1. What is the major difference between 10g and
11g RAC?
Well, there is not much difference between 10g and 11gR (1) RAC.
But there is a significant difference in 11gR2.
Prior to 11gR1(10g) RAC, the following were
managed by Oracle CRS
- Databases
- Instances
- Applications
- Node Monitoring
- Event Services
- High Availability
From 11gR2(onwards) its completed HA stack
managing and providing the following resources as like the other cluster
software like VCS etc.
- Databases
- Instances
- Applications
- Cluster Management
- Node Management
- Event Services
- High Availability
- Network Management (provides DNS/GNS/MDNSD services on
behalf of other traditional services) and SCAN – Single Access Client
Naming method, HAIP
- Storage Management (with help of ASM and other new ACFS
filesystem)
- Time synchronization (rather depending upon traditional
NTP)
- Removed OS dependent hang checker etc, manages with own
additional monitor process
2. What are Oracle Cluster Components?
Cluster Interconnect (HAIP)
Shared Storage (OCR/Voting Disk)
Clusterware software
3. What are Oracle RAC Components?
VIP, Node apps etc.
4. What are Oracle Kernel Components (nothing
but how does Oracle RAC database differs than Normal single instance database
in terms of Binaries and process)
Basically Oracle kernel need to switched on with RAC On option
when you convert to RAC, that is the difference as it facilitates few RAC bg
process like LMON,LCK,LMD,LMS etc.
To turn on RAC
# link the oracle libraries
$ cd $ORACLE_HOME/rdbms/lib
$ make -f ins_rdbms.mk rac_on
# rebuild oracle
$ cd $ORACLE_HOME/bin
$ relink oracle
# link the oracle libraries
$ cd $ORACLE_HOME/rdbms/lib
$ make -f ins_rdbms.mk rac_on
# rebuild oracle
$ cd $ORACLE_HOME/bin
$ relink oracle
Oracle RAC is composed of two or more database instances. They are
composed of Memory structures and background processes same as the single
instance database.Oracle RAC instances use two processes GES(Global Enqueue
Service), GCS(Global Cache Service) that enable cache fusion.Oracle RAC
instances are composed of following background processes:
ACMS—Atomic Controlfile to Memory Service (ACMS)
GTX0-j—Global Transaction Process
LMON—Global Enqueue Service Monitor
LMD—Global Enqueue Service Daemon
LMS—Global Cache Service Process
LCK0—Instance Enqueue Process
RMSn—Oracle RAC Management Processes (RMSn)
RSMN—Remote Slave Monitor
GTX0-j—Global Transaction Process
LMON—Global Enqueue Service Monitor
LMD—Global Enqueue Service Daemon
LMS—Global Cache Service Process
LCK0—Instance Enqueue Process
RMSn—Oracle RAC Management Processes (RMSn)
RSMN—Remote Slave Monitor
5. What is Clusterware?
Software that provides various interfaces and services for a
cluster. Typically, this includes capabilities that:
- Allow the cluster to be managed as a whole
- Protect the integrity of the cluster
- Maintain a registry of resources across the cluster
- Deal with changes to the cluster
- Provide a common view of resources
6. What are the background process that exists
in 11gr2 and functionality?
Process Name
|
Functionality
|
crsd
|
•The CRS daemon (crsd) manages cluster resources based on
configuration information that is stored in Oracle Cluster Registry (OCR) for
each resource. This includes start, stop, monitor, and failover operations.
