................................... 50
Testing the failback recovery plan .................................................................................................. 50
Failing back to the production site ................................................................................................. 50
Verifying failback to the production site ......................................................................................... 51
Benefits of RecoverPoint site failback with SRM ............................................................................. 51
RecoverPoint CDP database recovery ................................................................................... 52
Overview ........................................................................................................................................ 52
Preparing the test scenario ............................................................................................................ 52
Recovering the database from the CDP image ................................................................................ 53
Benefits of database protection with RecoverPoint......................................................................... 56
RecoverPoint operation when VMAXe is operating in a degraded mode................................. 57
Overview ........................................................................................................................................ 57
Setting up VMAXe degraded mode ................................................................................................. 57
Testing degraded mode.................................................................................................................. 57
Conclusion ......................................................................................................................... 59
Summary ....................................................................................................................................... 59
Findings ......................................................................................................................................... 59
References .......................................................................................................................... 60
White papers ................................................................................................................................. 60
Product documentation.................................................................................................................. 60
Other documentation ..................................................................................................................... 60
Business Continuity and Disaster Recovery for Oracle 11g Enabled by EMC Symmetrix 5
VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
6. Executive summary
Introduction to EMC® Symmetrix® is the world’s most trusted storage platform and enterprise
EMC Symmetrix customers have been deploying large mission-critical applications with Symmetrix for
VMAXe over 20 years. Symmetrix VMAX™ is the world’s most scalable storage array, with the
richest feature set, best availability, and best performance in the industry.
The Symmetrix VMAXe™ series is a new class of enterprise storage, which delivers an
efficient and cost-effective hardware design combined with built-in software and
simplified installation, configuration, and management. VMAXe bring high-end
storage array capabilities to service providers, healthcare organizations, and others
with demanding virtual computing environments but limited storage expertise and IT
resources.
• The VMAXe employs an implementation of the Symmetrix Virtual Matrix
Architecture™ that is optimized for rapid deployment and easier management.
The system can scale from a single-bay, single-engine configuration to a six-
bay, four-engine system with 960 drives and up to 1.3 PB of usable capacity.
This enables customers to cost-effectively grow and upgrade their system to
accommodate application and data growth.
• The Enginuity™ operating environment—the intelligence that controls all
VMAXe array components—is delivered preconfigured with EMC Virtual
Provisioning™ and EMC Fully Automated Storage Tiering for Virtual Pools (FAST
VP).
The 100 percent virtually provisioned environment improves storage utilization
and reduces costs and administration time.
FAST VP provides automatic and highly granular movement of sub-LUN data
between storage tiers. This optimizes performance and reduces cost, while
radically simplifying management and increasing storage efficiency.
• The VMAXe uses 100 percent internal redundancy to deliver enterprise-class
reliability, availability, and serviceability (RAS).
• EMC RecoverPoint is replication technology that uses sophisticated journaling
techniques and write splitting to provide local and remote replication with DRV-
like recovery to any point in time. The VMAXe has an integrated write splitter to
support RecoverPoint replication.
The VMAXe series is also designed for fast and efficient deployment and includes
features that are particularly useful in small or crowded data centers:
• VMAXe systems are delivered preconfigured, 100 percent virtually provisioned,
and ready for same-day installation and startup.
• With the VMAXe array dispersion capability, bays can be separated up to 10
meters apart, enabling very flexible deployments.
• High storage densities can also be achieved, with a single-rack, single-engine
VMAXe capable of supporting 120 drives.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
7. Business case Enterprise customers of all sizes and across different vertical segments experience
similar challenges—downtime, application and data growth, demanding SLAs, and
budget restraints. Symmetrix VMAXe with Enginuity delivers multi-controller scale-out
architecture, availability, and efficiency to enterprise customers to address these
challenges.
Data protection and disaster recovery are critical to all enterprises and are among the
most important aspects of administration in Oracle database environments. EMC
RecoverPoint is proven technology for high-availability Oracle environments,
providing local and remote replication with no impact in asynchronous environments
and very limited application degradation in synchronous environments:
• RecoverPoint’s journaled replication architecture enables recovery to any point
in time, which reduces the recovery point objectives (RPOs) for Oracle data.
• RecoverPoint maintains transaction-consistent images at the recovery site,
which reduces the recovery time objectives (RTOs).
The integrated RecoverPoint splitter for VMAXe simplifies database replication and
supports operational and disaster recovery of virtualized environments. VMware®
vCenter™ Site Recovery Manager works with RecoverPoint to coordinate and
automate the recovery process, and enables administrators to test their disaster
recovery plans without impacting the production environment or ongoing replication.
Solution overview This solution focuses on disaster recovery between heterogeneous arrays—a
Symmetrix VMAXe and an EMC VNX5700™—enabled by RecoverPoint continuous
remote replication (CRR) and the RecoverPoint splitter. Local point-in-time database
recovery using RecoverPoint continuous data protection (CDP) is also documented.
The solution demonstrates the data protection and disaster recovery capabilities of
these technologies in the context of a virtualized Oracle Database 11g OLTP environment.
The virtualization platform for the solution is enabled by VMware vSphere™ and
VMware vCenter Site Recovery Manager (SRM). Integration of RecoverPoint CRR and
VMWare SRM enables automated failover of the Oracle database from the production
site to the recovery site and ensures that data replicated to the recovery site is
available to the recovery site servers.
Key results The solution offers the following key benefits:
• Simplified replication of Oracle OLTP database environments between
heterogeneous arrays by using the integrated RecoverPoint splitter for VMAXe
and the integrated RecoverPoint splitter for VNX
• Rapid recovery from unplanned disasters by using RecoverPoint in conjunction
with Symmetrix VMAXe and EMC VNX arrays
• Automated failover and failback for planned and unplanned disasters, enabled
by integration of RecoverPoint and VMware vCenter SRM
• Nondisruptive disaster recovery rehearsal using RecoverPoint and VMware
vCenter SRM
• Point-in-time database recovery from bookmarked RecoverPoint images
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
8. Introduction
Purpose This white paper describes a data protection and disaster recovery solution for
virtualized Oracle Database 11g R2 OLTP environments, enabled by RecoverPoint,
Symmetrix VMAXe and VNX RecoverPoint splitters, and VMware vCenter Site Recovery
Manager (SRM).
