So this one is related to my recent blog about documenting printers; right after the blog I got some comments that I never focused on printer monitoring. I think that’s because printers have a mental block in my mind as I see them as pure evil. 🙂

But without jokes; of course we can monitor printers and print queues. We have some clients that printing is a key part of business so I’ve created the monitoring component below. This monitors both the printer status(e.g. offline/error/no toner, etc) and the Job status. Sometimes jobs get stuck in the queue blocking all others so it’s a good one to cover.

The Script

$Printers = get-printer

$PrintStatus = foreach ($Printer in $Printers) {
    $PrintJobs = get-PrintJob -PrinterObject $printer
    $JobStatus = foreach ($job in $PrintJobs) {
        if ($Job.JobStatus -ne "normal") { "Not Healthy - $($Job)" }
    }
    [PSCustomObject]@{
        PrinterName   = $printer.Name
        PrinterStatus = $Printer.PrinterStatus
        PrinterType   = $Printer.Type
        JobStatus     = $JobStatus
    }
}

$PrintersNotNormal = $PrinterStatus.PrinterStatus | Where-Object { $_.PrinterStatus -ne "normal" }
if (!$PrintersNotNormal) {
    write-host "Healthy - No Printer Errors found" 
}
else {
    Write-Host "Unhealthy - Printers with errors found."
    $PrintersNotNormal
}
$JobsNotNormal = $PrinterStatus.PrinterStatus | Where-Object { $_.JobStatus -ne "normal" -and $_.JobStatus -ne $null }
if (!$JobsNotNormal) {
    write-host "Healthy - No Job Errors found" 
}
else {
    Write-Host "Unhealthy - JJobs with errors found."
    $JobsNotNormal
}

And that’s it! a simple but short one. I’ll be posting some more information about my bigger project AzPam somewhere in December. For next week I have some Azure Function stuff planned – One of them being a method to join a Microsoft Teams meeting, using a code instead of a super long URL. 🙂

As always, Happy PowerShelling!

I was talking to a friend the other day and he was using my user experience script in his RMM system for a while. He told me that he loved having the ability to measure the users experience but he had some clients with in-house applications that would write errors to the system log constantly, or he had other clients with crashing services that could not be prevented.

This caused him to disable the User Experience Monitoring script for those clients, which is a shame because it’s what we should be focusing on as MSPs these days. I figured I’d make a lighter version that does not rely on the Windows Reliability Index instead. That way we could avoid some of the crashing services or other issues. So lets get to the script!

The Script

Instead of grabbing the Reliability index – We’re collecting all logs for the last 15 minutes and counting how many AppHangs have been experienced. An AppHang is when the application gives the famous “Not responding” pop-up. We also grab hard application crashes, but filter our those that we don’t want to see such as the LOB application spoken about above.

$IDs = "1002", "1000"
$ExcludedApplications = "*Slack*"
$MaxCount = '1'

$LogFilter = @{
    LogName = 'Application'
    ID      = $IDs
    StartTime = (get-date).AddMinutes(-15)
} 

$Last15Minutes = Get-WinEvent -FilterHashTable $LogFilter -ErrorAction SilentlyContinue | where-object { $_.message -notlike $ExcludedApplications }


if ($Last15Minutes.count -ge $MaxCount) {
    write-host "Unhealthy - The maximum application crash logs are higher than $MaxCount"
}

if (!$Last15Minutes) {
    write-host "Healthy - No app crash logs found"
}

Now this is just an example on how you can achieve this really – If anything I’d suggest to expand on this and get some information to compile your own reliability score. I also don’t specifically love getting Windows Events instead of directly monitoring yourself, but Apphangs aren’t really documented elsewhere.

And that’s it! as always, Happy PowerShelling 🙂

So this is one I’ve been researching for a new tool I’m creating. AzPAM, AzPAM will be a Privledged Access Management tool that will be living in your Azure environment, mostly designed for MSPs. If you want to see how AzPam looks or contribute, check out the Github page about it here. I should be pretty close to releasing an alpha version soon! 🙂

To make sure AzPAM can also work with local accounts and domain admin accounts I figured I might try to monitor when the account has logged on. It then dawned on me that this might be something you’ll want to monitor in general. We’ve talked about monitoring new admins and groups before, but never directly if a Domain Admin has logged on.

