Friday, March 26, 2021

ZDLRA leverages the ZFS object store in the newest release

Yes, Using ZFSSA as an on-prem object store with ZDLRA is here, and How to configure Zero Data Loss Recovery Appliance to use ZFS OCI Object Storage as a cloud repository (Doc ID 2761114.1) shows you how.


Above is the diagram from Tim Chien's "Ask Tom" session on the new feature with ZDRA release 19.1.1.2.

 For those how have been reading my blog posts, and wondering why the sudden interest in ZFS as an object store, here is another reason.

The idea behind this is pretty simple,  many customers are looking for an additional tier of storage behind the ZDLRA for 2 reasons
  • They want to extend the the recovery window onto a lower tier of storage. This may include going from a full "any point in time" recovery to a set of "recovery points"
  • They want an archival backup for a long period of time that is a set backup point.  Keep backups are the perfect example of this. With Keep backups you get a self-contained restore point of your choosing.
Now for the magic of how all this works.

1. The first step is to configure your ZFSSA as an OCI object store. As long you are on the latest patched release of OS 8.8, this functionality is available to you.  If you are unfamiliar with how to do this, in previous posts, I have walked through the steps of configuring this. Below are some places to start.


Also, here is the documentation from ZFS.

2. The second step is to configure Key Vault (OKV), which is a licensed product. Key vault is a centralized Encryption Key management system that is used to store the master encryption key for the backups.  OKV is released as a virtual image, that can be installed on physical hardware, or in a virtual environment. the installation is self-contained and walks through a series of questions to finish the configuration.  Easy.
  WHY do I need TDE ?  I'm sure you are asking this question.  The "Copy-to-cloud" functionality of the ZDLRA is being utilized to present ZFS as an "OCI cloud store".  It acts just like an object store in the Oracle Public Cloud.  The only difference is that there is no "ARCHIVE" tier on ZFS.  Since ZFS is considered a "Cloud destination", it follows the Larry rule that "All data in the Cloud is encrypted.". Because of that, the backups going to ZFS will be RMAN encrypted (no license needed for this part).  The ZDLRA uses OKV to store the master keys used to encrypt the RMAN backupsets.

3. The third step is to configure the ZDLRA to utilize OKV as a client, and to point the ZDLRA to your ZFS.
  One of the great things of using this solution is that the process is exactly the same as configuring the ZDLRA to send backups to the Oracle public cloud. This link points to the documentation that makes it clear how to configure this process.

That's all there is to it. The most complicated task is configuring the authentication for the OCI object store on ZFS, as it requires setting up a public and private key.

Now to walk through the workflow.

Backups -- Below is the backup workflow from the presentation.  The ZDLRA creates an RMAN backupset from the backup pieces on the ZDLRA. This backupset is an RMAN encrypted backupset.




One item is NOT mentioned on this slide is compression.  If your Database is using TDE, then the backup cannot be compressed when sent to the ZFS because the ZDLRA does not have the encryption master key for the database.  BUT, if your database is NOT TDE enabled, then you should be using compression when sending the backups to the ZFS. As I've said earlier, the backset is an RMAN encrypted backupset. Because it is already encrypted when sent to ZFS, the ZFS will be unable to compress the backups.  You can find instructions to add compression in the documentation for creating a job template.  There is a setting for the template called

Compression_algorithm=> 
By implementing compression on the ZDLRA you are:
  • Decreasing the size of the backups on the ZFS..
  • Decreasing the networkwork traffic between the ZDLRA and ZFS as the data is compressed before it is sent to ZFS. This can double the throughput for backups and restores.
Keep in mind, that if you restore directly to your database host from the ZFS Object store, the database host will be performing the uncompression.

Restores - Below is the restore workflow. Typically you would utilize the catalog on the ZDLRA and let the ZDLRA be the conduit for uncompressing (if it was compressed when sent to ZFS), and unencrypting it, as the ZDLRA encrypted it.  The ZDLRA already has the credentials for the object store, and it has the Encryption master key available to it from OKV.



Alternately you can restore the backups directly from the ZFS object store.
This would be a 3 step process..

1) You would download the Oracle Database Cloud Backup Module . Once downloaded you would configure the database to utilize the OCI object store. The link above also contains links to documentation for the module, and to a MOS note containing the FAQ.  Keep in mind that in this case you are configuring the Module for the on-premise ZFS (rather than the Oracle public cloud), and the instructions may have to be modified. The table below gives you an idea of the differences.


2) You would catalog the backup pieces. If the RMAN catalog is not available (for some reason) the MOS note mentioned below contains detail on how to list what is in the object store, and how to clean it out.

How to report or delete backup pieces stored in Cloud Object Storage by Database Backup Cloud Service without using RMAN (Doc ID 2360800.1)

The script contained in the MOS note ( odbsrmt.py) should work with a few minor changes to the instructions (since we are talking about an on-prem ZFS).  I will continue to work through the changes and post the results in a future blog post.


3) You would register the restore location as an OKV endpoint (if it isn't already registered), OR you can alternately export the encryption key and create a wallet file.






Conclusion - This is a very exciting addition to the many features that the ZDLRA already provides.

Friday, March 12, 2021

ZFS Object Store - Why are there 3 APIs?

 In talking to others that are new to object stores, there is always a complicated conversation on why there are different API interfaces. I will try to go through the history of object stores and talk about the reason why.


First, I want to say up front I am not going to talk about WebDav.  From what I can find, Web Dav is more of a web page authoring platform.

Next I am going to define a few terms.

OPC - Oracle Public Cloud. This is the Oracle Public Cloud Offering, though there are flavors of the OPC that use the same GUI and interfaces (Cloud@Customer for example). When I refer to OPC, I am talking about anything that uses the standard Oracle Public Cloud BUI interfaces.

OCI - Oracle Cloud Interface.   This is one of the most confusing terms used when talking about the ZFS object store.  For most people, when referring to OCI, they are talking about the interface to the Oracle Public Cloud (OPC) offerings in general. On ZFS, this refers to a specific API for the OPC object store.  When I talk about OCI, I am talking about the object store interface.

