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SQL Diagnostic Manager (64-Bit) 7.5 with Activation


Junglebyte Teach 4.3.204 plus Keygen

Using _os_ring_buffers To Diagnose Memory Issues in SQL
How to Use the Debug Diagnostic Tool v1.1 (DebugDiag) to Debug
IBM Fix List for DB2 Version 9.7 for Linux, UNIX and Windows

Editor’s Note: The following MVP Monday post is by SQL Server MVP Grant Fritchey

Because of the ways that SQL Server interacts with the Windows operating system, memory and memory management between the two can be pretty confusing. If you just look at the allocated memory within the operating system on a standard SQL Server configuration you’ll probably see all, or most, of the memory is used up by SQL Server. Within SQL Server if you look at resource counters like total server memory, these too don’t provide much information to help you determine whether or not you are experiencing pressure due to inadequate memory on your system. You need to be able to quickly and easily determine if you are experiencing memory issues. Taking advantage of the dynamic management object (DMO) sys.dm_os_ring_buffers can get you that quick and accurate determination if you have memory problems and if they’re coming from the Windows operating system or within SQL Server.

Memory Allocation

Before I show you how to query the information within sys.dm_os_ring_buffers, let’s be sure we’ve got agreement on how memory is managed between SQL Server and Windows. Thinking of this strictly from the context of SQL Server, memory, and memory problems can be broken down as being internal, that is to say a part of SQL Server and it’s memory management, or external, a part of the Windows operating system and it’s memory management. But if you reverse the view and look at things from the Windows operating system you’ll be looking at physical memory, the memory managed by Windows, or a Virtual Address Space (VAS) which is memory that has been allocated to SQL Server, but it may or may not be actual physical memory. Within the VAS, SQL Server gets to allocate memory in whatever manner it requires without having to refer back to the Windows operating system. However, the operating system is still managing memory, moving it into physical memory or to the disk through the page file.

When you first set up SQL Server, you may have set a maximum limit for memory. As SQL Server works, it will request memory from the operating system up to this maximum. It will seldom return this memory to the operating system and that’s why you so frequently see memory maxed out on the OS when SQL Server is running. It may seem like a problem, but it isn’t. However, it does add to the load placed on memory management within the operating system since less and less memory is available for things that the operating system might need. This is especially problematic if you’re running processes other than SQL Server on that system.

Because of this split in memory, you have two places where you can “run out” of memory due to different processes. You can need more memory for processes within the operating system, in which case, you’re looking at a physical, or external, memory issue. You can also require more memory within the VAS for SQL Server in which case you’re looking at a virtual, or internal, memory issue.

Is There Memory Pressure?

But the question still comes down to, how do you determine if you have memory issues and where are those issues coming from. Let’s take a look at sys.dm_os_ring_buffers to understand what it can do for us to answer this question.

This DMO is not documented in the Books Online (BOL). Because of this, it is subject to change without notice from Microsoft.

The ring buffers are simply a record of alerts fired within the system that are recorded for internal diagnostics. There are a number of different alerts that can be viewed through the DMO. Running this query against the system:

SELECT

FROM sys.dm_os_ring_buffers AS dorb;

Results in this set of results (which will look different on your machine):

clip_image002

There are only four columns, but the final column is XML and that’s where the good information can be found. There are a number of different ring buffers but we’re only interested in the type called RING_BUFFER_RESOURCE_MONITOR. This records changes to memory allocations, which is a great way to see when you’re running out of memory because a message that your memory is low is a pretty good indicator that you might be seeing memory pressure.

If we look just at this sample XML for a RING_BUFFER_RESOURCE_MONITOR message it looks like this:

<Record id = "1" type ="RING_BUFFER_RESOURCE_MONITOR" time ="129031647">

<ResourceMonitor>

<Notification>RESOURCE_MEMPHYSICAL_LOW</Notification>

<IndicatorsProcess>2</IndicatorsProcess>

<IndicatorsSystem>0</IndicatorsSystem>

<NodeId>0</NodeId>

<Effect type="APPLY_LOWPM" state="EFFECT_OFF" reversed="0">0</Effect>

<Effect type="APPLY_HIGHPM" state="EFFECT_IGNORE" reversed="0">128991020</Effect>

