Analysis scripts for Performance Analyzer v2.0 Page 8

This is page 8 of 10 of the general performance analysis scripts online for the Performance Analyzer 2.0 tool. See page 1 for the introduction. Use the links in the table below to navigate between pages.

– General analysis
Analyse SQL Configuration Page 1
Analyse SQL Indexes Page 2
Analyse SQL Queries Page 3
Analyse Blocking Page 4
Baseline – benchmark queries Page 5
SSRS Report Analysis Page 6
Query Alerts Page 7
– AX Specific
Analyse AX Configuration Page 8
Analyse AX Indexes Page 9
Analyse AX Queries Page 10

 

/*********************************************************************
Copy one of the following links and press Ctrl-F and click FIND NEXT
in order to go to that section of the scripts
AX_GLOBAL_CONFIG
AX_LICENSE
AX_CONFIG_KEYS
AX_COUNTRY_CODES
AOS_DEBUG
CONNECTION_CONTEXT
TOO_BIG_FOR_ENTIRE_TABLE_CACHE
TABLES_THAT_COULD_BE_ENTIRE_TABLE_CACHE
ENTIRE_TABLE_CACHE_WITH_UPDATES
OCC_DISABLED
AX_DATABASE_LOGGING
AX_ALERTS_ON_TABLE
AX_BATCH_CONFIGURATION
AOS_CLUSTER_CONFIGF
AX_DB_LOGGING_BY_TABLE
NUMBER_SEQUENCE_USAGE
AX_AOT_TABLE_DIFFERENCES
AX_AOT_INDEX_DIFFERENCES
********************************************************************/
USE DynamicsPerf
–AX GLOBAL SYSTEM CONFIGURATIONS

—    AX_GLOBAL_CONFIG
— ————————————————————–
— Are any configurations impacting performance?
—————————————————————–
SELECT *
FROM   AX_SYSGLOBALCONFIGURATION
–WHERE SERVER_NAME = ‘XXXXXXXXXXX’ AND DATABASE_NAME = ‘XXXXXXXXXX’
–AX LICENSE INFORMATION

—    AX_LICENSE
— ————————————————————–
— Are License keys enabled that are not needed ?
—————————————————————–
SELECT [STATS_TIME],
[DATABASE_NAME],
[LICENSE_KEY_ENABLED] AS ENABLED,
[LICENSE_KEY_NAME],
[LICENSE_KEY_LABEL],
[LICENSE_GROUP],
[LICENSE_TYPE],
[PACKAGE],
[PREREQUISITE1],
[PREREQUISITE2],
[PREREQUISITE3],
[PREREQUISITE4],
[PREREQUISITE5],
[SERVER_NAME],
[LICENSE_KEY_ID]
FROM   [AX_LICENSEKEY_DETAIL]
ORDER  BY [LICENSE_KEY_NAME]
–AX CONFIGURATION KEY INFORMATION

—    AX_CONFIG_KEYS
— ————————————————————–
— Are configuration keys enabled that are not needed ?
—————————————————————–
SELECT
[STATS_TIME]
,[DATABASE_NAME]
,[CONFIG_KEY_ID]
,[CONFIG_KEY_NAME]
,[CONFIG_KEY_LABEL]
,[PARENT_KEY_ID]
,[LICENSE_KEY_ID]
,[CONFIG_ENABLED]
,[SERVER_NAME]
FROM [AX_CONFIGURATIONKEY_DETAIL]

–AX Country codes enabled with data

—    AX_COUNTRY_CODES
— ——————————————————————–
— Are License/Config keys enabled for countries that are not needed ?
———————————————————————–