The crsd process generates events when the status of a resource changes.
|
cssd
|
•Cluster Synchronization Service (CSS): Manages the cluster
configuration by controlling which nodes are members of the cluster and by
notifying members when a node joins or leaves the cluster. If you are using
certified third-party clusterware, then CSS processes interfaces with your
clusterware to manage node membership information. CSS has three separate
processes: the CSS daemon (ocssd), the CSS Agent (cssdagent), and the CSS
Monitor (cssdmonitor). The cssdagent process monitors the cluster and
provides input/output fencing. This service formerly was provided by Oracle
Process Monitor daemon (oprocd), also known as OraFenceService on Windows. A
cssdagent failure results in Oracle Clusterware restarting the node.
|
diskmon
|
•Disk Monitor daemon (diskmon): Monitors and performs
input/output fencing for Oracle Exadata Storage Server. As Exadata storage
can be added to any Oracle RAC node at any point in time, the diskmon daemon
is always started when ocssd is started.
|
evmd
|
•Event Manager (EVM): Is a background process that publishes
Oracle Clusterware events
|
mdnsd
|
•Multicast domain name service (mDNS): Allows DNS requests. The
mDNS process is a background process on Linux and UNIX, and a service on
Windows.
|
gnsd
|
•Oracle Grid Naming Service (GNS): Is a gateway between the
cluster mDNS and external DNS servers. The GNS process performs name
resolution within the cluster.
|
ons
|
•Oracle Notification Service (ONS): Is a publish-and-subscribe
service for communicating Fast Application Notification (FAN) events
|
oraagent
|
•oraagent: Extends clusterware to support Oracle-specific
requirements and complex resources. It runs server callout scripts when FAN
events occur. This process was known as RACG in Oracle Clusterware 11g
Release 1 (11.1).
|
orarootagent
|
•Oracle root agent (orarootagent): Is a specialized oraagent
process that helps CRSD manage resources owned by root, such as the network,
and the Grid virtual IP address
|
oclskd
|
•Cluster kill daemon (oclskd): Handles instance/node evictions
requests that have been escalated to CSS
|
gipcd
|
•Grid IPC daemon (gipcd): Is a helper daemon for the
communications infrastructure
|
ctssd
|
•Cluster time synchronisation daemon(ctssd) to manage the time
syncrhonization between nodes, rather depending on NTP
|
7. Under which user or owner the process will
start?
Component
|
Name of the Process
|
Owner
|
Oracle High Availability Service
|
ohasd
|
init, root
|
Cluster Ready Service (CRS)
|
Cluster Ready Services
|
root
|
Cluster Synchronization Service (CSS)
|
ocssd,cssd monitor, cssdagent
|
grid owner
|
Event Manager (EVM)
|
evmd, evmlogger
|
grid owner
|
Cluster Time Synchronization Service (CTSS)
|
octssd
|
root
|
Oracle Notification Service (ONS)
|
ons, eons
|
grid owner
|
Oracle Agent
|
oragent
|
grid owner
|
Oracle Root Agent
|
orarootagent
|
root
|
Grid Naming Service (GNS)
|
gnsd
|
root
|
Grid Plug and Play (GPnP)
|
gpnpd
|
grid owner
|
Multicast domain name service (mDNS)
|
mdnsd
|
grid owner
|
8. What is startup sequence in Oracle 11g RAC?
11g RAC startup sequence?
9. As you said Voting & OCR Disk resides in
ASM Diskgroups, but as per startup sequence OCSSD starts first before than ASM,
how is it possible?
How does OCSSD starts if voting disk & OCR resides in ASM
Diskgroups?
You might wonder how CSSD, which is required to start the
clustered ASM instance, can be started if voting disks are stored in ASM? This
sounds like a chicken-and-egg problem: without access to the voting disks there
is no CSS, hence the node cannot join the cluster. But without being part of
the cluster, CSSD cannot start the ASM instance. To solve this problem the ASM
disk headers have new metadata in 11.2: you can use kfed to read the header of
an ASM disk containing a voting disk. The kfdhdb.vfstart and kfdhdb.vfend
fields tell CSS where to find the voting file. This does not require the ASM
instance to be up. Once the voting disks are located, CSS can access them and
joins the cluster.
