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!

So today we’re tackling two blogs in one again, we’re going to be focussing on two different types of alerting policies.

The first getting alerts for M365 or Azure P1/P2 users via the Graph API, these alerts are pretty cool as you can see if users are connecting from tor nodes/VPN nodes, or from stuff like malware linked IPs. Monitoring these alerts actively via your RMM helps you in making sure that users are as safe as they can be.

Unfortunately, I know not everyone has the luxury of a M365, or P1 subscription. To help those users out we’re going get the existing protection alerts for all tenants, and forward them from “TenantsAdmin” to an actual e-mail address managed by you. So, lets get started!

Monitoring Alerts with Graph

This script uses the Secure Application Model, You’ll also need to add some extra permissions to your Secure App. To do that execute the following steps:

• 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 “Security” and click on “SecurityEvents.Read.All”. Click on add permission.
• Search for “Security” and click on “and SecurityEvents.ReadWrite.All”. Click on add permission.
• Do the same for “Delegate Permissions”.
• Finally, click on “Grant Admin Consent for Company Name.

After you’ve done this, execute the script below using your RMM, from there you’ll be able to see all open alerts. 🙂

######### Secrets #########
$ApplicationId = 'YourAppID'
$ApplicationSecret = 'YourAppSecret' | ConvertTo-SecureString -Force -AsPlainText
$RefreshToken = 'YourVeryLongRefreshToken'
$SkipList = "Bla.onmicrosoft.com", "Bla2.onmicrosoft.com"
######### Secrets #########


$credential = New-Object System.Management.Automation.PSCredential($ApplicationId, $ApplicationSecret)


Try {
    $aadGraphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes 'https://graph.windows.net/.default' -ServicePrincipal 
    $graphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes 'https://graph.microsoft.com/.default'
}
catch {
    write-DRRMAlert "Could not get tokens: $($_.Exception.Message)"
    exit 1
}
Connect-MsolService -AdGraphAccessToken $aadGraphToken.AccessToken -MsGraphAccessToken $graphToken.AccessToken

$customers = Get-MsolPartnerContract -All | Where-Object { $_.DefaultDomainName -notin $skiplist }

$OpenAlerts = foreach ($customer in $customers) {
    write-host "Getting started for $($Customer.name)" -foregroundcolor green
    try {
        $graphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes 'https://graph.microsoft.com/.default' -ServicePrincipal -Tenant $customer.TenantID
        $Header = @{
            Authorization = "Bearer $($graphToken.AccessToken)"
        }
    }
    catch {
        "Could not connect to tenant $($customer.name). Error:  $($_.Exception.Message)"
        continue
    }
    (Invoke-RestMethod -Uri "https://graph.microsoft.com/beta/security/Alerts" -Headers $Header -Method Get -ContentType "application/json").value | Select-Object title,category, description, createddatetime,userstates,status, @{label="Username";expression={$_.userstates.userprincipalname}}

}

if(!$OpenAlerts){
    $OpenAlerts = "Healthy - No open alerts found"
}

$OpenAlerts 

Now lets move on to the e-mail alerts.

Setting Protection Alerts

So the biggest problem with the default protection alerts is that they can only be sent to “Tenant Admins” a group of administrators in the tenant. For Microsoft Partners this group often does not have licensed user.

To tackle this issue we’re going to grab all rules that reference the TenantsAdmins group, we’re going to copy that rule, set the e-mail address to one of our choosing. We’re leaving the original rule intact because those might be used by local administrators or in co-managed environments.

######### Secrets #########
$ApplicationId         = 'ApplicationID'
$ApplicationSecret     = 'AppSecret'
$TenantID              = 'YourTenantID'
$RefreshToken          = 'RefreshToken'
$ExchangeRefreshToken = 'ExchangeRefreshToken'
$UPN = "YourUPN"
$AlertingEmail = "O365Alerts@YourDomain.com"
######### Secrets #########