SELECT ATD.[SERVER_NAME],
ATD.[STATS_TIME],
ATD.[DATABASE_NAME],
ATD.[TABLE_NAME],
[CONFIGURATION_KEY_ID],
[LICENSE_CODE_ID],
[APPLAYER],
[COUNTRY_REGION_CODES],
ISV.[ROW_COUNT]
FROM   [AX_TABLE_DETAIL] ATD
INNER JOIN [AX_LICENSEKEY_DETAIL] ALD
ON ATD.[LICENSE_CODE_ID] = ALD.[LICENSE_KEY_ID]
AND ATD.[SERVER_NAME] = ALD.[SERVER_NAME]
AND ATD.[DATABASE_NAME] = ALD.[DATABASE_NAME]
INNER JOIN [INDEX_STATS_CURR_VW] ISV
ON ISV.SERVER_NAME = ATD.SERVER_NAME
AND ISV.DATABASE_NAME = ATD.DATABASE_NAME
AND ATD.TABLE_NAME = ISV.TABLE_NAME
AND ISV.INDEX_ID IN (0,1)

WHERE  [COUNTRY_REGION_CODES] > ”
AND ALD.[LICENSE_KEY_ENABLED] = 1
AND ISV.ROW_COUNT > 0
ORDER  BY [TABLE_NAME]

–AOS Configuration issues

—    AOS_DEBUG
— ————————————————————–
— Is Enable X++ Debug enabled on any AOS Servers.
— 20% decline in transactions processed on the AOS instances with this enabled
—————————————————————–
  SELECT SERVER_NAME,
AOS_INSTANCE_NAME,
SETTING_NAME,
SETTING_VALUE
FROM   AOS_REGISTRY
WHERE  ( IS_CONFIGURATION_ACTIVE = ‘Y’
AND SETTING_NAME = ‘xppdebug’
AND SETTING_VALUE <> ‘0’ )
OR ( IS_CONFIGURATION_ACTIVE = ‘Y’
AND SETTING_NAME = ‘globalbreakpoints’
AND SETTING_VALUE <> ‘0’ )
— ————————————————————–
—    CONNECTION_CONTEXT
— Is Context_Info enabled on any AOS Servers.
— AX2012 and above feature
— http://technet.microsoft.com/en-us/library/hh699644.aspx
—————————————————————–

SELECT SERVER_NAME,
AOS_INSTANCE_NAME,
SETTING_NAME,
SETTING_VALUE
FROM   AOS_REGISTRY
WHERE  IS_CONFIGURATION_ACTIVE = ‘Y’
AND SETTING_NAME = ‘connectioncontext’
AND SETTING_VALUE <> ‘0’

–AOT configuration issues

—  TOO_BIG_FOR_ENTIRE_TABLE_CACHE

   — ————————————————————–
— Find tables that have entire table cache enabled that are larger than 128K
— Causes the cache to overflow to disk on the AOS Server
—————————————————————–
    SELECT DISTINCT A.TABLE_NAME,
A.APPLAYER,
CACHE_LOOKUP,
PAGE_COUNT / 1 AS PAGE_COUNT — Divide by number of companies
FROM   AX_TABLE_DETAIL_VW A,
INDEX_STATS_CURR_VW I
WHERE  A.SERVER_NAME = I.SERVER_NAME
AND A.DATABASE_NAME = I.DATABASE_NAME
AND A.TABLE_NAME = I.TABLE_NAME
AND CACHE_LOOKUP = ‘EntireTable’
AND ( INDEX_DESCRIPTION = ‘HEAP’
OR INDEX_DESCRIPTION LIKE ‘CLUSTERED%’ )
AND PAGE_COUNT > 16 — 128kb
–AND PAGE_COUNT> 4  –32KB AX2012RTM
–AND PAGE_COUNT> 12  –96KB AX2012R2
ORDER  BY PAGE_COUNT DESC
   —  TABLES_THAT_COULD_BE_ENTIRE_TABLE_CACHE
   — ————————————————————–
— Find tables that have no cache enabled that are smaller than 128K
— These could cause lots of roundtrips between AOS and SQL

