|
Site searchUser loginAggregator
[latest] [categories]
Please use the contact form to include your blog here, suggest a feed, or give feedback. If your blog is aggregated on OraFAQ, you may want to display this image on your blog: 
Follow us on Twitter Aggregator feed:  |
Yann NeuhausHow to fix your own SQL plan in Oracle ?There is time when you have build an SQL plan and then you want to fix it for all next executions of the query by your application. In this post I show how fix a plan you have created by yourself. First we need to identified the query SQL> select /* INDEX_ACCESS */ line_item_id, product_id, unit_price, quantity from ORDER_ITEMS where order_id = 234098 ;
LINE_ITEM_ID PRODUCT_ID UNIT_PRICE QUANTITY
------------ ---------- ---------- ----------
1 414 851 5
2 499 818 3
Execution Plan
----------------------------------------------------------
Plan hash value: 4159986352
-----------------------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-----------------------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 3 | 57 | 5 (0)| 00:00:01 |
| 1 | TABLE ACCESS BY INDEX ROWID BATCHED| ORDER_ITEMS | 3 | 57 | 5 (0)| 00:00:01 |
|* 2 | INDEX RANGE SCAN | ITEM_ORDER_IX | 3 | | 3 (0)| 00:00:01 |
-----------------------------------------------------------------------------------------------------
In that example I’ll take an application query against the ORDER_ITEMS table. I find hat query too fast because it is using the index ITEM_ORDER_IX which is based on the primary key. So we are going to force that query to be executed by accessing the whole table without using any index. Here I’ll use the hint FULL to do the job. SQL> select /* FULL_ACCESS */ /*+ full(ORDER_ITEMS) */ line_item_id, product_id, unit_price, quantity from ORDER_ITEMS where order_id = 234098 ;
LINE_ITEM_ID PRODUCT_ID UNIT_PRICE QUANTITY
------------ ---------- ---------- ----------
1 414 851 5
2 499 818 3
Execution Plan
----------------------------------------------------------
Plan hash value: 456270211
---------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
---------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 3 | 57 | 2022 (1)| 00:00:01 |
|* 1 | TABLE ACCESS FULL| ORDER_ITEMS | 3 | 57 | 2022 (1)| 00:00:01 |
---------------------------------------------------------------------------------
On both queries I added a comment to make it easier to retrieve information in the SQL views from Oracle. Now I can get the statistic about my queries: SQL> @sql SQL_ID PLAN_HASH_VALUE SQL_PLAN_BASELINE EXECUTIONS ELAPSED_TIME EXACT_MATCHING_SIGNATURE SQL_TEXT -------------- ---------------- ------------------------------ ---------- ------------ ------------------------ -------------------------------------------------- 8ms87fhrq01xh 4159986352 25 5199 18199500880047668241 select /* INDEX_ACCESS */ line_item_id, product_id 55x955b31npwq 456270211 3 155947 10822814485518112755 select /* FULL_ACCESS */ /*+ full(ORDER_ITEMS) */
Plan control So my goal is to force the application query “8ms87fhrq01xh” to use the plan from my manual modified query “55x955b31npwq”. To do so, I’m going to use the “SQL Plan Management” from Oracle which is embedded from the release 11 and can be used with the DBMS_SPM package. First I need to load the plan from my application query into SPM baseline: SQL> set serveroutput on declare plans_loaded pls_integer ; begin plans_loaded := dbms_spm.load_plans_from_cursor_cache( sql_id => '8ms87fhrq01xh' ) ; dbms_output.put_line( 'plans loaded: '||plans_loaded ) ; end ; / plans loaded: 1 PL/SQL procedure successfully completed.
I have now a new cursor in the SQL view with the SQL_PLAN_BASELINE identifier: SQL> @sql SQL_ID PLAN_HASH_VALUE SQL_PLAN_BASELINE EXECUTIONS ELAPSED_TIME EXACT_MATCHING_SIGNATURE SQL_TEXT -------------- ---------------- ------------------------------ ---------- ------------ ------------------------ -------------------------------------------------- 8ms87fhrq01xh 4159986352 25 5199 18199500880047668241 select /* INDEX_ACCESS */ line_item_id, product_id 8ms87fhrq01xh 4159986352 SQL_PLAN_gt4cxn0aacz0j91520601 1 21703 18199500880047668241 select /* INDEX_ACCESS */ line_item_id, product_id 55x955b31npwq 456270211 3 155947 10822814485518112755 select /* FULL_ACCESS */ /*+ full(ORDER_ITEMS) */
I can now find the SPM content for my SQL: SQL> @spm Enter value for signature: 18199500880047668241 old 9: where signature = '&signature.' new 9: where signature = '18199500880047668241' SIGNATURE SQL_HANDLE PLAN_NAME ENABL ACCEP FIXED --------------------- ------------------------------ ------------------------------ ----- ----- ----- 18199500880047668241 SQL_fc919da014a67c11 SQL_PLAN_gt4cxn0aacz0j91520601 YES YES NO
What we need to do now is to inject into the SPM baseline the plan from my modified query. To do so, I need the SQL_HANDLE of my application query and the couple of SQL_ID+PLAN_HASH_VALUE of the modified query to inject its plan into the plan baseline of my application query: SQL> set serveroutput on
declare
plans_loaded pls_integer ;
begin
plans_loaded := dbms_spm.load_plans_from_cursor_cache(
sql_id => '55x955b31npwq',
plan_hash_value => 456270211,
sql_handle => 'SQL_fc919da014a67c11'
) ;
dbms_output.put_line( 'plans loaded: '||plans_loaded ) ;
end ;
/
plans loaded: 1
PL/SQL procedure successfully completed.
Now, let’s seen what’s in the baseline of our application query: SQL> @spm
Enter value for signature: 18199500880047668241
old 9: where signature = '&signature.'
new 9: where signature = '18199500880047668241'
SIGNATURE SQL_HANDLE PLAN_NAME ENABL ACCEP FIXED
--------------------- ------------------------------ ------------------------------ ----- ----- -----
18199500880047668241 SQL_fc919da014a67c11 SQL_PLAN_gt4cxn0aacz0j91520601 YES YES NO
18199500880047668241 SQL_fc919da014a67c11 SQL_PLAN_gt4cxn0aacz0jf91228bb YES YES NO
A new plan called “SQL_PLAN_gt4cxn0aacz0jf91228bb” has been generated and I know want to be sure it is the only one that are goin gto be used. Thus we need to fix it: SQL> set serveroutput on
declare
plans_loaded pls_integer ;
begin
plans_loaded := dbms_spm.alter_sql_plan_baseline(
sql_handle => 'SQL_fc919da014a67c11',
plan_name => 'SQL_PLAN_gt4cxn0aacz0jf91228bb',
attribute_name => 'fixed',
attribute_value => 'YES'
) ;
dbms_output.put_line( 'plans modified: '||plans_loaded ) ;
end ;
/
plans modified: 1
PL/SQL procedure successfully completed.
SQL> @spm
Enter value for signature: 18199500880047668241
old 9: where signature = '&signature.'
new 9: where signature = '18199500880047668241'
SIGNATURE SQL_HANDLE PLAN_NAME ENABL ACCEP FIXED
--------------------- ------------------------------ ------------------------------ ----- ----- -----
18199500880047668241 SQL_fc919da014a67c11 SQL_PLAN_gt4cxn0aacz0j91520601 YES YES NO
18199500880047668241 SQL_fc919da014a67c11 SQL_PLAN_gt4cxn0aacz0jf91228bb YES YES YES
Then, my Full access plan is fixed and I can check if the index on the primary key is still in used: SQL> select /* INDEX_ACCESS */ line_item_id, product_id, unit_price, quantity from ORDER_ITEMS where order_id = 234098
LINE_ITEM_ID PRODUCT_ID UNIT_PRICE QUANTITY
------------ ---------- ---------- ----------
1 414 851 5
2 499 818 3
Execution Plan
----------------------------------------------------------
Plan hash value: 456270211
---------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
---------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 3 | 57 | 2022 (1)| 00:00:01 |
|* 1 | TABLE ACCESS FULL| ORDER_ITEMS | 3 | 57 | 2022 (1)| 00:00:01 |
---------------------------------------------------------------------------------
I can monitor the plan usage from the SQL view to check if the application has is executing the query with the new plan: SQL> @sql SQL_ID PLAN_HASH_VALUE SQL_PLAN_BASELINE EXECUTIONS ELAPSED_TIME EXACT_MATCHING_SIGNATURE SQL_TEXT -------------- ---------------- ------------------------------ ---------- ------------ ------------------------ -------------------------------------------------- 8ms87fhrq01xh 456270211 SQL_PLAN_gt4cxn0aacz0jf91228bb 6 145687 18199500880047668241 select /* INDEX_ACCESS */ line_item_id, product_id 55x955b31npwq 456270211 3 155947 10822814485518112755 select /* FULL_ACCESS */ /*+ full(ORDER_ITEMS) */
As I see that both queries are currently using the same plan, I know that my application is now using the new plan with the full access to the ORDER_ITEMS table. I hope this demonstration may help and please do not hesitate to contact us if you have any further questions or observations. Scripts used in this article: -- script sql.sql set lines 180 pages 500 col sql_id format a14 col sql_plan_baseline format a30 col plan_hash_value format 999999999999999 col exact_matching_signature format 99999999999999999999 col sql_text format a50 select sql_id, plan_hash_value, sql_plan_baseline, executions, elapsed_time, exact_matching_signature, substr(sql_text,0,50) sql_text from v$sql where parsing_schema_name != 'SYS' and sql_text like '%_ACCESS%' ; -- script spm.sql set lines 200 set pages 500 col signature format 99999999999999999999 col sql_handle format a30 col plan_name format a30 col enabled format a5 col accepted format a5 col fixed format a5 select signature, sql_handle, plan_name, enabled, accepted, fixed from dba_sql_plan_baselines where signature = '&signature.' Cet article How to fix your own SQL plan in Oracle ? est apparu en premier sur Blog dbi services. ADWC new OCI interfaceA few things have changed about the Autonomous Data Warehouse Cloud service recently. And I’ve found the communication not so clear, so here is a short post about what I had to do to start the service again. The service has always been on the OCI data centers but was managed with the classic management interface. It has been recently migrated to the new interface: The service itself did not have any outage. The migration concerns only the interface. However, once the migration done, you cannot use the old interface. I went to the old interface with the URL I bookmarked, tried to start the service, and got a ‘last activity START_SERVICE failed’ error message without additional detail. You can forget the old bookmark (such as https://psm-tenant.console.oraclecloud.com/psmui/faces/paasRunner.jspx?serviceType=ADWC) and you now have to use the new one (such as https://console.us-ashburn-1.oraclecloud.com/a/db/adws/ocid1.autonomousdwdatabase.oc1.iad.al-long-IAD-identifier) So I logged to the console https://console.us-ashburn-1.oraclecloud.com (My service is in Ashburn-1 region). There I provided the tenant name (was the cloud account in the old interface) which can also be provided in the URL as https://console.us-ashburn-1.oraclecloud.com/?tenant=tenant. I selected oracleidentitycloudservice as the ‘identity provider’, my username and password and I am on the OCI console. From the top-left menu, I can go to Autonomous Data Warehouse. I see nothing until I choose the compartement in the ‘list scope’. The ADWC service I had created when in the old interface is in the ‘tenant (root)’ compartment. Here I can start the service. The previous PSM command line interface cannot be used anymore. We need to install the OCI CLI: If you used the REST API, they change completely. You will have to post to something like: Cet article ADWC new OCI interface est apparu en premier sur Blog dbi services. Convert a WebLogic Cluster from configured to dynamicUnless the servers in cluster are not symmetric, which is not recommended anyway, dynamic cluster have many advantages against configured cluster:
Server template
A server template defines a set of attributes. A change in a template will be propagated to all server depending on it. A dynamic cluster can be based on a server template. Here is an overview of the configured to dynamic change:
Procedure
Cluster is now dynamic and you can easily add or remove managed servers from cluster.
What Next ?
This was a quick overview of how to convert configured to dynamic cluster. As we saw, it still require manual intervention to add or remove servers from cluster. Coming with 12.2.1, WebLogic introduce a new feature called “elasticity”. This feature allows to automatically scales the amount of managed servers in the cluster based on user defined policies. Thanks to WebLogic Diagnostic Framework (WLDF) Policies, it is possible to monitor memory, CPU usage, threads and then trigger a scale up or down action. Cet article Convert a WebLogic Cluster from configured to dynamic est apparu en premier sur Blog dbi services. Is adding a column to a typed table in PostgreSQL instant?Today at the SOUG Day I did some little demos and one of them was about creating typed tables. In the demo the two tables did not contain any rows and one of the questions was: When these tables contain a million of rows would adding a column be instant as well? Lets do a quick test.
Same setup as in the post referenced above: Two schemas, one type, two tables based on the type:
postgres=# select version();
version
----------------------------------------------------------------------------------------------------------------------------
PostgreSQL 10.4 build on x86_64-pc-linux-gnu, compiled by gcc (GCC) 4.8.5 20150623 (Red Hat 4.8.5-28), 64-bit
(1 row)
postgres=# create schema a;
CREATE SCHEMA
postgres=# create schema b;
CREATE SCHEMA
postgres=# create type typ1 as ( a int, b text );
CREATE TYPE
postgres=# create table a.t1 of typ1;
CREATE TABLE
postgres=# create table b.t1 of typ1;
CREATE TABLE
postgres=# insert into a.t1
postgres-# select a.*
postgres-# , md5(a::text)
postgres-# from generate_series(1,1000000) a;
INSERT 0 1000000
postgres=# insert into b.t1 select * from a.t1;
INSERT 0 1000000
postgres=#
Both of the tables contain 1’000’000 rows so how much time would a modification of the type take?
postgres=# \timing
Timing is on.
postgres=# alter type typ1 add attribute c timestamp cascade;;
ALTER TYPE
Time: 9.338 ms
Time: 0.867 ms
postgres=# \d a.t1
Table "a.t1"
Column | Type | Collation | Nullable | Default
--------+-----------------------------+-----------+----------+---------
a | integer | | |
b | text | | |
c | timestamp without time zone | | |
Typed table of type: typ1
postgres=# \d b.t1
Table "b.t1"
Column | Type | Collation | Nullable | Default
--------+-----------------------------+-----------+----------+---------
a | integer | | |
b | text | | |
c | timestamp without time zone | | |
Typed table of type: typ1
Almost instant. Btw: Of course you can also remove an attribute from the type:
postgres=# alter type typ1 drop attribute c cascade;
ALTER TYPE
Time: 14.417 ms
postgres=# \d a.t1
Table "a.t1"
Column | Type | Collation | Nullable | Default
--------+---------+-----------+----------+---------
a | integer | | |
b | text | | |
Typed table of type: typ1
postgres=# \d b.t1
Table "b.t1"
Column | Type | Collation | Nullable | Default
--------+---------+-----------+----------+---------
a | integer | | |
b | text | | |
Typed table of type: typ1
Cet article Is adding a column to a typed table in PostgreSQL instant? est apparu en premier sur Blog dbi services. Introducing SQL managed instances on AzureI never wrote about data platform solutions on Azure so far. The fact is in Switzerland we’re definitely late about the Cloud adoption and Azure data platform solutions. There are different reasons that are more or less valid but I don’t want to contribute to any debate here. In any case the last announcements in this field with Azure data centers in Switzerland could encourage customers to reconsider this topic in the near future. Don’t get me wrong here, it doesn’t mean that customers in Switzerland must move all their database infrastructures in the Cloud but this is just an opportunity for them to consider rearchitecting some pieces of their information system including databases that may lead to hybrid scenarios. It will be likely the first step to the cloud adoption for data platforms solutions. At dbi services we didn’t exclude Azure from our target but we just silently continued to keep an eye on the data platform stack awaiting the right opportunity to move up a gear.
