I have been working with Active Directory a while (since 2003) and have seen quite many environments during that time. I have turned ADDS upside down once in a while in disaster recovery and deep dive troubleshooting cases. What I haven’t seen ever, is AD database which has growth in approximately one year from 2GB to 12,2GB. From my point of view it’s quite huge database size, biggest I have seen before this in production has been approximately 4GB. I have read stories about 180GB ADDS DB sizes but that’s totally different story.

The Problem

So database size is 12,2GB, what does it matter nowadays? First two things which comes to my mind are CritSit and capacity. If you face critical situation and you have AD DS database size of 12GB you have to definitely rethink recovery strategy.  Performing domain controller promotion with replication takes approximately 5-6 hours in this environment.

Second thing is capacity of domain controllers comparing smaller environments. During measurement and calculation I ended to these numbers regarding memory consumption:

Calculation showed 15,6GB totally needed memory and measurement (which lasted two days) confirmed that it should be enough. I added just be sure 24GB memory and 4GB page file (sligthly over commitment here). Worth to mention is that during promotion of new Domain Controller memory consumption raised up to 75-80% before it dropped down to 35%. This happened after domain partition was replicated and promo process continued to application partitions (domaindns & forestdns).


Another “problem” was curiosity, what in the earth caused huge increase in the database size. My own tools was used, had to pick up the phone and call Microsoft support to get help for analyzing database.

Analyzing Database – Tools

Basic troubleshooting tools and event logs didn’t show any errors and we started to dig down to database level with

  • Dumping the AD database
  • Esentutl which is used for managing JET database (Microsoft Joint Engine Technology)
  • DBAnalyzer.exe tool (Honestly, never used before)

Dumping AD database can be done with old school too LDP.exe. Good instructions how to do it can be found from here. It dumps the AD database to one file which can be imported to for example to excel. This is an excellent way to find out how data is actually located in AD. One of my favorite blogs, deep dive to what’s really the Active Directory. Unfortunately it didn’t gave us any hint how data has allocated storage.

Esenutl was used to get more accurate details how data is structured to different tables.  Commands to run to get more details from JET database

  • Stop ntds (ADDS) service and run below command within the elevated command prompt.
  • esentutl /ms ntds.dit /f#legacy >summary.txt
  • esentutl /ms ntds.dit /f#all /v /csv >all.csv
  • Start ntds (ADDS) service

Results showed that datatable, which consists of pure AD Data (users , OU , Groups , attributes and values) is what contributing to maximum size on NTDS.dit. Also found that there is approximately 3,5% of white space in database.


Despite the results I wasn’t  satisfied and needed to go more deeper and jumped to the next tool, DBAnalyzer.

DBAnalyzer found out interesting stuff. As I said, I haven’t ever used it before but it analyzed database per attribute and measured their sizes which gave us a hint about the sizes of partitions and attributes. Worth to mention is that DBAnalyzer is just giving a ballpark figure about DB size, makes LDAP query to AD and does not estimate the accurate size if objects.

  • Live objects from all partitions are approximately 2,8GB
  • Deleted 35MB
  • Recycled 288MB
  • Total objects 2,8GB

What we can see also is that quite many msFVE-RecoveryInformation (which contains full Volume Encryption recovery password with its associated GUID) has been created in last months, actually trend has been that thousands of keys has been created in every month.

Bitlocker attributes contains several GB of data, in my opinion that’s way too much.


Even Bitlocker didn’t explain the whole database size it was worth to check underneath the hood a little closer. I ran following commands to get all Bitlocker keys from environment

  1. Export the msFVE-RecoveryInformation objects
  • ldifde /d DC=contoso,DC=com /r (objectclass= msFVE-RecoveryInformation) /l objectclass /f .\bitlockers.txt

2.  Strip out the attributes and sort the objects by hosting computer name always starts at column 72):

  • findstr dn: bitlockers.txt |sort /+72 > bitlocker-obj.txt

I found out that some of the computers had a lot, I mean a lot of Bitlocker recovery keys as seen pictures below. Pictures taken from computer object (show as containers view). Definitely found reason for high value of storage used for Bitlocker attributes.



Regarding findings naturally the goal was to decrease Active Directory database size. We decided to go forward with following actions:

  • Correct process and mechanism for creating Bitlocker keys. Current situation is that keys are new are written all the time and old ones are not overwritten.
  • Maintaining of keys is done via scripts currently and we are planning to take Microsoft BitLocker Administration and Monitoring (MBAM) in to use
  • Remove stale user accounts (approx. 4000)
  • Remove stale computer accounts (approx. 7000)
  • Perform offline defragmentation to ADDS database. This will remove the white space and fragments the DB. Size of the database will decrease 1,5GB with offline defragmentation

When all of the remediation tasks has been done I’ll write part 2, if I’m still having a chance to work in this environment:)