I'm converting DBMS_SCHEDULER.CREATE_JOB in Oracle SQL to PostgreSQL. I can't find it like Oracle in PostgreSQL.
Can anyone help me to resolve this?
DBMS_SCHEDULER.CREATE_JOB(
JOB_NAME => CONCAT('ANALYZE_',my Column,'_',my Column),
JOB_TYPE => 'PLSQL_BLOCK',
JOB_ACTION => my Column,
ENABLED => TRUE,
COMMENTS => CONCAT('ANALYZE_',my Column)
);
PostgreSQL doesn't have a built-in scheduler. You can schedule jobs using the operating system's built-in scheduler. Or you can install pgAgent and use that to schedule jobs. Or you could use any number of third-party job scheduling tools.
I'm not completely sure what your job is doing here-- you say the job_action is "my column" which implies that the column in the table contains a PL/SQL block but that seems weird if "my column" is also used to create the job_name. I'd guess that whatever solution you go with will need to include a bit of additional plumbing in PostgreSQL. For example, rather than creating the job, perhaps you write a row to a table and then have a separate job that goes through that table and actually takes the appropriate action.
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i have a DB2 data source and an Oracle 12c target.
The Oracle has a DB link to the DB2 defined which is working in general.
Now i have a huge table in the DB2 which has a timestamp column (lets call it ROW_CHANGED) for row changes. I want to retrieve rows which have changed after a particular time.
Running
SELECT * FROM lib.tbl WHERE ROW_CHANGED >'2016-08-01 10:00:00'
on the DB2 returns exactly 1 row after ca. 90 secs which is fine.
Now i try the same query from the Oracle via the db link:
SELECT * FROM lib.tbl#dblink_name WHERE ROW_CHANGED >TO_TIMESTAMP('2016-08-01 10:00:00')
This runs for hours and ends up in a timeout.
I read some Oracle docs and found distributed query optimization tips but most of them refer to joining a local to a remote table which is not my case.
In my desperation, i have tried the DRIVING_SITE hint, without effect.
Now i wonder when the WHERE part of the query will be evaluated. Since i have to use Oracle syntax and not DB2 syntax for the query, is it possible the Oracle will try to first copy the full table and apply the where clause afterwards? I did some research but did not find anything which would help me in this direction.
The ROW_CHANGED is a hidden column in the DB2, if that matters.
Thx for any hint in advance.
Update
Thanks#all for help. I'll share what did the trick for me.
First of all i have used TO_TIMESTAMP since the DB2 column is also Timestamp (not date) and i had expected to circumvent implicit conversions by this.
Without the explicit conversion i ran into ORA-28534: Heterogeneous Services preprocessing error and i have no hope of touching the DB config within reasonable time.
The explain plan btw did not bring much. It showed a FULL hint and no conversion on the predicates. Indeed it showed the ROW_CHANGED column as Date, i wonder why.
I have tried Justins suggestion to use a bind variable, however i got ORA-28534 again. Next thing i did was to wrap it into a pl/sql block (will run in a SP anyway later).
declare
v_tmstmp TIMESTAMP := 01.08.16 10:00:00;
begin
INSERT INTO ORAUSER.TMP_TBL (SRC_PK,ROW_CHANGED)
SELECT SRC_PK,ROW_CHANGED
FROM lib.tbl#dblink_name
WHERE ROW_CHANGED > v_tmstmp;
end;
This was executing in the same time as in DB2 itself. The date format is DD.MM.YY here since it is the default unfortunately.
When changing the variable assignment to
v_tmstmp TIMESTAMP := TO_TIMESTAMP('01.08.16 10:00:00','DD.MM.YY HH24:MI:SS');
I got the same problem as before.
Meanwhile the DB2 operators have created an index in the ROW_CHANGED column which i requested earlier that day. This has solved the problem in general it seems. Even my original query finishes in no time now.
If you are actually using an Oracle-specific conversion function like to_timestamp, that forces the predicate to be evaluated on the Oracle side. Oracle isn't going to know how to convert a built-in function like to_timestamp into an exactly equivalent function call in DB2.
If you used a bind variable, that would be more likely to get evaluated on the DB2 side. But that may be complicated by the data type mapping between different databases-- there may not be a perfect mapping between one engine's date and another engine's timestamp data type. If this was a numeric column, a bind variable would be almost certain to get pushed. In this case, it probably involves playing around a bit to figure out exactly what data type to use for your variable that works for your framework, Oracle, and DB2.