The Script

So this script checks the lastloggedon time stamp in Active Directory, and checks if this account has logged on in the last 24 hours. You can exclude accounts by adding it to the $ExcludeList variable.

$ExludedAdmins = "JamesDoe", "JohnDoe"

$GroupMembers = Get-ADGroupMember -Identity 'Domain Admins'
$LoggedOntoday = foreach ($member in $GroupMembers) {
    if ($member.name -in $ExludedAdmins) {
        write-host "Skipping $($member.name)" -ForegroundColor Green
        continue
    }
    $ADUser = Get-ADUser -Identity $member.sid -Properties 'LastLogonTimeStamp'
    if ($ADUser.lastlogontimestamp -eq $null) { continue }
    if ([datetime]::FromFileTime($ADUser.LastLogonTimeStamp) -gt (get-date).AddHours(-24)) { 
        "$($member.name) has logged on in the last 24 hours"
    }

}

if (!$LoggedOntoday) { "Healthy. No Domain Admins have logged on today" }

And that’s it! I know it’s a bit of a short one, but with all the work I’m doing on AzPAM I’ll be sure to make it up to you guys soon! As always, Happy PowerShelling.

As some of you have noticed I haven’t really been blogging for the past 2 weeks. My father recently died and I had to take some me-time. I’m going to be getting back to blogging regularly again starting now 🙂

Todays blog I’m going to be showing how to monitor if outlook has been set to offline mode by the user, and if the OST size is nearing it’s maximum size, as a bonus I’m also giving you the option of alerting on active PST files. The offline mode is just a handy gizmo to notify users that they might’ve misclicked – It still happens to our users from time to time.

We have a lot of users that work in shared mailboxes. These shared mailboxes get added to the user via automapping. Automapping dumps all the information into a single users OST. The official maximum OST size is 100GB, so if you have 10 shared mailboxes of 10GB, the OST can get full and the user won’t be able to send or receive e-mails.

Monitoring offline mode

So this script uses my RunAsUser Module. This is because Outlook only runs in user mode and as such you need to run these commands as the user itself.

Install-module RunAsUser -Force
$ScriptBlock = { 
    try {
        $outlook = new-object -comobject outlook.application
        $State = if ($outlook.session.offline) {"Outlook has been set to work offline mode." } else { "Healthy - Outlook is in online mode." }
        set-content "C:\programdata\Outlookmonitoring.txt" -value $State -force
    }
    catch {
        set-content "C:\programdata\Outlookmonitoring.txt" -Value  "Could not connect to outlook. " -Force
    }
}
Invoke-AsCurrentUser -UseWindowsPowerShell -NonElevatedSession -scriptblock $ScriptBlock
$Errorstate = get-content "C:\programdata\Outlookmonitoring.txt"

$Errorstate

Monitoring OST Sizes

So like I said before; the maximum size of a OST is 100GB, above that you’ll experience lots of performance loss so we want to keep it nice and small. Let’s say around 60GB. By using this monitoring method you can find exactly which OSTS are in use and how large they are.

Install-module RunAsUser -Force
$ScriptBlock = { 
    try {
        $FileSizeAlert = 60GB
        $outlook = new-object -comobject outlook.application
        $OSTS = ($outlook.session.stores | where-object {$_.filepath -ne ""}).filepath
        $State = foreach ($OST in $OSTS) {
            $File = get-item $OST
            if($File.Length -gt $FileSizeAlert){ "$OST is larger than alert size" }
        }
        if(!$State){ $State = "Healthy - No Large OST found."}
        set-content "C:\programdata\OutlookOSTmonitoring.txt" -value $State -force
    }
    catch {
        set-content "C:\programdata\OutlookOSTmonitoring.txt" -Value  "Could not connect to outlook. " -Force
    }
}
Invoke-AsCurrentUser -UseWindowsPowerShell -NonElevatedSession -scriptblock $ScriptBlock
$Errorstate = get-content "C:\programdata\OutlookOSTmonitoring.txt"

$Errorstate

Finding actively used PST files

Of course we all want to avoid PST files as much as possible, they are prone to dataloss and just a pretty fragile format in general. To find if users have a PST actively mounted in Oulook you can use the following script:

Install-module RunAsUser -Force
$ScriptBlock = { 
    try {
        $outlook = new-object -comobject outlook.application
        $PSTS = ($outlook.session.stores | where-object { $_.filepath -like "*pst" }).filepath
        if (!$PSTS) { $PSTS = "Healthy - No active PST found." }
        set-content "C:\programdata\OutlookPSTmonitoring.txt" -value $PSTS -force
    }
    catch {
        set-content "C:\programdata\OutlookPSTmonitoring.txt" -Value  "Could not connect to outlook. " -Force
    }
}
Invoke-AsCurrentUser -UseWindowsPowerShell -NonElevatedSession -scriptblock $ScriptBlock
$Errorstate = get-content "C:\programdata\OutlookPSTmonitoring.txt"

$Errorstate

And that’s all! As always, Happy PowerShelling

So today I’m tackling two monitoring blogs again. We’re going to have a small script that checks if all devices currently have drivers installed, and if they are not in a alerting state. This is mostly useful for when a docking station or network card, or other USB device is having issues and reporting that in the Device manager. It allows you to proactively get help the user get the most out of their system.

Of course, all drivers should already be installed on the system but you never know what kind of devices a user adds. It could be anything from a USB controlled rocket launcher to a USB Com port.

Monitoring Potential Driver Issues

$DeviceState = Get-WmiObject -Class Win32_PnpEntity -ComputerName localhost -Namespace Root\CIMV2 | Where-Object {$_.ConfigManagerErrorCode -gt 0 
}



$DevicesInError = foreach($Device in $DeviceState){
 $Errortext = switch($device.ConfigManagerErrorCode){
        0  {"This device is working properly."}
        1  {"This device is not configured correctly."}
        2  {"Windows cannot load the driver for this device."}
        3  {"The driver for this device might be corrupted, or your system may be running low on memory or other resources."}
        4  {"This device is not working properly. One of its drivers or your registry might be corrupted."}
        5  {"The driver for this device needs a resource that Windows cannot manage."}
        6  {"The boot configuration for this device conflicts with other devices."}
        7  {"Cannot filter."}
        8  {"The driver loader for the device is missing."}
        9  {"This device is not working properly because the controlling firmware is reporting the resources for the device incorrectly."}
        10  {"This device cannot start."}
        11  {"This device failed."}
        12  {"This device cannot find enough free resources that it can use."}
        13  {"Windows cannot verify this device's resources."}
        14  {"This device cannot work properly until you restart your computer."}
        15  {"This device is not working properly because there is probably a re-enumeration problem."}
        16  {"Windows cannot identify all the resources this device uses."}
        17  {"This device is asking for an unknown resource type."}
        18  {"Reinstall the drivers for this device."}
        19  {"Failure using the VxD loader."}
        20  {"Your registry might be corrupted."}
        21  {"System failure: Try changing the driver for this device. If that does not work, see your hardware documentation. Windows is removing this device."}
        22  {"This device is disabled."}
        23  {"System failure: Try changing the driver for this device. If that doesn't work, see your hardware documentation."}
        24  {"This device is not present, is not working properly, or does not have all its drivers installed."}
        25  {"Windows is still setting up this device."}
        26  {"Windows is still setting up this device."}
        27  {"This device does not have valid log configuration."}
        28  {"The drivers for this device are not installed."}
        29  {"This device is disabled because the firmware of the device did not give it the required resources."}
        30  {"This device is using an Interrupt Request (IRQ) resource that another device is using."}
        31  {"This device is not working properly because Windows cannot load the drivers required for this device."}
                }
    [PSCustomObject]@{
        ErrorCode = $device.ConfigManagerErrorCode
        ErrorText = $Errortext
        Device = $device.Caption
        Present = $device.Present
        Status = $device.Status
        StatusInfo = $device.StatusInfo
    }
}

if(!$DevicesInError){
    write-host "Healthy"
} else {
    $DevicesInError
}

Monitoring Zerologon

So Zerologon is a pretty big issue and at the start there was some confusion – Is just installing the patch enough to be safe? well, to be completely clear: No. Just installing the patch is not enough. Microsoft understood the confusion and added an addendum to their own here.

So, to quote Microsoft:

Mitigation consists of installing the update on all DCs and RODCs, monitoring for new events, and addressing non-compliant devices that are using vulnerable Netlogon secure channel connections. Machine accounts on non-compliant devices can be allowed to use vulnerable Netlogon secure channel connections; however, they should be updated to support secure RPC for Netlogon and the account enforced as soon as possible to remove the risk of attack.