10. How does SCAN works?
- Client Connected through SCAN name of the cluster
(remember all three IP addresses round robin resolves to same Host name
(SCAN Name), here in this case our scan name is
cluster01-scan.cluster01.example.com
- The request reaches to DNS server in your corp and then resolves to one of the node out
of three. a. If GNS (Grid Naming service or domain is configured)
that is a subdomain configured in the DNS entry for to resolve
cluster address the request will be handover to GNS (gnsd)
- Here in our case assume there is no GNS, now the with
the help of SCAN listeners where end points are configured to database
listener.
- Database Listeners listen the request and then process
further.
- In case of node addition, Listener 4, client need not
to know or need not change any thing from their tns entry (address of 4thnode/instance)
as they just using scan IP.
- Same case even in the node deletion.
11. What is GNS?
Grid Naming service is alternative service to DNS , which will act
as a sub domain in your DNS but managed by Oracle, with GNS the connection is
routed to the cluster IP and manages internally.
12. What is GPNP?
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Grid Plug and Play along with GNS provide dynamic
In previous releases, adding or removing servers in a cluster
required extensive manual preparation.
- Negotiating appropriate network identities for itself
- Acquiring additional information from a configuration
profile
- Configuring or reconfiguring itself using profile
data, making host names and addresses resolvable on the network
For example a domain should contain
- –Cluster name: cluster01
- –Network domain: example.com
- –GPnP domain: cluster01.example.com
To add a node, simply connect the server to the cluster and allow
the cluster to configure the node.
To make it happen, Oracle uses the profile located in
$GI_HOME/gpnp/profiles/peer/profile.xml which contains the cluster resources,
for example disk locations of ASM. etc.
So this profile will be read local or from the remote machine when
plugged into cluster and dynamically added to cluster.
13. What are the file types that ASM support and
keep in disk groups?
Control files
|
Flashback logs
|
Data Pump dump sets
|
Data files
|
DB SPFILE
|
Data Guard configuration
|
Temporary data files
|
RMAN backup sets
|
Change tracking bitmaps
|
Online redo logs
|
RMAN data file copies
|
OCR files
|
Archive logs
|
Transport data files
|
ASM SPFILE
|
14. List Key benefits of ASM?
- Stripes files rather than logical volumes
- Provides redundancy on a file basis
- Enables online disk reconfiguration and dynamic
rebalancing
- Reduces the time significantly to resynchronize a
transient failure by tracking changes while disk is offline
- Provides adjustable rebalancing speed
- Is cluster-aware
- Supports reading from mirrored copy instead of primary
copy for extended clusters
- Is automatically installed as part of the Grid
Infrastructure
15. List key benefits of Oracle Grid
Infrastructure?
16. List some of the background process that
used in ASM?
Process
|
Description
|
RBAL
|
Opens all device files as part of discovery and coordinates the
rebalance activity
|
ARBn
|
One or more slave processes that do the rebalance activity
|
GMON
|
Responsible for managing the disk-level activities such as drop
or offline and advancing the ASM disk group compatibility
|
MARK
|
Marks ASM allocation units as stale when needed
|
Onnn
|
One or more ASM slave processes forming a pool of connections to
the ASM instance for exchanging messages
|
PZ9n
|
One or more parallel slave processes used in fetching data on clustered
ASM installation from GV$ views
|
13. What is node listener?
In 11gr2 the listeners will run from Grid
Infrastructure software home
- The node listener is a process that helps establish
network connections from ASM clients to the ASM instance.
- Runs by default from the Grid $ORACLE_HOME/bin
directory
- Listens on port 1521 by default
- Is the same as a database instance listener
- Is capable of listening for all database instances on
the same machine in addition to the ASM instance
- Can run concurrently with separate database listeners
or be replaced by a separate database listener
- Is named tnslsnr on the Linux platform
15. What is SCAN listener?
A scan listener is something that additional to node listener
which listens the incoming db connection requests from the client which got
through the scan IP, it got end points configured to node listener where it
routes the db connection requests to particular node listener.