OCI Gen 1/OCI Gen 2.  In the history of the Oracle Public Cloud OCI, Generation 1 was Version one of the Oracle Public Cloud.  The object store in the first version utilized the Swift interface (which I will get into later).  Of course, following Generation 1 (Gen 1), there was Generation 2 (Gen 2) which uses a different API.  When I refer to these terms, I am referring to the Object store APIs available in the OPC.

S3 or S3 API. When you think of S3, you are probably thinking AWS. The reality is, AWS built the standard for the cloud object store, but many other vendors offer an object store, on-prem or publicly, that follow the AWS standard.  This is the most commonly used Object Store API standard.

Large objects. This is a special term when talking about an object store. Object stores typically have a limit of 5GB on the size of objects. This made sense in the beginning as object stores where not as widely used for all kinds of objects as they are today.  As data grew the need for Object Stores to handle "Large Objects" becomes clear. When I go through the history, along with features of  object stores, "Large Objects" will refer to any object greater than 5 GB.

Bucket : There may be other terms used to describe a "bucket" or container, but a bucket is the high level identifier where objects are stores.  You can think of it as file drawer, or anything thing else that reminds you that it is a level of separation. This is what I mean  when I refer to a Bucket.

Tenancy : In todays cloud, resources are shared, and each user is a "Tenant" in the Multi-tenant cloud paradigm.  This allows for the sharing of resources while still providing isolation.

Now some history

When the object store world began, there was Swift.  Swift was a simple object store, with a simple interface. OCI Gen 1 uses swift, and ZFS offers Swift as an API interface. Swift was designed more for command line interaction than GUI.  If you look for tools to access a Swift object store you find that "curl", and the "swift" CLI (built in python) are the most common.

Swift  : Below are the highlights of Swift.

  • Swift V1 requires a 2 step authentication, though V2 removed this restriction. A username and password are passed to swift and an authentication token is returned. The token is then used to all subsequent calls.
  • Swift multi-tenancy. Because Swift uses a simple Username/Password authentication (though the idea of tenancy was added later), it does not work well as a shared cloud resource. V1 of swift had no concept of multi-tenancy so every bucket name had to be unique. There was no easy way to tie storage utilization to a specific "tenant", especially when multiple users shared a tenancy.
  • Support of large objects was originally an issue for Swift, and there multiple ways of dealing with the support.  Swift eventually added Dynamic Large Object (DLO) support which allowed for the storage of large objects.  Some vendors/applications using Swift took advantage of DLO, some wrote their own.  The swift CLI for example, uses it's own method of storing large objects by created a "shadow" bucket containing individual pieces (5GB per piece) and then storing a manifest file that tells swift where the objects are. Many other vendors (including Oracle) wrote their own large object support that can only be read by them.
Issues - As you can see there were many issues with Swift and this explains why most vendors have moved away from swift. OCI Gen 1 was a swift V2 interface and it is still available to access object stores. ZFS uses the swift V1 interface.
  • Authentication was difficult
  • no multi-tenancy support for users
  • inability to create cost models based on tenancy
  • no true standard for large objects.
S3 - Along came S3 to provide solutions to these issues.

To solve these issues, AWS came up with a standard that solved these issues and below are the highlights.

  • Authentication is based on Key/passcode. The Key/passcode is uniquely generated for each user of a tenancy.  When accessing the object store, the Key/passcode allows the object store to identify the tenancy and provide the necessary isolation, and of course billing.
  • Large object support was provided.  S3 added the idea of "multi-part uploads". When the client prepares to upload an object, it tells the S3 object store that this is a multi-part upload, along with how many pieces are being uploaded.  This allows the client to break the upload into multi parts (of 5GB or less) and upload each part individually even in parallel. the object store will then join all the parts into a single large object.  The process is reversed for downloads.
  • Having a standard provides for tools like rsync, and cloudberry to be able to synchronize the object store (regardless of vendor) with a file system, upload files through a windows client, even mount the object store a file system through Fuse.

Issues - As you can see many of the issues with swift were corrected, and this is now the most widely used API for an object store.


OCI Gen 2 - Along with the second version of the Oracle Public Cloud came a new API fo the object store.

There was one remaining issue with the AWS API that was solved by this interface. The idea of compartments within a tenancy.  Within a tenancy, the bucket must be unique, but when a new bucket is created, it is created in a compartment. This gives an additional level of organization for objects.


A few of the highlights of OCI Gen 2 are.

  • Authentication uses the RSA public/private key model which is more secure than AWS authentication.
  • The idea of compartments is supported.

Issues - As you can see many of the issues with swift were corrected, and the concept of compartments was added.

  • The only issue I've encountered is the lack of a GUI interface for uploading objects.


SUMMARY :


In summary, on ZFS, all 3 object store are available as separate object stores. pick your object store.

Also to note, in the OPC, all 3 object stores are compatible and can be used to access the same object. This is not the case with ZFS.


Saturday, February 13, 2021

Oracle Database 19c now supports DBMS_CLOUD.

 If you have been wondering why I've spent so much time blogging about how to configure ZFS as an object store, today is the day you get the answer.




Today MOS note 2748362.1 - How To Setup And Use DBMS_CLOUD Package was published.


You are probably saying, "so what?, 21c supports DBMS_CLOUD, and that's a long way off for me"..

This note goes through the steps to configure DBMS_CLOUD for 19c. Yes. it's backported !

NOTE: it is only supported for multitenant

If you were very astute, you might have noticed that the 19.9 release of the software contained scripts in the $ORACLE_HOME/rdbms/admin directory with names like dbms_cloud.sql.

Well today, this published notes explains how to install DBMS_CLOUD packages so that you can use it with your 19.9 + database.

I'm going to take this a step further, and show you how to use these scripts and connect the ZFS appliance.  Keep in mind, there is a ZFS simulator you can use, and do the same steps.

Here is some information on how to do this if you don't know where to start

Configuring ZFS as an object store

Step 1. Install DBMS_CLOUD in the CDB

I am going through the MOS, and I am following the same series of steps.  Creating a script in my /home/oracle/dbc directory, so that I can run this again for all my databases.