Microsoft – CVE-2020-1472

So to make sure we don’t get affected by the bug we have to start monitoring for two events and alert on it. That’s quite simple with PowerShell and you can use the following script for it.

$Events = Get-WinEvent -FilterXPath "Event[ System[ (Level=2 or Level=3) and (EventID=5827 or EventID=5828 or EventID=5829 or EventID=5830 or EventID=5831) ] ] ]" 
if(!$Events){
    write-host "Healthy - No events found"
} else {
    write-host "Unhealthy - Events found. Immediate action required"
}

Of course you could also just take a shotgun to the problem, and enable the FullSecureChannelProtection mode. This will also be done automatically after February 2021.

New-ItemProperty "HKLM:\system\CurrentControlSet\services\netlogon\parameters" -Name 'FullSecureChannelProtection' -Value 1 -PropertyType "DWord" -Force

And that’s it! As always, Happy PowerShelling!

Using Dynamic VHDX files isn’t a real big problem in most cases – Especially when you pay a lot of attention to how your storage layer is designed and how you’ll give VM access to that data, but at times with many administrators it can become confusing to monitor if the dynamic disk total does not exceed the physical disk total.

This could cause issues – Just imagine explosive growth due to an issue in the VM. It could cause all other VMs to lock-up and go into paused mode. Or imagine that you have a file share with User Profile Disks where its often invisible that users are added but in the long run you’ll get space issues.

So to solve, we can use the following script. The script gets all VHD/VHDX files recursively and compares the combined maximum size of them to the physical drive where the VHDX files are located. It also gives us the information just how full a VHDx file is, giving us a chance to shrink it if we need to.

The Script

$VHDPath = "D:\VHD"
$VHDXFiles = get-childitem $VHDPath -Filter "*.vhd*" -Recurse
if (!(get-module 'hyper-v' -ListAvailable)) { Enable-WindowsOptionalFeature -Online -FeatureName Microsoft-Hyper-V-Management-PowerShell }

if (!$VHDXFiles) { write-host "No VHD(x) files found. Please change the path to a location that stores VHD(x) files." break }

$VHDInfo = foreach ($VHD in $VHDXFiles) {
    $info = get-vhd -path $VHD.FullName
    [PSCustomObject]@{
        MaxSize        = ($info.Size / 1gb)
        CurrentVHDSize = ($info.FileSize / 1gb)
        MinimumSize    = ($info.MinimumSize / 1gb)
        VHDPath        = $info.path
        Type           = $info.vhdtype
        PercentageFull   = ($info.size / $info.FileSize *100 )
    }
}

$CombinedSize = (($VHDINFO | Where-Object { $_.type -eq 'Dynamic' }  ).Maxsize | measure-object -sum).sum
$DiskSize = [math]::round((Get-Volume ($VHDPath.Split(':') | Select-Object -First 1)).size / 1gb)

if ($CombinedSize -gt $DiskSize) {
    write-host "The combined VHD(x) is greater than the disk: VHD: $($combinedSize)GB - Disk: $($DiskSize)GB"
}

And that’s it! as always, Happy PowerShelling

My holidays are over, and it’s back to blogging! I hope you all enjoyed the previous webinar I did in my holidays. For me it was a lot of fun and I’m doing a more advanced one soon, when I find some time. for now I’m going to be quite busy with other speaking engagements such as a couple of Solarwinds Events, and Huntress Hack_It!

In any case, let’s get back to our regular scheduled program: Monitoring and documentation scripts! 🙂 This time we’re tackling three issues in one; We’re going to monitor traffic usage to see if a connection isn’t saturated. We’re also going to check if the NIC speed is correct and we’re going to check if the connection is metered and if it is alert on it.

The use case for this can be pretty diverse; the connection saturation can help you find if the machine isn’t flooding the network or internet connection. The connection speed of course speaks for itself; these days everything should be full duplex gigabit, and it helps in finding old devices or devices looped through a voip phone.