— NOTE:
— Table should be static and not updated much before changing
— cache to Entiretable
—————————————————————–
SELECT DISTINCT A.TABLE_NAME,
A.APPLAYER,
CACHE_LOOKUP,
PAGE_COUNT
FROM   AX_TABLE_DETAIL_VW A,
INDEX_STATS_CURR_VW I
WHERE  A.SERVER_NAME = I.SERVER_NAME
AND A.DATABASE_NAME = I.DATABASE_NAME
AND A.TABLE_NAME = I.TABLE_NAME
AND CACHE_LOOKUP = ‘None’
AND ( I.INDEX_ID IN (0,1))
AND PAGE_COUNT < 16  — 128kb
–AND PAGE_COUNT< 4  –32KB AX2012RTM
–AND PAGE_COUNT< 12  –96KB AX2012R2
AND PAGE_COUNT > 0
AND A.APPLAYER NOT IN (‘SYS’,’SYP’)

ORDER  BY TABLE_NAME DESC

—  ENTIRE_TABLE_CACHE_WITH_UPDATES

— ————————————————————–
— Find tables that have entire table cache and show update rate
— Causes the cache to be refreshed on all AOS instances
—————————————————————–

SELECT DISTINCT A.TABLE_NAME,
A.APPLAYER,
CACHE_LOOKUP,
USER_UPDATES
FROM   AX_TABLE_DETAIL_VW A,
INDEX_STATS_CURR_VW I
WHERE  A.SERVER_NAME = I.SERVER_NAME
AND A.DATABASE_NAME = I.DATABASE_NAME
AND A.TABLE_NAME = I.TABLE_NAME
AND CACHE_LOOKUP = ‘EntireTable’
AND ( I.INDEX_ID IN (0,1))
AND A.APPLAYER NOT IN (‘SYS’,’SYP’)
ORDER  BY USER_UPDATES DESC

   —
— OCC_DISABLED

— ————————————————————–
—  Find tables above SYS layer that do not have OCC enabled:

—————————————————————–

SELECT DISTINCT TABLE_NAME
FROM   AX_TABLE_DETAIL_VW
WHERE  APPLAYER NOT IN ( ‘SYS’, ‘System Table’, ‘SYP’ )
AND OCC_ENABLED = 0
ORDER  BY TABLE_NAME

   —
— AX_DATABASE_LOGGING

— ————————————————————–
— Find tables above SYS layer that have logging enabled

—————————————————————–

SELECT DISTINCT *
FROM   AX_TABLE_DETAIL_VW
WHERE  ( DATABASELOG_INSERT = 1
OR DATABASELOG_DELETE = 1
OR DATABASELOG_UPDATE = 1
OR DATABASELOG_RENAMEKEY = 1 )
AND APPLAYER NOT IN (‘SYS’,’SYP’)
ORDER  BY TABLE_NAME


—  AX_ALERTS_ON_TABLE

— ————————————————————–
— Find tables above SYS layer that have events enabled

—————————————————————–

SELECT DISTINCT *
FROM   AX_TABLE_DETAIL_VW
WHERE  ( EVENT_INSERT = 1
OR EVENT_DELETE = 1
OR EVENT_UPDATE = 1
OR EVENT_RENAMEKEY = 1 )
AND APPLAYER NOT IN (‘SYS’,’SYP’)
ORDER  BY TABLE_NAME

— SELECT * FROM EVENTRULE   — DO THIS IN THE AX DATABASE TO DISCOVER ABOVE DATA
–AX Application configuration issues
   —
—  AX_BATCH_CONFIGURATION

— —————————————————————————–
— List BATCH JOBS configuration in Dynamics AX
——————————————————————————–

SELECT *
FROM   AX_BATCHJOB_CONFIGURATION_VW

   —
—  AOS_CLUSTER_CONFIG

— —————————————————————————–
— List AOS cluster configuration in Dynamics AX
——————————————————————————–
   SELECT *
FROM   AX_BATCHSERVER_CONFIGURATION_VW
   —
—  AX_DB_LOGGING_BY_TABLE