Why to begin with SQL managed instances (MI)? After all, this feature is still on preview and it already exists a lot of Azure solutions as Azure SQL Databases (singleton and with elastic pool as well) as well as SQL Server on Azure VMs. The point is this new feature is interesting in many aspects. Firstly, it will address the gap that currently exists between IaaS infrastructures (SQL Server VMs) and fully-managed services (with Azure SQL DBs). The former still requires maintaining the operating system (and licenses) while the latter didn’t expose all the feature surface needed by various application scenarios. At the same time, Microsoft introduced another purchasing model that based on VCore. I remembered a discussion with one of my customers sometimes ago about DTUs. He asked me what is exactly DTU and I pointed out the following sentence from the Microsoft documentation. The amount of resources is calculated as a number of Database Transaction Units or DTUs and is a bundled measure of compute, storage, and IO resources That is definitely a good way to simply resource management because it makes an abstraction of the physical resources but this is probably it weakness in some degrees. Indeed, how to translate what DBAs and infrastructure team usually manage from on-premises to the cloud? Obviously, Microsoft provided a calculator to help customers to address their questions before moving to the cloud but the fact is database administrators seem to not be comfortable to deal with DTUs . But now let’s talk about flexibility: in many databases scenarios we don’t want to increase / decrease resources in the same bundle but we want to get a better control of the resource configuration by dissociating compute (CPU / RAM) from the storage. From my experience, I had never seen one customer to scale compute and storage in the same manner regarding their workload. Indeed, some workloads require high-performance storage while others are more CPU-bound. This is where the new vCore-based model comes into play by and I believe it will get a better adoption from customers to smoothly move to the cloud. That’s at least my opinion! So, let’s try to play with MI. As a reminder, currently it is in preview but that’s enough to get a picture of what you may expect in the future. In my demo, I will use intensively CLI tools with dedicated PowerShell cmdlets and mssql-cli as well. This is voluntary because the fact is more and more administration tasks are done in this way and Microsoft provided all the commands to achieve them. [dab@DBI-LT-DAB:#]> Get-AzureRmResourceGroup -Name sql-mi-rg ResourceGroupName : sql-mi-rg Location : westeurope ProvisioningState : Succeeded Tags : ResourceId : /subscriptions/913528f5-f1f8-4d61-af86-30f2eb0839ba/resourceGroups/sql-mi-rg [dab@DBI-LT-DAB:#]> Get-AzureRmResource -ResourceGroupName sql-mi-rg | ft Name, ResourceType, Location -AutoSize Name ResourceType Location ---- ------------ -------- sql-mi-client_OsDisk_1_842d669310b04cbd8352962c4bda5889 Microsoft.Compute/disks westeurope sql-mi-client Microsoft.Compute/virtualMachines westeurope shutdown-computevm-sql-mi-client Microsoft.DevTestLab/schedules westeurope sql-mi-client453 Microsoft.Network/networkInterfaces westeurope sql-mi-client-nsg Microsoft.Network/networkSecurityGroups westeurope sqlmiclientnsg675 Microsoft.Network/networkSecurityGroups westeurope sql-mi-client-ip Microsoft.Network/publicIPAddresses westeurope sqlmiclientip853 Microsoft.Network/publicIPAddresses westeurope sql-mi-routetable Microsoft.Network/routeTables westeurope sql-mi-vnet Microsoft.Network/virtualNetworks westeurope sql-mi-dbi Microsoft.Sql/managedInstances westeurope sql-mi-dbi/ApplixEnterprise Microsoft.Sql/managedInstances/databases westeurope sql-mi-dbi/dbi_tools Microsoft.Sql/managedInstances/databases westeurope VirtualClustersql-mi-subnet Microsoft.Sql/virtualClusters westeurope sqlmirgdiag947 Microsoft.Storage/storageAccounts westeurope My MI is composed of difference resources including:
Here some more details of my MI: [dab@DBI-LT-DAB:#]> Get-AzureRmSqlManagedInstance | ft ManagedInstanceName, Location, ResourceGroupName, LicenseType, VCores, StorageSizeInGB -AutoSize ManagedInstanceName Location ResourceGroupName LicenseType VCores StorageSizeInGB ------------------- -------- ----------------- ----------- ------ --------------- sql-mi-dbi westeurope sql-mi-rg LicenseIncluded 8 32
I picked up a GEN4 configuration based on General Purpose pricing that includes 8 VCores and 32GB of storage. My managed databases are as follows: [dab@DBI-LT-DAB:#]> Get-AzureRmSqlManagedDatabase -ManagedInstanceName sql-mi-dbi -ResourceGroupName sql-mi-rg | ft Name, ManagedInstanceName, Location, DefaultSecondaryLoc ation, Status, Collation -AutoSize Name ManagedInstanceName Location DefaultSecondaryLocation Status Collation ---- ------------------- -------- ------------------------ ------ --------- dbi_tools sql-mi-dbi westeurope northeurope Online Latin1_General_CS_AS_KS ApplixEnterprise sql-mi-dbi westeurope northeurope Online SQL_Latin1_General_CP1_CI_AS
Other resources are related to my other virtual client machine to connect to my MI. Indeed, the latter is not exposed through a public endpoint and it is reachable only from an internal network. I didn’t setup a site-to-site VPN to connect the MI from my remote laptop. Another point that drew my attention is the high availability feature which is based on remote storage and Azure Service Fabric.
Do you remember of the VirtualClustersql-mi-subnet described earlier? In fact, my MI is built upon a service fabric. Referring to the Microsoft documentation a Service Fabric enables you to build and manage scalable and reliable applications composed of microservices that run at high density on a shared pool of machines, which is referred to as a cluster. We may get a picture of this underlying cluster from a set of dedicated sys.dm_hadr_fabric_* DMVs with a high-level view of the underlying cluster …
… and a more detailed view including my managed databases:
Now let’s get basic information from my MI:
The MI version may be easily identified by the engine_sql number equal to 8. As said previously I have two user databases that exist and they were restored from backups hosted on my blob storage container. Here an example of commands I used to restore them. You probably recognize the native RESTORE FROM URL syntax. Note also that you have different ways to restore / migrate your databases from on-premises environment with BACPAC and Azure Database Migration Service as well. RESTORE FILELISTONLY FROM URL = 'https://mikedavemstorage.blob.core.windows.net/backup/ApplixEnterprise2014.bak' RESTORE DATABASE [ApplixEnterprise] FROM URL = 'https://mikedavemstorage.blob.core.windows.net/backup/ApplixEnterprise2014.bak';
Here a list of my existing user databases:
Let’s go further with database files configuration: SELECT DB_NAME(database_id) AS [db_name], file_id, type_desc, name AS [logical_name], physical_name, state_desc AS [state], size / 128 AS size_MB, max_size FROM sys.master_files; GO
Some interesting points here: 1 – tempdb is pre-configured with 12 data files and 16MB each? Probably far from our usualk recommendation but anyway the preview allows to change it by using DBA usual scripts. 2- We may also notice that the user databases are placed on a different storage types (premium disk according to the Microsoft documentation). System databases are hosted to a local path C:\WFRoot\DB 3\Fabric\work\data\ as well as well the tempdb database. I use a standard tier meaning that system DBs are all on an attached SSD included in the VCore price. Just for fun, I tried to install our DMK maintenance tool which basically creates a dbi_tools database with maintenance objects (tables and stored procedures) and related SQL Server agent jobs. A databasemail configuration step is also part of the DMK installation and the good news is the feature is available with MIs. However, I quickly ran into was about some ALTER DATABASE commands we use at the beginning of the deployment script: Msg 5008, Level 16, State 14, Line 72 This ALTER DATABASE statement is not supported. Correct the syntax and execute the statement again. Msg 5069, Level 16, State 1, Line 72 ALTER DATABASE statement failed. Msg 5008, Level 16, State 14, Line 89 This ALTER DATABASE statement is not supported. Correct the syntax and execute the statement again. Msg 5069, Level 16, State 1, Line 89 ALTER DATABASE statement failed.
The fix was quite easy and I finally managed to deploy the tool as show below:
The next step consisted in testing our different maintenance tasks:
The first 3 tasks worked well without any modification. However, for backups, I needed to used URL-based backups because it is the only method supported so far. Unfortunately, the current version of our DMK maintenance tool doesn’t not handled correctly it does shared access signatures that come with BACKUP TO URL command since SQL Server 2016. The fix will be included soon to the next release for sure :). For the context of my test I modified a little bit the statement generated by the maintenance objects and it worked perfectly: -- Backup database dbi_tools BACKUP DATABASE [dbi_tools] TO URL = 'https://sqlmidbistorage.blob.core.windows.net/sqlmidbicontainer/sql-mi-dbi.weu157eee5444ccf.database.windows.net_dbi_tools_1_20180611210123.BAK' WITH COPY_ONLY, CHECKSUM, INIT, FORMAT; --Verification of the backup https://sqlmidbistorage.blob.core.windows.net/sqlmidbicontainer/sql-mi-dbi.weu157eee5444ccf.database.windows.net_dbi_tools_1_20180611210123.BAK RESTORE VERIFYONLY FROM URL = 'https://sqlmidbistorage.blob.core.windows.net/sqlmidbicontainer/sql-mi-dbi.weu157eee5444ccf.database.windows.net_dbi_tools_1_20180611210123.BAK' WITH STATS = 100, CHECKSUM;
And to finish this blog post as a good DBA, let’s have a look at the resource allocation management. First time I took a look at the resources available on the MI I was very surprised. To get an idea, let’s run some DMVs as sys.dm_os_schedulers, sys.dm_os_sys_memory or sys.dm_os_sys_info DMVs to get a real picture of these aforementioned resources:
Given the number of visible online schedulers only 8 may be used by the MI. This is an expected outcome according to my initial configuration. Concerning the memory configuration, the theorical amount of memory available I can get should be 8 x 7GB = 56GB according the Microsoft documentation and the sys.dm_os_sys_memory DMV doesn’t really indicate such capping while the sys.dm_os_sys_info DMV does (at least closer to the reality)
Are the CPU and memory resources managed differently on MI? I found out the right answer in this article from the SQL Server customer advisor team. For MI, this mechanism that is responsible of resource management is called Job Objects. That’s very interesting! Without going into details, this is exactly the same mechanism used by Docker on Windows and it is similar (at least in the concept) to existing CGroups on Linux. Therefore, we may also benefit from another DMV to get details of resource management:
Thanks to this SQL Server customer advisor team article, the situation becomes clearer with the following parameter values:
Conclusion I think Microsoft is doing a great strategic play by introducing this solution for customers. Indeed, change is always a challenge and moving towards something almost similar to what we already know allows a smooth transition and a better adoption from humans. We will see what happens! Cet article Introducing SQL managed instances on Azure est apparu en premier sur Blog dbi services. Change Data Capture from Oracle with StreamSet Data CollectorWith this trend of CQRS architectures where the transactions are streamed to a bunch of heterogenous eventually consistent polyglot-persistence microservices, logical replication and Change Data Capture becomes an important component, already at the architecture design phase. This is good for existing products vendors such as Oracle GoldenGate (which must be licensed even to use only the CDC part in the Oracle Database as Streams is going to be desupported) or Dbvisit replicate to Kafka. But also for Open Source projects. There are some ideas running on (Debezium), VOODOO but not yet released. Today I tested the Oracle CDC Data Collector for StreamSets. StreamSets Data Collector is an open-source project started by former people from Cloudera and Informatica, to define pipelines streaming data from data collectors. It is easy, simple and has a buch of destinations possible. The Oracle CDC is based on LogMiner which means that it is easy but may have some limitations (mainly datatypes, DDL replication and performance). The installation guide is at streamsets.com. I choose the easiest way for testing as they provide a Docker container (https://github.com/streamsets) The default user/password is admin/admin The GUI looks simple and efficient. There’s a home page where you define the ‘pipelines’ and monitor them running. In the pipelines, we define sources and destinations. Some connectors are already installed, others can be automatically installed. For Oracle, as usual, you need to download the JDBC driver yourself because Oracle doesn’t allow to get it embedded for legal reasons. I’ll do something simple here just to check the mining from Oracle.
I’ll use the Oracle Change Data Capture here, based on Oracle LogMiner. The GUI is very easy: just select ‘Oracle CDC’ as source in a new pipeline. Click on it and configure it. I’ve set the minimum here. Then I’ve defined the replication in the Oracle CDC tab. Schema to ‘SCOTT’ and Table Name Pattern to ‘%’. Initial Change as ‘From Latest Change’ as I just want to see the changes and not actually replicate for this first test. But of course, we can define a SCN here which is what must be used to ensure consistency between the initial load and the replication. ‘Dictionary source to ‘Online Catalog’ – this is what will be used by LogMiner to map the object and column IDs to table names and column names. But be carefull as table structure changes may not be managed correctly with this option. I know that the destination part is easy. I just want to see the captured changes here and I took the easiest destination: Named Pipe where I configured only the Named Pipe (/tmp/scott) and Data Format (JSON) The Oracle redo log stream is by default focused only on recovery (replay of transactions in the same database) and contains only the minimal physical information requried for it. In order to get enough information to replay them in a different database we need supplemental logging for the database, and for the objects involved: And that’s all. Just run the pipeline and look at the logs:
StreamSet Oracle CDC pulls continuously from LogMiner to get the changes. Here are the queries that it uses for that: This starts to mine between two timestamp. I suppose that it will read the SCNs to get finer grain and avoid overlapping information. And here is the main one: Then I’ve run this simple insert (I’ve added a primary key on this table as it is not ther from utlsampl.sql): And I committed (as it seems that StreamSet buffers the changes until the end of the transaction) and here I got the message from the pipe: The graphical interface shows how the pipeline is going: I’ve tested some bulk loads (direct-path inserts) and it seems to be managed correctly. Actually, this Oracle CDC is based on LogMiner so it is fully supported (no mining of proprietary redo stream format) and limitations are clearly documented. MonitoringRemember that the main work is done by LogMiner, so don’t forget to look at the alert.log on the source database. With big transactions, you may need large PGA (but you can also choose buffer to disk). If you have Oracle Tuning Pack, you can also monitor the main query which retreives the redo information from LogMiner: This product is very easy to test, so you can do a Proof of Concept within a few hours and test for your context: supported datatypes, operations and performance. By easy to test, I mean: very good documentation, very friendly and responsive graphical interface, very clear error messages,… Cet article Change Data Capture from Oracle with StreamSet Data Collector est apparu en premier sur Blog dbi services. Do you need the same column with the same check constraint twice? Create a domain!Did you know that you can create domains in PostgreSQL? No, nothing to worry about. We’ll take Frank’s leave for a new opportunity as a chance to introduce the concept of domains. @Franck: Yes, although we all fully understand your decision and the reasons to move on to a new challenge, this post is dedicated to you and you need to be the example in the following little demo. Lets go …
For the (not in any way serious scope) of this post lets assume that we do not want Franck anymore to blog on our blog site. We want to ban him. Of course we could simply delete his user account or disable the login. But, hey, we want to do that by using a domain as that is much more fun to do. Lets assume our blog software comes with two little tables that look like this:
postgres=# \d blogs
Table "public.blogs"
Column | Type | Collation | Nullable | Default
--------+---------+-----------+----------+-----------------------------------
id | integer | | not null | nextval('blogs_id_seq'::regclass)
author | text | | |
blog | text | | |
Indexes:
"blogs_pk" PRIMARY KEY, btree (id)
Referenced by:
TABLE "blog_comments" CONSTRAINT "comments_ref_blogs" FOREIGN KEY (blog_id) REFERENCES blogs(id)
postgres=# \d blog_comments
Table "public.blog_comments"
Column | Type | Collation | Nullable | Default
---------+---------+-----------+----------+-------------------------------------------
id | integer | | not null | nextval('blog_comments_id_seq'::regclass)
blog_id | integer | | |
author | text | | |
comment | text | | |
Indexes:
"blog_comments__pk" PRIMARY KEY, btree (id)
Foreign-key constraints:
"comments_ref_blogs" FOREIGN KEY (blog_id) REFERENCES blogs(id)
When we want that Franck is not anymore able to create blogs and to comment on blogs we could do something like this: postgres=# alter table blogs add constraint no_franck_blogs check ( author ~ '!^Franck' ); ALTER TABLE postgres=# alter table blog_comments add constraint no_franck_comments check ( author ~ '!^Franck' ); ALTER TABLE This will prevent Franck (actually it will prevent all people called Franck, but this is good in that case as we do not like people called Franck anymore) from inserting anything into these two tables:
postgres=# insert into blogs (author,blog) values ('Franck Pachot','another great blog');
ERROR: new row for relation "blogs" violates check constraint "no_franck_blogs"
DETAIL: Failing row contains (1, Franck Pachot, another great blog).