16. What is the difference between CRSCTL and
SRVCTL?
crsctl manages clusterware-related operations:
- Starting and stopping Oracle Clusterware
- Enabling and disabling Oracle Clusterware daemons
- Registering cluster resources
srvctl manages Oracle resource–related operations:
- Starting and stopping database instances and services
- Also from 11gR2 manages the cluster resources like
network,vip,disks etc
17. How to control Oracle Clusterware?
To start or stop Oracle Clusterware on a specific node:
# crsctl stop crs
# crsctl start crs
To enable or disable Oracle Clusterware on a specific node:
# crsctl enable crs
# crsctl disable crs
19. How to check the cluster (all nodes) status?
To check the viability of Cluster Synchronization Services (CSS)
across nodes:
$ crsctl check cluster
CRS-4537: Cluster Ready Services is online
CRS-4529: Cluster Synchronization Services is
online
CRS-4533: Event Manager is online
20. How to check the cluster (one node) status?
$ crsctl check crs
CRS-4537: Cluster Ready Services is online
CRS-4529: Cluster Synchronization Services is
online
CRS-4533: Event Manager is online
21. How to find Voting Disk location?
•To determine the location of the voting disk:
# crsctl query css votedisk
## STATE File Universal Id File Name Disk
group
— —– —————– ———- ———-
1. ONLINE 8c2e45d734c64f8abf9f136990f3daf8
(ASMDISK01) [DATA]
2. ONLINE 99bc153df3b84fb4bf071d916089fd4a
(ASMDISK02) [DATA]
3. ONLINE 0b090b6b19154fc1bf5913bc70340921
(ASMDISK03) [DATA]
Located 3 voting disk(s).
22. How to find Location of OCR?
- cat /etc/oracle/ocr.loc
ocrconfig_loc=+DATA
local_only=FALSE
- #OCRCHECK (also about OCR integrity)
23. List some background process that used in
ASM Instances?
Process
|
Description
|
RBAL
|
Opens all device files as part of discovery and coordinates the rebalance
activity
|
ARBn
|
One or more slave processes that do the rebalance activity
|
GMON
|
Responsible for managing the disk-level activities such as drop
or offline and advancing the ASM disk group compatibility
|
MARK
|
Marks ASM allocation units as stale when needed
|
Onnn
|
One or more ASM slave processes forming a pool of connections to
the ASM instance for exchanging messages
|
PZ9n
|
One or more parallel slave processes used in fetching data on
clustered ASM installation from GV$ views
|
24. What are types of ASM Mirroring?
Disk Group Type
|
Supported MirroringLevels
|
Default Mirroring Level
|
External redundancy
|
Unprotected (None)
|
Unprotected (None)
|
Normal redundancy
|
Two-wayThree-wayUnprotected (None)
|
Two-way
|
High redundancy
|
Three-way
|
Three-way
|
25. What is ASM Striping?
ASM can use variable size data extents to support larger files,
reduce memory requirements, and improve performance.
Each data extent resides on an individual disk.
Data extents consist of one or more allocation units.
The data extent size is:
- Equal to AU for the first 20,000 extents (0–19999)
- Equal to 4 × AU for the next 20,000 extents
(20000–39999)
- Equal to 16 × AU for extents above 40,000
ASM stripes files using extents with a coarse method for load
balancing or a fine method to reduce latency.
- Coarse-grained striping is always equal to the
effective AU size.
- Fine-grained striping is always equal to 128 KB.
26. How many ASM Diskgroups can be created under
one ASM Instance?
ASM imposes the following limits:
- 63 disk groups in a storage system
- 10,000 ASM disks in a storage system
- Two-terabyte maximum storage for each ASM disk
(non-Exadata)
- Four-petabyte maximum storage for each ASM disk
(Exadata)
- 40-exabyte maximum storage for each storage system
- 1 million files for each disk group
- ASM file size limits (database limit is 128 TB):
- External redundancy maximum file size is 140 PB.
- Normal redundancy maximum file size is 42 PB.
- High redundancy maximum file size is 15 PB.