Just as in the note, I ran a perl script, and looked at the logs. Everything was successful.

I then ran the 2 queries. First against the CDB, then against the PDB.


So far so good.


Step 2 Create SSL Wallet with Certificates.

The next step is to create a wallet, and download the certificates using the link.  The certificates come in a zip file containing all 3 certificates.

VeriSign.cer
BaltimoreCyberTrust.cer
DigiCert.cer

These are the Certificate Authorities that will be used to authenticate the SSL certificates.  DBMS_CLOUD uses HTTPS, and requires that a valid certificate is used.



ZFS NOTE BEGIN : *************************************

At this point there is an additional step for using ZFS (or your own object store). You need to add the certificate to the wallet if it is a self-signed certificate (which is what ZFS will use normally).

In order to get the certificate you need to display it with the following command (filling in your IP address).

openssl s_client -showcerts -connect 10.136.64.85:443

From the output I want to grab the certificate which is between the BEGIN and END


-----BEGIN CERTIFICATE-----
MIIEWTCCA0GgAwIBAgIIXJAYBgAAAAIwDQYJKoZIhvcNAQELBQAwcDEtMCsGA1UE
AwwkenM3LTJjYXAtMjAwZi12bTAyLnVzLm9zYy5vcmFjbGUuY29tMT8wPQYDVQQN
DDZodHRwczovL3pzNy0yY2FwLTIwMGYtdm0wMi51cy5vc2Mub3JhY2xlLmNvbToy

..

oH4pa4Hv4/s0GKJcjQDTlhyyAQXHD+EDfa0KSqP6+Rcwv9+pzXhTJu6IYJLanKo

uM6RxG2XAIH82blU+A==
-----END CERTIFICATE-----

Once I put it in a file, I perform the same command to load these certificates from my file.

ZFS NOTE END : *****************************************

Once added I display what is in the wallet.

orapki wallet display -wallet .
Oracle PKI Tool Release 21.0.0.0.0 - Production
Version 21.0.0.0.0
Copyright (c) 2004, 2020, Oracle and/or its affiliates. All rights reserved.

Requested Certificates:
User Certificates:
Trusted Certificates:

Subject:        2.5.4.13=https://zs7-2cap-200f-vm02.bgrenn.com:215/\#cert,CN=zs7-2cap-200f-vm02.bgrenn.com
Subject:        2.5.4.13=https://zs7-2cap-200f-vm01.bgrenn.com:215/\#cert,CN=zs7-2cap-200f-vm01.bgrenn.com
Subject:        CN=DigiCert Global Root CA,OU=www.digicert.com,O=DigiCert Inc,C=US
Subject:        CN=Baltimore CyberTrust Root,OU=CyberTrust,O=Baltimore,C=IE
Subject:        CN=VeriSign Class 3 Public Primary Certification Authority - G5,OU=(c) 2006 VeriSign\, Inc. - For authorized use only,OU=VeriSign Trust Network,O=VeriSign\, Inc.,C=US


You can see that it captured the server names of the ZFS ports I am using.


Step 3 Configure the Oracle environment for the Wallet.


I followed the next set of instructions to update the sqlnet.ora file with the location of wallet.

A few items to note on this step
  • I am in a RAC environment so I need to make the change to ALL nodes in my RAC cluster, and I also need to copy the wallet to the nodes in the same location on all hosts.
  • The WALLET_LOCATION is also used by ZDLRA. if you are using a ZDLRA for backups, you need add the certificates to wallet that is used by the ZDLRA.
  • If you using Single Sign On which may use the WALLET_LOCATION, be especially careful since they often default to $ORACLE_BASE, but will get over ridden when this is set.
I completed these steps, and I now have the same sqlnet.ora file on all nodes, and my wallet is on all nodes in the same location under $ORACLE_BASE.

Step 4 Configure the Database with ACEs for DBMS_CLOUD.


The next step is to create Access Control Entries (ACEs) to allow communication. This only needs to be in CDB$ROOT.

I stored the script in a file and changed the script in 2 ways

  • define sslwalletdir= {my wallet locatioin}  --> I set this.
  • I removed all lines around proxy. I didn't need a proxy since I am only using a ZFS internal to my datacenter.
I verified with the query and it returned the location of SSL_WALLET.

Step 5 Verify the configuration of the DBMS_CLOUD

I put the script in a file and made a few changes.

  • wallet_path => {my wallet path}
  • wallet_password => {my wallet password}
  • get_page('https://zs7-2cap-200f-vm02.bgrenn.com') --> I put in the URL for my first ZFS network name (from the certificate) followed by the second name from the certificate.
I got a "valid response" backup.. 
I can also check the ACLs with the script below
SELECT host, lower_port, upper_port, acl
FROM   dba_network_acls;

Step 6 Configure users or roles to use  DBMS_CLOUD

I changed the script to use my username which I created in my PDB to create tables etc. and utilize DBMS_CLOUD, and ran it in my pdb.

I took the second script, removed the proxy information , entered the wallet path and executed in my  PDB.

Step 6 Configure users or roles to use DBMS_CLOUD


I changed the script and added my username in my PDB.


Step 7 Configure ACEs for a user role to use DBMS_CLOUD


Again I removed the proxy information since there was no proxy. I also entered the SSL_wallet directory.

Step 8  Configure the credential for OCI (or S3 if you prefer).


Using the create credential and the parameters I have pointed out in previous posts.