$credential = New-Object System.Management.Automation.PSCredential($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-MsolService -AdGraphAccessToken $aadGraphToken.AccessToken -MsGraphAccessToken $graphToken.AccessToken
$customers = Get-MsolPartnerContract -All
foreach ($customer in $customers) {
    $customerId = $customer.DefaultDomainName
    write-host "Processing $customerId"
    try {
        $token = New-PartnerAccessToken -ApplicationId 'a0c73c16-a7e3-4564-9a95-2bdf47383716'-RefreshToken $ExchangeRefreshToken -Scopes 'https://outlook.office365.com/.default'
        $tokenValue = ConvertTo-SecureString "Bearer $($token.AccessToken)" -AsPlainText -Force
        $credential = New-Object System.Management.Automation.PSCredential($upn, $tokenValue)
        $SccSession = New-PSSession -ConfigurationName Microsoft.Exchange -ConnectionUri "https://ps.compliance.protection.outlook.com/powershell-liveid?BasicAuthToOAuthConversion=true&DelegatedOrg=$($customerId)" -Credential $credential -AllowRedirection -Authentication Basic -erroraction stop -WarningAction SilentlyContinue
        $null = import-pssession $SccSession -disablenamechecking -allowclobber -CommandName "Get-ActivityAlert", "New-ActivityAlert", "Get-ProtectionAlert", "New-protectionalert", "Set-activityAlert", "Set-protectionalert"
    }
    catch {
        Write-Host "Could not get tokens or log in to session for $($customer.DefaultDomainName): $($_.Exception.Message)"
        continue
    }
    
    $ProtectionAlerts = Get-ProtectionAlert | Where-Object { $_.NotifyUser -eq "TenantAdmins" -and $_.disabled -eq $false }
    
    ForEach ($ProtectionAlert in $ProtectionAlerts) {
        $NewName = if ($ProtectionAlert.name.Length -gt 30) { "$($ProtectionAlert.name.substring(0,30)) - $($AlertingEmail)" } else { "$($ProtectionAlert.name) - $($AlertingEmail)" }
        $ExistingRule = Get-ProtectionAlert -id $NewName -ErrorAction "SilentlyContinue"
        if (!$ExistingRule) {
            $splat = @{
                name                = $NewName
                NotifyUser          = $AlertingEmail
                Operation           = $ProtectionAlert.Operation
                NotificationEnabled = $true
                Severity            = $ProtectionAlert.Severity
                Category            = $ProtectionAlert.Category
                Comment             = $ProtectionAlert.Comment
                threattype          = $ProtectionAlert.threattype
                AggregationType     = $ProtectionAlert.AggregationType
                Disabled            = $ProtectionAlert.Disabled
            }
            try {
              $null = New-ProtectionAlert @splat -ErrorAction Stop
            }
            catch {
                write-host "Could not create rule. Most likely no subscription available. Error: $($_.Exception.Message)"
            }
        }
        else {
            write-host "Rule exists, Moving on."
        }
    }

    Remove-PSSession $SccSession
 
}

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

One of my friends recently told me that DNS forwarders might be a nice subject to talk about,He had an issue with his forwarders not responding and solved that with PowerShell.

DNS forwarders are often used to decrease the load on a network and not rely on just root hints. Most of the times I suggest to use either the providers DNS servers as the forwarding addresses. There are cases where you’d like to use another server; for example when using DNS filtering.

In any case, you’ll always have to check if the DNS servers that you are forwarding towards are actually resolving. If they won’t you’ll get name resolution issues for your clients and that’s never a good time.

To monitor the DNS forwarders we’ll use two PowerShell commands; One to retrieve the DNS server forwarders and one to test if the DNS servers are actually available and resolving.

The script

So let’s break this script down, because it’s actually quite multi-functional.

$ForwarderAddresses = (get-dnsserverforwarder).ipaddress.ipaddresstostring
$DNSServerTest = foreach ($forwarder in $ForwarderAddresses) {
    [PSCustomObject]@{
        Forwarder = $forwarder
        ForwarderTest = (Test-DNSServer -context forwarder -IPAddress $Forwarder).result
        TCPTest = (Test-NetConnection -ComputerName $forwarder -Port 53).TcpTestSucceeded
        Resolutiontest = if($null -ne (Resolve-DnsName -server $forwarder -name "Google.com" -DnsOnly).ipaddress){ $true } else { $false }
    }
}

By running this script we’re creating an object that tells us which forwarders are currently configured, if the internal Windows DNS server test is able to connect to it, If we are able to connect over TCP, and if DNS resolution worked. We can then use this object to apply different types of monitoring. So let’s combine all of this information into one cool monitoring set.