27. How to find the cluster network settings?
To determine the list of interfaces available to the cluster:
$ oifcfg iflist –p -n
To determine the public and private interfaces that have been
configured:
$ oifcfg getif
eth0 192.0.2.0 global
public
eth1 192.168.1.0
global cluster_interconnect
To determine the Virtual IP (VIP) host name, VIP address, VIP
subnet mask, and VIP interface name:
$ srvctl config
nodeapps -a
VIP exists.:host01
VIP exists.:
/192.0.2.247/192.0.2.247/255.255.255.0/eth0
…
28. How to change Public or VIP Address in RAC
Cluster?
29. How to change Cluster interconnect in RAC?
On a single node in the cluster, add the new global interface
specification:
$ oifcfg setif -global
eth2/192.0.2.0:cluster_interconnect
Verify the changes with oifcfg getif and then stop Clusterware on
all nodes by running the following command as root on each node:
# oifcfg getif
# crsctl stop crs
Assign the network address to the new network adapters on all
nodes using ifconfig:
#ifconfig eth2 192.0.2.15 netmask 255.255.255.0 broadcast 192.0.2.255
Remove the former adapter/subnet specification and restart
Clusterware:
$ oifcfgdelif -global eth1/192.168.1.0
# crsctl start crs
30. Managing or Modifying SCAN in Oracle RAC?
To add a SCAN VIP resource:
$ srvctl add scan -n cluster01-scan
To remove Clusterware resources from SCAN VIPs:
$ srvctl remove scan [-f]
To add a SCAN listener resource:
$ srvctl add scan_listener
$ srvctl add scan_listener -p 1521
To remove Clusterware resources from all SCAN listeners:
$ srvctl remove scan_listener [-f]
31. How to check the node connectivity in Oracle
Grid Infrastructure?
$ cluvfy comp nodecon -n all –verbose
32. Can I stop all nodes in one command? Meaning
that stopping whole cluster ?
In 10g its not possible, where in 11g it is possible
[root@pic1]# crsctl start cluster -all
[root@pic2]# crsctl stop cluster –all
[root@pic2]# crsctl stop cluster –all
33. What is OLR? Which of the following
statements regarding the Oracle Local Registry (OLR) is true?
1.Each cluster node has a local registry for node-specific
resources.
2.The OLR should be manually created after installing Grid
Infrastructure on each node in the cluster.
3.One of its functions is to facilitate Clusterware startup in situations
where the ASM stores the OCR and voting disks.
4.You can check the status of the OLR using ocrcheck.
34. What is runfixup.sh script in Oracle
Clusterware 11g release 2 installation
With Oracle Clusterware 11g release 2, Oracle Universal Installer
(OUI) detects when the minimum requirements for an installation are not met,
and creates shell scripts, called fixup scripts, to finish incomplete system
configuration steps. If OUI detects an incomplete task, then it generates fixup
scripts (runfixup.sh). You can run the fixup script after you click the Fix and
Check Again Button.
The Fixup script does the following:
If necessary sets kernel parameters to values required for
successful installation, including:
- Shared memory parameters.
- Open file descriptor and UDP send/receive parameters.
Sets permissions on the Oracle Inventory (central inventory)
directory. Reconfigures primary and secondary group memberships for the
installation owner, if necessary, for the Oracle Inventory directory and the
operating system privileges groups.
- Sets shell limits if necessary to required values.
35. How to stop whole cluster with single
command
crsctl
stop cluster (possible only from 11gr2), please note crsctl commands becomes
global now, if you do not specify node specifically the command executed
globally for example
crsctl
stop crs (stops in all crs resource in all nodes)
crsctl
stop crs –n <ndeoname) (stops only in specified node)
36. CRS is not starting automatically after a
node reboot, what you do to make it happen?
crsctl enable crs (as root)
to disable
crsctl disable crs (as root)
37. What are server pools in 11gr2?
38. What is policy managed databases in RAC?
39. What is Load balancing & how does it
work?
40. Describe high level Steps to convert single
instance to RAC?