Scope The scope of this paper is to describe:
• The storage and virtualization infrastructure for the solution
• RecoverPoint and vCenter SRM configuration for automated failover and
failback
• Nondisruptive disaster recovery rehearsal
• Failover to the recovery site
• Failback to the production site
• Local point-in-time recovery of the database
• RecoverPoint operation when VMAXe is operating in a degraded mode
Audience This white paper is intended for Oracle database administrators, storage
administrators, VMware administrators, EMC customers, and field personnel who
want to understand the data protection and disaster recovery capabilities of
Symmetrix VMAXe, RecoverPoint, and SRM in the context of virtualized Oracle OLTP
databases.
Terminology Table 1 defines terms used in this white paper.
Table 1. Terminology
Term Definition
ASM Automatic Storage Management. Oracle logical volume manager.
CDP Continuous data protection (see RecoverPoint data protection options).
CLR Concurrent local and remote replication (see RecoverPoint data protection
options).
CRR Continuous remote replication (see RecoverPoint data protection options).
Data device Virtual Provisioning term for devices (not mapped to the host) that provide
physical storage for thin devices. Data devices must be contained in a
virtual pool before they can be used.
DR Disaster recovery.
Enginuity The operating environment that provides the intelligence that controls all
components in a VMAXe array.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
9. Term Definition
FAST VP Fully Automated Storage Tiering for Virtual Pools. A feature of EMC Enginuity
5875 that provides automatic storage tiering at the sub-LUN level. VP
denotes virtual pools, which are Virtual Provisioning thin pools.
RDM Raw device mapping. A method of presenting a SAN/data device directly to
a virtual machine. An alternative to using VMware VMFS.
RPA RecoverPoint appliance (see RecoverPoint appliance).
RPO Recovery point objective. The maximum acceptable time period between the
last available consistent image and a disaster or failure.
RTO Recovery time objective. The maximum acceptable time to bring a system or
application back to operational state after a failure or disaster.
SMC Symmetrix Management Console. A browser-based interface for managing
EMC Symmetrix storage.
SRM VMware vCenter Site Recovery Manager. An extension to VMware vCenter
that enables integration with array-based replication.
SYMCLI Symmetrix Solutions Enabler command line interface.
Thin device (TDev) A cache-only device that is presented to a host. TDevs are pointers to units
of physical storage contained in Virtual Provisioning thin pools.
vCPU Virtual CPU. A processor within a virtual machine. VMware ESX® 4.1
currently supports up to eight vCPUs per virtual machine.
Virtual pool A Virtual Provisioning thin pool, consisting of a collection of data devices
that provides storage capacity for the thin devices that are bound to the
pool.
VMFS VMware Virtual Machine File System.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
10. Key technology components
Solution This section provides an overview of the key components of the solution, as listed in
components Table 2.
Table 2. Solution components
Function Components
Business application Oracle Database 11g R2 Enterprise Edition, with Oracle
Grid Infrastructure and Oracle ASM
Storage platforms Production site
• EMC Symmetrix VMAXe with Enginuity for VMAXe
• EMC Symmetrix Management Console
Recovery site
• EMC VNX5700
• EMC Unisphere™
Virtualization platform VMware vSphere
VMware vCenter
Replication and recovery EMC RecoverPoint
VMware vCenter Site Recovery Manager
EMC RecoverPoint Storage Replication Adapter for VMware
vCenter Site Recovery Manager
Oracle application The solution is designed to provide local protection and disaster recovery for
consolidated Oracle Database 11g OLTP environments. It demonstrates these
capabilities for a single-instance OLTP database deployed on a VMware ESX virtual
machine.
EMC Symmetrix Overview
VMAXe with The solution demonstrates the local protection and disaster recovery capabilities of
Enginuity 5875 Symmetrix VMAXe with Enginuity 5875, which provides the storage platform at the
production site.
The Symmetrix VMAXe system is built on the highly scalable EMC Virtual Matrix
Architecture, which enables it to grow seamlessly and cost-effectively from an entry-
level, single-bay and single-engine configuration to a six-bay, four-engine system with
384 GB of cache memory, 960 drives, and up to 1.3 PB of usable capacity.
Built with simplicity and ease-of-use in mind, the VMAXe is 100 percent virtually
provisioned, with storage tiering managed automatically by EMC Fully Automated
Storage Tiering for Virtual Pools (FAST VP). Flash, FC, and SATA drives are all
supported, as well as RAID 1, 5, and 6 protection options.
VMAXe systems are delivered preconfigured, ready for same-day installation and
startup. They support all EMC Symmetrix monitoring and management tools,
including the latest enhanced Symmetrix Management Console, which provides
simpler installation and management with smart wizards.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
11. The integrated RecoverPoint splitter for VMAXe enables local and/or remote
replication for flexible and efficient RPOs and RTOs.
Virtual Provisioning
EMC Virtual Provisioning simplifies storage configuration and management, improves
capacity utilization, and enhances performance by enabling the creation of thin
devices that present applications with more capacity than is physically allocated in
the storage array.
The physical storage used to supply disk space to the thin devices comes from a thin
pool, which is comprised of data devices that provide the actual physical storage. The
thin pools can be grown or shrunk nondisruptively by adding or removing data
devices. Virtual Provisioning supports local and remote replication with RecoverPoint
on VMAXe.
Virtual Provisioning is described in detail in the EMC Solutions Enabler Symmetrix
Array Controls CLI Version 7.3 Product Guide.
Symmetrix Management Console
The Symmetrix Management Console (SMC) is a powerful, browser-based interface
that simplifies management of EMC Symmetrix storage, from device creation to
advanced Symmetrix features such as FAST VP, Virtual Provisioning, Auto-
provisioning Groups, replication configuration, and monitoring.
EMC VNX5700 For the solution, storage at the recovery site is provided by an EMC VNX5700 storage
array, demonstrating RecoverPoint support for heterogeneous storage platforms.