— ————————————————————–
— List top 200 tables be logged in Dynamics AX
— NOTE: if this query returns zero rows
—         the AOTEXPORT class has not been run
—————————————————————–
   SELECT DISTINCT [TABLE_NAME],
[ROWS_LOGGED],
[DATABASELOG_UPDATE],
[DATABASELOG_DELETE],
[DATABASELOG_INSERT]
FROM   [AX_DATABASELOGGING_VW]
ORDER  BY [ROWS_LOGGED] DESC


—  NUMBER_SEQUENCE_USAGE

— —————————————————————————–
— List NUMBERSEQUENCE table configuration in Dynamics AX
— Are sequences marked as Coninuous?  If so why?
— Is FETCHAHEADQTY > 0,  if not preallocation is not setup for this sequence
— Pre-allocation requires knowledge of the avg. number of numbers consumed
— per user process to determine a good value.
——————————————————————————–

SELECT ENDING.[DATABASE_NAME],
ENDING.[COMPANYID],
ENDING.[NUMBERSEQUENCE],
ENDING.[TEXT],
ENDING.[FORMAT],
datediff(hh, STARTING.STATS_TIME, ENDING.STATS_TIME)                                           AS elapsed_hours,
ENDING.NEXTREC – STARTING.NEXTREC                                                              AS total_numbers_consumed,
( ENDING.NEXTREC – STARTING.NEXTREC ) / ( datediff(hh, STARTING.STATS_TIME, ENDING.STATS_TIME) ) AS hourly_consumption_rate,
ENDING.HIGHEST – ENDING.NEXTREC                                                              AS [numbersremaining],
ENDING.[CONTINUOUS],
ENDING.[FETCHAHEAD],
ENDING.[FETCHAHEADQTY],
ENDING.[TEXT]                                                                                AS sequenceformat
FROM   AX_NUM_SEQUENCES_VW STARTING
INNER JOIN AX_NUM_SEQUENCES_VW ENDING
ON ENDING.NUMBERSEQUENCE = STARTING.NUMBERSEQUENCE
AND ENDING.COMPANYID = STARTING.COMPANYID
WHERE  STARTING.STATS_TIME = ‘STARTING_STATS_TIME’
AND ENDING.STATS_TIME = ‘ENDING_STATS_TIME’
ORDER  BY 7 DESC

   –To find run_name run the following query
   SELECT DISTINCT STATS_TIME
FROM   AX_NUM_SEQUENCES_VW
ORDER  BY STATS_TIME DESC

—  AX_AOT_TABLE_DIFFERENCES

— —————————————————————————–
— List AOTEXPORT configuration differences between Dynamics AX
— environments.

