Provisioning SQL Server Always-On Without Rights

Separation of roles, duties, and responsibilities in a larger corporate/government environment is a good thing. It is a good thing unless you are actually trying to get something accomplished quickly on your own. But this is why there is a separation of roles, so that one person cannot simply go and add objects into Active Directory on a whim, or play with the F5 because they watched a video on YouTube. I recently had designed a solution that was going to take advantage of SQL Server 2012 High Availability and Disaster Recovery Always-On Group Listeners. The problem was that I was not a domain admin, and did not have rights to create a computer object for the Server OS Windows Cluster, or the SQL Group Listener.

Creating the OS Cluster

Creating the OS Cluster was the easy part, I just needed to find an administrator that had the rights to create a computer object in the domain. Once that was accomplished, I made sure that the user had local admin rights on all of the soon-to-be clustered machines, and had them run the following script:

$node1 = "Node-01.contoso.local"
$node2 = "Node-02.contoso.local"
$osClusternName = "THESPSQLCLUSTER"
$osClusterIP = "192.168.1.11"
# $ignoreAddress = "172.20.0.0/21"
$nodes = ($node1, $node2)
Import-Module FailoverClusters
function testCluster {
    # Test Cluster
    $test = Test-Cluster -Node (foreach{$nodes})
    $testPath = $env:HOMEPATH + "\AppData\Local\Temp\" + $test.Name.ToString()
    # View Report
    $IE=new-object -com internetexplorer.application
    $IE.navigate2($testPath)
    $IE.visible=$true
}
function buildCluster {
    # Build Cluster
    $new = New-Cluster -Name $osClusternName -Node (foreach{$nodes}) -StaticAddress $osClusterIP -NoStorage # -IgnoreNetwork $ignoreAddress
    Get-Cluster | Select *
    # View Report
    $newPath = "C:\Windows\cluster\Reports\" + $new.Name.ToString()
    $IE=new-object -com internetexplorer.application
    $IE.navigate2($newPath)
    $IE.visible=$true
}
# un-comment what you what to do...
# testCluster
buildCluster

Creating the Group Listener

Creating the Group Listener was a bit more challenging, but not too bad. Once the OS Cluster computer object was created (thespsqlcluster.contoso.local), the newly created computer object needed to be given rights as well.
- The cluster identity 'thespsqlcluster' needs Create Computer Objects permissions. By default all computer objects are created in the same container as the cluster identity 'thespsqlcluster'.
- If there is an existing computer object, verify the Cluster Identity 'thespsqlcluster' has 'Full Control' permission to that computer object using the Active Directory Users and Computers tool.
You will also want to make sure that the quota for computer objects for 'thespsqlcluster' has not been reached.
The domain administrator was also given Sysadmin rights to all of the SQL Server instances in the cluster.
After all the permissions were set, the Domain admin could run the following script on the Primary SQL Instance to create the Group Listener:

Import-Module ServerManager -EA 0
Import-Module SQLPS -DisableNameChecking -EA 0
$listenerName = "LSN-TheSPDatabases"
$server = $env:COMPUTERNAME
$path = "SQLSERVER:\sql\$server\default\availabilitygroups\"
$groups = Get-ChildItem -Path $path
$groupPath = $path + $groups[0].Name
$groupPath
New-SqlAvailabilityGroupListener `
    -Name $listenerName `
    -StaticIp "192.168.1.12/255.255.255.0" `
    -Port "1433" `
    -Path $groupPath 

Important

After the group listener is created, all the rights that were put in place can once again be removed with the understanding that if you wish to add another listener at another time, the permissions will have to be reinstated temporarily once again. In my case, once all of the computer objects were created successfully, all rights were removed off the cluster computer object and the domain administrator was removed from SQL.