The VNX5700 is a member of the VNX series next-generation storage platform,
powered by Intel quad-core Xeon 5600 series processors. It is designed to deliver
maximum performance and scalability for midtier enterprises, enabling them to grow,
share, and cost-effectively manage multiprotocol file and block systems. VNX arrays
incorporate the RecoverPoint splitter, which supports unified file and block
replication for local data protection and disaster recovery.
EMC Unisphere is the central management platform for the EMC VNX series, providing
a single combined view of file and block systems, with all features and functions
available through a common interface. Unisphere is optimized for virtual applications
and provides industry-leading VMware integration, automatically discovering virtual
machines and ESX servers and providing end-to-end, virtual-to-physical mapping.
VMware vSphere VMware vSphere provides the virtualization platform for the solution, with VMware
ESX virtual machines hosting the database and management systems at both the
production and recovery sites.
VMware vSphere abstracts applications and information from the complexity of
underlying infrastructure, through comprehensive virtualization of server, storage, and
networking hardware. It is the industry’s most complete and robust virtualization
platform, virtualizing business-critical applications with dynamic resource pools for
unprecedented flexibility and reliability.
VMware vCenter provides the centralized management platform for vSphere
environments, enabling control and visibility at every level of the virtual infrastructure,
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
12. including integration with RecoverPoint to enable discovery of the protection status for
virtual machines in the environment.
EMC RecoverPoint Overview
RecoverPoint is an advanced enterprise-class disaster recovery solution designed
with the performance, reliability, and flexibility required for enterprise applications in
heterogeneous storage and server environments. It provides bi-directional local and
remote data replication, without distance limits and with minimal performance
degradation.
EMC RecoverPoint/EX is a product variant that is optimized for the EMC VMAXe and
VNX series and the CLARiiON® CX3 and CX4 series of storage arrays. EMC
RecoverPoint/EX is the product used in this solution.
RecoverPoint data protection options
RecoverPoint provides the following replication options for both physical and VMware
virtualized environments:
Figure 1. RecoverPoint replication options
• Continuous data protection (CDP): CDP continuously captures and stores data
modifications locally, enabling local recovery from any point in time, with no
data loss. Both synchronous and asynchronous replication are supported.
• Continuous remote replication (CRR): CRR supports synchronous and
asynchronous replication between remote sites over FC and a WAN.
Synchronous replication is supported when the remote sites are connected
through FC and provides a zero RPO. Asynchronous replication provides crash-
consistent protection and recovery to specific points in time, with a small RPO.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
13. • Concurrent local and remote replication (CLR): CLR is a combination of CRR and
CDP and provides concurrent local and remote data protection.
In RecoverPoint, CDP is normally used for operational recovery, while CRR is normally
used for disaster recovery—the solution demonstrates a RecoverPoint CLR
configuration.
RecoverPoint appliance
RecoverPoint is appliance-based, which enables it to better support large amounts of
information stored across heterogeneous environments. This out-of-band approach
enables RecoverPoint to deliver continuous replication with minimal impact to an
application’s I/O operations.
RecoverPoint appliances (RPAs) run the RecoverPoint software and manage all
aspects of data replication. For local replication, a cluster configuration of two or
more active RPAs is deployed—this supports immediate switchover to another
appliance if one of the RPA nodes in a cluster goes down. For remote replication, a
RecoverPoint cluster is deployed at both sites.
RPAs use powerful deduplication, compression, and bandwidth reduction
technologies to minimize the use of bandwidth and dramatically reduce the time lag
between writing data to storage at the source and target sites.
RecoverPoint splitter
RecoverPoint uses lightweight write splitting technology, on the application server, in
the fabric, or in the array, to mirror application writes to the RecoverPoint cluster.
VMAXe and VNX arrays have integrated RecoverPoint splitters that operate in each
front-end adapter (FA)—this ensures that the RPA receives a copy of each write.
The array-based splitter is the most effective write splitter for VMware replication,
enabling replication of VMFS and RDM volumes without the cost or complexity of
additional hardware. The splitter supports both FC and iSCSI volumes presented by
the VMAXe or VNX arrays to any host, including to an ESX server.
RecoverPoint journals
RecoverPoint journals store timestamped application writes for later recovery to
selected points in time. Three journals are provisioned for local and remote
replication—one production journal at the production site, and a history journal at
both the production and recovery sites.
For synchronous replication, every write is retained in the history journal for recovery
to any point in time. For asynchronous replication, several writes are grouped before
delivery to the history journal—this supports recovery to significant points in time.
Bookmarked points-in-time can be created automatically or manually to enable
recovery to specific application or system events.
RecoverPoint consistency groups
The consistency and write-order fidelity of point-in-time images are assured by
RecoverPoint’s use of replication sets and consistency groups. A replication set
defines an association between a production volume and the local and/or remote
volumes to which it is replicating. A consistency group logically groups replication
sets that must be consistent with one another. The consistency group ensures that
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
14. updates to the production volumes are written to the replicas in consistent write
order and that the replicas can always be used to continue working from or to restore
the production source.
RecoverPoint replication is policy-driven. A replication policy, based on a particular
business need, can be uniquely specified for each consistency group. This policy
governs the replication parameters for the consistency group—for example, the RPO
and RTO for the consistency group, and its deduplication, data compression, and
bandwidth reduction settings.
VMware vCenter VMware vCenter Site Recovery Manager (SRM) is a disaster recovery framework that
Site Recovery integrates with EMC RecoverPoint to automate recovery of VMware datastores so that
Manager it becomes as simple as pressing a single button.
SRM is an extension to VMware vCenter that enables integration with array-based
replication, discovery and management of replicated datastores, and automated
migration of inventory from one vCenter to another. SRM does not replicate any data.
For this, it leverages an external replication solution such as RecoverPoint. SRM
servers coordinate the operations of the replicated storage arrays and vCenter servers
at the production and recovery sites so that, as virtual machines at the production
site are shut down, virtual machines at the recovery site start up and assume
responsibility for providing the same services, using the data replicated from the
production site.