— Must run AOTEXPORT_DIRECT from each environment

——————————————————————————–
SELECT ATD1.SERVER_NAME,
ATD1.DATABASE_NAME,
ATD1.TABLE_NAME,
CASE ATD1.TABLE_GROUP WHEN ISNULL(ATD2.TABLE_GROUP,”) THEN ‘SAME’ ELSE
‘ATD1.TABLE_GROUP = ‘ + ATD1.TABLE_GROUP + ‘  ATD2.TABLE_GROUP = ‘ + ISNULL(ATD2.TABLE_GROUP,”)  END AS TABLE_GROUP,
CASE ATD1.OCC_ENABLED WHEN ISNULL(ATD2.OCC_ENABLED,”) THEN ‘SAME’ ELSE
‘ATD1.OCC_ENABLED = ‘ + CAST(ATD1.OCC_ENABLED AS VARCHAR(1)) + ‘  ATD2.OCC_ENABLED = ‘ + CAST(ISNULL(ATD2.OCC_ENABLED,0) AS VARCHAR(1))  END AS OCC_ENABLED,
CASE ATD1.CACHE_LOOKUP WHEN ISNULL(ATD2.CACHE_LOOKUP,”) THEN ‘SAME’ ELSE
‘ATD1.CACHE_LOOKUP = ‘ + ATD1.CACHE_LOOKUP + ‘  ATD2.CACHE_LOOKUP = ‘ + ISNULL(ATD2.CACHE_LOOKUP,”)  END AS CACHE_LOOKUP,
CASE ATD1.INSERT_METHOD_OVERRIDDEN WHEN ISNULL(ATD2.INSERT_METHOD_OVERRIDDEN,0) THEN ‘SAME’ ELSE ‘ATD1.INSERT_METHOD_OVERRIDDEN = ‘ + CAST(ATD1.INSERT_METHOD_OVERRIDDEN AS VARCHAR(1)) + ‘  ATD2.INSERT_METHOD_OVERRIDDEN = ‘ + CAST(ISNULL(ATD2.INSERT_METHOD_OVERRIDDEN,0) AS VARCHAR(1))  END AS INSERT_METHOD_OVERRIDDEN,
CASE ATD1.UPDATE_METHOD_OVERRIDDEN WHEN ISNULL(ATD2.UPDATE_METHOD_OVERRIDDEN,0) THEN ‘SAME’ ELSE ‘ATD1.UPDATE_METHOD_OVERRIDDEN = ‘ + CAST(ATD1.UPDATE_METHOD_OVERRIDDEN AS VARCHAR(1)) + ‘  ATD2.UPDATE_METHOD_OVERRIDDEN = ‘ + CAST(ISNULL(ATD2.UPDATE_METHOD_OVERRIDDEN,0) AS VARCHAR(1)) END AS UPDATE_METHOD_OVERRIDDEN,
CASE ATD1.DELETE_METHOD_OVERRIDDEN WHEN ISNULL(ATD2.DELETE_METHOD_OVERRIDDEN,0) THEN ‘SAME’ ELSE ‘ATD1.DELETE_METHOD_OVERRIDDEN = ‘ + CAST(ATD1.DELETE_METHOD_OVERRIDDEN AS VARCHAR(1)) + ‘  ATD2.DELETE_METHOD_OVERRIDDEN = ‘ + CAST(ISNULL(ATD2.DELETE_METHOD_OVERRIDDEN,0) AS VARCHAR(1)) END AS DELETE_METHOD_OVERRIDDEN,
CASE ATD1.AOS_VALIDATE_INSERT WHEN ISNULL(ATD2.AOS_VALIDATE_INSERT,0) THEN ‘SAME’ ELSE ‘ATD1.AOS_VALIDATE_INSERT = ‘ + CAST(ATD1.AOS_VALIDATE_INSERT AS VARCHAR(1)) + ‘  ATD2.AOS_VALIDATE_INSERT = ‘ + CAST(ISNULL(ATD2.AOS_VALIDATE_INSERT,0) AS VARCHAR(1))
END AS AOS_VALIDATE_INSERT,
CASE ATD1.AOS_VALIDATE_UPDATE WHEN ISNULL(ATD2.AOS_VALIDATE_UPDATE,0) THEN ‘SAME’ ELSE ‘ATD1.AOS_VALIDATE_UPDATE = ‘ + CAST(ATD1.AOS_VALIDATE_UPDATE AS VARCHAR(1)) + ‘  ATD2.AOS_VALIDATE_UPDATE = ‘ + CAST(ISNULL(ATD2.AOS_VALIDATE_UPDATE,0) AS VARCHAR(1)) END
AS AOS_VALIDATE_UPDATE,
CASE ATD1.AOS_VALIDATE_DELETE WHEN ISNULL(ATD2.AOS_VALIDATE_DELETE,0) THEN ‘SAME’ ELSE ‘ATD1.AOS_VALIDATE_DELETE = ‘ + CAST(ATD1.AOS_VALIDATE_DELETE AS VARCHAR(1)) + ‘  ATD2.AOS_VALIDATE_DELETE = ‘ + CAST(ISNULL(ATD2.AOS_VALIDATE_DELETE,0) AS VARCHAR(1))
END AS AOS_VALIDATE_DELETE,