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41. What is the difference between TAF and FAN
& FCF? at what conditions you use them?
1) TAF with tnsnames
a feature of Oracle Net Services for OCI8 clients. TAF is transparent application failover which will move a session to a backup connection if the session fails. With Oracle 10g Release 2, you can define the TAF policy on the service using dbms_service package. It will only work with OCI clients. It will only move the session and if the parameter is set, it will failover the select statement. For insert, update or delete transactions, the application must be TAF aware and roll back the transaction. YES, you should enable FCF on your OCI client when you use TAF, it will make the failover faster.
Note: TAF will not work with JDBC thin.
2) FAN with tnsnames with aq notifications true
a feature of Oracle Net Services for OCI8 clients. TAF is transparent application failover which will move a session to a backup connection if the session fails. With Oracle 10g Release 2, you can define the TAF policy on the service using dbms_service package. It will only work with OCI clients. It will only move the session and if the parameter is set, it will failover the select statement. For insert, update or delete transactions, the application must be TAF aware and roll back the transaction. YES, you should enable FCF on your OCI client when you use TAF, it will make the failover faster.
Note: TAF will not work with JDBC thin.
2) FAN with tnsnames with aq notifications true
FAN is a feature of Oracle RAC which stands for
Fast Application Notification. This allows the database to notify the client of
any change (Node up/down, instance up/down, database up/down). For integrated
clients, inflight transactions are interrupted and an error message is
returned. Inactive connections are terminated.
FCF is the client feature for Oracle Clients that have integrated with FAN to provide fast failover for connections. Oracle JDBC Implicit Connection Cache, Oracle Data Provider for .NET (ODP.NET) and Oracle Call Interface are all integrated clients which provide the Fast Connection Failover feature.
3) FCF, along with FAN when using connection pools
FCF is a feature of Oracle clients that are integrated to receive FAN events and abort inflight transactions, clean up connections when a down event is received as well as create new connections when a up event is received. Tomcat or JBOSS can take advantage of FCF if the Oracle connection pool is used underneath. This can be either UCP (Universal Connection Pool for JAVA) or ICC (JDBC Implicit Connection Cache). UCP is recommended as ICC will be deprecated in a future release.
FCF is the client feature for Oracle Clients that have integrated with FAN to provide fast failover for connections. Oracle JDBC Implicit Connection Cache, Oracle Data Provider for .NET (ODP.NET) and Oracle Call Interface are all integrated clients which provide the Fast Connection Failover feature.
3) FCF, along with FAN when using connection pools
FCF is a feature of Oracle clients that are integrated to receive FAN events and abort inflight transactions, clean up connections when a down event is received as well as create new connections when a up event is received. Tomcat or JBOSS can take advantage of FCF if the Oracle connection pool is used underneath. This can be either UCP (Universal Connection Pool for JAVA) or ICC (JDBC Implicit Connection Cache). UCP is recommended as ICC will be deprecated in a future release.
4) ONS, with clusterware either FAN/FCF
ONS is part of the clusterware and is used to
propagate messages both between nodes and to application-tiers
ONS is the foundation for FAN upon which is built FCF.
RAC uses FAN to publish configuration changes and LBA events. Applications can react as those published events in two way :
– by using ONS api (you need to program it)
– by using FCF (automatic by using JDBC implicit connection cache on the application server)
you can also respond to FAN event by using server-side callout but this on the server side (as their name suggests it)
ONS is the foundation for FAN upon which is built FCF.
RAC uses FAN to publish configuration changes and LBA events. Applications can react as those published events in two way :
– by using ONS api (you need to program it)
– by using FCF (automatic by using JDBC implicit connection cache on the application server)
you can also respond to FAN event by using server-side callout but this on the server side (as their name suggests it)
Relationship between FAN/FCF/ONS
ONS –> FAN –> FCF
ONS -> send/receive messages on local and remote nodes.
FAN -> uses ONS to notify other processes about changes in configuration of service level
FCF -> uses FAN information working with conection pools JAVA and others.