Updates

07/06/2015 Cleaned up diction and grammar, added the Important section.
10/21/2015 Updated computer object permission requirements

Run a PowerShell v3 Script From a SQL Server Agent Job

In a previous blog post, Synchronize Active Directory With SQL pt II, I mention creating a Scheduled Task to run the PowerShell script to keep AD synchronized to SQL. Then a colleague of mine, Don Kirkham (@DonKirkham) asked if it was possible to run a PowerShell script from within SQL. Well Don, the answer is "Yes", but there is a caveat... While SQL Server 2012 is running on Windows Server 2012, PowerShell for SQL is at version 2 and Windows Server 2012 is running PowerShell v3. We will address this issue later in the blog.

The other issue to be aware of is the warning from Microsoft, which says, "Each SQL Server Agent job step that runs PowerShell with the sqlps module launches a process which consumes approximately 20 MB of memory. Running large numbers of concurrent Windows PowerShell job steps can adversely impact performance."  So be careful not to choke your server.

Objective

Create a SQL Server Agent Job that runs a PowerShell script at a specific time and interval. In other words, a SQL job that mirrors the Scheduled Task created in my other blog post on how to Create a Scheduled Task With PowerShell.

PowerShell- SQL v2 vs Server v3 

As was just mentioned, PowerShell within SQL runs Version 2. If you were unaware that you could run PowerShell from within SQL Server Management Studio (SSMS), right-click on a folder, and select "Start PowerShell". Microsoft was nice enough to not make the option available for every folder, so for this blog, we are going to use the Jobs folder.

This opens up a SQL Server PowerShell window and if you type: 

$PSVersionTable

you will see that SQL 2012 PowerShell is running V2.

Here is where the problem begins. When you try to run the Sync AD to SQL script, it will error out, because the ActiveDirectory module is for PowerShell version 3, and when you try to import the module into version 2, your window will fill with RED.

Instead of hacking things up and having different versions of the Sync AD to SQL script, we are simply going to try to open a PowerShell v3 window and execute the script within the new window. The first thing we want to try is to actually see if we can open a new instance of a PowerShell v3 window from within out SQL v2 window. So within the SQL Server PowerShell window type:

Start-Process PowerShell

and in the new window, type:

$PSVersionTable

So now, all we need to do is tweak the script a bit to run the Sync AD to SQL script when the new v3 PowerShell window opens. The script that will be run is:

Start-Process PowerShell -ArgumentList "& 'C:\Scripts\SQL\Sync AD to SQL.ps1'"

Notice the single quotes around the location of the file that we are going to run.

Create The Accounts

Now that we have the proper syntax to get our v3 script run from within SQL, it is time to create the Job.

The nice thing about using PowerShell to create a Scheduled Task is the ease to create the RunAs account for the Scheduled Task. Within SQL, there are a couple of hoops that you will need to jump through to create the RunAs account for the Job.

The first thing that will need to be accomplished is to create a Credential to use as the RunAs account. Under the Security folder, right-click Credentials, and select New Credential...

Within the New Credential window, fill out the boxes appropriately:

or you can run a SQL Query to create it:

USE [master]
GO
CREATE CREDENTIAL [pcDemo\spAdmin] WITH IDENTITY = N'PCDEMO\spAdmin', SECRET = N'YourPassword'
GO

Next, we have to create a Proxy for the account to run a specific service. For this Job, we want the spAdmin account to run PowerShell, so we need to add that account as a Proxy. To accomplish this task, expand SQL Server Agent --> Proxies and right-click the PowerShell folder and select New Proxy...

Within the New Proxy Account window, fill out the boxes appropriately:

Or run a SQL Query to create the proxy:

USE [msdb]
GO
EXEC msdb.dbo.sp_add_proxy @proxy_name=N'PS spAdmin Proxy',@credential_name=N'pcDemo\spAdmin',@enabled=1
GO
EXEC msdb.dbo.sp_grant_proxy_to_subsystem @proxy_name=N'PS spAdmin Proxy', @subsystem_id=12
GO

Now that we have the Credential and the Proxy accounts created, the Job can be created.