(Btw: Did you notice that you can use regular expressions in check constraints?) This works and does what we want it to do. But there is an easier way of doing it. Currently we need to maintain two check constraints which are doing the same thing. By creating a domain we can centralize that: postgres=# create domain no_franck_anymore as text check (value ~ '!^Franck' ); CREATE DOMAIN Once we have that we can use the domain in our tables:
postgres=# alter table blogs drop constraint no_franck_blogs;
ALTER TABLE
postgres=# alter table blog_comments drop constraint no_franck_comments;
ALTER TABLE
postgres=# alter table blogs alter column author type no_franck_anymore;
ALTER TABLE
postgres=# alter table blog_comments alter column author type no_franck_anymore;
ALTER TABLE
postgres=# \d blogs
Table "public.blogs"
Column | Type | Collation | Nullable | Default
--------+-------------------+-----------+----------+-----------------------------------
id | integer | | not null | nextval('blogs_id_seq'::regclass)
author | no_franck_anymore | | |
blog | text | | |
Indexes:
"blogs_pk" PRIMARY KEY, btree (id)
Referenced by:
TABLE "blog_comments" CONSTRAINT "comments_ref_blogs" FOREIGN KEY (blog_id) REFERENCES blogs(id)
postgres=# \d blog_comments
Table "public.blog_comments"
Column | Type | Collation | Nullable | Default
---------+-------------------+-----------+----------+-------------------------------------------
id | integer | | not null | nextval('blog_comments_id_seq'::regclass)
blog_id | integer | | |
author | no_franck_anymore | | |
comment | text | | |
Indexes:
"blog_comments__pk" PRIMARY KEY, btree (id)
Foreign-key constraints:
"comments_ref_blogs" FOREIGN KEY (blog_id) REFERENCES blogs(id)
This still prevents Franck from blogging:
postgres=# insert into blogs (author,blog) values ('Franck Pachot','another great blog');
ERROR: value for domain no_franck_anymore violates check constraint "no_franck_anymore_check"
… but we only need to maintain one domain and not two or more check constraints. Cet article Do you need the same column with the same check constraint twice? Create a domain! est apparu en premier sur Blog dbi services. Disabling database trap with dataguard brokerWhen connecting to dataguard broker and disabling database with ORACLE_SID set before connecting to broker, broker becomes inaccessible, which is shown below: Login to broker via database ila:
Copyright (c) 2000, 2009, Oracle. All rights reserved. Welcome to DGMGRL, type "help" for information. Configuration - ila Protection Mode: MaxAvailability Fast-Start Failover: DISABLED Configuration Status: Disable database ila in broker:
Now neither enabling nor showing configuration is possible any more:
Configuration details cannot be determined by DGMGRL Configuration details cannot be determined by DGMGRL Solution: You have to connect to broker via a database which is enabled. Cet article Disabling database trap with dataguard broker est apparu en premier sur Blog dbi services. Dealing with ugrade scenarios for SQL Server on Docker and SwarmThis blog post comes from an interesting experience with one customer about upgrading SQL Server on a Docker environment. Let’s set quickly the context: a production environment that includes a standalone Docker engine on the top of openSUSE Linux distribution with some SQL Server 2017 Linux containers. The deal was to update those SQL Server instances from 2017 CU1 to 2017 CU7.
The point is we applied the same kind of upgrades earlier on the morning but it concerned virtual environments with SQL Server 2017 on Windows Server 2016. As you already guessed, we cannot go on the same way with SQL Server containers. The good news is that the procedure is fully documented by Microsoft but let’s focus on my customer’s question: Can we achieve rolling upgrades with SQL Server containers? Rolling upgrade in this context may be defined as keeping the existing system running while we each component. Referring to the context of this customer the quick answer is no because they manage the standalone instances. However, we may hope to be as closed as possible to the existing rolling upgrade scenarios with SQL Server HA capabilities but it is pretty limited currently on Docker and didn’t make sense in this specific context. In addition, let’s say that my customer spins up SQL Server containers by running docker run command. In this case, we had no choice to re-create the concerned containers with the new image. So basically, according to the Microsoft documentation, the game will consist of the following main steps:
The aforementioned steps will lead to some SQL Server instance unavailability. Let’s simulate this scenario on my lab environment with a custom image (but the principle remains the same as my customer). [clustadmin@docker1 PROD]$ docker ps CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES aa6b4411e4e4 dbi/dbi_linux_sql2017:CU4 "./entrypoint.sh 'ta…" 22 minutes ago Up 22 minutes (healthy) 0.0.0.0:1433->1433/tcp prod_db_1 153b1cc0bbe0 registry:2 "/entrypoint.sh /etc…" 6 weeks ago Up About an hour 5000/tcp registry.1.pevhlfmsailjx889ktats1fnh
The first docker container concerns my SQL Server instance with a custom base image dbi/dbi_linux_sql2017:CU4. My environment includes also one user database dbi_tools and some related external objects as SQL Server jobs and additional logins – dbi and test logins. A simplified representation of my customer scenario …
So, the challenge here is to upgrade the current container running on SQL Server 2017 CU4 with the last SQL Server 2017 CU7. The first step will consist in upgrading the dbi/dbi_linuxsql2017:CU4 image. Note I will use docker-compose in the next part of my demo but we’ll achieve exactly the same goal differently. So, let’s modify the FROM command line inside the docker file line as follows: # set the base image (2017 version) # > CU4 includes SQL Server agent now FROM microsoft/mssql-server-linux:2017-CU7
Then let’s run a docker-compose command with the following docker-compose input file in order to generate a new fresh SQL Server image (CU7). The interesting part of my docker-compose file: version: '3.1'
services:
db:
build: .
image: dbi/dbi_linux_sql2017:CU7
…
[clustadmin@docker1 PROD]$ docker-compose build
Let’s take a look at the existing docker images: [clustadmin@docker1 PROD]$ docker images REPOSITORY TAG IMAGE ID CREATED SIZE dbi/dbi_linux_sql2017 CU7 0b4d23626dae 44 minutes ago 1.43GB dbi/dbi_linux_sql2017 CU4 0db4694645ec About an hour ago 1.42GB …
My new image has been created successfully. We may also notice 2 images now: the current one (with CU4 tag) and the new one (with CU7 tag) Obviously persistent volumes are an important part of the customer architecture, so I also simulated some volume mappings inside my docker-compose file. version: '3.1'
services:
db:
build: .
image: dbi/dbi_linux_sql2017:CU7
#container_name: dbi_linux_sql2017_cu4
ports:
- "1433:1433"
volumes:
- /u00/db2:/u00
- /u01/db2:/u01
- /u02/db2:/u02
- /u03/db2:/u03
- /u98/db2:/u98
environment:
- MSSQL_SA_PASSWORD=Password1
- ACCEPT_EULA=Y
- MSSQL_PID=Developer
- MSSQL_USER=dbi
- MSSQL_USER_PASSWORD=Password1
- TZ=Europe/Berlin
Let’s move forward to the next step that consists in removing the current SQL Server 2017 CU4 container (prod_db_1): [clustadmin@docker1 PROD]$ docker stop prod_db_1 && docker rm prod_db_1 prod_db_1 prod_db_1
And finally let’s spin up a new container based on the new image (SQL Server 2017 CU7) [clustadmin@docker1 PROD]$ docker-compose up -d
Just out of curiosity, a quick look at the docker log output command reveals some related records concerning the upgrade process: 2018-06-04 22:45:43.79 spid7s Configuration option 'allow updates' changed from 1 to 0. Run the RECONFIGURE statement to install. 2018-06-04 22:45:43.80 spid7s 2018-06-04 22:45:43.80 spid7s ----------------------------------------- 2018-06-04 22:45:43.80 spid7s Execution of PRE_SQLAGENT100.SQL complete 2018-06-04 22:45:43.80 spid7s ----------------------------------------- 2018-06-04 22:45:43.81 spid7s DMF pre-upgrade steps... 2018-06-04 22:45:44.09 spid7s DC pre-upgrade steps... 2018-06-04 22:45:44.09 spid7s Check if Data collector config table exists... … 2018-06-04 22:45:59.39 spid7s ------------------------------------ 2018-06-04 22:45:59.39 spid7s Execution of InstDac.SQL complete 2018-06-04 22:45:59.39 spid7s ------------------------------------ 2018-06-04 22:45:59.40 spid7s ----------------------------------------- 2018-06-04 22:45:59.40 spid7s Starting execution of EXTENSIBILITY.SQL 2018-06-04 22:45:59.40 spid7s ----------------------------------------- 2018-06-04 22:45:59.40 spid7s ----------------------------------------- 2018-06-04 22:45:59.40 spid7s Finished execution of EXTENSIBILITY.SQL 2018-06-04 22:45:59.41 spid7s ----------------------------------------- 2018-06-04 22:45:59.44 spid7s Configuration option 'show advanced options' changed from 1 to 1. Run the RECONFIGURE statement to install. 2018-06-04 22:45:59.44 spid7s Configuration option 'show advanced options' changed from 1 to 1. Run the RECONFIGURE statement to install. 2018-06-04 22:45:59.45 spid7s Configuration option 'Agent XPs' changed from 1 to 1. Run the RECONFIGURE statement to install. 2018-06-04 22:45:59.45 spid7s Configuration option 'Agent XPs' changed from 1 to 1. Run the RECONFIGURE statement to install. 2018-06-04 22:45:59.53 spid7s Dropping view [dbo].[sysutility_ucp_configuration] 2018-06-04 22:45:59.53 spid7s Creating view [dbo].[sysutility_ucp_configuration]... 2018-06-04 22:45:59.54 spid7s Dropping view [dbo].[sysutility_ucp_policy_configuration] 2018-06-04 22:45:59.54 spid7s Creating view [dbo].[sysutility_ucp_policy_configuration]... 2018-06-04 22:45:59.55 spid7s Dropping [dbo].[fn_sysutility_get_is_instance_ucp] ….
The container has restarted correctly with the new based image as show below: [clustadmin@docker1 PROD]$ docker ps CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES a17800f70fff dbi/dbi_linux_sql2017:CU7 "./entrypoint.sh 'ta…" 4 minutes ago Up 33 seconds (health: starting) 0.0.0.0:1433->1433/tcp prod_db_1 153b1cc0bbe0 registry:2 "/entrypoint.sh /etc…" 6 weeks ago Up 2 hours 5000/tcp registry.1.pevhlfmsailjx889ktats1fnh
Let’s check the new SQL Server version and if all my objects are still present:
The upgrade seems to be done successfully and all existing objects previous the upgrade operation still exist:
Great job! But let’s go beyond to this procedure with the following question: Could we have done better here? From a process perspective, the response is probably yes but we have to rely on more sophisticated features provided by Swarm mode (or other orchestrators as K8s) as service deployment that will make the upgrade procedure drastically easier. But don’t get me wrong here. Even in Swarm mode or other orchestrators, we are not still able to guarantee the zero down time but we may perform the upgrade faster to be very close to the target. Previously I used docker-compose to spin up my SQL Server container. Now let’s use this counterpart on a Docker Swarm environment. [clustadmin@docker1 PROD]$ docker info | grep -i swarm Swarm: active [clustadmin@docker1 PROD]$ docker node ls ID HOSTNAME STATUS AVAILABILITY MANAGER STATUS hzwjpb9rtstwfex3zsbdnn5yo * docker1.dbi-services.test Ready Active Leader q09k7pqe940qvv4c1jprzk2yv docker2.dbi-services.test Ready Active c9burq3qn4iwwbk28wrpikqra docker3.dbi-services.test Ready Active
I already prepared a stack deployment that includes a task related to my SQL Server instance (2017 CU4): [clustadmin@docker1 PROD]$ docker service ls ID NAME MODE REPLICAS IMAGE PORTS 2bmomzq0inu8 dbi_db replicated 1/1 dbi/dbi_linux_sql2017:CU4 *:1433->1433/tcp [clustadmin@docker1 PROD]$ docker service ps dbi_db ID NAME IMAGE NODE DESIRED STATE CURRENT STATE ERROR PORTS rbtbkcz0cy8o dbi_db.1 dbi/dbi_linux_sql2017:CU4 docker1.dbi-services.test Running
A quick connection to the concerned SQL Server instance confirms we run on SQL Server 2017 CU4:
Now go ahead and let’s perform the same upgrade we’ve done previously (2017 CU7). In this case the game will consist in updating the corresponding docker-compose file with the new image as follows (I put only the interesting sample of my docker-compose file): version: '3.1'
services:
db:
build: .
image: dbi/dbi_linux_sql2017:CU7
…
… and then I just have give the new definition of my docker-compose file as input of my stack deployment as follows: [clustadmin@docker1 PROD]$ docker stack deploy -c docker-compose.yml dbi Ignoring unsupported options: build Updating service dbi_db (id: 2bmomzq0inu8q0mwkfff8apm7) …
The system will then perform all the step we previously performed manually in the first test including stopping the old task (container), scheduling the old task’s update with the new image and finally starting the updated container as shown below: [clustadmin@docker1 PROD]$ docker service ps dbi_db ID NAME IMAGE NODE DESIRED STATE CURRENT STATE ERROR PORTS 4zey68lh1gin dbi_db.1 127.0.0.1:5000/dbi_linux_sql2017:CU7 docker1.dbi-services.test Running Starting 40 seconds ago rbtbkcz0cy8o \_ dbi_db.1 dbi/dbi_linux_sql2017:CU4 docker1.dbi-services.test Shutdown Shutdown 40 seconds ago
A quick check of my new SQL Server version:
That’s it! In this blog post, I hope I managed to get you interested in using swarm mode in such case. Next time I will talk about SQL Server upgrade scenarios on K8s that is a little bit different. Stay tuned!
Cet article Dealing with ugrade scenarios for SQL Server on Docker and Swarm est apparu en premier sur Blog dbi services. How to compile PostgreSQL 11 with support for JIT compilation on RHEL/CentOS 7As you might already know PostgreSQL 11 will bring support for just-in-time compilation. When you want to compile PostgreSQL 11 with jit support on RedHat/CentOS 7 this requires a little hack (more on the reason below). In this post we’ll look at how you can do it at least for testing. For production it is of course not recommended as hacking the make file is nothing you want to do, at least I would not do it. Lets go.
As mentioned I am on CentOS 7: postgres@pgbox:$ cat /etc/centos-release CentOS Linux release 7.5.1804 (Core) What you need to get support for jit is llvm. When you check the CentOS repository llvm is there: postgres@pgbox:$ yum search llvm Loaded plugins: fastestmirror Loading mirror speeds from cached hostfile * base: mirror.spreitzer.ch * extras: mirror.spreitzer.ch * updates: mirror.spreitzer.ch ===================================================== N/S matched: llvm ===================================================== llvm-devel.x86_64 : Libraries and header files for LLVM llvm-doc.noarch : Documentation for LLVM llvm-libs.x86_64 : LLVM shared libraries llvm-ocaml.x86_64 : OCaml binding for LLVM llvm-ocaml-devel.x86_64 : Development files for llvm-ocaml llvm-ocaml-doc.noarch : Documentation for LLVM's OCaml binding llvm-private.i686 : llvm engine for Mesa llvm-private.x86_64 : llvm engine for Mesa llvm-private-devel.i686 : Libraries and header files for LLVM llvm-private-devel.x86_64 : Libraries and header files for LLVM llvm-static.x86_64 : LLVM static libraries mesa-private-llvm.i686 : llvm engine for Mesa mesa-private-llvm.x86_64 : llvm engine for Mesa mesa-private-llvm-devel.i686 : Libraries and header files for LLVM mesa-private-llvm-devel.x86_64 : Libraries and header files for LLVM clang.x86_64 : A C language family front-end for LLVM llvm.x86_64 : The Low Level Virtual Machine Name and summary matches only, use "search all" for everything. The issue is that the PostgreSQL documentation clearly states that llvm needs to be at least of version 3.9 and in the CentOS repository you’ll find this:
postgres@pgbox:$ yum info llvm
Loaded plugins: fastestmirror
Loading mirror speeds from cached hostfile
* base: mirror1.hs-esslingen.de
* extras: mirror.fra10.de.leaseweb.net
* updates: mirror.netcologne.de
Available Packages
Name : llvm
Arch : x86_64
Version : 3.4.2
Release : 8.el7
Size : 1.3 M
Repo : extras/7/x86_64
Summary : The Low Level Virtual Machine
URL : http://llvm.org/
License : NCSA
Description : LLVM is a compiler infrastructure designed for compile-time,
: link-time, runtime, and idle-time optimization of programs from
: arbitrary programming languages. The compiler infrastructure includes
: mirror sets of programming tools as well as libraries with equivalent
: functionality.