Migration of protected inventory and services from one site to the other is controlled
by a recovery plan that specifies the order in which virtual machines are shut down
and started up, the compute resources that are allocated, and the networks they can
access. SRM integrated with RecoverPoint also enables recovery plans to be tested,
using a temporary copy of the replicated data, in a way that does not disrupt ongoing
operations at either site.
RecoverPoint and Integration of SRM with RecoverPoint is provided by the EMC RecoverPoint Storage
SRM integration Replication Adapter (SRA) for VMware vCenter Site Recovery Manager. The
RecoverPoint SRA supports discovery of arrays attached to RecoverPoint and of
consistency groups that are enabled for management by SRM. It also supports SRM
functions such as failover and failover testing by mapping SRM recovery plans to the
appropriate RecoverPoint actions.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
15. RecoverPoint CDP Continuous data protection
and CRR – how Local protection of the production environment is performed by RecoverPoint
they work continuous data protection (CDP), using the integrated RecoverPoint splitter. Figure 2
illustrates the flow of a write in CDP.
Figure 2. RecoverPoint CDP data flow
1. The application server issues a write to a LUN that is being protected by
RecoverPoint. The write is intercepted by the RecoverPoint splitter.
2. The splitter “splits” the write and sends it to the production volume and to
the RPA simultaneously.
3. When the write is received by the RPA, it is acknowledged back to the splitter.
4. In parallel, the RPA moves the data into the local journal volume, along with a
timestamp and any application, event, or user-generated bookmarks for the
write.
5. After the data is safely stored in the journal, it is distributed to the target local
volumes through the RPA FC connections—write order is preserved during
distribution.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
16. Continuous remote replication
Replication of the production environment to the recovery environment is performed
by RecoverPoint continuous remote replication (CRR) using the RecoverPoint splitter.
Figure 3 illustrates the flow of a write in CRR.
Figure 3. RecoverPoint CRR data flow
1. The application server issues a write to a LUN that is being protected by
RecoverPoint. The write is intercepted by the RecoverPoint splitter.
2. The splitter “splits” the write and sends it to the production volume and to
the local RPA simultaneously, the same as in a CDP deployment.
3. When the RPA receives the write, it immediately acknowledges it back to the
splitter, unless synchronous remote replication is in effect. With synchronous
replication, the ACK is delayed until the write has been received by the RPA at
the remote site.
4. When the write is received by the local RPA, it is bundled with other writes,
deduplicated to remove redundant blocks, sequenced, and timestamped. The
package is then compressed and transmitted with a checksum for delivery to
the remote RPA cluster.
5. When the package is received at the remote site, the remote RPA verifies the
checksum, to ensure the package was not corrupted in transmission, and
uncompresses the data.
6. The RPA then writes the data to the journal volume at the remote site.
7. After the data has been written to the journal volume, it is distributed to the
remote replica volumes through the RPA FC connections—write order is
preserved during this distribution.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
17. Solution architecture and design
Solution EMC solutions are designed to reflect and validate real-world deployments. Figure 4
architecture depicts the physical architecture of the solution described in this white paper.
Figure 4. Solution architecture
The solution demonstrates the local protection and disaster recovery capabilities of
the EMC Symmetrix VMAXe with Enginuity, which provides the storage platform at the
production site. Storage at the recovery site is provided by an EMC VNX5700 array,
demonstrating RecoverPoint support for heterogeneous storage platforms. VMware
vSphere provides the virtualization platform for the solution.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
18. Environment Table 3 details the environment profile for the solution.
profile
Table 3. Solution profile
Profile characteristic Details
Database type OLTP
Database size 500 GB
Number of databases 1
Workload profile Swingbench Order Entry (TPC-C-like) workload
Database read/write ratio 60/40
Network connectivity FC 8 Gb and 10 GbE
Hardware Table 4 details the hardware environment for the solution.
environment
Table 4. Solution hardware environment
Purpose Quantity Configuration
Storage 1 EMC Symmetrix VMAXe with:
(production site) • Single engine
• 96 GB cache memory
• 88 x 450 GB, 15k FC drives, plus spare
• 16 x 2000 GB SATA drives, plus spare
• 4 x 200 GB Flash drives, plus spare
• Enginuity for VMAXe 5875 2011Q2SR
Storage 1 EMC VNX5700 with:
(recovery site) • 8 Gb FC connectivity
• 1 Gb network connectivity
• 15 x 200 GB SATA Flash
• 15 x 300 GB SAS drives
• 45 x 2 TB NL-SAS drives
• 2 x Data Movers
• 8 x GbE NICs
• 1 x Control Station
• VNX Operating Environment
VMware ESX servers 2 • 2 x quad-core Xeon 5560 CPUs, 2.80 GHz,
98 GB RAM
• 2 x 10 GB CNA adapters
Network switches 2 Gigabit Ethernet switches
FC switches 4 8 GB/s FC switches, 2 per site
RecoverPoint appliances 4 GEN 4, 2 RPAs per site
Host adapters 4 10 GB CNA adapter (2 per physical server)
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
19. Software Table 5 details the software environment for the solution.
environment
Table 5. Solution software environment
Software Version Purpose
EMC Symmetrix Management 7.3 Symmetrix VMAXe configuration and
Console management tool
EMC Unisphere 1.1 VNX management software
EMC Solutions Enabler 7.3 Symmetrix VMAXe management
software
EMC RecoverPoint 3.4.1 EMC replication software, installed
on each of the 4 RPAs
EMC RecoverPoint Adapter for 4.1.1 EMC software for integrating
VMware vCenter Site Recovery RecoverPoint and SRM
Manager
VMware vSphere 4.1 GA B260247 Hypervisor hosting all virtual
machines
VMware vCenter 4.1 GA B259021 Management of VMware vSphere
VMware vCenter Site Recovery 4.1.1 Managing failover and failback of
Manager virtual machines
Oracle Database 11g R2 Enterprise Oracle database software for grid
Edition 11.2.0.2 computing
Red Hat Enterprise Linux 5.5 Server OS for Oracle database
server
Microsoft Windows Server 2008 R2 x64 Server OS for Swingbench load
generator
Swingbench 2.4.0.723 Database workload generation tool
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
20. Symmetrix VMAXe The Symmetrix VMAXe array is factory-configured, based on information provided by
storage allocation the customer at the time of ordering. Storage pools are preconfigured based on the
protection schemes requested by the customer.
