11g basically extends this concept. This blog entry basically expands on what Mark has already explained before. There are 2 parts to patching. They are
1. Creating the Patch – This is done by creating an incremental XML patch file that will contain just the changes done in development. The incremental XML patch file is created using the Compare option.
2. Applying the Patch – This is done by applying the incremental XML file on the production repository.
Initially after any new BI EE install, the repository that is created in development will be tested and then will be moved over to production with changes to the connection pool settings (primarily passwords) done through BI EE Administrator. Unfortunately, this step mandates the use of a Windows machine for Linux deployments. This is still the same in 11g as well. This is highlighted in the sample flow diagram given below.
Once a production RPD is deployed for the first time, end users might want more changes to be done in the repository. For example, some of the common changes that might be needed are
1. Renaming of columns
2. Adding new columns
3. Adding new subject areas
4. Changing Security
5. Bug Fixes
2. Adding new columns
3. Adding new subject areas
4. Changing Security
5. Bug Fixes
These changes will typically be done on the
development RPD. The concept of patching basically extracts the
incremental changes that were done to the development RPD and then apply
them to the production RPD. This is depicted as shown below
Generating Patch File:
Applying Patch:
Lets name the above repository as DevRPD. Now
during the first time migration to production lets assume the following
changes are made.
1. All connection pool user names changed to point to the Prod database usernames
2. All connection pool passwords changed to point to the Prod database passwords
2. All connection pool passwords changed to point to the Prod database passwords
Lets name this repository as ProdRPD. After this
repository has been migrated to production, let’s assume that we are
getting more enhancement requests. Following are the changes requested
1. A new subject area called SH – Aggregate.
2. Rename some columns. For example, rename CHANNEL_CLASS column to something more user friendly like “Channel Class” in the SH subject area.
2. Rename some columns. For example, rename CHANNEL_CLASS column to something more user friendly like “Channel Class” in the SH subject area.
After the above changes have been done using the
DevRPD, this new repository will be saved as DevRPDv2. Lets assume that
the developer while making the changes inadvertently deleted the column
AMOUNT_SOLD. The admin notices this and he recreates the column
AMOUNT_SOLD in the repository. A screenshot of the DevRPDv2 is given
below.Now, we basically have 3 repositories. DevRPD –
The development baseline repository for the first release. ProdRPD – The
baseline repository that is in production. DevRPDv2 – The repository
containing all the changes requested by end users.
To migrate the changes done in DevRPDv2
repository, we first start with opening up the DevRPDv2 using the Admin
Tool. Then we click on File->Compare option and then choose the Dev
Baseline Repository as shown below
This happens because when we delete an object, the upgrade id associated with the object is lost. The entire process of merge happens through the upgrade ids and not the names. Now you can imagine what will happen when we try to merge a lot of changes. We cannot have control on what developers do and hence we might see even more of these in the actual scenario. To reduce this and to treat the columns with matching names as the same, we have to equalize the repositories. So before every merge, it is always recommended to do an equalization that will ensure that the matching names have the same ids. We can equalize non-matching objects (different names) as well one by one. In this case, I will use the automatic equalization that will apply the matching name-matching id principle. This would show all the objects that have been equalized as shown below, in our case just the AMOUNT_SOLD
If you now look at the compare screen, you will notice that the AMOUNT_SOLD column will no more be there
So lets create a patch now without making any more changes by clicking on “Create Patch”.
This will create an XML file containing all the changes.
ow, to apply patch there are 2 ways. One is through the Admin tool Merge process and the other is by using a command line utility called patchrpd. Lets go through the process of patching the repository through the Admin tool.
To do this we start with opening up the ProdRPD
in offline mode. Then click on Merge & choose the Patch Merging
option. Choose the DevRPD as the Original Repository and the XML file
generated above as the patch file. Enter the appropriate usernames and
passwords.
By
clicking next, we trigger the patching process. The patching process
basically recreates the intermediary DevRPDv2 internally and then
performs a 3-way merge. If we look at the repository now, you should see
all the changes in the target repository ProdRPD – Patched.
The
same patching can be done through command line utility patchrpd. To do
the same process that we did through the Admin tool above, the command
would be
/u01/app/Middleware/Oracle_BI1/bifoundation/server/bin/patchrpd -P
Administrator -C /home/oracle/ProdRPD.rpd -W Administrator -G /home/oracle/DevRPD.
rpd -I /home/oracle/DevtoProdPatch1.xml -O ProdNew.rpd -S /u01/app/Middleware/Oracle_BI1/bifoundation/server/bin/xudml1.xsd
One main difference between the command line utility and the Admin tool based patching is, if there is any conflict resolution, the patch utility will just display some warnings and come out without creating the RPD. But in the admin tool we have the opportunity to resolve the conflicts and then proceed with the patching.
Next up is a methodology to do Web Catalog
Patching. BI EE 11g offers similar patching capability for applying
incremental changes to web catalogs.
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