<Effect type="REVERT_HIGHPM" state="EFFECT_OFF" reversed="0">0</Effect>

</ResourceMonitor>

<MemoryNode id="0">

<TargetMemory>153576</TargetMemory>

<ReservedMemory>9022400</ReservedMemory>

<CommittedMemory>201728</CommittedMemory>

<SharedMemory>0</SharedMemory>

<AWEMemory>0</AWEMemory>

<PagesMemory>152320</PagesMemory>

</MemoryNode>

<MemoryRecord>

<MemoryUtilization>100</MemoryUtilization>

<TotalPhysicalMemory>4193848</TotalPhysicalMemory>

<AvailablePhysicalMemory>2175836</AvailablePhysicalMemory>

<TotalPageFile>8385844</TotalPageFile>

<AvailablePageFile>6064244</AvailablePageFile>

<TotalVirtualAddressSpace>8589934464</TotalVirtualAddressSpace>

<AvailableVirtualAddressSpace>8580567180</AvailableVirtualAddressSpace>

<AvailableExtendedVirtualAddressSpace>0</AvailableExtendedVirtualAddressSpace>

</MemoryRecord>

</Record>

The information presented in the MemoryNode and the MemoryRecord are useful for attempting to figure out what went wrong, but the key points are up in the ResourceMonitor element with the Notification, IndicatorsProcess, and IndicatorsSystem values. First, the notification tells us that this was RESOURCE_MEMPHYSICAL_LOW message that was captured in the ring buffers. That means that physical memory was low. The next two indicators let us know what was low. If the IndicatorsProcess returns 0 and the IndicatorsSystem returns a value then the problem was system wide. But, in our case the IndicatorsProcess has a value and IndicatorsSystem is returning 0. This means that this alert was for a single process that ran suffered from low memory, not the entire system. The values break down as follows:

Value

Meaning

1

High Physical Memory

2

Low Physical Memory

4

Low Virtual Memory

When you receive these, you now know that you’re looking at some degree of memory pressure within your system. Determining if it’s a process-only or a system-wide issue is helpful. Even if it’s process-only, you’re still looking at low memory on the system for the processes involved. That may mean that you’re low on memory, but it could also just mean that your processes need some rewriting.

Note: You get the indication that a process had memory issues, but it doesn’t tell you which process. You can capture these events using Extended Events and then marry them up with queries, but you can’t get directly from these messages to a particular system process.

How to Query It

Knowing that you have memory pressure from these alerts captured in the ring buffers is good, but you’re going to want to be able to capture this information programmatically. You’re not going to want to have to scroll through tons of data looking for the particular events that have occurred. Instead, let’s use XQuery to pull that information right out of the DMO:

WITH RingBuffer

AS (SELECT CAST(dorb.record AS XML) AS xRecord,

dorb.timestamp

FROM sys.dm_os_ring_buffers AS dorb

WHERE dorb.ring_buffer_type = ‘RING_BUFFER_RESOURCE_MONITOR’

)

SELECT xr.value(‘(ResourceMonitor/Notification)[1]’, ‘varchar(75)’) AS RmNotification,

xr.value(‘(ResourceMonitor/IndicatorsProcess)[1]’,’tinyint’) AS IndicatorsProcess,

xr.value(‘(ResourceMonitor/IndicatorsSystem)[1]’,’tinyint’) AS IndicatorsSystem,

DATEADD(ms, -1 dosi.ms_ticks – rb.timestamp, GETDATE()) AS RmDateTime

FROM RingBuffer AS rb

CROSS APPLY rb.xRecord.nodes(‘Record’) record (xr)

CROSS JOIN sys.dm_os_sys_info AS dosi

ORDER BY RmDateTime DESC;

This query shows the basic information available from the DMO and shows off one additional piece of information embedded in the results, the actual date and time derived from the timestamp value. If all you’re interested in is the fact of the memory issue, you can stop here. But if you’re interested in a little diagnostic work on top of this, you’re going to want to pull the rest of the memory information that’s available like this:

WITH RingBuffer

AS (SELECT CAST(dorb.record AS XML) AS xRecord,

dorb.timestamp

FROM sys.dm_os_ring_buffers AS dorb

WHERE dorb.ring_buffer_type = ‘RING_BUFFER_RESOURCE_MONITOR’