$ExpectedForwarders = "1.1.1.1", "8.8.8.8", "8.8.4.4","9.9.9.9"

$ForwarderAddresses = (get-dnsserverforwarder).ipaddress.ipaddresstostring
$DNSServerTest = foreach ($forwarder in $ForwarderAddresses) {
    [PSCustomObject]@{
        Forwarder      = $forwarder
        ForwarderTest  = (Test-DNSServer -context forwarder -IPAddress $Forwarder).result
        TCPTest        = (Test-NetConnection -ComputerName $forwarder -Port 53).TcpTestSucceeded
        Resolutiontest = if ($null -ne (Resolve-DnsName -server $forwarder -name "Google.com" -DnsOnly).ipaddress) { $true } else { $false }
    }

}

foreach ($TestedForwarder in $DNSServerTest) {
    if ($TestedForwarder.forwarder -notin $ExpectedForwarders) { write-host "The expected forwarders don't match the configured forwarders: $($TestedForwarder.Forwarder)" }
    if ($TestedForwarder.ForwarderTest -ne "Success") { write-host "$($TestedForwarder.forwarder) has not passed the Forwarder Test" }
    if ($TestedForwarder.TCPTest -ne $true) { write-host "$($TestedForwarder.forwarder) has not passed the TCP Port Test" }
    if ($TestedForwarder.Resolutiontest -ne $true) { write-host "$($TestedForwarder.forwarder) has not passed the Forwarder Test" }
}

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

A lot of MSPs use the B-Series VMs for tasks, and why woulnd’t you? It are cheap VMs that allow you to use azure as a cost effective solution for clients. The B-Series VM are “burstable” VMs, meaning they don’t get the full CPU performance constantly.

The description of Microsoft explains it best:

The B-series burstable VMs are ideal for workloads that do not need the full performance of the CPU continuously, like web servers, small databases and development and test environments. These workloads typically have burstable performance requirements. The B-Series provides these customers the ability to purchase a VM size with a price conscience baseline performance that allows the VM instance to build up credits when the VM is utilizing less than its base performance. When the VM has accumulated credit, the VM can burst above the VM’s baseline using up to 100% of the CPU when your application requires the higher CPU performance.

Microsoft – https://azure.microsoft.com/en-us/blog/introducing-b-series-our-new-burstable-vm-size/

This is of course great for smaller servers such as domain controllers, small RemoteApp machines or generic low performance VMs, but you do need to pay attention that you don’t run out of “credits” when performance is required.

So let’s start alerting on B-Series VMs that are running out of steam. Full disclosure and credit where it’s due: A part of this script was shared with me by Andrew Cullen of Lanter Technologies, thanks for that Andrew!

The script

This script checks all the subscriptions for each VM that is in the B-series, from there on we check the current credits remaining and alert on it if those get under 90.

To fix this, you could temporarily upscale the VM to a larger series which gives you new credits, or move tasks to different VM’s if it happens a lot. This will most likely also help in the “why is my VM suddenly so slow” scenarios 😉

We’re using the secure application model and Azure Lighthouse for these tasks, as such you can load these scripts into any RMM system that is able to handle credentials securely.

######### Secrets #########
$ApplicationId = 'ApplicationID'
$ApplicationSecret = 'ApplicationSecret' | ConvertTo-SecureString -Force -AsPlainText
$TenantID = 'YourTenantID'
$RefreshToken = 'YourRefreshToken'
$UPN = "UPN-Used-To-Generate-Tokens"
######### Secrets #########

$credential = New-Object System.Management.Automation.PSCredential($ApplicationId, $ApplicationSecret)
$azureToken = New-PartnerAccessToken -ApplicationId $ApplicationID -Credential $credential -RefreshToken $refreshToken -Scopes 'https://management.azure.com/user_impersonation' -ServicePrincipal -Tenant $TenantId
$graphToken = New-PartnerAccessToken -ApplicationId $ApplicationID -Credential $credential -RefreshToken $refreshToken -Scopes 'https://graph.microsoft.com/.default' -ServicePrincipal -Tenant $TenantId
 
Connect-Azaccount -AccessToken $azureToken.AccessToken -GraphAccessToken $graphToken.AccessToken -AccountId $upn -TenantId $tenantID
$Subscriptions = Get-AzSubscription  | Where-Object { $_.State -eq 'Enabled' } | Sort-Object -Unique -Property Id
$VMCredits = foreach ($Sub in $Subscriptions) {
    write-host "Processing client $($sub.name)"
    $null = $Sub | Set-AzContext
    get-azvm -status | Where-Object { $_.HardwareProfile.VmSize -like "Standard_B*" -and $_.PowerState -like "*Running*" } | ForEach-Object {
        $Credits = (Get-AzMetric -ResourceId $_.Id -MetricName "CPU Credits Remaining").data.average | Where-Object { $_ -ne "" } | select-object -last 1
        [PSCustomObject]@{
            VMName           = $_.Name
            CreditsRemaining = $Credits
            Subscription     = $sub.name
        }
    }
}

foreach ($VMCredit in $VMCredits | where-object { $_.CreditsRemaining -lt "90" }) {
    write-host "$($VMCredit.VMname) has $($VMCredit.CreditsRemaining) credits remaining"
}

And that’s it! I hope this helps in tackling those pesky performance issues when using the cheaper VMs in Azure. As always, Happy PowerShelling

A while back someone asked me to convert a script they had to the Secure Application Model. This specific script checked the Office 365 audit log IPs against a online database of locations. I declined at first and suggested it to look into Microsoft 365, a P1 or P2 subscription which allows you to do this native.