CASE ATD1.AOS_VALIDATE_READ WHEN ISNULL(ATD2.AOS_VALIDATE_READ,0) THEN ‘SAME’ ELSE ‘ATD1.AOS_VALIDATE_READ = ‘ + CAST(ATD1.AOS_VALIDATE_READ AS VARCHAR(1)) + ‘  ATD2.AOS_VALIDATE_READ = ‘ + CAST(ISNULL(ATD2.AOS_VALIDATE_READ,0) AS VARCHAR(1))
END AS AOS_VALIDATE_READ,
CASE ATD1.DATABASELOG_INSERT WHEN ISNULL(ATD2.DATABASELOG_INSERT,0) THEN ‘SAME’ ELSE ‘ATD1.DATABASELOG_INSERT = ‘ + CAST(ATD1.DATABASELOG_INSERT AS VARCHAR(1)) + ‘  ATD2.DATABASELOG_INSERT = ‘ + CAST(ISNULL(ATD2.DATABASELOG_INSERT,0) AS VARCHAR(1))
END AS DATABASELOG_INSERT,
CASE ATD1.DATABASELOG_DELETE WHEN ISNULL(ATD2.DATABASELOG_DELETE,0) THEN ‘SAME’ ELSE ‘ATD1.DATABASELOG_DELETE = ‘ + CAST(ATD1.DATABASELOG_DELETE AS VARCHAR(1)) + ‘  ATD2.DATABASELOG_DELETE = ‘ + CAST(ISNULL(ATD2.DATABASELOG_DELETE,0) AS VARCHAR(1))
END AS DATABASELOG_DELETE,
CASE ATD1.DATABASELOG_UPDATE WHEN ISNULL(ATD2.DATABASELOG_UPDATE,0) THEN ‘SAME’ ELSE ‘ATD1.DATABASELOG_UPDATE = ‘ + CAST(ATD1.DATABASELOG_UPDATE AS VARCHAR(1)) + ‘  ATD2.DATABASELOG_UPDATE = ‘ + CAST(ISNULL(ATD2.DATABASELOG_UPDATE,0) AS VARCHAR(1))
END AS DATABASELOG_UPDATE,
CASE ATD1.EVENT_INSERT WHEN ISNULL(ATD2.EVENT_INSERT,0) THEN ‘SAME’ ELSE
‘ATD1.EVENT_INSERT = ‘ + CAST(ATD1.EVENT_INSERT AS VARCHAR(1)) + ‘  ATD2.EVENT_INSERT = ‘ + CAST(ISNULL(ATD2.EVENT_INSERT,0) AS VARCHAR(1))
END AS EVENT_INSERT,
CASE ATD1.EVENT_DELETE WHEN ISNULL(ATD2.EVENT_DELETE,0) THEN ‘SAME’ ELSE
‘ATD1.EVENT_DELETE = ‘ + CAST(ATD1.EVENT_DELETE AS VARCHAR(1)) + ‘  ATD2.EVENT_DELETE = ‘ + CAST(ISNULL(ATD2.EVENT_DELETE,0) AS VARCHAR(1))
END AS EVENT_DELETE,
CASE ATD1.EVENT_UPDATE WHEN ISNULL(ATD2.EVENT_UPDATE,0) THEN ‘SAME’ ELSE
‘ATD1.EVENT_UPDATE = ‘ + CAST(ATD1.EVENT_UPDATE AS VARCHAR(1)) + ‘  ATD2.EVENT_UPDATE = ‘ + CAST(ISNULL(ATD2.EVENT_UPDATE,0) AS VARCHAR(1))
END AS EVENT_UPDATE,
CASE ATD1.CLUSTERED_INDEX WHEN ISNULL(ATD2.CLUSTERED_INDEX,”) THEN ‘SAME’ ELSE
‘ATD1.CLUSTERED_INDEX = ‘ + ATD1.CLUSTERED_INDEX + ‘  ATD2.CLUSTERED_INDEX = ‘ + ISNULL(ATD2.CLUSTERED_INDEX,”)
END AS CLUSTERED_INDEX,
CASE ATD1.PRIMARY_KEY WHEN ISNULL(ATD2.PRIMARY_KEY,”) THEN ‘SAME’ ELSE
‘ATD1.PRIMARY_KEY = ‘ + ATD1.PRIMARY_KEY + ‘  ATD2.PRIMARY_KEY = ‘ + ISNULL(ATD2.PRIMARY_KEY,”)
END AS PRIMARY_KEY,
CASE ATD1.DATA_PER_COMPANY WHEN ISNULL(ATD2.DATA_PER_COMPANY,0) THEN ‘SAME’ ELSE
‘ATD1.DATA_PER_COMPANY = ‘ + CAST(ATD1.DATA_PER_COMPANY AS VARCHAR(1)) + ‘  ATD2.DATA_PER_COMPANY = ‘ + CAST(ISNULL(ATD2.DATA_PER_COMPANY,0)AS VARCHAR(1))
END AS DATA_PER_COMPANY,
CASE ATD1.APPLAYER WHEN ISNULL(ATD2.APPLAYER,”) THEN ‘SAME’ ELSE
‘ATD1.APPLAYER = ‘ + ATD1.APPLAYER + ‘  ATD2.APPLAYER = ‘ + ISNULL(ATD2.APPLAYER,”)
END AS APPLAYER