ONS -> send/receive messages on local and remote nodes.
FAN -> uses ONS to notify other processes about changes in configuration of service level
FCF -> uses FAN information working with conection pools JAVA and others.
42. Can you add voting disk online? Do you need
voting disk backup?
Yes, as per documentation, if you have multiple voting disk
you can add online, but if you have only one voting disk , by that cluster will
be down as its lost you just need to start crs in exclusive mode and add the
votedisk using
crsctl add votedisk <path>
43. You have lost OCR disk, what is your next
step?
The cluster stack will be down due to the fact that cssd is unable
to maintain the integrity, this is true in 10g, From 11gR2 onwards, the crsd
stack will be down, the hasd still up and running. You can add the ocr back by
restoring the automatic backup or import the manual backup,
44. What happens when ocssd fails, what is node
eviction? how does node eviction happens? For all answer will be same.
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45. What is virtual IP and how does it works?
46. Describe some rac wait events you experienced?
and this table,
47. Can you modify VIP address after your cluster installation?
48. How do you interpret AWR report in RAC instances, what
sections in awr report for rac instances are most important?
Read here.
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Update 12-May-2013, Some practical questions added here
1. Viewing Contents in OCR/Voting disks
There are three possible ways to view the OCR contents.
a. OCRDUMP (or)
b. crs_stat
-p (or)
c. By using
strings.
Voting disk contents are not persistent and are not required
to view the contents, because the voting disk contents will be overwritten. if
still need to view, strings are used.
2. Server pools – Read in my blog
3. Verifying Cluster Interconnect
Cluster interconnects can be verified by:
i. oifcfg getif
ii. From AWR
Report.
iii. show parameter
cluster_interconnect
iv. srvctl config
network
4. Does scan IP required or we can disable it
SCAN IP can be disabled if not required.
However SCAN IP is mandatory during the RAC installation. Enabling/disabling
SCAN IP is mostly used in oracle apps environment by the concurrent manager
(kind of job scheduler in oracle apps).
To disable the SCAN IP,
i. Do not use
SCAN IP at the client end.
ii. Stop scan
listener
srvctl stop
scan_listener
iii. Stop scan
srvctl stop scan
(this will stop the scan vip's)
iv. Disable scan
and disable scan listener
srvctl disable
scan
5. Migrating to new Diskgroup scenarious
a. Case 1: Migrating disk group from one
storage to other with same name
1. Consider the disk group is DATA,
2. Create new disks in DATA pointing
towards the new storage (EMC),
a) Partioning provisioning
done by storage and they give you the device name or mapper like
/dev/mapper/asakljdlas
3. Add the new disk to diskgroup DATA
a) Alter
diskgroup data add disk '/dev/mapper/asakljdlas'
3. drop the old disks from DATA with which
rebalancing is done automatically.
If you want you can the rebalance by
alter system set asm_power_limit =12 for full throttle.
alter diskgroup data drop disk
'path to hitachi storage'
Note: you can get the device name in
v$asm_disk in path column.
4. Request SAN team to detach the old
Storage (HITACHI).
b. Case 2: Migrating disk group from one to
another with different diskgroup name.
1) Create the Disk group with new name
in the new storage.
2) Create the spfile in new diskgroup
and change the parameter scope = spfile for control files etc.
3) Take a control file backup in format
+newdiskgroup
4) Shutdown the db, startup nomount the
database
5) restore the control file from backup
(now the control will restore to new diskgroup)
6) Take the RMAN backup as copy of all
the databases with new format.
RMAN> backup database as
copy format '+newdiskgroup name' ;
3) RMAN> Switch database to copy.
4) Verify
dba_data_files,dba_temp_files, v$log that all files are pointing to new
diskgroup name.
c. Case 3: Migrating disk group to new
storage but no additional diskgroup given
1) Take the RMAN backup as copy of all
the databases with new format and place it in the disk.