The metered connection one is just a safety measure – Sometimes you’re remotely working on a machine that’s metered and you download an ISO, or a large update and the client won’t be too happy… 🙂

Monitoring bandwidth usage

$BandwidthAlertThreshold = "800" #megabits per second

$Counter = 0
$UsedBandwidth = do {
    $counter ++
    (Get-CimInstance -Query "Select BytesTotalPersec from Win32_PerfFormattedData_Tcpip_NetworkInterface" | Select-Object BytesTotalPerSec).BytesTotalPerSec / 1Mb * 8
} while ($counter -le 10)

$AvgBandwidth = [math]::round(($UsedBandwidth | Measure-Object -Average).average, 2)
$BandwidthAlert = if ($AvgBandwidth -gt $BandwidthAlertThreshold) { "Unhealthy - Bandwidth is at $AvgBandwidth" } else { "Healthy" }

This creates a poll of 10 intances, which is a little more than 5 seconds. It’ll show how much bandwidth the current machine is using. If the threshold is passed than it alerts that a unhealthy state has been reached. This is also great for localizing which machine is using most bandwidth on a network.

Monitoring link speeds

$Linkspeeds = (Get-NetAdapter -Physical | Where-Object { $_.MediaType -eq "802.3" -and $_.status -ne "Disconnected" })

$LinkspeedState = foreach ($Linkspeed in $Linkspeeds) {
    if ($Linkspeed.speed -lt 1000000000) { "$($Linkspeed.name) linkspeed is lower than 1000mb" }
}
if (!$Linkspeeds) { $LinkspeedState = "No physical links found" }
if (!$LinkspeedState) { $LinkspeedState = "Healthy" }

So this alerts on any machine that is connected to any port that is not 1gbps. In these days, I’m pretty sure you want everything gigabit connected. 🙂

Monitoring Metered Connections

[void][Windows.Networking.Connectivity.NetworkInformation, Windows, ContentType = WindowsRuntime]
$MeteredConnections = [Windows.Networking.Connectivity.NetworkInformation]::GetInternetConnectionProfile().GetConnectionCost() | Where-Object {$_.Networkcosttype -ne "Unrestricted"}

$RunningOnMetered = if($MeteredConnections){
    "Unhealthy - Currently running on a metered connection."
    $MeteredConnections
} else {
    "Healthy - Not running on metered connection"
}

So this is one that’s good to train your engineers to check if you have a lot of mobile users, it gives you some extra info if a user is on the road or not.

And that’s it! As always, Happy PowerShelling!

Lots of people joined the webinar, It was super cool and hopefully I taught you all something.

The recording can be found here. I’m still sorting through the Q&A but gonna get a bite to eat first, feel free to add questions as the Q&A is still open, we have a total of 124 questions right now so It’s gonna take me some time.

The scripts can be found at https://github.com/KelvinTegelaar/Webinars.

I’ll be following this up with an intermediate session on a later date. I hope you guys enjoyed it because I really did! 🙂

This is going to be the last blog for a couple of weeks, as I’m going to be enjoying some vacation time. I’ll be seeing you all soon! 🙂

So Microsoft has announced a while back that legacy authentication is no longer going to be supported, due to COVID we had some extra time to prepare our clients for this change as its been postponed to July of 2021. We’ve helped all of our clients move to modern authentication last year but I understood there is still a bit of a struggle for other MSPs to achieve this.

With a P1 subscription retrieving the Legacy Authentication reports is very straightforward, but I’ve created these methods for users without P1 in mind. You have to keep in mind that this method is slightly less accurate than using the P1 sign in report.

There’s two scripts in this case; one to detect if Azure Security Defaults are enabled, which disables Legacy Authentication for you. And another to detect if there are apps being used that might use legacy authentication. You’ll still have to do some manual investigation and move users over to newer apps, but it should help you tackle modern auth in no time. 🙂

Detecting if Azure Security Defaults are enabled

Before running this script, you’ll have to add some permissions to your Secure Application Model, do that by performing this:

• Go to the Azure Portal.
• Click on Azure Active Directory, now click on “App Registrations”.
• Find your Secure App Model application. You can search based on the ApplicationID.
• Go to “API Permissions” and click Add a permission.
• Choose “Microsoft Graph” and “Application permission”.
• Search for “Reports” and click on “Policy.read.all”. Click on add permission
• Do the same for “Delegate Permissions”.
• Finally, click on “Grant Admin Consent for Company Name.