If using a bind variable doesn't work, you can force the predicate to be evaluated on the remote server using the dbms_hs_passthrough package. That lets you send a query verbatim to the remote server which allows you to do things like use functions defined in your DB2 database. That's a bit of overkill in this situation, hopefully, but it's nice to have the hammer as your backup if the simpler solution doesn't work quickly enough.
The question pretty much sums it up. I've got to replace text in a large number for store procedures. Its not so many that doing it manually is impossible, but enough that I'm asking the question. I also prefer automation as it reduces the change of user error when we make the change in production.
I can Identify them like this:
select OBJECT_DEFINITION(object_id), *
from sys.procedures
where OBJECT_DEFINITION(object_id) like '%''MyExampleLiteral''%'
order by name
Is there any way to mass update them all to change 'MyExampleLiteral' to 'MyOtherExampleLiteral'?
I'd even settle for a way to open all the stored procs. Just Finding these store procs in a larger list will take some time.
I thought about generating alter statements using the above select statements, but then I lose line breaks.
Thanks in advance,
This is a Microsoft SQL Server.
There are different tools to use depending on the database in question. For example, Microsoft SQL Server Data Tools integrates with Visual Studio, and allows you to do these types of operations fairly easily. The database is stored in your solution as scripts, which you can then search and replace any keyword you wish. I'm assuming there would be similar tools available for other platforms.
You could do this with dynamic sql. Query the system tables to get all the SPs containing your "MyExampleLiteral":
SELECT [object_id] FROM sys.objects o
WHERE type_desc = 'SQL_STORED_PROCEDURE'
AND is_ms_shipped = 0
AND OBJECT_DEFINITION(o.[object_id]) LIKE '%<search string>%'
Then, write a while loop to go through those object_ids. In the while loop, get the OBJECT_DEFINITION() into a string and replace the "MyExampleLiteral", then replace CREATE PROCEDURE with ALTER PROCEDURE and execute the string using sp_executesql.
Doing something this crazy, make sure you backup the database first.
Is it possible to access old data state in an DB2 database?
Oracle has the clause select ... as of timestamp to do it. Does DB2 have something like it?
Yes, you can select a set of rows that were / will be valid in a past / future time. This is called Time Travel in DB2, but you have to configure / create the table with the extra columns in order to activate this feature. This is new in DB2 10, but I think it is not available in all editions.
For more information, take a look at this: http://www.ibm.com/developerworks/data/library/techarticle/dm-1204db2temporaldata/
Remember, there are two concepts: business time and application time, and when using both is called bi-temporal.
I need your help with the following query.
SELECT
SQL_ID,
SNAP_ID,
EXECUTIONS_TOTAL,
EXECUTIONS_DELTA,
CPU_TIME_TOTAL,
CPU_TIME_DELTA,
ELAPSED_TIME_TOTAL,
ELAPSED_TIME_DELTA
from
WRH$_SQLSTAT
where
SQL_ID='807mzfr04qt1c' and
SNAP_ID in (19507,19508);
I have to execute the above query every hour to get the results(the snap_id value changes to 19508-19509 in next hour from 19507-19508). Let us say for an entire day the begin snap id started from 19507 and ended in 19530. I would need help in writing a script that should execute it from the start id(19507) and compare it with the next id(19508) and the next id(19508) becomes the start id and so on and thus execute until the end id(19530) is reached.
You could use DBMS_SCHEDULER. for your version of oracle 10g. I am bit confused where are u trying to implement it in SQL or ORACLE, cause ur question is tagged in oracle 10g and u have mentioned your question with SQL.
But if you are using oracle 10g u can achieve it by using DBMS_SCHEDULER, incase you are uing some other version v7.3.4 to 9i oracle, use DBMS_JOB to schedule a task.
If u are using MS SQL Server us can achieve this by creating scheduled jobs. In SQL Management Studio, navigate to the server, then expand the SQL Server Agent item, and finally the Jobs folder to view, edit, add scheduled jobs.
I have read and read over MSDN, etc. Ok, so it signals the end of a batch.
What defines a batch? I don't see why I need go when I'm pasting in a bunch of scripts to be run all at the same time.
I've never understood GO. Can anyone explain this better and when I need to use it (after how many or what type of transactions)?
