Category: Internals

Nonclustered Index Leaf Records and Null Bitmaps

Published 2021-07-29 by Kevin Feasel

While testing a script that involved calculating index record size recently I was getting some confusing results depending on server version, and after some digging it appears there was a somewhat undocumented change to nonclustered index leaf page structure in SQL Server 2012.
Prior to 2012, as dicussed by Paul Randal in this 2010 blog post (which is still the top result for searching for ‘nonclustered index null bitmap’, hence this post) the null bitmap – that is, a >= 3 byte structure representing null fields in a record – was essentially present in all data pages but not the leaf pages of a nonclustered index that had no nulls in either the index key or any clustering key columns.

Read on for a demonstration using SQL Server 2008 R2 as well as SQL Server 2012.

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Use Cases for Extended Properties

Published 2021-07-28 by Kevin Feasel

Eitan Blumin has a few non-standard use cases for extended properties:

Let’s say that you’re using the CHANGE TRACKING feature in SQL Server for the purpose of synchronizing one or more tables from one database to another.
For this purpose, you would have to keep track of the value of CHANGE_TRACKING_CURRENT_VERSION() when you last synchronized your data, so that you’d know which value you should use with the CHANGETABLE function during the next synchronization.
Most DBAs would think of creating a dedicated table to manage this synchronization per each table.
But why should you, when you can simply use extended properties for this purpose?

I’ve used extended properties primarily for documentation, so it’s interesting to see a couple of use cases which are definitively not about documenting objects.

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Using DBCC INPUTBUFFER

Published 2021-07-08 by Kevin Feasel

Monica Rathbun shows us how to use DBCC INPUTBUFFER:

A command I like to use when performance tuning is DBCC INPUTBUFFER. If you have ever run sp_whoisactive or sp_who2 to find out what sessions are executing when CPU is high for instance this can be a real quick life saver. At times, for me, those two options do not return enough information for what I’m looking for which is the associated stored procedure or object. Using this little helper along with the session id can easily get you that information.
Let’s take a look.

Let’s.

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Queues and Watermarks

Published 2021-07-01 by Kevin Feasel

Forrest McDaniel wants a zippier queue in SQL Server:

I recently had the pleasure of investigating a procedure that pulled from a queue. Normally it was fast, but occasionally runtime would spike. The spooky thing was the query was using an ordered index scan that should only read one row, but during the spikes it was reading thousands.
Surely there’s a rational explanation…

Spoilers: there was. And Forrest a’int afraid of no ghosts.

(sotto voce – I’m so glad that Forrest didn’t sneak in any Ghostbusters references so that I could do that here and be original.)

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Finding Eager Index Spools

Published 2021-06-29 by Kevin Feasel

Erik Darling hunts the most dangerous prey of all:

I’ve written a bunch about Eager Index Spools, and how to fix them, but I’ve always sort of left the “finding” part up to you, or pointed curious tuners to tools like sp_BlitzCache.
Recently though, I worked with a client who had Eager Index Spools so frequently that we needed to track them down specifically.
This is the plan cache query that I used to do it — they didn’t have Query Store enabled — and I wanted to share it.

Click through for the query.

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When the Version Store Fills tempdb

Published 2021-06-21 by Kevin Feasel

David Fowler takes us through a mental exercise:

Well, there is something else that I’ve seen have a habit of filling TempDB. If you’re using Read Committed Snapshot or RCSI then you’ll also have a version store in your database. I’m not going to go into the details of exactly how version store works, there is plenty of documentation on it out there if you’re interested (perhaps I’ll write a post on it sometime).
The key bit that you need to know is that although SQL will keep version store trimmed down and only keep the rows that are needed, it can only clear rows that are older than the oldest transaction. This is because SQL has no way of knowing what rows are going to be needed by the transaction. Do you see a potential issue here?

Read on for enlightenment.

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Empty Parallel Zones in SQL Server

Published 2021-06-08 by Kevin Feasel

Paul White clues us in on an interesting phenomenon:

An empty parallel zone is an area of the plan bounded by exchanges (or the leaf level) containing no operators.
How and why does SQL Server sometimes generate a parallel plan with an empty parallel zone?

Read on for an example as well as the explanation.

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Whither Code Page 1

Published 2021-06-01 by Kevin Feasel

Solomon Rutzky unravels a mystery:

Collation names, at least in SQL Server, are structured in that they contain various pieces of information detailing some of the properties of the collation. The collation name of SQL_Latin1_General_CP1_CI_AS can be broken down as follows:
– SQL_ This indicates that the collation is a SQL Server collation, while names without this prefix indicate Windows collations
– Latin1_General This is the culture (a.k.a. locale) used for the sorting and comparison rules
– CP1 This is the 8-bit [C]ode [P]age
– CI This indicates [C]ase- [S]ensitive or [I]nsensitive
– AS This indicates [A]ccent- [S]ensitive or [I]nsensitive
Ok, but there’s no code page “1”. So, what’s going on there?

Read on to learn the answer behind this mystery.

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Binary and Hexadecimal in Brief

Published 2021-05-20 by Kevin Feasel

Randolph West has a primer for us:

The CPU can only work with small amounts of data at a time. When the CPU is done with that data, it puts it in memory. Depending on how that data is managed (the on-or-off bit of information is literally called a bit because computer scientists are great at naming things), it usually forms part of a byte, which by convention is eight bits. In other words, you get eight bits of information per byte, represented by a series of 1s (electricity flowed for a fixed period of time) and 0s (no electricity flowed for that fixed period of time).
The uppercase “A” in the Latin alphabet, using the ASCII standard, is represented by the byte 01000001.
So, cool, this is binary. What does it actually mean?

Read on for more.

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Finding Index Fragmentation

Published 2021-05-14 by Kevin Feasel

Deepthi Goguri is hunting the most dangerous predator:

The bad page splits are the splits that we learned in the previous post which is the split that occurs when a random insert has to happen and there is no space on page, a new page gets created during the page split. These page splits are very expensive causing the fragmentation. Good page splits occurs when the append only inserts happen as the pages gets filled on the index pages to the right side of the index and new pages gets added as they gets filled up to the right side of the index. These types of good page splits doesn’t cause any index fragmentation. SQL Server will group these two types of page splits together and do not differentiate between them. So, how do we know to differentiate between the good and the bad page splits? Let’s learn more about this.
It is very difficult to differentiate these page splits by using the existing methods we have in the SQL Server like using the perfmon counter which has the pagesplits/sec counter. This counter will give the good and the nasty page splits together. There is a DMV sys.dm_db_index_operational_stats and an extended event page_split event to track the page splits.

Read on to see how we can find those undesirable page splits versus the benign ones.

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