Create The Job

From within SSMS connect to the SQL Server that is going to be running the Agent Job, and expand the object explorer to show the Jobs folder.

Right-click the Jobs folder and select: New Job...

This will open up the New Job window. Under the General page, you will want to give the Job a friendly name, and make sure that your Job is Enabled.

From within the Steps page, we will create our one and only step for this post, which will be to execute the Sync AD to SQL.ps1 files in a new PowerShell v3 window using the spAdmin Account.

At the bottom of the window click the New... button, which will open up yet another window, the New Job Window. 

• Step name: Something user friendly and descriptive
• Type: PowerShell
• Run as: Select the proxy account you created earlier.
• Command: 

  Start-Process PowerShell -ArgumentList "& 'C:\Scripts\SQL\Sync AD to SQL.ps1'"

Click OK when finished 

The Steps page should now look like this:

Next, click on the Schedules page, and click the New... button at the bottom of the Schedule List. This will open up a New Job Schedule window.

• Name: Add a user friendly name, such as Daily 2:00am Job
• Frequency: Change to Daily
• Daily Frequency
• Occurs once at: 2:00am
• Click OK when finished

Your Schedules page should look similar to this:

Click OK for the new job when finished. You can also run the following SQL query to create the same Job:

USE [msdb]
GO
DECLARE @jobId BINARY(16)
EXEC msdb.dbo.sp_add_job @job_name=N'Sync AD to SQL Job',
     @enabled=1,
     @notify_level_eventlog=0,
     @notify_level_email=2,
     @notify_level_netsend=2,
     @notify_level_page=2,
     @delete_level=0,
     @category_name=N'[Uncategorized (Local)]',
     @owner_login_name=N'PCDEMO\spAdmin', @job_id = @jobId OUTPUT
select @jobId
GO
EXEC msdb.dbo.sp_add_jobserver @job_name=N'Sync AD to SQL Job', @server_name = N'SQL2012-03'
GO
USE [msdb]
GO
EXEC msdb.dbo.sp_add_jobstep @job_name=N'Sync AD to SQL Job', @step_name=N'Run Sync AD to SQL PowerShell Script',
     @step_id=1,
     @cmdexec_success_code=0,
     @on_success_action=1,
     @on_fail_action=2,
     @retry_attempts=0,
     @retry_interval=0,
     @os_run_priority=0, @subsystem=N'PowerShell',
     @command=N'Start-Process PowerShell -ArgumentList "& ''C:\Scripts\SQL\Sync AD to SQL.ps1''"',
     @database_name=N'master',
     @flags=0,
     @proxy_name=N'PS spAdmin Proxy'
GO
USE [msdb]
GO
EXEC msdb.dbo.sp_update_job @job_name=N'Sync AD to SQL Job',
     @enabled=1,
     @start_step_id=1,
     @notify_level_eventlog=0,
     @notify_level_email=2,
     @notify_level_netsend=2,
     @notify_level_page=2,
     @delete_level=0,
     @description=N'',
     @category_name=N'[Uncategorized (Local)]',
     @owner_login_name=N'PCDEMO\spAdmin',
     @notify_email_operator_name=N'',
     @notify_netsend_operator_name=N'',
     @notify_page_operator_name=N''
GO
USE [msdb]
GO
DECLARE @schedule_id int
EXEC msdb.dbo.sp_add_jobschedule @job_name=N'Sync AD to SQL Job', @name=N'Daily 2:00am Job',
     @enabled=1,
     @freq_type=4,
     @freq_interval=1,
     @freq_subday_type=1,
     @freq_subday_interval=0,
     @freq_relative_interval=0,
     @freq_recurrence_factor=1,
     @active_start_date=20140101,
     @active_end_date=99991231,
     @active_start_time=20000,
     @active_end_time=235959, @schedule_id = @schedule_id OUTPUT
select @schedule_id
GO

Testing

After Refreshing the Object Explorer, you should now see the Sync AD to SQL Job in the Jobs folder. Right-click the job and select Start Job at Step...