The reader came back to me recently asking once more, and giving a explanation on why P1/P2 or M365 was not possible in her case. I understand that sometimes you might have to make due with what you have. I also figured others might be in the same boat.

So this script is made to monitor the O365 unified audit log and to compare the IP addresses to a database online. The database she used previously was very rate-limited and as such not really suitable. Not a lot of people know that there actually is a great 100% free online lookup service for IPs at https://ip2c.org/. The script uses that database as there are no API limitations. 🙂

As always, I’d like to note that this should just be one layer in your entire security model and you should not put all your faith in this. Enable MFA, and keep good security hygiene.

The Script

You’ll need the Secure Application Model for this script. The script currently checks all your tenants except the ones you state in “$Skiplist”.

######### Secrets #########
$ApplicationId = 'ApplicationID'
$ApplicationSecret = 'ApplicationSecret' | ConvertTo-SecureString -Force -AsPlainText
$TenantID = 'TenantID'
$RefreshToken = 'VeryLongRefreshToken'
$ExchangeRefreshToken = 'LongExchangeToken'
$UPN = "UPN-User-To-Generate-IDs"
######### Secrets #########

$AllowedCountries = @('Belgium', 'Netherlands', 'Germany', 'United Kingdom')
$Skiplist = @("bla1.onmicrosoft.com", "bla2.onmicrosoft.com", "bla2.onmicrosoft.com")

$credential = New-Object System.Management.Automation.PSCredential($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-MsolService -AdGraphAccessToken $aadGraphToken.AccessToken -MsGraphAccessToken $graphToken.AccessToken

$customers = Get-MsolPartnerContract -All | Where-Object { $_.DefaultDomainName -notin $SkipList }

$StrangeLocations = foreach ($customer in $customers) {
    Write-Host "Getting logon location details for $($customer.Name)" -ForegroundColor Green
    $token = New-PartnerAccessToken -ApplicationId 'a0c73c16-a7e3-4564-9a95-2bdf47383716'-RefreshToken $ExchangeRefreshToken -Scopes 'https://outlook.office365.com/.default' -Tenant $customer.TenantId
    $tokenValue = ConvertTo-SecureString "Bearer $($token.AccessToken)" -AsPlainText -Force
    $credential = New-Object System.Management.Automation.PSCredential($upn, $tokenValue)
    $customerId = $customer.DefaultDomainName
    $session = New-PSSession -ConfigurationName Microsoft.Exchange -ConnectionUri "https://ps.outlook.com/powershell-liveid?DelegatedOrg=$($customerId)&BasicAuthToOAuthConversion=true" -Credential $credential -Authentication Basic -AllowRedirection
    $null = Import-PSSession $session -CommandName Search-UnifiedAuditLog -AllowClobber
 

    $startDate = (Get-Date).AddDays(-1)
    $endDate = (Get-Date)
    Write-Host "Retrieving logs for $($customer.name)" -ForegroundColor Blue
    $logs = do {
        $log = Search-unifiedAuditLog -SessionCommand ReturnLargeSet -SessionId $customer.name -ResultSize 5000 -StartDate $startDate -EndDate $endDate -Operations UserLoggedIn
        Write-Host "Retrieved $($log.count) logs" -ForegroundColor Yellow
        $log
    } while ($Log.count % 5000 -eq 0 -and $log.count -ne 0)
    Write-Host "Finished Retrieving logs" -ForegroundColor Green
 
    $userIds = $logs.userIds | Sort-Object -Unique

    $LocationMonitoring = foreach ($userId in $userIds) {
 
        $searchResult = ($logs | Where-Object { $_.userIds -contains $userId }).auditdata | ConvertFrom-Json -ErrorAction SilentlyContinue
        $ips = $searchResult.clientip | Sort-Object -Unique
        foreach ($ip in $ips) {
            $IsIp = ($ip -as [ipaddress]) -as [bool]
            if ($IsIp) { $ipresult = (Invoke-restmethod -method get -uri "https://ip2c.org/$($ip)") -split ';' }
            [PSCustomObject]@{
                user              = $userId
                IP                = $ip
                Country           = ($ipresult | Select-Object -index 3)
                CountryCode       = ($ipresult | Select-Object -Index 1)
                Company           = $customer.Name
                TenantID          = $customer.tenantID
                DefaultDomainName = $customer.DefaultDomainName
            }
           