What to do? What you need to do is to add the epel repository where you can find llvm 3.9 and 5.0: postgres@pgbox:$ wget http://dl.fedoraproject.org/pub/epel/epel-release-latest-7.noarch.rpm postgres@pgbox:$ sudo yum localinstall epel-release-latest-7.noarch.rpm postgres@pgbox:$ sudo yum install llvm5.0 llvm5.0-devel clang Having that we should be ready for configuration:
postgres@pgbox:$ PGHOME=/u01/app/postgres/product/11/db_0
postgres@pgbox:$ SEGSIZE=1
postgres@pgbox:$ BLOCKSIZE=8
postgres@pgbox:$ WALSEGSIZE=16
postgres@pgbox:$ ./configure --prefix=${PGHOME} \
--exec-prefix=${PGHOME} \
--bindir=${PGHOME}/bin \
--libdir=${PGHOME}/lib \
--sysconfdir=${PGHOME}/etc \
--includedir=${PGHOME}/include \
--datarootdir=${PGHOME}/share \
--datadir=${PGHOME}/share \
--with-pgport=5432 \
--with-perl \
--with-python \
--with-openssl \
--with-pam \
--with-ldap \
--with-libxml \
--with-libxslt \
--with-segsize=${SEGSIZE} \
--with-blocksize=${BLOCKSIZE} \
--with-wal-segsize=${WALSEGSIZE} \
--with-llvm LLVM_CONFIG='/usr/lib64/llvm3.9/bin/llvm-config' \
--with-systemd
That succeeds so lets compile: postgres@pgbox:$ make -j 4 all … and you will run into this issue: /usr/bin/clang -Wno-ignored-attributes -fno-strict-aliasing -fwrapv -O2 -I../../src/include -D_GNU_SOURCE -flto=thin -emit-llvm -c -o localtime.bc localtime.c clang: error: unknown argument: '-flto=thin' make[2]: *** [localtime.bc] Error 1 make[2]: Leaving directory `/home/postgres/postgresql/src/timezone' make[1]: *** [all-timezone-recurse] Error 2 make[1]: Leaving directory `/home/postgres/postgresql/src' make: *** [all-src-recurse] Error 2 There is a mail thread on the hackers mailing list which describes the issue. Apparently the clang compiler is too old to understand this argument. What you could do is to adjust the corresponding line in the Makefile: postgres@pgbox:$ vi src/Makefile.global.in COMPILE.c.bc = $(CLANG) -Wno-ignored-attributes $(BITCODE_CFLAGS) $(CPPFLAGS) -flto=thin -emit-llvm -c COMPILE.c.bc = $(CLANG) -Wno-ignored-attributes $(BITCODE_CFLAGS) $(CPPFLAGS) -emit-llvm -c Doing all the stuff again afterwards:
postgres@pgbox:$ make clean
postgres@pgbox:$ ./configure --prefix=${PGHOME} \
--exec-prefix=${PGHOME} \
--bindir=${PGHOME}/bin \
--libdir=${PGHOME}/lib \
--sysconfdir=${PGHOME}/etc \
--includedir=${PGHOME}/include \
--datarootdir=${PGHOME}/share \
--datadir=${PGHOME}/share \
--with-pgport=5432 \
--with-perl \
--with-python \
--with-openssl \
--with-pam \
--with-ldap \
--with-libxml \
--with-libxslt \
--with-segsize=${SEGSIZE} \
--with-blocksize=${BLOCKSIZE} \
--with-wal-segsize=${WALSEGSIZE} \
--with-llvm LLVM_CONFIG='/usr/lib64/llvm3.9/bin/llvm-config' \
--with-systemd
postgres@pgbox:$ make -j 4 all
… led to the following issue (at least for me): make[2]: g++: Command not found make[2]: *** [llvmjit_error.o] Error 127 make[2]: *** Waiting for unfinished jobs.... make[2]: Leaving directory `/home/postgres/postgresql/src/backend/jit/llvm' make[1]: *** [all-backend/jit/llvm-recurse] Error 2 make[1]: Leaving directory `/home/postgres/postgresql/src' make: *** [all-src-recurse] Error 2 This should be easy to fix: postgres@pgbox:$ sudo yum install -y gcc-c++ postgres@pgbox:$ which g++ /bin/g++ Again: postgres@pgbox:$ make -j 4 install postgres@pgbox:$ cd contrib postgres@pgbox:$ make -j 4 install … and this time it succeeds (note that I did not run the regression tests, so maybe something will still go wrong there). JIT is enabled by default and controlled by these parameters:
postgres=# select name,setting from pg_settings where name like 'jit%';
name | setting
-------------------------+---------
jit | on
jit_above_cost | 100000
jit_debugging_support | off
jit_dump_bitcode | off
jit_expressions | on
jit_inline_above_cost | 500000
jit_optimize_above_cost | 500000
jit_profiling_support | off
jit_provider | llvmjit
jit_tuple_deforming | on
(10 rows)
To test that it really kicks in you can do something like this:
postgres=#create table ttt (a int, b text, c date );
postgres=#insert into ttt (a,b,c)
select aa.*, md5(aa::text), now()
from generate_series(1,1000000) aa;
postgres=#set jit_above_cost=5;
postgres=#set jit_optimize_above_cost=5;
postgres=#set jit_inline_above_cost=5;
postgres=#explain select sum(a) from ttt;
… which should lead to a plan like this:
QUERY PLAN
---------------------------------------------------------------------------------------
Finalize Aggregate (cost=15554.55..15554.56 rows=1 width=8)
-> Gather (cost=15554.33..15554.54 rows=2 width=8)
Workers Planned: 2
-> Partial Aggregate (cost=14554.33..14554.34 rows=1 width=8)
-> Parallel Seq Scan on ttt (cost=0.00..13512.67 rows=416667 width=4)
JIT:
Functions: 8
Inlining: true
Optimization: true
(9 rows)
Hope that helps. Cet article How to compile PostgreSQL 11 with support for JIT compilation on RHEL/CentOS 7 est apparu en premier sur Blog dbi services. PostgreSQL 11: Instant add column with a non null default valueAs I am currently preparing my session for the Swiss PGDay which is about some of the new features for PostgreSQL 11, I though this one is worth a blog post as well. Up to PostgreSQL 10 when you add a column to table which has a non null default value the whole table needed to be rewritten. With PostgreSQL 11 this is not anymore the case and adding a column in such a way is almost instant. Lets check.
We start by creating a test table in PostgreSQL 10:
postgres=# select version();
version
--------------------------------------------------------------------------------------------------------
PostgreSQL 10.3 on x86_64-pc-linux-gnu, compiled by gcc (GCC) 4.8.5 20150623 (Red Hat 4.8.5-16), 64-bit
(1 row)
postgres=# create table test ( a int, b text, c timestamp );
CREATE TABLE
postgres=# insert into test (a,b,c)
select aa.*, md5(aa::text), now()
from generate_series ( 1, 1000000 ) aa;
INSERT 0 1000000
This gave us 1’000’000 rows and what I want to do is to check the amount of sequential scans against the table before and after the alter table.
postgres=# select seq_scan from pg_stat_user_tables where relid = 'test'::regclass;
seq_scan
----------
0
postgres=# alter table test add column d text default 'a';
ALTER TABLE
Time: 1252.188 ms (00:01.252)
postgres=# select seq_scan from pg_stat_user_tables where relid = 'test'::regclass;
seq_scan
----------
1
As you can see a sequential scan happened when the alter table was performed and it took more than a second for the alter table to complete. Lets do the same in PostgreSQL 11. Creating the table:
postgres=# select version();
version
-------------------------------------------------------------------------------------------------------------------------------
PostgreSQL 11devel dbi services build on x86_64-pc-linux-gnu, compiled by gcc (GCC) 4.8.5 20150623 (Red Hat 4.8.5-16), 64-bit
(1 row)
postgres=# create table test ( a int, b text, c timestamp );
CREATE TABLE
postgres=# insert into test (a,b,c) select aa.*, md5(aa::text), now() from generate_series ( 1, 1000000 ) aa ;
INSERT 0 1000000
Doing the same test again:
postgres=# select seq_scan from pg_stat_user_tables where relid = 'test'::regclass;
seq_scan
----------
0
(1 row)
postgres=# alter table test add column d text default 'a';
ALTER TABLE
Time: 5.064 ms
postgres=# select seq_scan from pg_stat_user_tables where relid = 'test'::regclass;
seq_scan
----------
0
(1 row)
No sequential scan at all and it only took 5 ms for the alter table to complete. This is quite a huge improvement. The question is how does that work in the background? Actually the idea is quite simple. The catalog table pg_attribute got two new columns called “attmissingval” and “atthasmissing”:
postgres=# \d pg_attribute
Table "pg_catalog.pg_attribute"
Column | Type | Collation | Nullable | Default
---------------+-----------+-----------+----------+---------
attrelid | oid | | not null |
attname | name | | not null |
atttypid | oid | | not null |
attstattarget | integer | | not null |
attlen | smallint | | not null |
attnum | smallint | | not null |
attndims | integer | | not null |
attcacheoff | integer | | not null |
atttypmod | integer | | not null |
attbyval | boolean | | not null |
attstorage | "char" | | not null |
attalign | "char" | | not null |
attnotnull | boolean | | not null |
atthasdef | boolean | | not null |
atthasmissing | boolean | | not null |
attidentity | "char" | | not null |
attisdropped | boolean | | not null |
attislocal | boolean | | not null |
attinhcount | integer | | not null |
attcollation | oid | | not null |
attacl | aclitem[] | | |
attoptions | text[] | | |
attfdwoptions | text[] | | |
attmissingval | anyarray | | |
Indexes:
"pg_attribute_relid_attnam_index" UNIQUE, btree (attrelid, attname)
"pg_attribute_relid_attnum_index" UNIQUE, btree (attrelid, attnum)
As soon as a new column with a non null default value is added to a table these columns get populated. We can see that when we check for our current table. The column we added has that set in pg_attribute:
postgres=# select attmissingval
, atthasmissing
from pg_attribute
where attrelid = 'test'::regclass
and attname = 'd';
attmissingval | atthasmissing
---------------+---------------
{a} | t
(1 row)
We know that all the rows in that table should have the new default value but we know also that the table was not rewritten. So whenever you select from the table and a row is missing the default it will be populated from pg_attribute: postgres=# select d from test where a = 1; d --- a For new rows the default will be there anyway and as soon as the table is rewritten the flag is cleared:
postgres=# vacuum full test;
VACUUM
postgres=# select attmissingval
, atthasmissing
from pg_attribute
where attrelid = 'test'::regclass
and attname = 'd';
attmissingval | atthasmissing
---------------+---------------
| f
(1 row)
Nice feature. Cet article PostgreSQL 11: Instant add column with a non null default value est apparu en premier sur Blog dbi services. How to flashback databases in dataguard with brokerLast week I had to do some tests with dataguard. To make restores easier restore points were required. Given is following configuration: show configuration; Configuration - ila Protection Mode: MaxAvailability Databases: ila - Primary database ilal - Logical standby database ILAP - Physical standby database Fast-Start Failover: DISABLED Configuration Status: SUCCESS How to set restore points here ? Two things to consider: First redo shipment has to be stopped: edit database "ilal" set state=APPLY-OFF; edit database "ILAP" set state=APPLY-OFF; Second, restore points on both standby databases are set: create restore point RZ_C GUARANTEE FLASHBACK DATABASE;
Third, restore point on primary database is set: create restore point RZ_C GUARANTEE FLASHBACK DATABASE; Last, redo shipment is switched on again: edit database "ILAP" set state=APPLY-ON; edit database "ilal" set state=APPLY-ON; Now dataguard is running as before. Let’s flashback the databases:First switch off redo shipment: edit database "ILAP" set state=APPLY-OFF; edit database "ilal" set state=APPLY-OFF; Second start all three databases in mount mode: shutdown immediate; startup mount; Third flashback primary database: flashback database to restore point RZ_C; alter database open read only; Check whether flashbacked database looks fine. If yes, open it read write: shutdown immediate; startup mount; alter database open resetlogs; Do the same on logical standby database: flashback database to restore point RZ_C; alter database open read only; Check whether flashbacked database looks fine. If yes, open it: shutdown immediate; startup mount; alter database open resetlogs; Last do flashback on physical standby: flashback database to restore point RZ_C; Now start redo shipment again: edit database "ILAP" set state=APPLY-ON; edit database "ilal" set state=APPLY-ON; After a few minutes, dataguard will run as before: show configuration; Configuration - ila Protection Mode: MaxAvailability Databases: ila - Primary database ilal - Logical standby database ILAP - Physical standby database Fast-Start Failover: DISABLED Configuration Status: SUCCESS Cet article How to flashback databases in dataguard with broker est apparu en premier sur Blog dbi services. PostgreSQL 11 : Procedures are comingReading about new features about future version PostgreSQL 11. I see that procedures will be implemented. Why is it so important? Until now only functions are available in PostgtreSQL. Of course a function is a procedure that returns a value, we can say, yes it’s true but you cannot manage transactions in a function. To better understand let’s do a quick demonstration.
[postgres@pg_essentials_p1 bin]$ ./psql
Null display is "NULL".
psql (11devel)
Type "help" for help.