 I create a credential to point to my OCI bucket on ZFS.


exec DBMS_CLOUD.CREATE_CREDENTIAL ( -
    CREDENTIAL_NAME => 'ZFS', -
    USER_OCID => 'ocid1.user.oc1..oracle', -
    TENANCY_OCID => 'ocid1.tenancy.oc1..nobody', -
    PRIVATE_KEY => 'MIIEogIBAAKCAQEAnLe/u2YjNVac5z1j/Ce7YRSd6wpwaK8elS+TxucaLz32jUaDCUfMbzfSBP0WK00uxbdnRdUAss1F1sRUm+GqyEEvT2c1LRJ0FnfSFEXrJnDZfEVe/dFi90fctbx4BUSqRroh0RQbQyk24710zO2C3tev66eHEvfxxXGUqI+jrDKOJ7sFdGE42R9uRhhWxaWS4e43OEZk41gq2ykdVFlNp...mXU6w6blGpxWkzfPMJKuOhXYoEXM41uxykDX3nq/wPWxKJ7TnShGLyiFMWiuuQF+s29AbwtlAkQRcHnnkvDFHwE=', -
    FINGERPRINT => '1e:6e:0e:79:38:f5:08:ee:7d:87:86:01:13:54:46:c6');

Note the parameters for ZFS

  • CREDENTIAL_NAME - Name of the credential
  • USER_OCID - 'ocid1.user.oci..' || {ZFS user id}
  • TENANCY_ID - 'ocid1.tenancy.oci1..nobody' - hardocded in
  • PRIVATE_KEY - Private key matching the public key on the ZFS
  • FINGERPRINT - fingerprint for the public key on the ZFS.

Step 9  Load raw data to the object store.


First I am going to open a file, and put some data into it.. Upload the file to my OCI bucket and then create an external table on it.

Below is the input file.

 16TS$                           TABLE                    1904172019041720190417VALID
        20ICOL$                         TABLE                    1904172019041720190417VALID
         8C_FILE#_BLOCK#                CLUSTER                  1904172019041720190417VALID
        37I_OBJ2                        INDEX                    1904172019041720190417VALID
        22USER$                         TABLE                    1904172019041720190417VALID
        33I_TAB1                        INDEX                    1904172019041720190417VALID
        40I_OBJ5                        INDEX                    1904172019041720190417VALID
        31CDEF$                         TABLE                    1904172019041720190417VALID
        41I_IND1                        INDEX                    1904172019041720190417VALID
         3I_OBJ#                        INDEX                    1904172019041720190417VALID
         6C_TS#                         CLUSTER                  1904172019041720190417VALID
        51I_CON1                        INDEX                    1904172019041720190417VALID
        34I_UNDO1                       INDEX                    1904172019041720190417VALID
        11I_USER#                       INDEX                    1904172019041720190417VALID
        29C_COBJ#                       CLUSTER                  1904172019041720190417VALID
        49I_COL2                        INDEX                    1904172019041720190417VALID
        32CCOL$                         TABLE                    1904172019041720190417VALID
        14SEG$                          TABLE                    1904172019041720190417VALID
        23PROXY_DATA$                   TABLE                    1904172019041720190417VALID
        44I_FILE2                       INDEX                    1904172019041720190417VALID
        46I_USER1                       INDEX                    1904172019041720190417VALID
        56I_CDEF4                       INDEX                    1904172019041720190417VALID
        21COL$                          TABLE                    1904172019041720190417VALID
        47I_USER2                       INDEX                    1904172019041720190417VALID
        26I_PROXY_ROLE_DATA$_1          INDEX                    1904172019041720190417VALID
        18OBJ$                          TABLE                    1904172019041720190417VALID
        42I_ICOL1                       INDEX                    1904172019041720190417VALID
        19IND$                          TABLE                    1904172019041720190417VALID
        39I_OBJ4                        INDEX                    1904172019041720190417VALID
        59BOOTSTRAP$                    TABLE                    1904172019041720190417VALID
        36I_OBJ1                        INDEX                    1904172019041720190417VALID
        15UNDO$                         TABLE                    1904172019041720190417VALID
        10C_USER#                       CLUSTER                  1904172019041720190417VALID
         4TAB$                          TABLE                    1904172019041720190417VALID
         2C_OBJ#                        CLUSTER                  1904172019041720190417VALID
        28CON$                          TABLE                    1904172019041720190417VALID
         5CLU$                          TABLE                    1904172019041720190417VALID
        27I_PROXY_ROLE_DATA$_2          INDEX                    1904172019041720190417VALID
        24I_PROXY_DATA$                 INDEX                    1904172019041720190417VALID
        45I_TS1                         INDEX                    1904172019041720190417VALID
        13UET$                          TABLE                    1904172019041720190417VALID
        12FET$                          TABLE                    1904172019041720190417VALID
        17FILE$                         TABLE                    1904172019041720190417VALID

I created a file locally (/tmp/objects.csv), created a bucket (using the OCI CLI tool) and uploaded the file.

Create the bucket on zfs

oci os bucket create --endpoint http://zs7-2cap-200f-vm02.bgrenn.com/oci --namespace-name export/objectstoreoci --compartment-id export/objectstoreoci --name bucketoci  


And copy my file to my bucket.

oci os object put --endpoint http://zs7-2cap-200f-vm02.bgrenn.com/oci ---namespace-name export/objectstoreoci --bucket-name bucketoci  - --file /tmp/objects.csv  --name objects.csv


Step 10  Create an external table on the object.


Now we have the file in the bucket we are ready to create the external table.

ZFS NOTE BEGIN : ***************************************

There is an additional step to access the ZFS. There is a table owned by C##CLOUD$SERVICE which contains the objects store that can be accessed, and how to authenticated. By looking at the current entries you can see the types for OCI and S3.

until I do this you will an error like this..


ERROR at line 1:
ORA-20006: Unsupported object store URI -
https://zs7-2cap-200f-vm01.bgrenn.oracle.com/export/objectstoreoci/bucketoci
/objects.csv
ORA-06512: at "C##CLOUD$SERVICE.DBMS_CLOUD", line 917
ORA-06512: at "C##CLOUD$SERVICE.DBMS_CLOUD", line 2411
ORA-06512: at line 1

Here is the table that we need to change. You can see that it contains 
  • CLOUD_TYPE - authentication to use
  • BASE_URI_PATTERN - URI pattern to identify and allow
  • VERSION - This is used if different authentication versions exist for an object store
  • STATUS - Not sure, but they are all '1'


 desc C##CLOUD$SERVICE.dbms_cloud_store;
 Name                       Null?    Type
 ----------------------------------------- -------- ----------------------------
 CLOUD_TYPE                        VARCHAR2(128)
 BASE_URI_PATTERN                    VARCHAR2(4000)
 VERSION                        VARCHAR2(128)
 STATUS                         NUMBER

I add a row to this table for my object store.  ORACLE_BMC is the OCI authentication

SQL> insert into C##CLOUD$SERVICE.dbms_cloud_store values ('ORACLE_BMC','%.bgrenn.com',null,1);

1 row created.