Since there is only one step associated with the Job, so a new window will popup and your Job will start right away. Hopefully you will see a window that looks like this:

If not, SQL have a very nice way to view the history of the Job. If you right-click the Job name, and select View History, the Log File Viewer window will popup with the Job History for the appropriate Job already selected. If you expand the failed job, you will receive insight into why your Job as failed:

Conclusion

You should now be able to create a SQL Server Agent Job instead of a Scheduled Task to run a PowerShell script. Thank you again Don for the blog idea.

Synchronize Active Directory With SQL pt II

One of the big complaints about querying Active Directory from within SQL is the lack of ability to easily return more that 1,000 items. In this post, we are going to solve that dilemma by throwing in some PowerShell to get around the Page Size limit. In this blog, I will demonstrate how to take 28,000+ users from Active Directory, put them into a SQL Table, and update the Production SQL Table. I will also go through some of the lessons learned from this experience, because it was not as easy as I had originally had hoped. Why synchronize AD to SQL? From a user manageability perspective, I think this is a great way to allow users to maintain their own information, such as their Address and Phone Numbers, or any corporate information without bothering HR or the IT staff to update AD profiles.
Objective
The objective of this post is to take all users from Active Directory, along with their lastLogon times, and synchronize them into a SQL table. This is going to be accomplished through the use of PowerShell and SQL.
Requirements
I have created this in PowerShell ISE version 3.0 on Windows Server 2012 and SQL Server 2012. The person running the script should have permissions to create and write into SQL, and read items from AD. You will need to have the SQLPS module and the ActiveDirectory modules installed. The SQL module should be installed when you install SSMS, and you can add the ActiveDirectory module by activating the feature through the Add Roles and Features Wizard:

You should also have a database and a table in place to save all of your Production User Data. I created a database name "pcDemo_Personnel" and this is the table that I will  use for this post:

USE [pcDemo_Personnel]
GO
SET ANSI_NULLS ON
GO
SET QUOTED_IDENTIFIER ON
GO
SET ANSI_PADDING ON
GO
CREATE TABLE [dbo].[pcDemo_SystemUsers](
     [RowID] [int] IDENTITY(1,1) NOT NULL,
     [UserLogin] [varchar](500) NOT NULL, 
     [Password] [varchar](200) NULL,
     [UserFullName] [varchar](500) NULL,
     [UserLastName] [varchar](1000) NULL,
     [UserFirstName] [varchar](1000) NULL,
     [UserCompany] [varchar](200) NULL,
     [UserOfficeLocation] [varchar](200) NULL,
     [Department] [varchar](50) NULL,
     [UserTitle] [varchar](500) NULL,
     [Manager] [varchar](500) NULL,
     [UserPhone] [varchar](200) NULL,
     [UserEmail] [varchar](150) NULL,
     [CreatedDate] [datetime] NULL,
     [System_Role] [varchar](50) NULL,
     [ReadOnly] [varchar](1) NULL,
     [lastLogon] [datetime] NULL,
     [userAccountControl] [varchar](50) NULL,
     [TwitterHandle] [varchar](50) NULL,
     [BlogAddress] [varchar](500) NULL,
     [FacebookPage] [varchar](500) NULL,
     [SSN] [varchar](12) NULL
) ON [PRIMARY]
GO
SET ANSI_PADDING OFF
GO
ALTER TABLE [dbo].[pcDemo_SystemUsers] ADD  CONSTRAINT [DF_SystemUsers_CreatedDate]  DEFAULT (getdate()) FOR [CreatedDate]
GO

Getting User Information from AD

To query Active Directory, we will be using the Get-ADUser cmdlet, and as we learned from my previous post, Sync Active Direcory to SQL, lastLogon time is stored on each Domain Controller so we will need to query each server to get each person's lastLogon time. We will query each server by creating an array of Domain Controller server names, and query each server in the array. For example, to query the first server in the array, you would use the following command which will return all properties for each user and put the returned data into the Variable $Users:

$Users = Get-ADUser -Filter * -Server $OUs[0] -Properties *

We will go through the -Filter and -Properties parameters later in this post.
Do not take querying your servers lightly. You should talk to your AD team BEFORE querying your domain controllers, and see if they have a preferred server that they wish you to query and/or specific times that they wish you to run your queries. Obviously, if they do not want you to query each server, then you will not be able to get accurate lastLogon times. Also, this information could be important to them as a health check of their servers.
Now that you have your User Information, we will be manipulating the information and passing it into SQL.
Putting User Information into SQL (Attempt #1)
As in the previous post, I started by creating a table in SQL called Temp_ADUsers.  Since we are now able to write a SQL query within PowerShell to insert information into SQL, I figured I would just loop through each individual user and insert them and their information into my table. Then I would query the second OU and update the table with each user's lastLogon time, and then the final server.
The SQL query looked like this (we will talk about the setLastLogon Function shortly):

foreach ($user in $Users)
{
   if ($user.SamAccountName -ne "Administrator" -and $user.SamAccountName -ne "Guest" -and $user.DisplayName.Length -gt 1)
   {
      $sAMAccountName = $user.sAMAccountName
      $firstName = $user.GivenName
      $lastName = $user.Surname
      $displayName = $user.displayName
      $company = $user.company
      $department = $user.department
      $title = $user.title
      $manager = $user.manager
      $telephoneNumber = $user.telephoneNumber
      $mail = $user.mail
      $userAccountControl = $user.userAccountControl
      $lastLogon = setLastLogon($user.lastLogon)
      $query1 = "INSERT INTO [dbo].[Temp_ADUsers]
      (
         [UserLogin]
        ,[FirstName]
        ,[LastName]
        ,[DisplayName]
        ,[UserAffiliation]
        ,[UserOrganization]
        ,[UserTitle]
        ,[Manager]
        ,[UserPhone]
        ,[UserEmail]
        ,[userAccountControl]
        ,[DC01_lastLogon_Raw]
      )
      VALUES
      (
         '$sAMAccountName'
        ,'$firstName'
        ,'$lastName'
        ,'$displayName'
        ,'$company'
        ,'$department'
        ,'$title'
        ,'$manager'
        ,'$telephoneNumber'
        ,'$mail'
        ,$userAccountControl
        ,'$lastLogon'
       )"
       Invoke-Sqlcmd -query $query1 -database "pcDemo_Personnel" -ServerInstance "sql2012-03"
   }
}

Within the script, I put some time tracking in an Out-File so that I could track the Get-ADUser query time (proof for the AD Team if needed), as well as the time it takes to insert/update SQL. My times returned were pretty horrible...

This method of running the insert and update SQL queries also brought up another issue:

Because there are people in Active Directory with single apostrophes in their name like Mr. O'Connor, I would have to come up with a work around for any property value that has an apostrophe in it. Luckily, the time to completion is so horrible that I figured solving for an apostrophe should be pretty simple and will address this issue at a later date.
If you recall, another issue with dealing with the lastLogin property is that the lastLogon time is "number of 100 nanosecond intervals since January 1, 1601 (UTC)" To solve this issue, I created a function with a foreach to take care of cleaning up the lastLogon time and converting it to a dateTime in UTC (Zulu):

foreach ($user in $users)
{
    if (!$user.lastLogon)
       {
          $user.lastLogon = 0
       }
    else
       {
          $user.lastLogon = [datetime]::FromFileTime($user.lastLogon).ToString('u')
       }
}