######### Secrets #########
$ApplicationId = 'AppID'
$ApplicationSecret = 'AppSecret' | ConvertTo-SecureString -Force -AsPlainText
$TenantID = 'Your-TenantID'
$RefreshToken = 'VeryLongRefreshToken'
$UPN = "UPN-Used-To-Generate-Tokens"
######### Secrets #########
write-host "Generating token to log into Azure AD. Grabbing all tenants" -ForegroundColor Green
$credential = New-Object System.Management.Automation.PSCredential($ApplicationId, $ApplicationSecret)
$aadGraphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes 'https://graph.windows.net/.default' -ServicePrincipal -Tenant $tenantID
$graphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes 'https://graph.microsoft.com/.default' -ServicePrincipal -Tenant $tenantID
Connect-AzureAD -AadAccessToken $aadGraphToken.AccessToken -AccountId $upn -MsAccessToken $graphToken.AccessToken -TenantId $tenantID | Out-Null
$tenants = Get-AzureAdContract -All:$true
Disconnect-AzureAD
$SecDefaults = foreach ($Tenant in $Tenants) {
    write-host "Processing $($Tenant.DisplayName)"
    $CustGraphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes "https://graph.microsoft.com/.default" -ServicePrincipal -Tenant $tenant.CustomerContextId
    $Header = @{
        Authorization = "Bearer $($CustGraphToken.AccessToken)"
    }
    $Enabled = (Invoke-RestMethod -Uri "https://graph.microsoft.com/beta/policies/identitySecurityDefaultsEnforcementPolicy" -Headers $Header -Method get -ContentType "application/json").IsEnabled
    [PSCustomObject]@{
        TenantName                  = $tenant.DisplayName
        'Security Defaults Enabled' = $enabled
    }
}

$SecDefaults

Detecting Legacy Application Usage

So finding legacy application usage is the biggest step in finding out if users are still using Legacy Authentication, for that use the following script:

######### Secrets #########
$ApplicationId = 'AppID'
$ApplicationSecret = 'AppSecret' | ConvertTo-SecureString -Force -AsPlainText
$TenantID = 'Your-TenantID'
$RefreshToken = 'VeryLongRefreshToken'
$UPN = "UPN-Used-To-Generate-Tokens"
######### Secrets #########
write-host "Generating token to log into Azure AD. Grabbing all tenants" -ForegroundColor Green
$credential = New-Object System.Management.Automation.PSCredential($ApplicationId, $ApplicationSecret)
$aadGraphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes 'https://graph.windows.net/.default' -ServicePrincipal -Tenant $tenantID
$graphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes 'https://graph.microsoft.com/.default' -ServicePrincipal -Tenant $tenantID
Connect-AzureAD -AadAccessToken $aadGraphToken.AccessToken -AccountId $upn -MsAccessToken $graphToken.AccessToken -TenantId $tenantID | Out-Null
$tenants = Get-AzureAdContract -All:$true
Disconnect-AzureAD
$LegacyAuth = foreach ($Tenant in $Tenants) {
    write-host "Processing tenant $($tenant.displayname)"
    $CustGraphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes "https://graph.microsoft.com/.default" -ServicePrincipal -Tenant $tenant.CustomerContextId
    $Header = @{
        Authorization = "Bearer $($CustGraphToken.AccessToken)"
    }
    $VersionReport = (Invoke-RestMethod -Uri "https://graph.microsoft.com/beta/reports/getEmailAppUsageVersionsUserCounts(period='D7')" -Headers $Header -Method get -ContentType "application/json") | ConvertFrom-Csv
    $LegacyClients = if ($versionreport.'Outlook 2007' -or $versionreport.'Outlook 2010' -or $versionreport.'Outlook 2013') {
        $VersionReport
    }
    $AppReports = (Invoke-RestMethod -Uri "https://graph.microsoft.com/beta/reports/getEmailAppUsageAppsUserCounts(period='D7')" -Headers $Header -Method get -ContentType "application/json") | ConvertFrom-Csv

    $LegacyApplications = if ($AppReports.'Other For Mobile' -or $AppReports.'POP3 App' -or $AppReports.'SMTP App' -or $AppReports.'IMAP4 App' -or $AppReports.'Mail For Mac') {
        $AppReports
    }
    $UserDetails = (Invoke-RestMethod -Uri "https://graph.microsoft.com/beta/reports/getEmailAppUsageUserDetail(period='D7')" -Headers $Header -Method get -ContentType "application/json") | ConvertFrom-Csv

    [PSCustomObject]@{
        Tenant        = $tenant.DisplayName
        LegacyClients = $LegacyClients
        LegacyApps    = $LegacyApplications
        UserDetails   = $UserDetails
    }

}

if ($LegacyAuth.LegacyClients -or $LegacyAuth.LegacyApps) {
    write-host "Unhealthy - Clients with legacy authenticaiton or Legacy clients have been detected"
    $LegacyAuth | Where-Object {$_.LegacyClients -ne $null -or $_.LegacyApps -ne $null}
}

And that’s it! It might not be as accurate as the normal P1 report, but it surely helps in capturing Legacy Authentication. As always, Happy PowerShelling!