SQL> commit;

Commit complete.


ZFS NOTE END : *****************************************


We are ready, now let's create the table and give it a go !!

Create the external table on the object
exec DBMS_CLOUD.CREATE_EXTERNAL_TABLE( -
    table_name      =>'CHANNELS_EXT_ZFS', -
    credential_name =>'ZFS', -
    file_uri_list   =>'https://zs7-2cap-200f-vm01.bgrenn.com/oci/n/export/objectstoreoci/b/bucketoci/o/objects.csv', -
    format          => json_object('trimspaces' value 'rtrim', 'skipheaders' value '1', 'dateformat' value 'YYYYMMDD'), -
    field_list      => 'object_id      (1:10)   char' || -
                      ', object_name    (11:40)  char' || -
                      ', object_type    (41:65)  char' || -
                      ', created_date1  (66:71)  date mask "YYMMDD"' || -
                      ', created_date2  (72:79)  date' || -
                      ', last_ddl_time  (80:87)  date' || -
                      ', status         (88:97)', -
   column_list     => 'object_id      number' || -
                      ', object_name    varchar2(30)' || -
                      ', object_type    varchar2(25)' || -
                      ', status         varchar2(10)' || -
                      ', created_date1  date' || -
                      ', created_date2  date' || -
                      ', last_ddl_time  date');

Select from the table.

OBJECT_ID OBJECT_NAME              OBJECT_TYPE            STATUS
---------- ------------------------------ ------------------------- ----------
CREATED_D CREATED_D LAST_DDL_
--------- --------- ---------
    20 ICOL$              TABLE             VALID
17-APR-19 17-APR-19 17-APR-19

     8 C_FILE#_BLOCK#          CLUSTER            VALID
17-APR-19 17-APR-19 17-APR-19

    37 I_OBJ2              INDEX             VALID
17-APR-19 17-APR-19 17-APR-19



That's all there is to it.

Enjoy !

Wednesday, February 10, 2021

Oracle Cloud object Store access with rlone.

 If you are using the Oracle Object Store as part of the Oracle Public Cloud, "rclone" is an open source tool you can use to make things easier.


One of the things I really like about RCLONE is that it provides a command line like interface that is easy to use.  If you have looked at the OCI cli tool, it requires a myriad of parameters.  Below is the command I was using with OCI to view my list of buckets (I obfuscated some of the values).

oci os bucket list --endpoint https://objectstorage.us-ashburn-1.oraclecloud.com  --namespace-name id20xxxxxofo --compartment-id ocid1.compartment.oc1..aaaaaaxxxxxxxxxxxxxxxxxcpqyvzzb4ykd3tyq --config-file ~/.oci/natdconfig 

In order to use the OCI tool, I had to constantly keep a text file open to copy and paste commands.

In comparison, this is the command to list the buckets in my object store using rlcone.

rclone ls oci_bucket:


1) Configure compatibility for an S3 interface in the Public cloud.

In your public cloud council, in the top right hand corner, click on the "silhouette" that controls you settings. in the pull down menu click on "user settings" to bring up the window to configure you resources.  Once there, click on "Customer Secret keys" and then "Generate Secret Key" bring up the window to add a secret key.



On this window give your secret key a name (like S3Key" in my case).  When you click the "Generate Secret key" button, it will give you secret associated with key. SAVE THIS.

Once complete, you will have 2 items associated with your account

NAME:            S3Key                                                        or whatever you named your key.
Access Key:    ddddddddddddeeeeeeeeeffffffffggggg      A uniquely identified key ID
Secret Key :   dd32234sdwercfwe                                     A system generated "secret"

2) Download rclone.

     This can easily be done from the  RCLONE.ORG site.

    Note: You chose the platform you want to execute rclone on, then download the .zip file.
              The .zip file contains the execute, and documentation.
              Copy the "rclone" executable to the location of your choice and make it executable.


2) Configure Rclone.

    You start by executing "rclone config". This will create a configuration file in ~/.config/rclone/rclone called rclone.conf.  This is an interactive interface that will set the correct configuration parameters to be used.

This is an example of what I entered to connect to my Object Store using the S3 interface.

--> rclone config

Give this entry a unique name to identify the S3 object store.
 
Name> oci_s3    <-- my entry name in the config file 


Type of storage to configure.
Enter a string value. Press Enter for the default ("").
Choose a number from below, or type in your own value
..
 4 / Amazon S3 Compliant Storage Provider (AWS, Alibaba, Ceph, Digital Ocean, Dreamhost, IBM COS, Minio, Tencent COS, etc)
..
Storage> 4      <-- 4 identifies this as an S3 compatible object store


Choose your S3 provider.
Enter a string value. Press Enter for the default ("").
Choose a number from below, or type in your own value
..
13 / Any other S3 compatible provider
..
provider> 13      <-- 13 identifies this as "other" S3 compatible object store


Get AWS credentials from runtime (environment variables or EC2/ECS meta data if no env vars).
Only applies if access_key_id and secret_access_key is blank.
Enter a boolean value (true or false). Press Enter for the default ("false").
Choose a number from below, or type in your own value
 1 / Enter AWS credentials in the next step
   \ "false"

 env_auth> 1     <-- 1 to identify that we are using  "AWS compatible Key" for authentication



AWS Access Key ID.
Leave blank for anonymous access or runtime credentials.
Enter a string value. Press Enter for the default ("").

access_key_id>  ddddddddddddeeeeeeeeeffffffffggggg   <-- This is the Access key ID that was generated from my name in the public cloud



AWS Secret Access Key (password)
Leave blank for anonymous access or runtime credentials.
Enter a string value. Press Enter for the default ("").

secret_access_key> dd32234sdwercfwe  --> The system generated key associated with my access key



Region to connect to.
Leave blank if you are using an S3 clone and you don't have a region.
Enter a string value. Press Enter for the default ("").
Choose a number from below, or type in your own value
 1 / Use this if unsure. Will use v4 signatures and an empty region.
   \ ""

region>        --> Leave blank



Endpoint for S3 API.
Required when using an S3 clone.
Enter a string value. Press Enter for the default ("").
Choose a number from below, or type in your own value

endpoint> {namespace}.compat.objectstorage.{region}.oraclecloud.com   --> Note that you will need to fill in your namespace from your account, and ensure the region is correct for the URL.