(postgres@[local]:5432) [postgres] > select version();
version
--------------------------------------------------------------------------------
---------------------------
PostgreSQL 11devel on x86_64-pc-linux-gnu, compiled by gcc (GCC) 4.8.5 20150623
(Red Hat 4.8.5-4), 64-bit
(1 row)
(postgres@[local]:5432) [postgres] >
For the demonstration I have a table emp (postgres@[local]:5432) [test] > table emp; id | name ----+------ 1 | toto 2 | Edge (2 rows) (postgres@[local]:5432) [test] > And let’s say I want to insert data in my table using following function CREATE or replace FUNCTION fun_insert_emp(id_emp int, emp_name varchar(20)) RETURNS void AS $$ BEGIN insert into emp (id,name) values (id_emp,emp_name); commit; END; $$ LANGUAGE PLPGSQL; We can describe the function like this (postgres@[local]:5432) [test] > \sf fun_insert_emp CREATE OR REPLACE FUNCTION public.fun_insert_emp(id_emp integer, emp_name character varying) RETURNS void LANGUAGE plpgsql AS $function$ BEGIN insert into emp (id,name) values (id_emp,emp_name); commit; END; $function$ (postgres@[local]:5432) [test] > To call a function we use a select like any built-in function. So let’s try to insert a new employee with the function (postgres@[local]:5432) [test] > select fun_insert_emp(3,'New Emp'); ERROR: invalid transaction termination CONTEXT: PL/pgSQL function fun_insert_emp(integer,character varying) line 4 at COMMIT (postgres@[local]:5432) [test] > Seems that the word COMMIT is causing trouble. OK let’s recreate the function without the COMMIT (postgres@[local]:5432) [test] > \sf fun_insert_emp CREATE OR REPLACE FUNCTION public.fun_insert_emp(id_emp integer, emp_name character varying) RETURNS void LANGUAGE plpgsql AS $function$ BEGIN insert into emp (id,name) values (id_emp,emp_name); END; $function$ (postgres@[local]:5432) [test] > And let’s call again the function. We can see that the row was inserted (postgres@[local]:5432) [test] > select fun_insert_emp(3,'New Emp'); fun_insert_emp ---------------- (1 row) (postgres@[local]:5432) [test] > table emp; id | name ----+--------- 1 | toto 2 | Edge 3 | New Emp (3 rows) (postgres@[local]:5432) [test] > But the main problem we saw is that a function in PostgreSQL does not support any transaction instruction (BEGIN…COMMIT, BEGIN…ROLLBACK). This means that in a function I cannot use instructions that allow to rollback or commit based on some conditions. (postgres@[local]:5432) [test] > create or replace procedure proc_insert_emp (id_emp int, emp_name varchar(20)) test-# as $$ test$# Begin test$# insert into emp (id,name) values (id_emp,emp_name); test$# commit; test$# end ; test$# $$ test-# LANGUAGE PLPGSQL; CREATE PROCEDURE (postgres@[local]:5432) [test] > And let’s insert a new row in table emp using proc_insert_emp (postgres@[local]:5432) [test] > call proc_insert_emp(4,'Brice'); CALL (postgres@[local]:5432) [test] > table emp; id | name ----+--------- 1 | toto 2 | Edge 3 | New Emp 4 | Brice (4 rows) (postgres@[local]:5432) [test] > We can see that the row was inserted. But the main difference is the support of autonomous transaction and this will be definitively change life for developers. Cet article PostgreSQL 11 : Procedures are coming est apparu en premier sur Blog dbi services. Installing MAMP to play with PHP, MySQL and OpenFlightsYou may wonder what I’m doing with those technologies that are completely different from what I usually do. I’ll detail in a future blog post but the idea is giving a short introduction to databases to students at https://powercoders.org/, a coding academy for refugees in Switzerland. They install MAMP (My Apache – MySQL – PHP) during their curriculum for website development, and then I’ll use this environment to teach data modeling and SQL basics. Thus, I’ve to look at MAMP, PHP and MySQL for the first time… And I decided to load the OpenFlights open data to play with. What? Reboot? Seriously, we are in 2018, that’s Windows 10, I refuse to reboot to install a simple Apache server! This bundle is very easy to use: a simple window to start and stop the servers (Apache and MySQL) . A setup menu to configure them, but I keep the default. And a link to the start page. All that is installed under C:\MAMP (you can change it, I just kept the default settings). The first time you start the servers, the Windows Firewall configuration is raised and you have to accept it:
With all defaults (Apache on port 80) my web server pages are on http://localhost (serving the files in C:\MAMP\htdocs) and administration page is at http://localhost/MAMP/ I’ll write some PHP and because it’s the first time in my life, I will have some errors. With the default configuration, Apache just raises and Error 500 which does not help me a lot for debugging. This configuration is ok for production because displaying errors may give clues to hackers. But I’m there to play and I want to see the error messages and line numbers. I have to set display_errors=on for that. The current setting is displayed in http://localhost/MAMP/index.php?language=English&page=phpinfo#module_core and I can change it in C:\MAMP\conf\php7.2.1\php.ini and after a restart of the Apache server I can see full error messages: But now that I display the errors, I get this annoying message each time I try to do something in phpMyAdmin (which runs as PHP in the same Apache server): So this product, which is free but has also a ‘PRO’ version, probably running the same code, is delivered with bad code, raising errors that were ignored. Don’t tell me that it is just a warning. You will see that parentheses are missing, this is a syntax error and raising only a warning for that is quite bad. The message is about count() not having the correct parameter. The line 615 shows count($analyzed_sql_results[‘select_expr’] == 1 ) which is probably not correct because it counts a boolean expression. I’ve changed it to (count($analyzed_sql_results[‘select_expr’]) == 1 ) as I suppose they want to count and compare to one. Well, I’ve never written one line of PHP and I already hate it for its error handling weakness. Load some dataI want to initialize the database with some data and I’ll use the OpenFlights database. I’ve downloaded and unzipped https://github.com/jpatokal/openflights/blob/master/sql/master.zip Another little thing to fix here: the sql\create.sql and sql\load-data.sql files contain some lines starting with “\! echo” but this \! command (to run a system command) exists on Linux but not on the Windows port of MySQL. We have to remove them before running the SQL scripts. I’m used to Oracle where I can port my code and scripts from one platform to the other, and was a but surprised by this. Ready to connect:
This has created the flightdb2 database, with openflights user, and 15 tables. Now, if you are still in the unzipped directory, you can load data with the source sql\load-data.sql script which loads from the data\*.dat files So, for my first lines of PHP I’ve added the following to C:\MAMP\htdocs\index.php:
Here, I call mysqli_init(), set the credentials and call mysqli_real_connect() to get the connection handle. Then I run my query and display the result as an HTML table. Nothing difficult here. The main challenge is probably to keep the code maintainable. In my opinion, and despite the small issues encountered, MAMP is a simple way to setup a development environment on Windows. All is there to introduce SQL and Database for developers, and show how to call it from a programming language. Cet article Installing MAMP to play with PHP, MySQL and OpenFlights est apparu en premier sur Blog dbi services. SQLcl connect target depends on previous connectionI thought it was a bug for two reasons: first, because I don’t like that my connect destination depends on the context, and then because it is a different behavior than in SQL*Plus. But finally, it is the correct behavior, and the 100% compatibility with SQL*Plus is expected only when SET CLASSIC=ON. And as I was surprised, and I think it can be dangerous, here is a blog post about it. Basically, be very careful if you are connected with a service name and you want to connect locally. This is not a big deal, but that means that it tries to connect to //localhost/PDB1 when I wanted to connect locally to my ORACLE_SID environment variable. Here, expecting a bequeath connection, I didn’t provide a password, then I cannot connect to the PDB. But imagine that I use a password, and the password is the same in the two databases… I would have been connected to the wrong database. Just imagine this: Actually, what happens is that when SQLcl is already connected with a connection string (i.e not locally using bequeath) the next connect command will use the same connection string. This means that: This behavior has been introduced in SQLcl but this is not how SQL*Plus works: The first solution to avoid this in SQLcl is to always disconnect before you want to connect to a different service: This is why the second time was ok in my case: first one failed with invalid password and then I was disconnected. TWO_TASKThe second solution is to set an impossible TWO_TASK (or LOCAL in Windows) so that local connections are impossible: The third solution is to run SQLcl in SQL*Plus 100% compatible mode: Here we have the same behavior as SQL*Plus: no use of current connection string. The SQL CLASSIC ON is usually for the output (error messages, autotrace statistics, and a few enhancement made to SQLcl). And the online help still says that it is about output: However, it seems that this CLASSIC mode is also very important for connection. Test and show _CONNECTION_STRINGIf you show the connection string at the prompt, this may prevent errors: By the way, when I prepare a script that can make some damages when not run at the correct place, I usually add a test on DBID on top of it: Of course, you should have different passwords on prod and test databases. However, I prefer to have passwords in a wallet (external password file) and then you will always have the correct identification as it is recorded for each service name. Cet article SQLcl connect target depends on previous connection est apparu en premier sur Blog dbi services. Patching ODA lite to 12.2.1.3.0Here is the latest patch for your ODA and it seems that Oracle documentation for this patch is not exactly the procedure you’ll have to follow to successfully patch your appliance. I recently updated X6-2M and X6-2L to this latest release and here is how to do that. In this example I was patching from 12.1.2.12.0, no intermediate patch was needed. 1) Download the patch It seems odd but sometimes finding the corresponding patch is not so easy! With the patch number, it’s more convenient. For 12.2.1.3.0 with the dcs stack the number is 27648057. This patch will update all the components: dcs (odacli), operating system, bios/firmwares, ilom, GI and dbhomes. Copy the patch in a temporary folder on the server, for example /opt/patch. You’ll need to be root to apply the patch. 2) Check the actual versions and free up space on disk I recommend you to check the actual versions. It’s easy: odacli describe-component
System Version
---------------
12.1.2.12.0
Component Installed Version Available Version
---------------------------------------- -------------------- --------------------
OAK 12.1.2.12.0 up-to-date
GI 12.1.0.2.170814 up-to-date
DB {
[ OraDB12102_home1 ] 12.1.0.2.170814 up-to-date
[ OraDB11204_home1 ] 11.2.0.4.170814 up-to-date
}
ILOM 3.2.7.26.a.r112632 up-to-date
BIOS 39050100 up-to-date
OS 6.8 up-to-date
FIRMWARECONTROLLER {
[ c6 ] 4.650.00-7176 up-to-date
[ c0,c1,c2,c3,c4,c5 KPYABR3Q up-to-date
}
FIRMWAREDISK 0R3Q up-to-date
Don’t care about Available Version column, it’s only valid after you register a new patch. Your ODA doesn’t check the latest patch online. For free space check that folders /, /u01 and /opt have enough free GB to process. At least 10GB I think. 3) Prepare the patch files It’s slightly different than previous versions. Only the first zipfile has to be uncompressed and registered. The 2 other files can directly be registered without unzipping them. cd /opt/patch unzip p27648057_122130_Linux-x86-64_1of3.zip odacli update-repository -f /opt/patch/oda-sm-12.2.1.3.0-180504-server1of3.zip odacli update-repository -f /opt/patch/p27648057_122130_Linux-x86-64_2of3.zip odacli update-repository -f /opt/patch/p27648057_122130_Linux-x86-64_3of3.zip 4) Update the dcs-agent First you’ll have to update the dcs-agent: odacli update-dcsagent -v 12.2.1.3.0
{
"jobId" : "150b3486-cfb2-4b32-b751-0ed89ce3d7be",
"status" : "Created",
"message" : "Dcs agent will be restarted after the update. Please wait for 2-3 mins before executing the other commands",
"reports" : [ ],
"createTimestamp" : "May 22, 2018 10:31:50 AM CEST",
"resourceList" : [ ],
"description" : "DcsAgent patching",
"updatedTime" : "May 22, 2018 10:31:50 AM CEST"
}
As for every kind of operation you do with odacli, you receive a jobId you can monitor: odacli describe-job -i "150b3486-cfb2-4b32-b751-0ed89ce3d7be"
Job details
----------------------------------------------------------------
ID: 150b3486-cfb2-4b32-b751-0ed89ce3d7be
Description: DcsAgent patching
Status: Success
Created: May 22, 2018 10:31:50 AM CEST
Message:
Task Name Start Time End Time Status
---------------------------------------- ----------------------------------- ----------------------------------- ----------
dcsagent rpm verification May 22, 2018 10:31:50 AM CEST May 22, 2018 10:31:50 AM CEST Success
Patch location validation May 22, 2018 10:31:50 AM CEST May 22, 2018 10:31:50 AM CEST Success
dcs-agent upgrade May 22, 2018 10:31:50 AM CEST May 22, 2018 10:31:51 AM CEST Success
This update takes only a minute. Check again the version and you will see a new component in 18c, quite weird: odacli describe-component
System Version
---------------
12.2.1.3.0
Component Installed Version Available Version
---------------------------------------- -------------------- --------------------
OAK 12.1.2.12.0 12.2.1.3.0
GI 12.1.0.2.170814 12.2.0.1.180116
DB {
[ OraDB12102_home1 ] 12.1.0.2.170814 12.1.0.2.180116
[ OraDB11204_home1 ] 11.2.0.4.170814 11.2.0.4.180116
}
DCSAGENT 18.1.3.0.0 up-to-date
ILOM 3.2.7.26.a.r112632 up-to-date
BIOS 39050100 39090000
OS 6.8 6.9
FIRMWARECONTROLLER {
[ c6 ] 4.650.00-7176 up-to-date
[ c0,c1,c2,c3,c4,c5 ] KPYABR3Q kpyagr3q
}
FIRMWAREDISK 0R3Q up-to-date