To provision storage to the ESX hosts, simply run the Add New Host And Provision
Virtual Storage wizard from the SMC dashboard. This guides you through the steps
involved, as shown in Figure 5.
Figure 5. Add New Host and Provision Virtual Storage wizard
Table 6 details the VMFS volumes provisioned for the solution from the Symmetrix
VMAXe array. All these volumes were replicated with RecoverPoint.
Table 6. Symmetrix VMAXe storage allocation
VMFS volume Capacity Meta members Thin pools
OracleVM_DataStore 100 GB 1 VM_ FC_3R5
DATA 800 GB 16 FC_3R5
REDO 100 GB 2 FC_3R5
TMP 200 GB 4 FC_3R5
FRA 1,440 GB 8 SATA_6R6
Oracle_Binaries 20 GB 1 FC_3R5
Note: Volumes replicated with RecoverPoint require a target volume of the same size on the
local array and remote array.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
21. Virtual machine Table 7 details the virtual allocation of hardware resources for the virtual machines at
resources the production site.
Table 7. Virtual allocation of hardware resources for virtual machines
Virtual machine role Quantity Configuration
Oracle database node 1 6 vCPUs, 24 GB RAM, RHEL 5.5
VMware vCenter/SRM 1 2 vCPUs, 8 GB RAM, Windows Server 2008 R2 x64
server*
EMC SMC/SPA server* 1 2 vCPUs, 4 GB RAM, Windows Server 2008 R2 x64
Swingbench server* 1 4 vCPUs, 8 GB RAM, Windows Server 2008 R2 x64
Application server 1 1 vCPU, 8 GB RAM, Windows Server 2008 R2 x64
* These virtual machines reside on an existing ESX server used only for management
purposes.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
22. Oracle database configuration
Oracle database Virtual Provisioning for Oracle ASM disk groups
deployment on The Oracle database for the solution has separate ASM disk groups for data files,
Symmetrix VMAXe redo logs, fast recovery area (FRA), and temp files. Separate VMFS volumes are
presented to the virtual machines on dedicated datastores for each ASM disk group.
The +DATA, +TEMP, and +REDO ASM disk groups are deployed on thin provisioned
devices bound to a virtual pool composed of FC devices with RAID 5 (3+1) protection.
This pool provides the high performance required by these devices.
The thin device provisioned for the +REDO logs was fully provisioned at the time of
deployment— that is, all physical storage was assigned up front. The VMFS datastore
for the +REDO log file was also provisioned to request all storage from the outset.
The +FRA device is bound to a virtual pool composed of high-capacity SATA devices
with RAID 6 (6+2) protection. FRA devices typically do not have the same high-
performance demands as data files and redo logs, so SATA devices provide an
efficient deployment for this data.
Figure 6 shows the relationships from the ASM disk groups through to the thin pools.
+DATA +REDO +TMP +FRA ASM disk group
Oracle_DATA Oracle_REDO Oracle_TMP Oracle_FRA VMFS datastore
Thin device (TDEV)
Thin pool
FC Pool RAID5(3+1) SATA Pool RAID6 (6+2)
Figure 6. Relationship between ASM disk groups and storage pools
Database schema A single instance of the Swingbench Order Entry PL/SQL (SOE) schema was used to
deliver the OLTP workloads required by the solution. The Swingbench SOE schema
models a traditional OLTP database, with tables and indexes residing in separate
tablespaces.
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VMAXe, EMC RecoverPoint, and VMware vCenter Site Recovery Manager
An Architectural Overview
23. The schema for the solution contains the tables and indexes listed in Table 8.
Table 8. Schema tables and indexes
Table name Index
CUSTOMERS CUSTOMERS_PK (UNIQUE),
CUST_ACCOUNT_MANAGER_IX, CUST_EMAIL_IX,
CUST_LNAME_IX, CUST_UPPER_NAME_IX
INVENTORIES INVENTORY_PK (UNIQUE), INV_PRODUCT_IX,
INV_WAREHOUSE_IX
ORDERS ORDER_PK (UNIQUE), ORD_CUSTOMER_IX,
ORD_ORDER_DATE_IX, ORD_SALES_REP_IX,
ORD_STATUS_IX
ORDER_ITEMS ORDER_ITEMS_PK (UNIQUE), ITEM_ORDER_IX,
ITEM_PRODUCT_IX
PRODUCT_DESCRIPTIONS PRD_DESC_PK (UNIQUE), PROD_NAME_IX
PRODUCT_INFORMATION PRODUCT_INFORMATION_PK (UNIQUE),
PROD_SUPPLIER_IX
WAREHOUSES WAREHOUSES_PK (UNIQUE)
LOGON
To verify the virtual database environment, the Swingbench Order Entry workload was
run against the database, with a user count of 100, as shown in Figure 7.
Figure 7. Swingbench workload running against the database
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24. Configuring EMC RecoverPoint
Preparing the RPA repository and gatekeeper provisioning
VMAXe for Configuring the RecoverPoint splitter on the Symmetrix VMAXe array requires
RecoverPoint provisioning of the following volumes:
connectivity
• A repository volume (3 GB minimum) for the RPA cluster.
This stores configuration information about the RPAs and RecoverPoint
consistency groups, which enables a properly functioning RPA to seamlessly
assume the replication activities of a failing RPA from the same cluster.
A repository volume of the same size was also provisioned on the VNX5700 for
the RPA cluster at the recovery site.
• Eight unique gatekeeper volumes each for RPA1 and RPA2.