Location constraint - must be set to match the Region.
Leave blank if not sure. Used when creating buckets only.
Enter a string value. Press Enter for the default ("").

location_constraint>        --> Leave blank


Canned ACL used when creating buckets and storing or copying objects.

This ACL is used for creating objects and if bucket_acl isn't set, for creating buckets too.

For more info visit https://docs.aws.amazon.com/AmazonS3/latest/dev/acl-overview.html#canned-acl

Note that this ACL is applied when server side copying objects as S3
doesn't copy the ACL from the source but rather writes a fresh one.
Enter a string value. Press Enter for the default ("").
Choose a number from below, or type in your own value
 1 / Owner gets FULL_CONTROL. No one else has access rights (default).
   \ "private"

acl>          --> Leave blank


Edit advanced config? (y/n)
y) Yes
n) No (default)

 y/n>           --> Leave blank



Remote config
--------------------
[oci_s3]
type = s3
provider = Other
env_auth = false
access_key_id = S3_Key
secret_access_key = ddddddd...
endpoint = xxxxxxx.compat.objectstorage.us-ashburn-1.oraclecloud.com
--------------------
y) Yes this is OK (default)
e) Edit this remote
d) Delete this remote

y/e/d> y           --> y to save this entry



3) Validate rclone.


Now let's verify what got create.

> cat ~/.config/rclone/rclone.conf

[oci_s3]
type = s3
provider = other
env_auth = false
access_key_id =dd32234sdwercfwe
secret_access_key = dddddxxxxxx
endpoint = xxxxxxx.compat.objectstorage.us-ashburn-1.oraclecloud.com
acl = authenticated-read

That's It.  In my case 
  • the entry is "oci_s3"
  • The access key for S3 is dd32234sdwercfwe"
  • The secret associated with my S3 key is "dddddxxxxxx"
  • The end point I am connecting to is "xxxxxxx.compat.objectstorage.us-ashburn-1.oraclecloud.com"
    • "xxxxxxx" is my namespace
    • "us-ashburn-1" is my region


4) Using rclone.


Now with rclone I can execute commands against my object store that are more linux like.

rclone mkdir oci_s3:mybucket  --> will create a bucket named "mybucket"
rclone ls oci_s3:  --> will list all my buckets
rclone ls oci_s3:mybucket --> will list all the objects in my bucket.

I can also use it to copy to and from my bucket.

rlcone copy /home/oracle/myfile.txt oci_s3:mybucket   --> copies the file to the bucket.

Finally, a great command is sync to synchronize the contents of my on-prem to the cloud

 rlcone sync /home/oracle/mydir/ oci_s3:mybucket  --> this will sync the two locations

Now how fun with it !!







Tuesday, February 2, 2021

ZDLRA - Using Protection Policies to manage databases that have migrated or to be retired

 One the questions that keeps coming up with ZDLRA is how to manage the backups for a database that has either

  • Been migrated to another ZDRA
  • Been retired, but the backup needs to be kept for a period of time












The best way to deal with this by the use of Protection Policies.

How Protection Policies work:


If you remember right, Protection Policies are way of grouping databases together that have the same basic characteristics.

The most important of which are :

Name/Description             - Used to identify the Protection Policy
Recovery Window Goal    - How many days of recovery do you want to store at a minimum 
Max Retention Window    - (Optional) Maximum number of days of backups you want to keep
Unprotected Window        - (Optional) Used to set alerts for databases that are no longer receiving recovery data.

One of the common questions I get is.. What happens if I change the Protection Policy associated with my database ?

Answer :  By changing the Protection Policy a database is associated with, you are only changing the metadata.  Once the change is made, the database follows the Protection Policy rules it is now associated with, and no longer is associated with the old Protection Policy

How this plays out with a real example is... 
My Database (PRODDB) is a member of a Protection Policy (GOLD) which has a Recovery Window Goal of 20 days, and a Max Retention Window of 40 days (the default value being 2x the Recovery Window Goal).
My Database (PRODDB) currently has 30 days of backups, which is right in the middle. 



 What would normally happen for this database is (given enough space), backups will continue to be kept until PRODDB has 40 days of backups.  On day 41, a maintenance job (which runs daily) will execute, and find that my database, PRODDB, has exceeded it's Recovery Window Goal.  This job will remove all backups (in a batch process for efficiency) that are older than 20 days.

BUT ........................

Today, I moved my database, PRODDB, to a new protection policy (Silver) which only has a 10 day Recovery Window Goal, and a Max Recovery Window of 20 Days.


As I pointed out, the characteristics of the NEW Protection Policy will be used, and the next time the daily purge occurs, this database will be flagged, and all backups greater than the Recovery Window Goal will be purged.





Retiring databases: - 

One very common question how to handle the retiring of database.  As you might know, when you remove a database from the ZDLRA, ALL backups are removed from ZDLRA.
When a database is no longer sending backups to the ZDLRA,  the backups will continue to be purged until only a single level 0 backup remains.  This is to ensure that at least one backup is kept, regardless of the Max Recovery Window.
The best way to deal with Retiring database (and still keep the last Level 0 backup) through the use of Protection Policies.
In my example for my database PRODDB, I am going to retire the database instead of moving it to the Silver policy.  My companies standard is to  keep the final backup for my database available for 90 days, and on day 91 all backups can be removed.