5) Update the server Updating the server will actually update not only the operating system but also the ILOM, the BIOS, the firmware of internal disks and the GI. For the OS, Oracle Linux will go from 6.8 to 6.9 and the update process will assume that no additional packages have been installed. If you installed additional packages, please remove them as they can prevent the patch to apply correctly. Even devel packages should be removed, the upgrade of normal packages linked to them will not work because of the dependencies. You can easily remove the install packages with rpm -e, for example: rpm -e openssl-devel-1.0.1e-48.el6_8.4.x86_64 rpm -e krb5-devel-1.10.3-57.el6.x86_64 rpm -e zlib-devel-1.2.3-29.el6.x86_64 rpm -e keyutils-libs-devel-1.4-5.0.1.el6.x86_64 rpm -e libcom_err-devel-1.42.8-1.0.2.el6.x86_64 rpm -e libselinux-devel-2.0.94-7.el6.x86_64 rpm -e libsepol-devel-2.0.41-4.el6.x86_64 Now you can safely run the patching: odacli update-server -v 12.2.1.3.0 This update is the longest one (between 30 minutes and 1 hour), while you should see your server rebooting. As usual check the status of the job with describe-job: odacli describe-job -i "27d2195f-f16b-44d8-84e0-6af6e48ccad7" At the end of the process, describe-job will look like that: Task Name Start Time End Time Status ---------------------------------------- ----------------------------------- ----------------------------------- ---------- Patch location validation May 23, 2018 11:07:09 AM CEST May 23, 2018 11:07:09 AM CEST Success dcs-controller upgrade May 23, 2018 11:07:09 AM CEST May 23, 2018 11:07:09 AM CEST Success Patch location validation May 23, 2018 11:07:09 AM CEST May 23, 2018 11:07:09 AM CEST Success dcs-cli upgrade May 23, 2018 11:07:09 AM CEST May 23, 2018 11:07:09 AM CEST Success Creating repositories using yum May 23, 2018 11:07:09 AM CEST May 23, 2018 11:07:10 AM CEST Success Applying HMP Patches May 23, 2018 11:07:10 AM CEST May 23, 2018 11:09:04 AM CEST Success Patch location validation May 23, 2018 11:09:04 AM CEST May 23, 2018 11:09:04 AM CEST Success oda-hw-mgmt upgrade May 23, 2018 11:09:04 AM CEST May 23, 2018 11:09:04 AM CEST Success Creating repositories using yum May 23, 2018 11:09:04 AM CEST May 23, 2018 11:09:09 AM CEST Success Applying OS Patches May 23, 2018 11:09:09 AM CEST May 23, 2018 11:11:04 AM CEST Success OSS Patching May 23, 2018 11:11:04 AM CEST May 23, 2018 11:11:04 AM CEST Success Applying Firmware Disk Patches May 23, 2018 11:11:04 AM CEST May 23, 2018 11:11:08 AM CEST Success Applying Firmware Expander Patches May 23, 2018 11:11:08 AM CEST May 23, 2018 11:11:13 AM CEST Success Applying Firmware Controller Patches May 23, 2018 11:11:13 AM CEST May 23, 2018 11:11:16 AM CEST Success Checking Ilom patch Version May 23, 2018 11:11:17 AM CEST May 23, 2018 11:11:19 AM CEST Success Patch location validation May 23, 2018 11:11:19 AM CEST May 23, 2018 11:11:20 AM CEST Success Apply Ilom patch May 23, 2018 11:11:21 AM CEST May 23, 2018 11:11:22 AM CEST Success Copying Flash Bios to Temp location May 23, 2018 11:11:22 AM CEST May 23, 2018 11:11:22 AM CEST Success Starting the clusterware May 23, 2018 11:11:23 AM CEST May 23, 2018 11:11:23 AM CEST Success Creating GI home directories May 23, 2018 11:11:23 AM CEST May 23, 2018 11:11:23 AM CEST Success Cloning Gi home May 23, 2018 11:11:23 AM CEST May 23, 2018 11:13:53 AM CEST Success Configuring GI May 23, 2018 11:13:53 AM CEST May 23, 2018 11:14:06 AM CEST Success Running GI upgrade root scripts May 23, 2018 11:14:06 AM CEST May 23, 2018 11:29:04 AM CEST Success Resetting DG compatibility May 23, 2018 11:29:04 AM CEST May 23, 2018 11:29:09 AM CEST Success Running GI config assistants May 23, 2018 11:29:09 AM CEST May 23, 2018 11:30:10 AM CEST Success restart oakd May 23, 2018 11:30:13 AM CEST May 23, 2018 11:30:23 AM CEST Success Updating GiHome version May 23, 2018 11:30:23 AM CEST May 23, 2018 11:30:25 AM CEST Success preRebootNode Actions May 23, 2018 11:30:39 AM CEST May 23, 2018 11:31:25 AM CEST Success Reboot Ilom May 23, 2018 11:31:25 AM CEST May 23, 2018 11:31:25 AM CEST Success Don’t forget that if there is a problem during the patching process (you forgot to remove an additional rpm for example), you can relaunch the patching and it will skip the already patched components. But you will loose a lot of time! Please control the components version after the reboot with describe-component. 6) Patch the dbhomes You now need to patch the dbhomes separately. First of all list them: odacli list-dbhomes ID Name DB Version Home Location Status ---------------------------------------- -------------------- ---------------------------------------- --------------------------------------------- ---------- 86b6a068-55a8-4171-9f94-48b86f135065 OraDB12102_home1 12.1.0.2.170814 (26680878, 26609798) /u01/app/oracle/product/12.1.0.2/dbhome_1 Configured c6e7d556-5785-41d8-a120-ed3ef756848a OraDB11204_home1 11.2.0.4.170814 (26609929, 26609445) /u01/app/oracle/product/11.2.0.4/dbhome_1 Configured And then patch the first one: odacli update-dbhome -v 12.2.1.3 -i c6e7d556-5785-41d8-a120-ed3ef756848a It will also apply the datapatch on all the primary databases connected to this home. If you don’t have any database linked to the dbhome patching is fast: odacli describe-job -i "9defa52d-2997-42ea-9bd3-aafdbf0a4dc5"
Job details
----------------------------------------------------------------
ID: 9defa52d-2997-42ea-9bd3-aafdbf0a4dc5
Description: DB Home Patching: Home Id is c6e7d556-5785-41d8-a120-ed3ef756848a
Status: Success
Created: May 23, 2018 11:43:55 AM CEST
Message:
Task Name Start Time End Time Status
---------------------------------------- ----------------------------------- ----------------------------------- ----------
clusterware patch verification May 23, 2018 11:43:56 AM CEST May 23, 2018 11:43:58 AM CEST Success
Patch location validation May 23, 2018 11:43:58 AM CEST May 23, 2018 11:43:59 AM CEST Success
Opatch updation May 23, 2018 11:44:19 AM CEST May 23, 2018 11:44:20 AM CEST Success
Patch conflict check May 23, 2018 11:44:20 AM CEST May 23, 2018 11:44:27 AM CEST Success
db upgrade May 23, 2018 11:44:27 AM CEST May 23, 2018 11:46:01 AM CEST Success
About 2 minutes for an empty dbhome. And for a dbhome linked to databases: odacli update-dbhome -v 12.2.1.3 -i 86b6a068-55a8-4171-9f94-48b86f135065
{
"jobId" : "8083dc43-61fe-49da-8081-43b4e5257e95",
"status" : "Created",
"message" : null,
"reports" : [ ],
"createTimestamp" : "May 23, 2018 12:46:06 PM CEST",
"resourceList" : [ ],
"description" : "DB Home Patching: Home Id is 86b6a068-55a8-4171-9f94-48b86f135065",
"updatedTime" : "May 23, 2018 12:46:06 PM CEST"
}
odacli describe-job -i "e871f741-7dd6-49c6-9b4a-af0d68e647e7"
Job details
----------------------------------------------------------------
ID: e871f741-7dd6-49c6-9b4a-af0d68e647e7
Description: DB Home Patching: Home Id is 86b6a068-55a8-4171-9f94-48b86f135065
Status: Success
Created: May 23, 2018 1:37:00 PM CEST
Message: WARNING::Failed to run datapatch on db DB01TST##WARNING::Failed to run datapatch on db DB03TST
Task Name Start Time End Time Status
---------------------------------------- ----------------------------------- ----------------------------------- ----------
clusterware patch verification May 23, 2018 1:37:21 PM CEST May 23, 2018 1:37:23 PM CEST Success
Patch location validation May 23, 2018 1:37:23 PM CEST May 23, 2018 1:37:23 PM CEST Success
Opatch updation May 23, 2018 1:37:23 PM CEST May 23, 2018 1:37:23 PM CEST Success
Patch conflict check May 23, 2018 1:37:23 PM CEST May 23, 2018 1:37:23 PM CEST Success
db upgrade May 23, 2018 1:37:23 PM CEST May 23, 2018 1:37:23 PM CEST Success
SqlPatch upgrade May 23, 2018 1:37:23 PM CEST May 23, 2018 1:37:57 PM CEST Success
SqlPatch upgrade May 23, 2018 1:37:57 PM CEST May 23, 2018 1:38:26 PM CEST Success
SqlPatch upgrade May 23, 2018 1:38:26 PM CEST May 23, 2018 1:38:51 PM CEST Success
SqlPatch upgrade May 23, 2018 1:38:51 PM CEST May 23, 2018 1:39:49 PM CEST Success
SqlPatch upgrade May 23, 2018 1:39:49 PM CEST May 23, 2018 1:40:28 PM CEST Success
SqlPatch upgrade May 23, 2018 1:40:28 PM CEST May 23, 2018 1:40:53 PM CEST Success
SqlPatch upgrade May 23, 2018 1:40:53 PM CEST May 23, 2018 1:41:19 PM CEST Success
SqlPatch upgrade May 23, 2018 1:41:19 PM CEST May 23, 2018 1:41:44 PM CEST Success
SqlPatch upgrade May 23, 2018 1:41:44 PM CEST May 23, 2018 1:42:14 PM CEST Success
SqlPatch upgrade May 23, 2018 1:42:14 PM CEST May 23, 2018 1:42:48 PM CEST Success
SqlPatch upgrade May 23, 2018 1:42:48 PM CEST May 23, 2018 1:43:22 PM CEST Success
It’s longer but less than 10 minutes for this example. You can see the number of databases here (one line SqlPatch upgrade for one database). The job is successful, but actually not so successful because 2 warnings are raised. And be careful because message field in the job details is limited: check the /opt/oracle/dcs/log/dcs-agent.log for extended warning messages. Always check the DB Version after the update of all dbhomes, this is the new version of the binaries: odacli list-dbhomes ID Name DB Version Home Location Status ---------------------------------------- -------------------- ---------------------------------------- --------------------------------------------- ---------- 86b6a068-55a8-4171-9f94-48b86f135065 OraDB12102_home1 12.1.0.2.180116 (26925218, 26925263) /u01/app/oracle/product/12.1.0.2/dbhome_1 Configured c6e7d556-5785-41d8-a120-ed3ef756848a OraDB11204_home1 11.2.0.4.180116 (26609929, 26925576) /u01/app/oracle/product/11.2.0.4/dbhome_1 Configured If update job is really successful, jump to step 8. 7) Update the databases where datapatch failed For all the databases where datapatch cannot be applied, you’ll have to do it manually. I discovered that if your database is not in AMERICAN_AMERICA language and territory (FRENCH_FRANCE in my case) odacli will not be able to apply the datapatch on the database. Let’s check the status of the datapatch on the database, set the NLS_LANG environment to AMERICAN_AMERICA and apply the patch on these databases: su – oracle . oraenv <<< DB01TST cd $ORACLE_HOME/OPatch sqlplus / as sysdba SQL> set serveroutput on SQL> exec dbms_qopatch.get_sqlpatch_status; Patch Id : 26609798 Action : APPLY Action Time : 24-SEP-2017 23:50:14 Description : DATABASE BUNDLE PATCH 12.1.0.2.170814 Logfile : /u01/app/oracle/cfgtoollogs/sqlpatch/26609798/21481992/26609798_apply_G100316_CD BROOT_2017Sep24_23_48_22.log Status : SUCCESS Patch Id : 26925263 Action : APPLY Action Time : 29-MAY-2018 15:40:27 Description : DATABASE BUNDLE PATCH 12.1.0.2.180116 Logfile : /u01/app/oracle/cfgtoollogs/sqlpatch/26925263/21857460/26925263_apply_DB01TST_20 18May29_15_40_13.log Status : FAILED PL/SQL procedure successfully completed. exit export NLS_LANG=AMERICAN_AMERICA.AL32UTF8 ./datapatch -verbose sqlplus / as sysdba SQL> set serveroutput on SQL> exec dbms_qopatch.get_sqlpatch_status; Patch Id : 26609798 Action : APPLY Action Time : 24-SEP-2017 23:50:14 Description : DATABASE BUNDLE PATCH 12.1.0.2.170814 Logfile : /u01/app/oracle/cfgtoollogs/sqlpatch/26609798/21481992/26609798_apply_G100316_CD BROOT_2017Sep24_23_48_22.log Status : SUCCESS Patch Id : 26925263 Action : APPLY Action Time : 29-MAY-2018 15:40:27 Description : DATABASE BUNDLE PATCH 12.1.0.2.180116 Logfile : /u01/app/oracle/cfgtoollogs/sqlpatch/26925263/21857460/26925263_apply_DB01TST_20 18May29_15_40_13.log Status : FAILED Patch Id : 26925263 Action : APPLY Action Time : 29-MAY-2018 15:53:43 Description : DATABASE BUNDLE PATCH 12.1.0.2.180116 Logfile : /u01/app/oracle/cfgtoollogs/sqlpatch/26925263/21857460/26925263_apply_DB01TST_20 18May29_15_53_01.log Status : SUCCESS exit Repeat this operation on all the faulty databases. 8) Patching the storage Patching the storage is actually patching the NVMe disks. This is not always mandatory as your disks can already have the latest version. So, if needed, apply the patch: odacli update-storage -v 12.2.1.3.0
{
"jobId" : "4a221df4-8c85-4f34-aa7f-e014cdb751f7",
"status" : "Created",
"message" : "Success of Storage Update may trigger reboot of node after 4-5 minutes. Please wait till node restart",
"reports" : [ ],
"createTimestamp" : "May 29, 2018 13:27:41 PM CEST",
"resourceList" : [ ],
"description" : "Storage Firmware Patching",
"updatedTime" : "May 29, 2018 13:27:41 PM CEST"
}
odacli describe-job -i "4a221df4-8c85-4f34-aa7f-e014cdb751f7"
Job details
----------------------------------------------------------------
ID: 4a221df4-8c85-4f34-aa7f-e014cdb751f7
Description: Storage Firmware Patching
Status: Success
Created: May 29, 2018 1:27:41 PM CEST
Message:
Task Name Start Time End Time Status
---------------------------------------- ----------------------------------- ----------------------------------- ----------
Applying Firmware Disk Patches May 29, 2018 1:27:41 PM CEST May 29, 2018 1:27:45 PM CEST Success
Applying Firmware Expander Patches May 29, 2018 1:27:45 PM CEST May 29, 2018 1:27:52 PM CEST Success
Applying Firmware Controller Patches May 29, 2018 1:27:52 PM CEST May 29, 2018 1:28:51 PM CEST Success
preRebootNode Actions May 29, 2018 1:28:51 PM CEST May 29, 2018 1:28:51 PM CEST Success
Reboot Ilom May 29, 2018 1:28:51 PM CEST May 29, 2018 1:28:51 PM CEST Success
Beware of the reboot of the server few minutes after the patching is finished! And control the components version after the reboot. 9) Optional: deploy the latest db clone files If you’ll never deploy a new dbhome this step is not necessary. If you will, or simply if you don’t know if you’ll have to do that later, download and register the new db clone files in the repository to be able to create a new dbhome at the same patch level, for example: cd /opt/patch unzip p23494992_122130_Linux-x86-64.zip Archive: p23494992_122130_Linux-x86-64.zip extracting: odacli-dcs-12.2.1.3.0-180320-DB-12.1.0.2.zip inflating: README.txt update-image --image-files odacli-dcs-12.2.1.3.0-180320-DB-12.1.0.2.zip Unpacking will take some time, Please wait... Unzipping odacli-dcs-12.2.1.3.0-180320-DB-12.1.0.2.zip 10) Control the version of the components Now the patching is done. It took about 2 hours, not so bad for all these updates. Finally, do a last check of the components to see if everything is fine: odacli describe-component
System Version
---------------
12.2.1.3.0
Component Installed Version Available Version
---------------------------------------- -------------------- --------------------
OAK 12.2.1.3.0 up-to-date
GI 12.2.0.1.180116 up-to-date
DB {
[ OraDB12102_home1 ] 12.1.0.2.180116 up-to-date
[ OraDB11204_home1 ] 11.2.0.4.180116 up-to-date
}
DCSAGENT 18.1.3.0.0 up-to-date
ILOM 4.0.0.24.r121140 up-to-date
BIOS 39090000 up-to-date
OS 6.9 up-to-date
FIRMWARECONTROLLER {
[ c6 ] 4.650.00-7176 up-to-date
[ c0,c1,c2,c3,c4,c5 ] KPYAGR3Q up-to-date
}
FIRMWAREDISK 0R3Q up-to-date
Everything should be up-to-date now, until the next patch Cet article Patching ODA lite to 12.2.1.3.0 est apparu en premier sur Blog dbi services. Introducing SQL Server on KubernetesAfter spending some times with Docker Swarm let’s introduce SQL Server on Kubernetes (aka K8s). Why another container orchestrator? Well, because Microsoft gives a strong focus on Kubernetes in their documentation and their events and because K8s is probably one of the most popular orchestration tools in the IT industry. By the way, I like to refer to the Portworx Annual Container Adoption Survey to get a picture of container trend over the years and we may notice there is no clear winner among orchestration tools yet between Swarm and K8s. By 2017, one another interesting point was persistent storage challenge that is the top 1 of the top list of adoption. I’m looking forward to see the next report about this point because you probably guessed, database containers rely mainly on it. Anyway, as an IT services company, it appears justifiable to include K8s to our to-do list about container orchestrators
First of all, let’s say this blog post doesn’t aim to compare Docker Swarm and K8s. Each platform has pros and cons and you can read a lot on the internet. I will rather expose some thoughts about deploying our dbi services docker image on this platform. Indeed, since last year we mainly work on our SQL Server docker image based on Docker and Docker Swarm architectures and it may be interesting to see if we may go the same way with K8s. But before deploying our custom image we need to install a K8s infrastructure. From an installation perspective K8s cluster is likely harder to use than Docker Swarm. This time rather than using my own lab environment, I will shift on both Azure container and Azure container registry services to provision an operational K8s service. I just want here to focus on deploying my image and get some experience feedbacks about interacting with K8s. The Microsoft procedure is well-documented so there is no really adding-value to duplicate the installation steps. Because we operate on Azure, I will use a lot of az cli and kubectl commands to deploy and to manage my K8s service. Here some important information concerning my infrastructure: I first installed and configured a private registry through the Azure container registry service in order to push my custom docker image for SQL Server 2017 on Linux. Obviously, this step may be optional regarding your context. My custom image is named dbi_linux_sql2017. [dab@DBI-LT-DAB:#]> az acr repository list --name dbik8registry --output table Result ------------------ dbi_linux_sql2017 mssql-server-linux
Then I installed my K8s service that includes 2 nodes. This is likely not a recommended scenario for production but it will fit with my need for the moment. I will probably scale my architecture for future tests. [dab@DBI-LT-DAB:#]> kubectl cluster-info Kubernetes master is running at https://dbik8sclus-k8s-rg-913528-... Heapster is running at https://dbik8sclus-k8s-rg-913528-... KubeDNS is running at https://dbik8sclus-k8s-rg-913528-... kubernetes-dashboard is running at https://dbik8sclus-k8s-rg-913528-... … [dab@DBI-LT-DAB:#]> kubectl config view
apiVersion: v1
clusters:
- cluster:
certificate-authority-data: REDACTED
server: https://dbik8sclus-k8s-rg-913528-3eb7146d.hcp.westeurope.azmk8s.io:443
name: dbik8scluster
contexts:
- context:
cluster: dbik8scluster
user: clusterUser_k8s-rg_dbik8scluster
name: dbik8scluster
current-context: dbik8scluster
…
[dab@DBI-LT-DAB:#]> kubectl get nodes
NAME STATUS ROLES AGE VERSION
aks-nodepool1-78763348-0 Ready agent 6h v1.9.6
aks-nodepool1-78763348-1 Ready agent 6h v1.9.6
From an Azure perspective, my K8s cluster is composed of several resources in a dedicated resource group with virtual machines, disks, network interfaces, availability sets and a K8s load balancer reachable from a public IP address.