)

SELECT xr.value(‘(ResourceMonitor/Notification)[1]’, ‘varchar(75)’) AS RmNotification,

xr.value(‘(ResourceMonitor/IndicatorsProcess)[1]’,’tinyint’) AS IndicatorsProcess,

xr.value(‘(ResourceMonitor/IndicatorsSystem)[1]’,’tinyint’) AS IndicatorsSystem,

DATEADD(ms, -1 dosi.ms_ticks – rb.timestamp, GETDATE()) AS RmDateTime,

xr.value(‘(MemoryNode/TargetMemory)[1]’,’bigint’) AS TargetMemory,

xr.value(‘(MemoryNode/ReserveMemory)[1]’,’bigint’) AS ReserveMemory,

xr.value(‘(MemoryNode/CommittedMemory)[1]’,’bigint’) AS CommitedMemory,

xr.value(‘(MemoryNode/SharedMemory)[1]’,’bigint’) AS SharedMemory,

xr.value(‘(MemoryNode/PagesMemory)[1]’,’bigint’) AS PagesMemory,

xr.value(‘(MemoryRecord/MemoryUtilization)[1]’,’bigint’) AS MemoryUtilization,

xr.value(‘(MemoryRecord/TotalPhysicalMemory)[1]’,’bigint’) AS TotalPhysicalMemory,

xr.value(‘(MemoryRecord/AvailablePhysicalMemory)[1]’,’bigint’) AS AvailablePhysicalMemory,

xr.value(‘(MemoryRecord/TotalPageFile)[1]’,’bigint’) AS TotalPageFile,

xr.value(‘(MemoryRecord/AvailablePageFile)[1]’,’bigint’) AS AvailablePageFile,

xr.value(‘(MemoryRecord/TotalVirtualAddressSpace)[1]’,’bigint’) AS TotalVirtualAddressSpace,

xr.value(‘(MemoryRecord/AvailableVirtualAddressSpace)[1]’,’bigint’) AS AvailableVirtualAddressSpace,

xr.value(‘(MemoryRecord/AvailableExtendedVirtualAddressSpace)[1]’,’bigint’) AS AvailableExtendedVirtualAddressSpace

FROM RingBuffer AS rb

CROSS APPLY rb.xRecord.nodes(‘Record’) record (xr)

CROSS JOIN sys.dm_os_sys_info AS dosi

ORDER BY RmDateTime DESC;

Now the query includes all the available information from the XML. There is one exception. I left out AWE memory since most people are running 64 bit systems now and this value will always be zero. Now you information that will enable you to see where the memory issues are occurring.

Summary

As I said in the text, this won’t tell you where your memory issues are coming from, but using the sys.dm_os_ring_buffers DMO to look for the RING_BUFFER_RESOURCE_MONITOR event types will absolutely let you know that you are experiencing memory pressure. You can query this DMO directly as part of a monitoring solution, or you can capture the events using the resource_monitor_ring_buffer_recorded event. Either way, you’ll have to deal with the XML output. Hopefully these queries will help you track your memory issues in SQL Server.

Additional Reading

For more information on how memory management works within SQL Server

For more detail on the RING_BUFFER_RESOURCE_MONITOR

Tips on improving performance by turning off ring buffer data collection

 

Author Bio
Grant Fritchey

Grant Fritchey works for Red Gate Software as a Product Evangelist. Grant has 20 years experience in the industry as a DBA and developer. Grant is an active participant in the SQL Server Central and AskSQLServerCentral discussion forums. He writes articles for SQL Server Central and Simple-Talk. Grant is the author of the books "SQL Server 2012 Performance Tuning Distilled" and "SQL Server Execution Plans." He is co-author on the books "SQL Server Team-Based Development,"  "SQL Server MVP Deep Dives 2," and "Beginning SQL Server 2012 Administration."  Grant blogs at http://scarydba.com

MVP Mondays

The MVP Monday Series is created by Melissa Travers. In this series we work to provide readers with a guest post from an MVP every Monday. Melissa is a Community Program Manager for Dynamics, Excel, Office 365, Platforms and SharePoint in the United States. She has been working with MVPs since her early days as Microsoft Exchange Support Engineer when MVPs would answer all the questions in the old newsgroups before she could get to them


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