FROM   AX_TABLE_DETAIL ATD1
LEFT JOIN AX_TABLE_DETAIL ATD2
ON ATD1.SERVER_NAME = ‘XXXXXXXXXXX’
AND ATD1.DATABASE_NAME = ‘XXXXXXXXXXX’
AND ATD2.SERVER_NAME = ‘XXXXXXXXXXX’
AND ATD2.DATABASE_NAME = ‘XXXXXXXXXXX’
AND ATD1.TABLE_ID = ATD2.TABLE_ID

WHERE ATD1.TABLE_GROUP <> ISNULL(ATD2.TABLE_GROUP,”) OR
ATD1.OCC_ENABLED  <> ISNULL(ATD2.OCC_ENABLED,0) OR
ATD1.CACHE_LOOKUP <> ISNULL(ATD2.CACHE_LOOKUP,”) OR
ATD1.INSERT_METHOD_OVERRIDDEN <> ISNULL(ATD2.INSERT_METHOD_OVERRIDDEN,0) OR
ATD1.UPDATE_METHOD_OVERRIDDEN <> ISNULL(ATD2.UPDATE_METHOD_OVERRIDDEN,0) OR
ATD1.DELETE_METHOD_OVERRIDDEN <> ISNULL(ATD2.DELETE_METHOD_OVERRIDDEN,0) OR
ATD1.AOS_VALIDATE_INSERT <> ISNULL(ATD2.AOS_VALIDATE_INSERT,0) OR
ATD1.AOS_VALIDATE_UPDATE <> ISNULL(ATD2.AOS_VALIDATE_UPDATE,0) OR
ATD1.AOS_VALIDATE_DELETE <> ISNULL(ATD2.AOS_VALIDATE_DELETE,0) OR
ATD1.AOS_VALIDATE_READ <> ISNULL(ATD2.AOS_VALIDATE_READ,0) OR
ATD1.DATABASELOG_INSERT <> ISNULL(ATD2.DATABASELOG_INSERT,0) OR
ATD1.DATABASELOG_DELETE <> ISNULL(ATD2.DATABASELOG_DELETE,0) OR
ATD1.DATABASELOG_UPDATE <> ISNULL(ATD2.DATABASELOG_UPDATE,0) OR
ATD1.EVENT_INSERT <> ISNULL(ATD2.EVENT_INSERT,0) OR
ATD1.EVENT_DELETE <> ISNULL(ATD2.EVENT_DELETE,0) OR
ATD1.EVENT_UPDATE <> ISNULL(ATD2.EVENT_UPDATE,0) OR
ATD1.CLUSTERED_INDEX <> ISNULL(ATD2.CLUSTERED_INDEX,”) OR
ATD1.PRIMARY_KEY <> ISNULL(ATD2.PRIMARY_KEY,”) OR
ATD1.DATA_PER_COMPANY <> ISNULL(ATD2.DATA_PER_COMPANY,0) OR
ATD1.APPLAYER <> ISNULL(ATD2.APPLAYER,”)