Finally, I granted to my K8s cluster sufficient permissions to access my private Docker registry (READ role). [dab@DBI-LT-DAB:#]>$CLIENT_ID=(az aks show --resource-group k8s-rg --name dbik8scluster --query "servicePrincipalProfile.clientId" --output tsv) [dab@DBI-LT-DAB:#]>$ACR_ID=$(az acr show --name dbik8registry --resource-group k8s-rg --query "id" --output tsv) [dab@DBI-LT-DAB:#]>az role assignment create --assignee $CLIENT_ID --role Reader --scope $ACR_ID [dab@DBI-LT-DAB:#]> kubectl get secrets NAME TYPE DATA AGE default-token-s94vc kubernetes.io/service-account-token 3 6h
Similar to Docker Swarm, we may rely on secret capabilities to protect the SQL Server sa password. So, let’s take advantage of it! [dab@DBI-LT-DAB:#]> kubectl create secret generic mssql --from-literal=SA_PASSWORD="xxxxx" [dab@DBI-LT-DAB:#]> kubectl get secrets NAME TYPE DATA AGE default-token-s94vc kubernetes.io/service-account-token 3 6h mssql Opaque 1 6h
At this stage before deploying my SQL Server application, let’s introduce some K8s important concepts we should be familiar as a database administrator.
Referring to the K8s documentation, a pod is a logical concept that represents one or more application containers with some shared resources as shared storage, networking including unique cluster IP address and metadata about each container image such image version, exposed port etc …. Each container in the same pod is always co-located and co-scheduled and run in shared context on the same node. Comparing to Docker Swarm, the latter doesn’t offer such capabilities because as far I as know by default, tasks are spread services across the cluster and there is no really easy way to achieve the same concept than K8s pod. To simplify, a K8s pod is a group of containers that are deployed together on the same host. Referring to my SQL Server deployment with only one container, pod may be replaced by container here but in a real production scenario SQL Server will likely be one part of a K8s pod.
We may correlate what was said previously by using K8s related commands to pods. Here a status of the pod related to my SQL Server deployment. [dab@DBI-LT-DAB:#]> kubectl get pods
NAME READY STATUS RESTARTS AGE
mssql-deployment-5845f974c6-xx9jv 1/1 Running 0 3h
[dab@DBI-LT-DAB:#]> kubectl describe pod mssql-deployment-5845f974c6-xx9jv
Name: mssql-deployment-5845f974c6-xx9jv
Namespace: default
Node: aks-nodepool1-78763348-0/10.240.0.4
Start Time: Wed, 30 May 2018 19:16:46 +0200
Labels: app=mssql
pod-template-hash=1401953072
Annotations: <none>
Status: Running
IP: 10.244.1.13
Controlled By: ReplicaSet/mssql-deployment-5845f974c6
Containers:
mssql:
Container ID: docker://b71ba9ac3c9fa324d8ff9ffa8ec24015a676a940f4d2b64cbb85b9de8ce1e227
Image: dbik8registry.azurecr.io/dbi_linux_sql2017:CU4
Image ID: docker-pullable://dbik8registry.azurecr.io/dbi_linux_sql2017@sha256:5b9035c51ae2fd4c665f957da2ab89432b255db0d60d5cf63d3405b22a36ebc1
Port: 1433/TCP
State: Running
Started: Wed, 30 May 2018 19:17:22 +0200
Ready: True
Restart Count: 0
Environment:
ACCEPT_EULA: Y
MSSQL_SA_PASSWORD: xxxxxx
DMK: Y
Mounts:
/var/opt/mssql from mssqldb (rw)
/var/run/secrets/kubernetes.io/serviceaccount from default-token-s94vc (ro)
Conditions:
Type Status
Initialized True
Ready True
PodScheduled True
Volumes:
mssqldb:
Type: PersistentVolumeClaim (a reference to a PersistentVolumeClaim in the same namespace)
ClaimName: mssql-data
ReadOnly: false
….
A Replication set is a structure that enables you to easily create multiple pods, then make sure that that number of pods always exists. If a pod does crash, the Replication Controller replaces it. It also provides scale capabilities as we get also from Docker Swarm.
From K8s documentation a service is also an abstraction which defines a logical set of Pods and a policy by which to access them – sometimes called a micro-service. The set of Pods targeted by a service is (usually) determined by a Label Selector. While there are some differences under the hood, we retrieve the same concepts with Docker Swarm from a deployment perspective.
Referring again to the K8s documentation, every node in a Kubernetes cluster runs a kube-proxy that is responsible for implementing a form of virtual IP for Services. It includes Ingress network that is also part of Docker Swarm architecture with overlay networks and routing mesh capabilities. In my case, as described previously I used an external load balancer with an EXTERNAL-IP configured to access my SQL Server container from the internet (xx.xxx.xxx.xx is my masked public IP as you already guessed) [dab@DBI-LT-DAB:#]> kubectl get services NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE kubernetes ClusterIP 10.0.0.1 <none> 443/TCP 7h mssql-deployment LoadBalancer 10.0.200.170 xx.xxx.xxx.xx 1433:30980/TCP 4h
From an Azure perspective the above output corresponds to what we may identify as my Kubernetes load balancer and public IP address resources as well.
Once again, my intention was not to compare Docker Swarm and K8s at all but just to highlight the fact if you’re already comfortable with Docker Swarm, the move on K8s is not as brutal as we may suppose from a high-level point of view. Ok let’s start now the deployment phase. As said previously my private container registry already contains my custom SQL Server image. I just had to tag my image on my local machine and to push it the concerned registry as I might do with other remote Docker registries. [dab@DBI-LT-DAB:#]> docker images REPOSITORY TAG IMAGE ID CREATED SIZE dbik8registry.azurecr.io/dbi_linux_sql2017 CU4 3c6bafb33a5c 17 hours ago 1.42GB dbi/dbi_linux_sql2017 CU4 3c6bafb33a5c 17 hours ago 1.42GB [dab@DBI-LT-DAB:#]> az acr repository list --name dbik8registry --output table Result ------------------ dbi_linux_sql2017 mssql-server-linux [dab@DBI-LT-DAB:#]> az acr repository show-tags --name dbik8registry --repository mssql-server-linux --output table Result -------- 2017-CU4
In addition, I used a persistent storage based on Azure managed disk in order to guarantee persistence for my SQL Server database files. [dab@DBI-LT-DAB:#]> kubectl describe pvc mssql-data Name: mssql-data Namespace: default StorageClass: azure-disk Status: Bound Volume: pvc-32a42393-6402-11e8-885d-f2170a386bd7 …
Concerning the image itself we use some custom parameters to create both a dedicated user for applications that will run on the top of the SQL Server instance and to enable the installation of the DMK maintenance module for SQL Server at the container start up. We have other customization topics but for this blog post it will be sufficient to check what we want to test. Here my deployment file. Comparing to Docker Swarm deployment file, I would say the manifest is more complex with K8s (that’s a least my feeling). apiVersion: apps/v1beta1
kind: Deployment
metadata:
name: mssql-deployment
spec:
replicas: 1
template:
metadata:
labels:
app: mssql
spec:
terminationGracePeriodSeconds: 10
containers:
- name: mssql
image: dbik8registry.azurecr.io/dbi_linux_sql2017:CU4
ports:
- containerPort: 1433
env:
- name: ACCEPT_EULA
value: "Y"
- name: MSSQL_SA_PASSWORD
valueFrom:
secretKeyRef:
name: mssql
key: SA_PASSWORD
- name: DMK
value: "Y"
volumeMounts:
- name: mssqldb
mountPath: /var/opt/mssql
volumes:
- name: mssqldb
persistentVolumeClaim:
claimName: mssql-data
---
apiVersion: v1
kind: Service
metadata:
name: mssql-deployment
spec:
selector:
app: mssql
ports:
- protocol: TCP
port: 1433
targetPort: 1433
type: LoadBalancer
Let’s deploy and let’s spin up our SQL Server application [dab@DBI-LT-DAB:#]> kubectl apply -f T:\dbi_dbaas_azure\sqlk8sazuredeployment.yaml deployment "mssql-deployment" created service "mssql-deployment" created
Pod and services are created. Let’s take a look at some information about them. Deployment and pod are ok. The last command shows the associated internal IP to connect in order to the SQL Server pod as well as a external / public IP address that corresponds to the Ingress load-balancer to connect from outside Azure internal network. We also get a picture of exposed ports. [dab@DBI-LT-DAB:#]> kubectl get deployments NAME DESIRED CURRENT UP-TO-DATE AVAILABLE AGE mssql-deployment 1 1 1 1 7m [dab@DBI-LT-DAB:#]> kubectl get pods -o wide NAME READY STATUS RESTARTS AGE IP NODE mssql-deployment-8c67fdccc-pbg6d 1/1 Running 0 12h 10.244.1.16 aks-nodepool1-78763348-0 [dab@DBI-LT-DAB:#]> kubectl get replicasets NAME DESIRED CURRENT READY AGE mssql-deployment-8c67fdccc 1 1 1 12h [dab@DBI-LT-DAB:#]> kubectl get services NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE kubernetes ClusterIP 10.0.0.1 <none> 443/TCP 9h mssql-deployment LoadBalancer 10.0.134.101 xxx.xxx.xxx.xxx 1433:31569/TCP 7m [dab@DBI-LT-DAB:#]> kubectl describe service mssql-deployment Name: mssql-deployment Namespace: default Labels: <none> … Selector: app=mssql Type: LoadBalancer IP: 10.0.134.101 LoadBalancer Ingress: xxx.xxx.xxx.xxx Port: <unset> 1433/TCP TargetPort: 1433/TCP NodePort: <unset> 31569/TCP Endpoints: 10.244.1.16:1433 Session Affinity: None External Traffic Policy: Cluster Events: <none>
Let’s try now to connect to new fresh SQL Server instance from my remote laptop:
Great job! My container includes all my custom stuff as the dbi_tools database and dedicated maintenance jobs related to our DMK maintenance tool. We may also notice the dbi user created during the container start up. Just out of curiosity, let’s have a look at the pod log or container log because there is only one in the pod in my case. The log includes SQL Server log startup and I put only some interesting samples here that identify custom actions we implemented during the container startup. [dab@DBI-LT-DAB:#]> kubectl get po -a NAME READY STATUS RESTARTS AGE mssql-deployment-8c67fdccc-pk6sm 1/1 Running 0 21m [dab@DBI-LT-DAB:#]> kubectl logs mssql-deployment-8c67fdccc-pk6sm … ======= 2018-05-30 21:04:59 Creating /u00 folder hierarchy ======== cat: /config.log: No such file or directory ======= 2018-05-30 21:04:59 Creating /u01 folder hierarchy ======== ======= 2018-05-30 21:04:59 Creating /u02 folder hierarchy ======== ======= 2018-05-30 21:04:59 Creating /u03 folder hierarchy ======== ======= 2018-05-30 21:04:59 Creating /u98 folder hierarchy ======== ======= 2018-05-30 21:04:59 Linking binaries and configuration files to new FHS ======== ======= 2018-05-30 21:04:59 Creating MSFA OK ======= …. 2018-05-30 21:05:13.85 spid22s The default language (LCID 1033) has been set for engine and full-text services. ======= 2018-05-30 21:05:29 MSSQL SERVER STARTED ======== ======= 2018-05-30 21:05:29 Configuring tempdb database files placement ======= … 2018-05-30 21:06:05.16 spid51 Configuration option 'max server memory (MB)' changed from 2147483647 to 1500. Run the RECONFIGURE statement to install. Configuration option 'show advanced options' changed from 0 to 1. Run the RECONFIGURE statement to install. Configuration option 'max server memory (MB)' changed from 2147483647 to 1500. Run the RECONFIGURE statement to install. ======= 2018-05-30 21:06:05 Configuring max server memory OK ======= ======= 2018-05-30 21:06:05 Creating login dbi ======= ======= 2018-05-30 21:06:05 Creating login dbi OK ======= ======= 2018-05-30 21:06:05 Installing DMK ======= Changed database context to 'master'. Creating dbi_tools... 2018-05-30 21:06:12.47 spid51 Setting database option MULTI_USER to ON for database 'dbi_tools'. Update complete. Changed database context to 'dbi_tools'. (1 rows affected) (1 rows affected) ======= 2018-05-30 21:06:12 Installing DMK OK ======= ======= MSSQL CONFIG COMPLETED ======= 2018-05-30 21:10:09.20 spid51 Using 'dbghelp.dll' version '4.0.5' 2018-05-30 21:10:19.76 spid51 Attempting to load library 'xplog70.dll' into memory. This is an informational message only. No user action is required. 2018-05-30 21:10:19.87 spid51 Using 'xplog70.dll' version '2017.140.3022' to execute extended stored procedure 'xp_msver'. This is an informational message only; no user action is required.
To finish this blog post up properly, let’s simulate a pod failure to check the K8s behavior with our SQL Server container. [dab@DBI-LT-DAB:#]> kubectl delete pod mssql-deployment-8c67fdccc-pk6sm pod "mssql-deployment-8c67fdccc-pk6sm" deleted [dab@DBI-LT-DAB:#]> kubectl get pods NAME READY STATUS RESTARTS AGE mssql-deployment-8c67fdccc-jrdgg 1/1 Running 0 5s mssql-deployment-8c67fdccc-pk6sm 1/1 Terminating 0 26m [dab@DBI-LT-DAB:#]> kubectl get pods NAME READY STATUS RESTARTS AGE mssql-deployment-8c67fdccc-jrdgg 1/1 Running 0 2m
As expected, the replica set is doing its job by re-creating the pod to recover my SQL Server instance, and by connecting to the persistent storage. We can check we can still connect on the instance from the load balancer IP address without running into any corruption issue.
To conclude, I would say that moving our custom SQL docker image was not as hard as I expected. Obviously, there are some difference between the both orchestrator products but from an application point of view it doesn’t make a big difference. In an administration perspective, I’m agree the story is probably not the same What about K8s from a development perspective? You may say that you didn’t own such Azure environment but the good news is you can use Minikube which is the single node version of Kubernetes mainly designed for local development. I will probably blog about it in the future. Stay tuned!
Cet article Introducing SQL Server on Kubernetes est apparu en premier sur Blog dbi services. An awk filter to truncate or wrap around tabular outputIn my previous blog “idql and its column output”, see link here, I provided a small awk filter to reflow the idql output’s columns by wrapping their content around. Later I came of thinking that it could be useful to be able to truncate the columns instead, in order to have an even compacter output. A shorter, denser table can certainly help is some cases, such as when a quick overview of a query’s result is enough to get an idea of its correctness or its performance. # Usage:
# gawk [-v maxw=nn] [-v truncate=0|1] [-v ellipsis=...] [-v wrap=1|0] -f compact_wwa.awk file
# or:
# cmd | gawk [-v maxw=nn] [-v truncate=0|1] [-v ellipsis=...] [-v wrap=1|0] -f compact_wwa.awk
# where:
# missing numeric parameters assume the value 0;
# maxw is the maximum column width and defaults to 32;
# characters outside this limit are either wrapped around in their own column or truncated, depending on the parameters truncate and wrap;
# wrapping is the default and has priority over truncating;
# truncate=0 wrap=0 --> wrapping around;
# truncate=0 wrap=1 --> wrapping around;
# truncate=1 wrap=0 --> truncate;
# truncate=1 wrap=1 --> wrapping around;
# truncating is therefore only done when explicitly and unambiguously requested; this is to preserve data integrity whenever possible;
# ellipsis string is only considered when truncating and defaults to '...'; thus, there is always one to warn of truncation;
# example:
# gawk -v maxw=50 -f compact_wwa.awk tmp_file | less -S
# C. Cervini, dbi-services;
BEGIN {
if (!maxw) maxw = 32
if (!truncate)
if (!wrap)
wrap = 1
else;
else if (!wrap);
else
truncate = 0
if (!ellipsis)
ellipsis = "..."