These are requirements from the above information.
  • At least 1 backup is kept for 90 days, even though my Max Recovery Window was 40 days.
  • I want to know when my database has been retired for 90 days so I can remove it from the ZDLRA.
In order to accomplish both of these items, I am going to create a Protection Policy named RETIRED_DB with the following attributes
  • Recovery Window Goal of 2 days
  • Max Recovery Window of 3 Days
  • Unprotected Data Window of 90 days
  • New Alert in OEM to tell me when a database in this policy violates its Unprotected Data Window
If you look closely at the attributes, you will noticed that I decreased the Recovery Window Goal to allow backups to be removed after 3 days.  I also set the Unprotected Data Window to be 90 days.
What this looks like over  time is 




As you can see by moving it to the new policy, within a few days, all backups except for the most recent Full back is removed.  You can also see that on day 91 (when it's time to remove this database) I will be getting an alert.

Migrating Databases:

Migrating databases is very similar to retiring databases, except that I don't want remove the old backups until they naturally expire.  For my example of PRODB with a Recovery Window Goal of 20 days, as soon as I have a new Level 0 on the new ZDLRA, I will move this database to a new policy (GOLD_MIGRATED) with the following attributes.
  • Recovery Window Goal of 20 days, since I still need to preserve old backups
  • Max Recovery Window goal of 21 days. This will  remove the old backups as they age off.
  • Unprotected Data Window of 21 days, which will alert me that it time to remove this database.
How this would look over time time is.




Conclusion:

When retiring or migrating databases, Protection Policies can be leveraged to both
  • Ensure backups are removed as they age out until only a single L0 (Full) remains
  • Alert you when it is time to remove the database from the ZDLRA.

Thursday, January 21, 2021

ZFS as a swift object store

 This blog post goes through a feature of the ZFS Appliance that has been around for at least 3 years now. The Openstack Swift Object store.


When looking at the S3 API, and the OCI API, I forgot all about where it started.. With the Swift API.

I will go through the 3 APIs, and how they came about (from what I can find by reading through articles)..

It all started with the Swift API. Swift (V1) has simple authentication and a simple interface.

A URI to manage/access objects has the format of

HTTP://{object store server}/object/v1/{Account}/{bucket name}/{object name}.

In the case of ZFS, 

  • Account - this is the share name.. "/export/swiftshare" for example
  • Bucket name - The name of the bucket that was created
  • Object name - name of the object.
Authentication with Swift while using curl is typically a 2 step process.  
First the authorization URI is called
HTTP://{object store server}/auth/v1.0/{Account}

The username and password is sent with the authentication URI.  The URI then returns an auth token which is used in the curl command line to manage buckets/objects.

Username/password authentication (v1.0) is one of the 3 choices.
  1. Local username/password created on the ZDLRA.
  2. LDAP user ZFS ties to
  3. Keystone authentication server.
For all the testing I am doing on my ZFS simulator, I use a local user.

Before I go into how to configure and use the Swift interface on ZFS, I'll share what I was able to find out.

The Swift API has some limitations, and these limitations is what drove the move to S3.
As you probably noticed, the authentication and tracking of objects does not have enough details to support the segregation of users, and billing.
The S3 API takes the Swift API, and adds the ability to create separate tenants, set up billing, etc. All the things an enterprise needs to do.

With S3, you probably noticed that the authentication layer changed. It is based on secret name/secret rather than a username/password returning an auth token..

Well lets go through what it takes to configure the Swift interface.

First, most of the steps around configuring ZFS for an object store, I documented in my previous blog posts. 
If you look the posts below you see the steps on configuring a share,creating a local user on ZFS, and configuring the http service.

ZFS Appliance - Your on-premise cloud store


For Swift, I will just go the steps specific to Swift.

All I need to do is enable swift. That's it !



Swift gets enabled just like enabling the S3 API, and the OCI API. Because I do not have a Keystone Authentication Server (which would be the OpenStack Identity Service), I didn't fill those values in.

NOTE: Authentication for swift is a little different from S3, or OCI. Both of the other APIs do not tie directly to the local user.  S3 uses "secrets", and OCI uses a PEM file, and a Fingerprint.

Accessing my Swift bucket.

First some links to documentation that will give you examples of these ways of connecting.
Swift Guide for ZFS OS 8.8 release  -- Current release as of writing.
Using ZFS as an object store  -- This is old, but has a lot of detail and great detail
API Guide OS 8.8 for Swift Docs -- Current documentation guide

Also, since the Swift implementation is OpenStack, there is a lot of examples and documentation (non-oracle) available across the web.


I was able to access my bucket one of 3 ways

The first 2 ways are very similar

Swift command line tool - python based tool to connect to swift and manage buckets

CURL - Command line took similar to swift.



In order to create a bucket, and upload an object ......

First I execute the  curl command to get the authentication token.


NOTE: my ZFS emulator is 10.0.0.110 and my share is /export/short

curl -i http://10.0.0.110/auth/v1.0/export/short -X GET -H "X-Auth-User: oracle" -H "X-Auth-Key: oracle123"

HTTP/1.1 200 OK
Date: Thu, 21 Jan 2021 18:54:38 GMT
Server: Apache
X-Content-Type-Options: nosniff
X-Storage-Url: http://10.0.0.110:80/object/v1/export/short
X-Auth-Token: ZFSSA_522d6355-9056-4a95-9060-c88648007993
X-Storage-Token: ZFSSA_522d6355-9056-4a95-9060-c88648007993
Content-Length: 0
X-Trans-Id: tx62e2f031f21640c29a2bf-006009cdee
Content-Type: text/html; charset=utf-8

Next I execute create a bucket .

From the output  above I can get the "Auth Token", and the Storage URL to manage the object store in curl. Note that the Auth Token will expire.

Create a container in curl

curl -i http://10.0.0.110:80/object/v1/export/short/bucketswift -X PUT -H "Content-Length: 0" -H "X-Auth-Token: ZFSSA_522d6355-9056-4a95-9060-c88648007993"

Create a container in swift

swift post container -A http://10.0.0.110:80/object/v1/export/short -U oracle -K oracle123


That's all there is to it with the Swift Object Store on ZFS.