Putting User Information into SQL (Attempt #2)
The short lived Attempt #2 was based off a multiple item insert so that I could get rid of the foreach loop. It was a short lived idea because you can only bulk insert up to 1,000 items into SQL. Then I started looking into SQL's Bulk Insert Query, which led me to a question posed in StackOverflow, which led me to the Hey, Scripting Guy! Blog titled Use PowerShell to Collect Server Data and Write to SQL. After reading both articles, it became evident to me that every Server or Network Administrator now has the ability to take Enterprise Information and dump it into SQL. In my opinion, THIS IS HUGE!!!  Thank you again Chad Miller (@cmille19) for creating and sharing your SQL Functions!
Putting User Information into SQL (Attempt #3)
After reading through both blog posts mentioned above, I had an understanding of what needed to be done. I added the new functions to my script and commented out the foreach lastLogon cleanup loop to pass just raw data into the DataTable and into SQL. I gave it a run, and ran into an issue:

Taking a look at the errors, the columns not belonging in the table are found in the returned properties of the Get-ADUser cmdlet. The current query looks like this:

# Get AD Properties
$properties = ("sAMAccountName", "displayName", "mail", "telephoneNumber", "physicalDeliveryOfficeName", "department", "userAccountControl", "company", "title", "lastLogon", "manager", "givenName", "Surname")
# Get Users
$users = $null
$users = Get-ADUser -Filter * -Server $ouServer -Properties (foreach{$properties})

To get around this error, I piped the output into a new table:

$users = Get-ADUser -Filter * -Server $ouServer -Properties (foreach{$properties}) | Select (foreach{$properties})

Ran the script again and received a new error:

I un-commented out the foreach lastLogon cleanup loop and tried again. Things seemed to be running, so off I went for coffee, and when I returned, the script had run its course... cleanly. SQL looked like this:

Now it did not take me 3 hours to drink my coffee, so lets look at the actual run time:

Holy COW look at those numbers! This process saved 3 hours, 4 minutes, and 18 seconds!
Now that we are able to load User data into SQL, it is time to put the rest of the script together, like Drop the Temp Tables, Set the Get-ADUser -Filter, and move the data from the Temp Tables into the Master AD Users Table.
Dropping Existing SQL Tables
Because the functions that create the SQL data tables do not automatically check to see if the tables exist before creation, it is necessary to delete existing tables so that we can import the data from AD.

# Drop table if it exists
$query1 = "IF OBJECT_ID('dbo.$tableName', 'U') IS NOT NULL DROP TABLE dbo.$tableName"
Invoke-Sqlcmd -Query $query1 -Database $databaseName -ServerInstance $dbServer 

Filtering Out Unwanted Users
There are accounts within AD that you probably do not want to surface, synchronize, and expose their properties, such as the Administrator account, Service accounts, and the krbtgt account. The quickest way is to use the Filter parameter. Typically these accounts do not have displayNames, so filtering out empty values should return People. This may not be true for your organization, however, your organization should have some sort of governance over the naming structure of service accounts. My Get-ADUser cmd looks like this:

$users = Get-ADUser -Filter {displayName -like "*"} -Server $ouServer -Properties (foreach{$properties}) | Select (foreach{$properties})

Clean SQL Table from the 1st Domain Controller 
Since I had to put a zero in for null values for the lastLogon time, it is necessary to clean up the table. Luckily it is pretty easy to set all 0 values back to null.

$query2 = "UPDATE [dbo].$tableName SET lastLogon = NULL WHERE lastLogon = '0'"
Invoke-Sqlcmd -Query $query2 -Database $databaseName -ServerInstance $dbServer

Update Current Users in Production Table
Now that all data from all Domain Controllers has been returned, and placed into Temporary SQL tables, we can update the users' information in the Production Table:

$tempTableName = "temp_" + $OUs[0] + "_Table"
$query11 = "UPDATE active
            SET
               active.UserLogin = LOWER(temp.sAMAccountName),
               active.UserFullName = temp.displayName,
               active.UserLastName = temp.Surname,
               active.UserFirstName = temp.givenName,
               active.UserCompany = temp.company,
               active.UserOfficeLocation = temp.physicalDeliveryOfficeName
               active.UserTitle = temp.title
               active.Manager = temp.manager,
               active.UserPhone = temp.telephoneNumber,
               active.UserEmail = temp.mail,
               active.lastLogon = CONVERT(DATETIME, temp.lastLogon),
               active.userAccountControl = temp.userAccountControl
               active.Department = temp.department
            inner join " + $tempTableName + " temp
               on active.UserLogin = temp.sAMAccountName
            WHERE LOWER(active.UserLogin) = LOWER(temp.sAMAccountName)
Invoke-Sqlcmd -Query $query11 -Database $databaseName -ServerInstance $dbServer

Inserting New Users in Production Table
After updating current users, it it time to insert new users into the production table. I run the Update query first to save time, granted only by the number of new users  to be inserted, but time is time. This is how I add any new users into the Production Table:

$query12 = "INSERT INTO [" + $databaseName + "].[dbo].[" + $activeTableName + "]
(
   [UserLogin],
   [UserFullName],
   [UserLastName],
   [UserFirstName],
   [UserCompany],
   [UserOfficeLocation],
   [Department],
   [UserTitle],
   [Manager],
   [UserPhone],
   [UserEmail],
   [System_Role],
   [ReadOnly],
   [lastLogon],
   [userAccountControl]
)
   SELECTLOWER(sAMAccountName),
   [displayName],
   [givenName],
   [Surname],
   [company],
   [physicalDeliveryOfficeName],
   [department],
   [title],
   [manager],
   [telephoneNumber],
   [mail]
   [System_Role] = 'User',
   [ReadOnly] = 'Y',
   CONVERT(DATETIME, [lastLogon]),
   [userAccountControl]
FROM " + $tempTableName + " AS temp
WHERE sAMAccountName <> '' and not exists
(
   SELECT LOWER(UserLogin)
   FROM " + $activeTableName + " AS active
   WHERE LOWER(active.UserLogin) = LOWER(temp.sAMAccountName)
)"
Invoke-Sqlcmd -Query $query12 -Database $databaseName -ServerInstance $dbServer

Getting lastLogon From More Than 1 Domain Controller
For each Domain Controller, we are going to create a column in a new table called temp_lastLogonTimes to store the lastLogon times for each user, then we update the columns with that information:

foreach ($OU in $OUs)
{
   # Create OU Columns
   $columnName = $OU + "_lastLogon"
   $query5 = "ALTER TABLE temp_lastLogonTimes ADD " + $columnName + " varchar(1000)"
   Invoke-Sqlcmd -Query $query5 -Database $databaseName -ServerInstance $dbServer
}
# Insert and Update Times Into Temp Table
$counter = 0
foreach ($OU in $OUs)
{
   if ($counter -lt 1)
      {
      # Insert Names and Times
      $query6 = "INSERT INTO [dbo].[temp_lastLogonTimes]
                   ([sAMAccountName]
                    [" + $OU + "_lastLogon])
                 Select
                     sAMAccountName
                    ,lastLogon
                 FROM
                     temp_" + $OU + "_Table"
      Invoke-Sqlcmd -Query $query6 -Database $databaseName -ServerInstance $dbServer
      }
   # Update OU lastLogon Times
   $query7 = "UPDATE [dbo].[temp_lastLogonTimes]
              SET " + $OU + "_lastLogon = lastLogon
              FROM temp_" + $OU + "_Table
              WHERE temp_lastLogonTimes.sAMAccountName = temp_" + $OU + "_Table.sAMAccountName"
   Invoke-Sqlcmd -Query $query7 -Database $databaseName -ServerInstance $dbServer
   $counter ++
}

Now that the temp_lastLogonTimes table has the lastLogon times for each user from each Domain Controller, it is time to compare the times and find the true lastLogon time. To accomplish this in PowerShell, we will query the new temp_lastLogonTimes table, add a column for the lastLogon time to the temp_lastLogonTimes datatable, compare values, and update the row.