while (getline && !match($0, /^([0-9]+> )+/));
header = substr($0, RLENGTH + 1)
getline
nbFields = NF
fs[0] = 0; fw[0] = -1 # just so that fs[1] = 1, see below;
headerLine = ""; sepLine = ""
for (i = 1; i <= NF; i++) {
fs[i] = fs[i - 1] + fw[i - 1] + 2
fw[i] = length($i)
Min = min(fw[i], maxw)
if (1 == truncate)
Min = max(Min, length(ellipsis))
sepLine = sepLine sprintf("%s ", substr($0, fs[i], Min))
}
printWithWA(header)
printf("%s\n", sepLine)
}
{
if (match($0, /^\([0-9]+ rows? affected\)/)) {
print
exit
}
printWithWA($0)
}
function printWithWA(S) {
do {
left_over = ""
for (i = 1; i <= nbFields; i++) {
Min = min(fw[i], maxw)
if (1 == truncate)
Min = max(Min, length(ellipsis))
columnS = substr(S, fs[i], Min)
if (1 == truncate) {
restColumn = substr(S, fs[i] + Min, fw[i] - Min); gsub(/ +$/, "", restColumn)
if (restColumn)
columnS = substr(columnS, 1, length(columnS) - length(ellipsis)) ellipsis
}
printf("%s ", columnS)
restS = substr(S, fs[i] + Min, fw[i] - Min)
if (length(restS) > 0) {
left_over = left_over sprintf("%-*s ", fw[i], restS)
}
else
left_over = left_over sprintf("%*s ", fw[i], "")
}
printf "\n"
gsub(/ +$/, "", left_over)
S = left_over
} while (left_over && wrap)
}
function min(x, y) {
return(x <= y ? x : y)
}
function max(x, y) {
return(x >= y ? x : y)
}
Example of execution There are still lots of ways to enhance this script. For instance, one of them is to provide a maxw per column. Here, the parameter maxw is applied to all the columns but it would be nice to compress (whether by truncating or by wrapping around) only the uninteresting columns so to have more space for the relevant ones. I think this script can prove useful to those who need to work with idql and have to deal with its limits. Countless times in the past, I had to open a DQL extraction’s output in UltraEdit to manually shrink all those columns. Too bad that I didn’t have this little utility before, it could have spared me tons of time doing all this tedious work. Cet article An awk filter to truncate or wrap around tabular output est apparu en premier sur Blog dbi services. Adding a Documentum Extension to gawk, part IIThis is part II of the article “Adding a Documentum Extension to gawk”. You can find Part I here @load "dctm"
# provides high-level function to do Documentum stuff;
# set environment variable $DOCUMENTUM to where the dmcl.ini file is and $LD_LIBRARY_PATH to the location of libdmcl40.so;
# this library file is made available to gawk scripts by @include-ing in it;
# the environment variable AWKPATH can be set to the path containing the included awk sources;
# Cesare Cervini
# dbi-services.com
# 5/2018
dmLogLevel = 1
function dmShow(mesg) {
# displays the message msg if allowed
if (dmLogLevel > 0)
print mesg
}
function dmConnect(docbase, user_name, password) {
# connects to given docbase as user_name/password;
# returns a session id if OK, an empty string otherwise
dmShow("in connect(), docbase = " docbase ", user_name = " user_name ", password = " password)
session = dmAPIGet("connect," docbase "," user_name "," password)
if (!session) {
print "unsuccessful connection to docbase " docbase " as user " user_name
return ""
}
else {
dmShow("successful session " session)
dmShow(dmAPIGet("getmessage," session))
}
dmShow("exiting connect()")
return session
}
function dmExecute(session, dql_stmt) {
# execute non-SELECT DQL statements;
# returns 1 if OK, 0 otherwise;
dmShow("in dmExecute(), dql_stmt=" dql_stmt)
query_id = dmAPIGet("query," session "," dql_stmt)
if (!query_id) {
dmShow(dmAPIGet("getmessage," session))
return 0
}
if (!dmAPIExec("close," session "," query_id)) {
dmShow(dmAPIGet("getmessage," session))
return 0
}
dmAPIGet("getmessage," session)
return 1
}
function dmSelect(session, dql_stmt, attribute_names) {
# execute the DQL SELECT statement passed in dql_stmt and outputs the result to stdout;
# attributes_names is a list of attributes to extract from the result set;
# return 1 if OK, 0 otherwise;
dmShow("in dmSelect(), dql_stmt=" dql_stmt)
query_id = dmAPIGet("query," session "," dql_stmt)
if (!query_id) {
dmShow(dmAPIGet("getmessage," session))
return 0
}
s = ""
nb_attrs = split(attribute_names, attributes_tab, " ")
for (attr = 1; attr <= nb_attrs; attr++)
s = s "[" attributes_tab[attr] "]\t"
print s
resp_cntr = 0
while (dmAPIExec("next," session "," query_id) > 0) {
s = ""
for (attr = 1; attr <= nb_attrs; attr++) {
value = dmAPIGet("get," session "," query_id "," attributes_tab[attr])
if ("r_object_id" == attributes_tab[attr] && !value) {
dmShow(dmAPIGet("getmessage," session))
return 0
}
s= s "[" (value ? value : "NULL") "]\t"
}
resp_cntr += 1
dmShow(sprintf("%d: %s", resp_cntr, s))
}
dmShow(sprintf("%d rows iterated", resp_cntr))
if (!dmAPIExec("close," session "," query_id)) {
dmShow(dmAPIGet("getmessage," session))
return 0
}
return 1
}
function dmDisconnect(session) {
# closes the given session;
# returns 1 if no error, 0 otherwise;
dmShow("in dmDisconnect()")
status = dmAPIExec("disconnect," session)
if (!status)
dmShow("Exception in dmDisconnect():")
else
dmShow("exiting disconnect()")
return status
}
o Ditto for the test program tdctm.awk; # test program for DctmAPI.awk and the interface dctm.c;
# Cesare Cervini
# dbi-services.com
# 5/2018
@include "DctmAPI.awk"
BEGIN {
dmLogLevel = 1
status = dmAPIInit()
printf("dmAPIInit(): %d\n", status)
if (status)
print("dmAPIInit() was successful")
else
print("dmAPIInit() was not successful")
printf "\n"
session = dmConnect("dmtest", "dmadmin" , "dmadmin")
printf("dmConnect: session=%s\n", session)
if (!session) {
print("no session opened, exiting ...")
exit(1)
}
printf "\n"
dump = dmAPIGet("dump," session ",0900c35080008107")
print("object 0900c35080008107 dumped:\n" dump)
printf "\n"
stmt = "update dm_document object set language_code = 'FR' where r_object_id = '0900c35080008107'"
status = dmExecute(session, stmt)
if (status)
print("dmExecute [" stmt "] was successful")
else
print("dmExecute [" stmt "] was not successful")
printf "\n"
stmt = "select r_object_id, object_name, owner_name, acl_domain, acl_name from dm_document"
status = dmSelect(session, stmt, "r_object_id object_name owner_name acl_domain acl_name")
if (status)
print("dmSelect [" stmt "] was successful")
else
print("dmSelect [" stmt "] was not successful")
printf "\n"
stmt = "select count(*) from dm_document"
status = dmSelect(session, stmt, "count(*)")
if (status)
print("dmSelect [" stmt "] was successful")
else
print("dmSelect [" stmt "] was not successful")
printf "\n"
status = dmDisconnect(session)
if (status)
print("successfully disconnected")
else
print("error while disconnecting")
printf "\n"
status = dmAPIDeInit()
if (status)
print("successfully deInited")
else
print("error while deInited")
exit(0)
}
o Let’s test now ! o Produced output: Now that the extension has proved to be usable, it could be interesting to deploy it system-wide. This can be done by the generated Makefile at the root directory of the package as follows: I started this mini-project on a 32-bit Ubuntu VM with the Documentum v5.3 libdmcl40.so library. Once it proved working, I replayed all the steps on a 64-bit Ubuntu VM with the Documentum v7.3 binaries. There, as already noticed in the past, the library libdmcl40.so kept crashing the executable that loads it at run-time, gawk here, so I successfully resorted to libdmcl.so, the one that calls java code behind the scenes through JNI. It is a bit slower at start up but at least does work as expected. It is very likely that the ancient libdmcl40.so is going to be retired in some future release of the content server, so be prepared to switch. This test program and wrapper are actually the gawk counterparts of the Documentum extension for python I wrote earlier for this blog (check it here). With these 2 extensions, an administrator does not have any longer to be stuck with a limited and, even worse, stagnant tool. The awk language is easy and well suited to the kind of work administrators do with Documentum. Its gawk implementation is powerful, open, very well maintained and, as shown, easily extensible so there is no reason not to use it. Cet article Adding a Documentum Extension to gawk, part II est apparu en premier sur Blog dbi services. Adding a Documentum Extension to gawk, part IRecently, I was searching my NAS for some files which, to end this intolerable suspense, I did not find but on the other hand I did stumbled across a couple of interesting dmawk scripts I wrote for on customer more than 20 years ago. Some statements looked a bit odd, e.g. access to elements from multi-dimensional arrays such as “a[i1][i2]”, or “delete A” to empty an array (instead of the well-known awk idiom split(“”, A)). After a while, I understood what was going on here: the dmawk that came with content server v3.x was formerly based on the GNU dialect of awk named gawk. It was already a more powerful interpreter than the standard AT&T awk available on the Unix I was using, namely HP-UX, and nowadays it has become even better, as you can see by yourself by checking the official manual here. At that time, it already allowed to be extended, which Documentum took profit of by turning gawk into a DMCL client, dmawk. However, it was quite a tedious task because it required hacking deeply into the source code. When years later I was playing with this and trying to add Oracle connectivity to gawk (and turn it into an Oracle OCI-based client, oragawk ;-), I remember for instance one step that required the symbol table to be edited in order to add the new functions, and possibly their implementation code inserted in the bison file; finally, the whole gawk source had to be recompiled and relinked. Tedious yet bearable as it didn’t prevent passionate people from forking custom versions with useful new functionalities such as xml processing in xgawk. Over the years, starting with v4.1.1, gawk has evolved a new, much easier mechanism for adding extensions (aka plugins). It is named dynamic extension (see documentation here); it lets one load shared libraries at run-time and invoke their functions from within a gawk script through a minimum interface to be provided; the other way around, i.e. callbacks, is also possible for the brave, or really motivated, ones. Several powerful extensions have been developed through this system such as: json serialization from/to an associative array (useful e.g. to prepare parameters to pass to javascript functions such as the ones in HighChart or flot libraries), arbitrary-precision integer and floating point support, postgresql database access, etc. (for a list of current extensions, see here). If you have a recent gawk compiled with the MPFR extension, try for example the command below: So why hasn’t Documentum kept up with gawk and gone for the standard, lesser awk instead ? Maybe because of a licensing issue ? Gawk is protected by the GNU GPL (see its full text in the gawk manual above) which mandates not only its modified source code but also all extension code statically or dynamically linked with it to be provided also in source code form and included in the delivered package, and maybe this was disturbing at the time. Now that open source is omnipresent, from O/Ses to RDBMS, from the network software to WEB development frameworks, from ERP to CRM software, it is so common that even a restrictive license such as the GPL does not shock anyone today. Linux itself, or GNU/Linux as some like to call it, contains a massive amount of GPL-ed software, linux per se being limited to the kernel, and is under the GPL itself. Thus, in the new extension mechanism, the GPL requires to publish the source code of not only the interface to be linked with gawk but also of the proprietary shared library libdmcl40.so (see the definition of Corresponding Source) that is loaded at run-time; but wait: since libdmcl40.so tightly uses other proprietary Documentum libraries, their source code would also need to be published, and so on, transitively. Obviously, this licensing is by design not favorable to closed source, which is exactly the reason d’être of the FSF (aka, the Free Software Foundation). If Documentum chose not to go the GPL way at that time with the simpler EDMS, it is very unlikely that it will in the future unless it drastically changes its business model and become, say, the Red Hat of document management! Fortunately, there are no reasons to hold one’s breath until that day for I propose here a simple, straightforward interface between gawk and the Documentum libdmcl40.so/libdmcl.so run-time libraries which will not violate the GPL as nothing closed source is distributed. Its usage is exactly the same as documented in the API reference manual. I’ll show you hereafter how to prepare and use it. Since this article will be quite long, I’ll split it in two parts. Part I, you’re reading it, presents the interface and explains how to compile it as a gawk extension. Part II here will deal with a wrapper around that interface providing a few helper functions and a test program to show how to use the extension. Installationo Check the currently installed version of gawk; o This is an old release; let’s take this opportunity to upgrade to the current latest, the 4.2.1; o Let’s get the latest source code of gawk, it’s the release 4.2.1; o compile it; o Check the new version; o Note that the MPFR and GMP extensions were not linked in; that’s because those libraries were not present on my system; /*
* dctm.c - Builtin functions that provide an interface to Documentum dmapp.h;
* see dmapp.h for description of functions;
*
* Cesare Cervini
* dbi-services.com
* 5/2018
* go to .libs and and link dmcl.o it with the Documentum library with: gcc -o dctm.so -shared dctm.o path-to-the-shared-library/libdmcl40.so;
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdio.h>
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/stat.h>
#include "gawkapi.h"
#include "gettext.h"
#define _(msgid) gettext(msgid)
#define N_(msgid) msgid
/* make it point to the Documentum dmapp.h on your system */
#include "/home/dmadmin/documentum/share/sdk/include/dmapp.h"
static const gawk_api_t *api; /* for convenience macros to work */
static awk_ext_id_t ext_id;
static const char *ext_version = "dctm extension: version 1.0";
static awk_bool_t (*init_func)(void) = NULL;
int plugin_is_GPL_compatible;
/* do_dmAPIInit */
static awk_value_t *
do_dmAPIInit(int nargs, awk_value_t *result, struct awk_ext_func *unused) {
unsigned int ret = 0;
assert(result != NULL);
ret = dmAPIInit();
ret &= 0xff;
return make_number(ret, result);
}
/* do_dmAPIDeInit */
static awk_value_t *
do_dmAPIDeInit(int nargs, awk_value_t *result, struct awk_ext_func *unused) {
unsigned int ret = 0;
assert(result != NULL);
ret = dmAPIDeInit();
ret &= 0xff;
return make_number(ret, result);
}
/* do_dmAPIExec */
static awk_value_t *
do_dmAPIExec(int nargs, awk_value_t *result, struct awk_ext_func *unused) {
awk_value_t str;
unsigned int ret = 0;
assert(result != NULL);
if (get_argument(0, AWK_STRING, & str)) {
ret = dmAPIExec(str.str_value.str);
ret &= 0xff;
} else if (do_lint)
lintwarn(ext_id, _("dmAPIExec: called with inappropriate argument(s)"));
return make_number(ret, result);
}
/* do_dmAPIGet */
static awk_value_t *
do_dmAPIGet(int nargs, awk_value_t *result, struct awk_ext_func *unused) {
awk_value_t str;
char *got_value;
assert(result != NULL);
if (get_argument(0, AWK_STRING, & str)) {
got_value = dmAPIGet(str.str_value.str);
} else if (do_lint)
lintwarn(ext_id, _("dmAPIGet: called with inappropriate argument(s)"));
make_const_string(got_value == NULL ? "" : got_value, strlen(got_value), result);
return result;
}
/* do_dmAPISet */
static awk_value_t *
do_dmAPISet(int nargs, awk_value_t *result, struct awk_ext_func *unused) {
awk_value_t str1;
awk_value_t str2;
unsigned int ret = 0;
assert(result != NULL);
if (get_argument(0, AWK_STRING, & str1) && get_argument(0, AWK_STRING, & str2)) {
ret = dmAPISet(str1.str_value.str, str2.str_value.str);
ret &= 0xff;
} else if (do_lint)
lintwarn(ext_id, _("dmAPISet: called with inappropriate argument(s)"));
return make_number(ret, result);
}
/* these are the exported functions along with their min and max arities; */
static awk_ext_func_t func_table[] = {
{ "dmAPIInit", do_dmAPIInit, 0, 0, awk_false, NULL },
{ "dmAPIDeInit", do_dmAPIDeInit, 0, 0, awk_false, NULL },
{ "dmAPIExec", do_dmAPIExec, 1, 1, awk_false, NULL },
{ "dmAPIGet", do_dmAPIGet, 1, 1, awk_false, NULL },
{ "dmAPISet", do_dmAPISet, 2, 2, awk_false, NULL },
};
/* define the dl_load function using the boilerplate macro */
dl_load_func(func_table, dctm, "")
o Again, run configure and build the extensions; o The extensions’ object files and shared libraries are actually contained in the hidden .libs directory below extension; so move there and check the generated dctm.so library; o The library has still no reference to libdmcl.so; let’s link it with it and check again; Good, so far dctm.so has been linked with libdmcl.so and thus is able to access the dmAPI*() functions. gawk let us load dynamic extensions through two ways: Cet article Adding a Documentum Extension to gawk, part I est apparu en premier sur Blog dbi services. Pages |