These volumes are provisioned by creating Auto-provisioning masking views that
present the volumes to the RPAs. For the solution, three masking views were created
for the RecoverPoint cluster, as it consists of two RPAs (RPA1 and RPA2):
• RecoverpointConfig – this presents the repository volume, the journal volumes,
and the replica volumes to all nodes in the RPA cluster
• RPA1_GK – this presents the relevant gatekeepers to RPA1
• RPA2_GK – this presents the relevant gatekeepers to RPA2
Figure 8 shows creation of the RecoverpointConfig masking view using the Masking
View Management – Create dialog box in Symmetrix Management Console.
For further information on Auto-provisioning masking views, consult Deploying
RecoverPoint with Symmetrix—Technical Notes.
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25. Figure 8. Configuring masking views for a RecoverPoint cluster
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26. Enabling write protect bypass for RPA initiators
The RecoverPoint splitter for VMAXe requires the RPA initiators to have special access
that enables them to write to write-protected devices. To grant this access, the write
protect bypass initiator flag—WP_Bypass(WPBP)—must be set for all RPA initiators.
Figure 9 shows the SMC procedure for doing this.
1
2
3
1. Choose Enable Recover Point
command for initiator group.
2. SMC confirms initiator group
enabled for RecoverPoint.
3. Initiator properties show
WPBP flag enabled.
Figure 9. Enabling write protect bypass for RPAs
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27. RecoverPoint RecoverPoint was configured as follows for the solution:
configuration for
• CLR was the replication method used for the solution. This combines both CDP
this solution
and CRR.
• Two consistency groups were created:
Oracle_SRM—this encompasses all the replication sets for the Oracle
database, Oracle binaries, and the datastore containing the running
operating system for the virtual machine that hosts the Oracle software.
App_SRM—this contains the replication sets for the datastore containing
the Swingbench and application server virtual machines (see Table 7).
By separating replicated virtual machines into multiple consistency groups,
it was possible to plan for different disaster recovery scenarios. For
example, the Oracle environment could be failed over separately from the
other virtual machines, or the entire production environment could be
failed over as a single process.
• For each consistency group, three journals were set up, two at the production
site to support the production volumes and their local replicas, and one at the
recovery site to support the remote replica. All journals on the VMAXe were
bound to the FC_3R5 pool.
For further details on configuring RecoverPoint, consult the EMC RecoverPoint Release
3.4.1 Administrator’s Guide.
Journal size
The size of the journal volumes should reflect your RPO. Determining the journal size
requires administrators to calculate the expected peak change rate in their
environment.
(new data writes per second) x (required rollback time in seconds)
The following is the Journal Volume Sizing formula:
Journal size = x 1.05
(1 − target side log size)
Twenty percent of the journal must be reserved for the target side log and 5 percent
for internal system needs.
For example, to support a 24-hour rollback requirement (86,400 seconds), with 5
Mb/s of new data writes to the replication volumes in a consistency group, the
(5 x 86400)
calculation would be as follows:
x 1.05 = 567000 Mb = 69.213 GB (~70 GB)
(1 − 0.2)
For the solution, all journals were sized to 500 GB. With a change rate of 5 Mb/s, this
enables RecoverPoint to roll back at least seven days. It may be possible to increase
the recover point by bookmark consolidation and journal compression.
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28. Installing The RecoverPoint Installer Wizard, which is part of the RecoverPoint Distribution
RecoverPoint Manager, guides you through the procedures for installing RecoverPoint and setting
up the RPA clusters at the production and recovery sites. Before running the wizard, it
is essential that the steps described in Preparing the VMAXe for RecoverPoint
connectivity have been completed, as the wizard prompts you to identify the
repository volumes created then.
Figure 10 shows the Prerequisites screen from
the wizard, listing the conditions that must be
met before using the wizard. It also shows the
Summary screen, which lists the tasks
completed during installation.
Figure 10. RecoverPoint Installer Wizard
Configuring CLR Overview
When RecoverPoint installation has successfully completed, you can configure the
RecoverPoint consistency group(s) required for local and remote replication of your
application data. To do this, perform the following steps for each consistency group:
1. Present the storage to be replicated to the RPA clusters at both sites.
2. Tag all VMAXe devices that are to be protected by RecoverPoint.
3. Configure RecoverPoint access to the RecoverPoint splitters on the VMAXe
and VNX arrays.
4. Create the RecoverPoint consistency group.
This section describes the configuration process for the solution’s Oracle_SRM
consistency group.
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29. Step 1: Present the storage to be replicated to the RPA clusters
Local array
The application production devices that are to be protected by RecoverPoint must be
presented to the RPA cluster. To do this:
1. Launch Symmetrix Management Console for the local array.
2. Open the initiator group for the existing auto-provisioning view that contains
the devices to be protected.
3. Add the RPA initiator groups for all RPAs, as shown in Figure 11.
Figure 11. Adding RPA initiator groups
Remote array
The remote journal and the target devices for the CRR copy must be presented to the
remote RPA cluster. How this is accomplished depends on the target array type. The
target array for the solution is a VNX5700. In this case, a storage group containing the
journal and target devices was set up and presented to the remote RPAs. A second
storage group was created and presented to the ESX host at the remote site to
provide access to the replica storage.
For more detailed information on configuring VNX storage for replication with
RecoverPoint, consult EMC RecoverPoint Deploying with VNX/CLARiiON Arrays and
Splitter—Technical Notes.
Step 2: Tag the protected devices for RecoverPoint use
In RecoverPoint splitter for VMAXe configurations, it is necessary to tag devices for
RecoverPoint use. This makes the devices accessible to the splitter and also makes it
easy to identify which VMAXe volumes have been set up for RecoverPoint use.
Figure 12 shows the Symmetrix Management Console procedure for tagging the
devices in the storage group for the ESX server. Use the same procedure to tag the
replica volumes in the RecoverpointConfig storage group.
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30. Figure 12. Tagging devices for RecoverPoint use
Note: You must repeat this step whenever you add devices to the configuration, if
they are to be protected by RecoverPoint.
Step 3: Configure RecoverPoint access to the RecoverPoint splitters
To configure RecoverPoint access to the RecoverPoint splitters on the VMAXe and VNX
arrays, use the New Splitter Wizard, as shown in Figure 13.