Tuesday, January 5, 2021

Managing an Object Store on ZFS

 This blog post will cover how to access the object store on ZFS to create buckets and upload files. For S3, I am using Cloudberry, which I downloaded here. For OCI, I am using the OCI cli tool.












S3 access to ZFS

This is the easiest, since the S3 object store on ZFS is an S3 compatible interface.

In cloudberry add a new account and use the following for input.





Note that you need to enter the 4 fields above.

  • Display Name -- What you want to call the new account entry
  • Service Point  -- This is the ZFS interface for S3 in the form of 
HTTP://{the IP of the ZFS}/s3/v1/{share name}
  • Access Key  -- This is the name you gave the S3 access key, when you added it to the ZFS
  • Secret Key   -- This is the long string of characters that was returned by ZFS when you created the key.
That's it ! You can now use cloudberry to create buckets, upload files, sync object stores etc.


OCI access to ZFS

Install the CLI

Like the Oracle cloud, there is currently (as of me writing the blog post), no GUI tool like cloudberry that will connect to an OCI object store.  When connecting to the Oracle cloud, you can access the OCI object store through the S3 interface, but this is not possible on ZFS. Both the OCI and S3 object store are independent and cannot access buckets etc. in the other object store.

In order to access ZFS through OCI we start with downloading the OCI cli tool. Documentation on how do this can be found here.

In my install, I took the easy route  (and since I had a Ubuntu client with root access to play with). I installed it directly using "sudo pip install oci-cli"

Create a config file.


Once you have the OCI cli installed we need to set up a configuration file to be used.
The default file is ~/.oci/config, but this location can be changed when using the command if you access multiple OCI installations.

This is the contents of my file.


1
2
3
4
5
6
7
[DEFAULT]
user=ocid1.user.oc1..oracle
fingerprint=1e:6e:0e:79:38:f5:08:ee:7d:87:86:01:13:54:46:c6
key_file=/home/oracle/opc/oracle_private.pem
tenancy=ocid1.tenancy.oc1..nobody
region=us-phoenix-1
pass_phrase = oracle

Now to walk through each line.

1. This identified the entry. Since the config file can contain entries for multiple OCI locations, this entry is identified as the default entry to use (If I don't specify one).
2. This is the user ID.  Since I am using ZFS, the format is "ocid1.user.oc1..{zfs user}"
3. This is the fingerprint. I mentioned in the last blog post that this will be needed. This fingerprint identifies the API public_key entry on ZFS to use when matching the private API key being sent
4. This is the private key file. This contains the private API key that matches the public key that was added to the ZFS.
5. This is unimportant to ZFS, but is required to be set. Use the entry above.
6. Like #5. this is not used by ZFS but is needed by the OCI client.
7. This is optional. If the API private key was created with a pass_phrase, this the pass_phrase that matches the private key.


Create a bucket on OCI.

Almost there now ! We have everything in place for authentication, and we are ready to create an OCI bucket on ZFS for storing data.

The command is 

oci os bucket create --endpoint {OCI object store location} --namespace-name {location on the object store} --compartment-id {compartment in OCI} --name {new bucket name}


Now let's walk through what the parameters will be for ZFS

--endpoint               -> For my ZFS appliance, it is the url + oci
--namespace-name  -> This is the share on the ZFS.  "/export/short" in my config.
--compartment-id    -> This is also the share on the ZFS.  "/export/short" in my config.
--name                     -> the name of the bucket I want to create.

For my configuration below is the command and the output.. I now have a bucket created, and I am able upload data !


oci os bucket create --endpoint http://10.0.0.110/oci --namespace-name export/short --compartment-id export/short --name mynewbucket 

{
  "data": {
    "approximate-count": null,
    "approximate-size": null,
    "compartment-id": "export/short",
    "created-by": "oracle",
    "defined-tags": null,
    "etag": "a51c8ecbf1429f95b446c4413df9f494",
    "freeform-tags": null,
    "id": null,
    "is-read-only": null,
    "kms-key-id": null,
    "metadata": null,
    "name": "mynewbucket",
    "namespace": "export/short",
    "object-events-enabled": null,
    "object-lifecycle-policy-etag": null,
    "public-access-type": "NoPublicAccess",
    "replication-enabled": null,
    "storage-tier": "Standard",
    "time-created": "2021-01-05T16:15:05+00:00",
    "versioning": null
  },
  "etag": "a51c8ecbf1429f95b446c4413df9f494"
}



ADVANCED TOPIC -- SSL with OCI CLI


Now let's say I want to encrypt my connections to OCI and use the HTTPS server available on ZFS.
First I need to create a file containing the certificate. I can get the certificate by executing.

openssl s_client -showcerts -connect 10.0.0.110:443

This returns a lot of information, but within the output I can see the certificate, and I can copy and paste into a file.

Certificate chain
 0 s:CN = 10.0.0.110, description = https://10.0.0.110:215/#cert
   i:CN = 10.0.0.110, description = https://10.0.0.110:215/#cert
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
---
Server certificate
subject=CN = 10.0.0.110, description = https://10.0.0.110:215/#cert

I want to copy the certificate including the "BEGIN CERTIFICATE" and "END CERTIFICATE" lines into a file. 

I now need to set my environment to see the certificate file and use it. In my case "/home/oracle/opc/wallet_cloud/zfs.cer"

export REQUESTS_CA_BUNDLE=/home/oracle/opc/wallet_cloud/zfs.cer

I can now view the buckets in my object store, and upload files encrypted.

oci os bucket list --endpoint https://10.0.0.110/oci --namespace-name export/short --compartment-id export/short 
{
  "data": [
    {
      "compartment-id": "export/short",
      "created-by": "oracle",
      "defined-tags": null,
      "etag": "a51c8ecbf1429f95b446c4413df9f494",
      "freeform-tags": null,
      "name": "mynewbucket",
      "namespace": "export/short",
      "time-created": "2021-01-05T16:15:05+00:00"
    }
  ]
}


The OCI documentation should give you everything you need to upload/download objects within a bucket.