GO

—  AX_AOT_INDEX_DIFFERENCES

— —————————————————————————–
— List AOTEXPORT configuration differences between Dynamics AX
— environments.

— Must run AOTEXPORT_DIRECT from each environment

——————————————————————————–
SELECT ATD1.SERVER_NAME,
ATD1.DATABASE_NAME,
ATD1.TABLE_NAME,
ATD1.INDEX_ID,
       CASE ATD1.INDEX_NAME WHEN ISNULL(ATD2.INDEX_NAME,”) THEN ‘SAME’ ELSE
‘ATD1.INDEX_NAME = ‘ + ATD1.INDEX_NAME + ‘  ATD2.INDEX_NAME = ‘ + ISNULL(ATD2.INDEX_NAME,”)    END AS INDEX_NAME,
CASE ATD1.INDEX_KEYS WHEN ISNULL(ATD2.INDEX_KEYS,”) THEN ‘SAME’ ELSE
‘ATD1.INDEX_KEYS = ‘ + ATD1.INDEX_KEYS + ‘  ATD2.INDEX_KEYS = ‘ + ISNULL(ATD2.INDEX_KEYS,”)   END AS INDEX_KEYS,
CASE ATD1.ALLOW_DUPLICATES WHEN ISNULL(ATD2.ALLOW_DUPLICATES,0) THEN ‘SAME’ ELSE
‘ATD1.ALLOW_DUPLICATES = ‘ + CAST(ATD1.ALLOW_DUPLICATES AS VARCHAR(1)) + ‘  ATD2.ALLOW_DUPLICATES = ‘ + CAST(ISNULL(ATD2.ALLOW_DUPLICATES,0) AS VARCHAR(1))
END AS ALLOW_DUPLICATES,
CASE ATD1.APPLAYER WHEN ISNULL(ATD2.APPLAYER,”) THEN ‘SAME’ ELSE
‘ATD1.APPLAYER = ‘ + ATD1.APPLAYER + ‘  ATD2.APPLAYER = ‘ + ISNULL(ATD2.APPLAYER,”)
END AS APPLAYER

FROM   AX_INDEX_DETAIL ATD1
LEFT JOIN AX_INDEX_DETAIL ATD2
ON ATD1.SERVER_NAME = ‘XXXXXXXXXXX’
AND ATD1.DATABASE_NAME = ‘XXXXXXXXXXX’
AND ATD2.SERVER_NAME = ‘XXXXXXXXXXX’
AND ATD2.DATABASE_NAME = ‘XXXXXXXXXXX’
AND ATD1.INDEX_ID = ATD2.INDEX_ID

WHERE ATD1.INDEX_NAME <> ISNULL(ATD2.INDEX_NAME,”) OR
ATD1.INDEX_KEYS  <> ISNULL(ATD2.INDEX_KEYS,”) OR
ATD1.ALLOW_DUPLICATES  <> ISNULL(ATD2.ALLOW_DUPLICATES,0) OR
ATD1.APPLAYER  <> ISNULL(ATD2.APPLAYER,”)