2) Prepare rename commands from v$log
,v$datafile etc (dynamic queries)
3) Take a backup of pfile and modify
the following referring to new diskgroup name
.control_files
.db_create_file_dest
.db_create_online_log_dest_1
.db_create_online_log_dest_2
.db_recovery_file_des
4) stop the database
5) Unmount the
diskgroup
asmcmd umount ORA_DATA
6) use asmcmd
renamedg (11gr2 only) command to rename to new diskgroup
renamedg
phase=both dgname=ORA_DATA newdgname=NEW_DATA verbose=true
7) mount the diskgroup
asmcmd mount NEW_DATA
8) start the database in mount
with new pfile taken backup in step 3
9) Run the rename file scripts
generated at step2
9) Add the diskgroup to
cluster the cluster (if using rac)
srvctl
modify database -d orcl -p +NEW_FRA/orcl/spfileorcl.ora
srvctl modify database -d orcl -a
"NEW_DATA"
srvctl config database -d orcl
srvctl start database -d orcl
10) Delete the old
diskgroup from cluster
crsctl delete resource
ora.ORA_DATA.dg
11) Open the database.
7. Database rename in RAC, what could be the checklist for you?
a. Take the
outputs of all the services that are running on the databases.
b. set
cluster_database=FALSE
c. Drop all the
services associated with the database.
d. Stop the
database
e. Startup mount
f. Use nid to
change the DB Name.
Generic
question, If using ASM the usual location for the datafile would be
+DATA/datafile/OLDDBNAME/system01.dbf'
Does NID
changes this path too? to reflect the new db name?
Yes it will,
by using proper directory structure it will create a links to original
directory structure. +DATA/datafile/NEWDBNAME/system01.dbf'
this has to
be tested, We dont have test bed, but
thanks to Anji who confirmed it will
g. Change the
parameters according to the new database name
h. Change the
password file.
i. Stop the
database.
j. Mount the
database
k. Open database
with Reset logs
l. Create spfile
from pfile.
m. Add database
to the cluster.
n. Create the
services that are dropped in prior to rename.
o. Bounce the
database.
8.How to find the database in which particular service is attached
to when you have a large number of databases running in the server, you cannot
check one by one manually
Write a shell script to read the database name from oratab and
iterate the loop taking inpt as DB name in srvctl to get the result.
#!/bin/ksh
ORACLE_HOME=<crs_home>
PATH=$ORACLE_HOME/bin:$PATH
LD_LIBRARY_PATH=${SAVE_LLP}:${ORACLE_HOME}/lib
export TNS_ADMIN ORACLE_HOME PATH LD_LIBRARY_PATH
for INSTANCE in `cat /etc/oratab|grep -v “^#”|cut -f1 -d: -s`
do
export ORACLE_SID=$INSTANCE
echo `srvctl status service -d $INSTANCE -s $1| grep -i “is running”`
done
#!/bin/ksh
ORACLE_HOME=<crs_home>
PATH=$ORACLE_HOME/bin:$PATH
LD_LIBRARY_PATH=${SAVE_LLP}:${ORACLE_HOME}/lib
export TNS_ADMIN ORACLE_HOME PATH LD_LIBRARY_PATH
for INSTANCE in `cat /etc/oratab|grep -v “^#”|cut -f1 -d: -s`
do
export ORACLE_SID=$INSTANCE
echo `srvctl status service -d $INSTANCE -s $1| grep -i “is running”`
done
9. Difference between OHAS and CRS
OHAS is complete cluster stack which includes some kernel level tasks like managing network,time synchronization, disks etc, where the CRS has the ability to manage the resources like database,listeners,applications, etc With both of this Oracle provides the high availabilityclustering services rather only affinity to databases.
OHAS is complete cluster stack which includes some kernel level tasks like managing network,time synchronization, disks etc, where the CRS has the ability to manage the resources like database,listeners,applications, etc With both of this Oracle provides the high availabilityclustering services rather only affinity to databases.
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