Figure 13. Adding new splitters
Step 4: Create the consistency group
Creating a consistency groups involves:
1. Defining the replication policy settings for the consistency group, the
production copy (that is, the data to be protected), and the local and remote
replica copies.
2. Adding replication sets to the consistency group by selecting the production
volumes to be replicated and assigning the corresponding replica volumes at
the local and/or remote copies.
3. Selecting the journal volumes for the production and replica journals.
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31. The New Consistency Group Wizard, in the RecoverPoint Management Application,
guides you through the required steps, as shown in Figure 14. The replication policy
settings are all optional as the default settings provide a practical configuration.
Figure 14. New Consistency Group Wizard steps
The consistency groups for the solution were created with the wizard and the default
values were accepted for all optional settings.
Figure 15 shows the final summary screen for the Oracle_SRM consistency group,
which was configured with a local copy (Oracle_CDP) and a remote copy (Oracle_CRR)
to support both local data protection and remote replication. The summary screen
includes the replication sets defined for the consistency group.
Figure 15. Summary of consistency group settings
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32. Configuring the After the consistency group has been created and SRM has been installed, you need
consistency group to configure the consistency group for management by SRM. You do this by using the
for management by Policy settings in the RecoverPoint Management Application, as shown in Figure 16.
SRM
consistency group
policy settings
Figure 16. Configuring the consistency group for management by SRM
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33. Automating site recovery with VMware vCenter Site Recovery Manager
Overview Installing and configuring VMware vCenter Site Recovery Manager (SRM) for
automated site recovery using RecoverPoint involves these steps:
1. Install and configure SRM.
2. Configure the connection between the protected and recovery sites.
3. Configure RecoverPoint array managers.
4. Configure protection groups.
5. Configure inventory mappings.
6. Customize virtual machine recovery options.
7. Customize recovery site IP addresses.
8. Create the recovery plan.
Most of these steps are executed from the SRM interface in vCenter, where intelligent
wizards support quick and easy configuration. For full details of these steps, consult
the VMware vCenter Site Recovery Manager Administration Guide 4.1.
It is possible to create multiple recovery plans to cater for many different recovery
scenarios. In the example shown in Figure 17, three recovery plans have been
created—one to fail over the entire environment, and the other two to fail over the
application and database layers independently.
Figure 17. Multiple recovery plans
All these recovery plans were successfully executed as part of the solution testing. For
the purpose of demonstrating the failover process using SRM and RecoverPoint, this
white paper documents failover and failback of the entire production environment.
This section describes how SRM was configured for failover from the production site
to the recovery site. The RecoverPoint CRR site failback process section describes
how SRM was configured for failback from the recovery site to the production site.
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34. Prerequisites SRM has several requirements for the vSphere configuration at each site:
• Each site must include a vCenter server containing at least one vSphere data
center.
• The recovery site must support array‐based replication with the protected
(production) site, and must have hardware and network resources that can
support the same virtual machines and workloads as the protected site.
• At least one virtual machine must be located on a datastore that is replicated
by RecoverPoint at the protected site.
• The protected and recovery sites must be connected by a reliable IP network.
Storage arrays may have additional network requirements.
• The recovery site must have access to the same public and private networks as
the protected site, though not necessarily access to the same range of network
addresses.
• VMware tools must be installed on all virtual machines.
Step 1: Install and Installing and configuring SRM includes the following tasks:
configure SRM
1. Configure SRM databases at both sites—these store the recovery plans,
inventory information, and so on.
2. Install the SRM server at both sites.
3. Install the RecoverPoint Storage Replication Adapter on the SRM server at
both sites—this enables SRM and RecoverPoint integration.
4. Install the SRM client plug-in into one or more vSphere Clients at either or
both sites.
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35. Step 2: Connect With the SRM database and SRM server installed at each site, you then need to
the protected and configure the connection from the protected site to the recovery site. You do this by
recovery sites specifying the remote SRM server IP details in the Connect to Remote Site wizard at
the protected site, as shown in Figure 18.
1
2
3
Figure 18. Connecting the SRM and vCenter servers at the protected and recovery
sites
Step 3: Configure For SRM to integrate with RecoverPoint, RecoverPoint array managers must be
RecoverPoint array configured at both the protected and recovery sites. You do this by using the SRM
managers Configure Array Managers wizard.
The wizard discovers the replicated storage devices at the protected and recovery
sites, and identifies the VMFS datastores that they support. When finished, it
presents a list of replicated datastore groups.
Figure 19 shows the wizard in progress, with RecoverPoint specified as the manager
type and Production as the protected site. The connection information for
RecoverPoint at the protected site is also specified.
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36. Figure 19. Configuring the RecoverPoint array managers
Step 4: Configure A protection group is a collection of virtual machines that all use the same datastore
protection groups group (the same set of replicated LUNs) and that all fail over together.
To create a protection group, you select the datastore group(s) to protect, and specify
a datastore group at the recovery site where SRM can create placeholders for
members of the protection group. You use the Create Protection Group wizard to do
this. The wizard automatically detects the datastores currently protected by
RecoverPoint and allows you to select the one(s) to include in the protection group.
Two protection groups were created for the use case—one for the Oracle_SRM
consistency group and the other for the App_SRM consistency group. Figure 20 shows
the Oracle protection group being created.
Datastore group selected for
inclusion in protection group
Virtual machines supported by
selected datastore group
Figure 20. Creating a protection group
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37. When a protection group has been created, shadow virtual machines are
automatically created in the recovery site vCenter inventory. These act as
placeholders for the virtual machines that can be failed over with SRM. The shadow
virtual machines cannot be started independently of SRM and are removed if their
protection group is deleted.
Step 5: Configure Network, compute, and virtual machine folder resources must be configured at the
inventory recovery site in order for SRM to know which resources to use in the event of failover.
mappings
The Inventory Mappings screen lists the resources at the protected site and allows
you to select the corresponding resources to use at the recovery site. Figure 21 shows
the inventory mappings configured for the solution.