# Get Table and Update Last Logon Value
$str_OUs = @()
foreach ($OU in $OUs)
{
   $str_OUs += "ISNULL(" + $OU + "_lastLogon, 0) as " + $OU + "_lastLogon"
}
$str_OUs = $str_OUs -join ", "
$query8 = "SELECT sAMAccountName, " + $str_OUs + " from temp_lastLogonTimes"
$arrayLLT = @()
$arrayLLT = Invoke-Sqlcmd -Query $query8 -Database $databaseName -ServerInstance $dbServer
$arrayLLT | Add-Member -MemberType NoteProperty -Name "lastLogon" -Value ""
$arrayLength = $arrayLLT[0].Table.Columns.Count - 1
$counter = 0
foreach ($sAM in $arrayLLT.sAMAccountName
{
   $max = $arrayLLT[$counter][1..$arrayLength] | Measure -Maximum
   $arrayLLT[$counter].lastLogon = $max.Maximum
   $counter ++
}

Updating lastLogon Time in Production Table
Like before, we will take our datatable, create a final temp table in SQL, and move the data to the production table.

# Get DataTable
$arrayLLT = $arrayLLT | Select sAMAccountName, lastLogon
$dt2 = $arrayLLT | Out-DataTable
# Create SQL Table
Add-SqlTable -ServerInstance $dbServer -Database $databaseName -TableName $tableNameLLT -DataTable $dt2
# Write DataTable into SQL
Write-DataTable -ServerInstance $dbServer -Database $databaseName -TableName $tableNameLLT -Data $dt2
$query13 = "UPDATE [dbo].[" + $activeTableName + "]
            SET " + $activeTableName + ".lastLogon = temp_lastLogons.lastLogon
            FROM temp_lastLogons
            WHERE LOWER(temp_lastLogons.sAMAccountName) = LOWER(" + $activeTableName + ".UserLogin)"
Invoke-Sqlcmd -Query $query13 -Database $databaseName -ServerInstance $dbServer

Now that the solution is completed, let's look at the time to query 3 domain controllers:

 And if we take a look at the single DC query:

So based off the data above, there is a run time average of approximately 1.75 minutes per DC queried when dealing with 28782 users.
You can download the complete code from GitHub:
Create The Timer Job
Now that we can synchronize all users from AD into SQL, we need to create a scheduled task to run our PowerShell script to keep SQL synchronized on a regular basis. Now, this can be run daily or every couple of hours pending on how your organization works.
Please review my post on Creating a Scheduled Task With PowerShell.
However, what if the server Admin will not allow you to create a timer job using the Task Scheduler? Luckily, a colleague of mine, Don Kirham (@DonKirkham) posed a similar question on our company's Yammer site. Don wanted to know if it was possible to use SQL Server Agent jobs to run the job instead. The answer is, yes you can, but it is not as straight forward as one would like. You can read how to run this the Sync AD to SQL script from a SQL Server Agent Job from my blog post called Run a PowerShell v3 Script From a SQL Server Agent Job
UPDATES:
11/29/2013 Added link to Creating a Scheduled Task Blog, and added more kudos to Chad Miller for his contribution of the SQL Functions.
01/01/2014 Added link to blog post: Run a PowerShell v3 Script From a SQL Server Agent Job

SPSRED: Upgrading your SharePoint and SQL Environments

I was fortunate enough to have scheduled the end of a client engagement to coincide with the start of SharePoint Saturday Redmond.  When I had submitted the topic, I was kind of hoping to not have it selected, as there was a lot of work that would need to be done.  That being said, here is my presentation:

Here is the farm layout:

 Here is the template that I used when creating SQL Cluster and HA Group:

Here is the output file from the Test-SPContentDatabase:

All files are located here:
https://skydrive.live.com/redir?resid=8E55AA8C038225F8!4265