This time I’m tackling two blogs in one go again as both are fairly small and straightforward.

Monitoring user Experience

So I’ve been focussed on a lot of documentation, server, and office365 issues lately and I was kind of ‘forgetting’ to also blog about another key experience indicator users have; their own workstation.

Monitoring workstations is becoming more and more important with the flow of users into cloud environments. Just monitoring RAM, CPU, Disk space, etc is no longer really a thing you should focus on. These days you should be looking more into security monitoring and user experience. I’ve blogged about the Windows Experience Index and Diskspeed before as early indicators something might be wrong.

This time we’re going to delve a little deeper into experience monitoring; specifically application crashes and hangs. Windows has an internal monitoring system for this called the “System Reliability Index”. Each time a application hang, or crash occurs this is logged to the index. We can retrieve this information using PowerShell to report on with our RMM.

Windows Reliability script

$ExpectedIndex = "6.0"
$ExpectedTimetoRun = (get-date).AddDays(-1)
$Metrics = Get-CimInstance -ClassName win32_reliabilitystabilitymetrics | Select-Object -First 1
$Records = Get-CimInstance -ClassName win32_reliabilityRecords | Where-Object { $_.TimeGenerated -gt $Metrics.StartMeasurementDate }

$CombinedMetrics = [PSCustomObject]@{
    SystemStabilityIndex = $Metrics.SystemStabilityIndex
    'Start Date'         = $Metrics.StartMeasurementDate
    'End Date'           = $Metrics.EndMeasurementDate
    'Stability Records'  = $Records
}

if ($CombinedMetrics.SystemStabilityIndex -lt $ExpectedIndex) { 
    write-host "The system stability index is higher than expected. This computer might not be performing in an optimal state. The following records have been found:"
    $CombinedMetrics.'Stability Records'
}

if ($CombinedMetrics.'Start Date' -lt $ExpectedTimetoRun) {
    write-host "The system stability index has not been updated since $($CombinedMetrics.'Start Date'). This could indicate an issue with event logging or WMI."
}

So this script actually helps you out in finding where applications are crashing or hanging often. This should help you localize workstations that are performing poorly and are giving a bad user experience. The great thing is that this also monitors those pesky “Outlook is not responding” issues as these are logged too.

Unifi EOL monitoring

So this one was request by a friend that quickly wanted to find all his unsupported devices for replacement. Replace the URL and credentials with your own and you should be good to go. 🙂

##########
#Find EOL devices
$UnifiBaseUri = "https://yoururl:8443/api"
$UnifiUser = "APIUSER"
$UnifiPassword = "appassword"
##############
$UniFiCredentials = @{
    username = $UnifiUser
    password = $UnifiPassword
    remember = $true
} | ConvertTo-Json
 
 
write-host "Logging in to Unifi API." -ForegroundColor Green
try {
    Invoke-RestMethod -Uri "$UnifiBaseUri/login" -Method POST -Body $uniFiCredentials -SessionVariable websession
}
catch {
    write-host "Failed to log in on the Unifi API. Error was: $($_.Exception.Message)" -ForegroundColor Red
}
write-host "Collecting sites from Unifi API." -ForegroundColor Green
try {
    $sites = (Invoke-RestMethod -Uri "$UnifiBaseUri/self/sites" -WebSession $websession).data
}
catch {
    write-host "Failed to collect the sites. Error was: $($_.Exception.Message)" -ForegroundColor Red
}
 
$AllDevices = foreach ($site in $sites) {
    $Devices = (Invoke-RestMethod -Uri "$UnifiBaseUri/s/$($site.name)/stat/device" -WebSession $websession).data
    $Devices | Select-Object _id, name, ip, mac, model, type, version, unsupported,@{label = 'site'; expression = { $site.desc } }
}

$AllDevices | Where-Object { $_.unsupported -ne $false } | Out-GridView

And that’s it! As always, happy PowerShelling!