Figure 21. Creating inventory mappings
Note: For ease of management, it is useful to group protected virtual machines into
a folder. For the solution, the protected virtual machines were grouped in the
SRM Protected VMs folder.
Step 6: Customize After the protection groups have been created, the recovery options for individual
virtual machine virtual machines can be customized to suit specific requirements. The customization
recovery options options available provide a powerful tool for ensuring that complex recovery plans
are implemented with ease.
For example, if there are multiple virtual machines in a protection group, their startup
sequence can be customized by assigning them different recovery priorities. In an
Oracle database environment, this means that a recovery plan can be configured to
boot the database virtual machines before the application server virtual machines.
For the solution, the Alicanto-PV1 virtual machine was assigned a recovery priority of
High, as shown in Figure 22. This machine would be recovered first, before the
Swingbench virtual machine (Normal priority), and the AppServer virtual machine
(Low priority).
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38. Figure 22. Modifying the startup priority of a virtual machine
Step 7: Customize When failing over to a different data center, typically some adjustments are required
recovery site IP to host IP settings due to infrastructure differences. When failing over an entire
addresses configuration, this can involve updating settings for multiple virtual machines.
SRM provides a bulk IP customization utility (dr-ip-customizer.exe) for automatically
updating IP settings for recovered virtual machines. The utility generates a CSV file
containing the IP settings for all the virtual machines that are configured for SRM
failover. You can edit this file to specify the recovery site IP settings and then run the
utility again to upload the new settings to the recovery site vCenter server.
For the solution, the utility was used as follows to update the recovery site IP settings:
1. Log on to the vCenter server at the recovery site.
2. Run the dr-ip-customizer.exe utility, specifying the name and location for the
CSV file, as shown in Figure 23.
Figure 23. Running the IP utility to generate a CSV file
3. Edit the CSV file to provide the IP settings for the virtual machines at the
recovery site. Figure 24 shows the edited file for the solution.
Figure 24. CSV file edited for recovery site IP settings
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39. 4. Run the utility to upload the new settings to the recovery site vCenter server,
as shown in Figure 25.
Figure 25. Uploading the IP settings for the recovery site
Note: If you delete or re-create a protection group, you must repeat this process to
reapply the IP customizations.
Step 8: Create the A recovery plan determines the automated steps that SRM executes when starting up
recovery plan a protected environment at the remote site. All recovery plans include a set of
prescribed steps that are executed in a prescribed order. Any customizations you
have configured prior to creating the recovery plan, such as recovery priority and IP
settings, are also implemented.
To create a plan, you run the Create Recovery Plan wizard at the recovery site and
simply specify the recovery plan name and the protection group to be recovered.
Figure 26 shows the Oracle Failover recovery plan being created for the solution. This
recovery plan fails over the entire production environment to the recovery site.
Figure 26. Creating a recovery plan
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40. Testing the Oracle Failover recovery plan
Overview An SRM recovery plan can be tested at any time without disrupting replication or
ongoing operations at the protected site.
The test is carried out in an isolated environment at the recovery site, using a
temporary copy of the replicated data. It runs all the steps in the recovery plan except
powering down of virtual machines at the protected site and assumption of control of
replicated data by devices at the recovery site. If the plan requests suspension of
local virtual machines at the recovery site, this happens during test recovery as well.
This facility enables you to rehearse your recovery plans thoroughly and easily in
order to verify their timings and reliability.
This section describes a test recovery of the Oracle Failover recovery plan. The
Automating site recovery with VMware vCenter Site Recovery Manager section of the
white paper describes how this recovery plan was created.
Testing the First of all, 4,000 records were added to the production database. A script was then
recovery plan run to output the record count and the timestamp of the last entry, as shown in Figure
27. This information was later used to verify the success of the test recovery.
Figure 27. Production site record count and timestamp
The test was then initiated simply by selecting the Oracle Failover recovery plan in
SRM and clicking the Test button, as shown in Figure 28.
Figure 28. Starting the recovery test
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41. When running a test plan, SRM creates an isolated TEST network on the recovery site
and enables image access on the RecoverPoint consistency group. It also starts up
the virtual machines replicated by RecoverPoint and performs any reconfiguration
needed to access the disks on the remote array.
Figure 29 shows the recovery steps performed during testing of the Oracle Failover
recovery plan. SRM first created an SRM bookmark and enabled image access on the
CRR copy. It then recovered the high-priority Alicanto-PV1 virtual machine, followed
by the normal-priority Swingbench virtual machine, and then the low-priority
AppServer virtual machine. The virtual machines at the production site were not shut
down as part of the test process.
Create SRM bookmark and enable
image access on CRR copy
Recover High priority VM
Recover Normal priority VM
Recover Low priority VM
Figure 29. Test recovery steps
At this stage, the environment is available on the remote site and administrators can
verify application functionality in the secure environment created as part of the test.
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42. Verifying the For the Oracle Failover recovery test, the status view in the RecoverPoint Management
success of the Application verified that RecoverPoint image access was enabled, as shown in Figure
recovery test 30.
} Image access
enabled
Figure 30. RecoverPoint image access enabled
To verify that IP address customizations had been applied correctly, the IP settings for
the failed-over virtual machines were checked in the recovery site vCenter instance,
as shown in Figure 31.
Figure 31. Verifying IP address customizations
To verify data integrity at the recovery site, a script was run on the failed-over
machine to output the record count and the timestamp of the last entry. As shown in
Figure 32, these matched the record count and timestamp at the protected site (see
Figure 27).
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43. Figure 32. Recovery site record count and timestamp
To verify that the remote environment was able to process transactions, a
Swingbench load, with 100 users, was run against the database at the recovery site.
The recovery test After verifying the success of the recovery test, the test was ended. At this point, SRM
report disabled image access on the CRR copy and the summary test report shown in Figure
33 was generated. The time taken for the test recovery was just over 24 minutes. This
included the verification steps performed to ensure that the remote image was
accessible and that the Oracle environment could process transactions.
Figure 33. Recovery test report
This test report can be used to demonstrate accurate timing of recovery plans and
recovery reliability for auditing, compliance, system administration, and other
business purposes.
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