For example why would I need GO after each update here:
UPDATE [Country]
SET [CountryCode] = 'IL'
WHERE code = 'IL'
GO
UPDATE [Country]
SET [CountryCode] = 'PT'
WHERE code = 'PT'
GO is not properly a TSQL command.
Instead it's a command to the specific client program which connects to an SQL server (Sybase or Microsoft's - not sure about what Oracle does), signalling to the client program that the set of commands that were input into it up till the "go" need to be sent to the server to be executed.
Why/when do you need it?
GO in MS SQL server has a "count" parameter - so you can use it as a "repeat N times" shortcut.
Extremely large updates might fill up the SQL server's log. To avoid that, they might need to be separated into smaller batches via go.
In your example, if updating for a set of country codes has such a volume that it will run out of log space, the solution is to separate each country code into a separate transaction - which can be done by separating them on the client with go.
Some SQL statements MUST be separated by GO from the following ones in order to work.
For example, you can't drop a table and re-create the same-named table in a single transaction, at least in Sybase (ditto for creating procedures/triggers):
> drop table tempdb.guest.x1
> create table tempdb.guest.x1 (a int)
> go
Msg 2714, Level 16, State 1
Server 'SYBDEV', Line 2
There is already an object named 'x1' in the database.
> drop table tempdb.guest.x1
> go
> create table tempdb.guest.x1 (a int)
> go
>
GO is not a statement, it's a batch separator.
The blocks separated by GO are sent by the client to the server for processing and the client waits for their results.
For instance, if you write
DELETE FROM a
DELETE FROM b
DELETE FROM c
, this will be sent to the server as a single 3-line query.
If you write
DELETE FROM a
GO
DELETE FROM b
GO
DELETE FROM c
, this will be sent to the server as 3 one-line queries.
GO itself does not go to the server (no pun intended). It's a pure client-side reserved word and is only recognized by SSMS and osql.
If you will use a custom query tool to send it over the connection, the server won't even recognize it and issue an error.
Many command need to be in their own batch, like CREATE PROCEDURE
Or, if you add a column to a table, then it should be in its own batch.
If you try to SELECT the new column in the same batch it fails because at parse/compile time the column does not exist.
GO is used by the SQL tools to work this out from one script: it is not a SQL keyword and is not recognised by the engine.
These are 2 concrete examples of day to day usage of batches.
Edit: In your example, you don't need GO...
Edit 2, example. You can't drop, create and permission in one batch... not least, where is the end of the stored procedure?
IF OBJECT_ID ('dbo.uspDoStuff') IS NOT NULL
DROP PROCEDURE dbo.uspDoStuff
GO
CREATE PROCEDURE dbo.uspDoStuff
AS
SELECT Something From ATable
GO
GRANT EXECUTE ON dbo.uspDoStuff TO RoleSomeOne
GO
Sometimes there is a need to execute the same command or set of commands over and over again. This may be to insert or update test data or it may be to put a load on your server for performance testing. Whatever the need the easiest way to do this is to setup a while loop and execute your code, but in SQL 2005 there is an even easier way to do this.
Let's say you want to create a test table and load it with 1000 records. You could issue the following command and it will run the same command 1000 times:
CREATE TABLE dbo.TEST (ID INT IDENTITY (1,1), ROWID uniqueidentifier)
GO
INSERT INTO dbo.TEST (ROWID) VALUES (NEWID())
GO 1000
source:
http://www.mssqltips.com/tip.asp?tip=1216
Other than that it marks the "end" of an SQL block (e.g. in a stored procedure)... Meaning you're on a "clean" state again... e.G: Parameters used in the statement before the code are reset (not defined anymore)
As everyone already said, "GO" is not part of T-SQL. "GO" is a batch separator in SSMS, a client application used to submit queries to the database. This means that declared variables and table variables will not persist from code before the "GO" to code following it.
In fact, GO is simply the default word used by SSMS. This can be changed in the options if you want. For a bit of fun, change the option on someone else's system to use "SELECT" as a batch seperator instead of "GO". Forgive my cruel chuckle.
It is used to split logical blocks. Your code is interpreted into sql command line and this indicate next block of code.
But it could be used as recursive statement with specific number.
Try:
exec sp_who2
go 2
Some statement have to be delimited by GO:
use DB
create view thisViewCreationWillFail