        }

    }
    foreach ($Location in $LocationMonitoring) {
        if ($Location.country -notin $AllowedCountries) { $Location }
    }
}
if (!$StrangeLocations) {
    $StrangeLocations = 'Healthy'
}

$StrangeLocations

And that’s it! Now you’re monitoring the locations from where users are logging on. As always, Happy PowerShelling!

So 2 weeks ago we talked about PowerShell canaries and using them as an early warning system. I got a couple of questions about the follow up, especially the host isolation. There’s a lot of tricks that you can use to isolate a host from others.

The version below allows you to isolate, and de-isolate, or re-integrate the OS into normal operation. To isolate the machine, we use the Windows Firewall, we block all outbound traffic, and we stop both the ‘workstation’ and ‘server’ service. This means the machine can no longer use shares or access network resources.

We also disable DNS by forwarding it to a fake server and clear the DNS cache. To make sure we can still remotely access the machine via our RMM or other tools, we add those to the host file and create an allow rule in the firewall.

All of these tasks can be reverted by changing the $isolation variable to $false. Don’t forget to add your own tooling to the list of allowed hosts.

The Script

$AllowedHosts = "google.com", "YourSuperDuperTurboRMM.com", '1.2.3.4'
$isolation = $false


write-host "Checking all IPs for hosts"
$ConvertedHosts = foreach ($Remotehost in $AllowedHosts) {
    $IsIp = ($RemoteHost -as [ipaddress]) -as [bool]
    if ($IsIp) {
        $ipList = $Remotehost
    }
    else {
        $IPList = (Resolve-DnsName $Remotehost).ip4address
    }
    Foreach ($IP in $IPList) {
        [PSCustomObject]@{
            Hostname = $Remotehost
            IP       = $IP
        }
    }
}


if ($isolation) {
    write-host "Checking if Windows firewall is enabled" -ForegroundColor Green
    $WindowsFirewall = Get-NetFirewallProfile | Where-Object { $_.Enabled -ne $false }
    if (!$WindowsFirewall) { 
        write-host "Windows firewall is enabled. Moving onto next task" -ForegroundColor Green
    }
    else {
        Write-Host "Windows Firewall is not enabled. Enabling for extra isolation" -ForegroundColor Yellow
        $WindowsFirewall | Set-NetFirewallProfile -Enabled:True
    }
    write-host "Preparing Windows Firewall isolation rule" -ForegroundColor Green

    $ExistingRule = Get-NetFirewallRule -DisplayName "ISOLATION: Allowed Hosts" -ErrorAction SilentlyContinue
    if ($ExistingRule) {
        write-host "Setting existing Windows Firewall isolation rule" -ForegroundColor Green
        Get-NetFirewallRule -Direction Outbound | Set-NetFirewallRule -Enabled:False
        set-NetFirewallRule -Direction Outbound -Enabled:True -Action Allow -RemoteAddress $ConvertedHosts.IP -DisplayName "ISOLATION: Allowed Hosts"
        get-netfirewallprofile | Set-NetFirewallProfile -DefaultOutboundAction Block
    }
    else {
        write-host "Creating Firewall isolation rule" -ForegroundColor Green
        Get-NetFirewallRule -Direction Outbound | Set-NetFirewallRule -Enabled:False
        New-NetFirewallRule -Direction Outbound -Enabled:True -Action Allow -RemoteAddress $ConvertedHosts.IP -DisplayName "ISOLATION: Allowed Hosts"
        get-netfirewallprofile | Set-NetFirewallProfile -DefaultOutboundAction Block
    }
    write-host "Adding list of hostnames to host file" -ForegroundColor Green
    foreach ($HostEntry in $ConvertedHosts) {
        Add-Content -Path "$($ENV:windir)/system32/drivers/etc/hosts" -Value "`n$($HostEntry.IP)`t`t$($HostEntry.Hostname)"
        start-sleep -Milliseconds 200
    }
    write-host 'Setting DNS to a static server that does not exist' -ForegroundColor Green
    Get-dnsclientserveraddress | Set-DnsClientServerAddress -ServerAddresses 127.0.0.127
    write-host "Clearing DNS cache" -ForegroundColor Green
    Clear-DnsClientCache
    write-host "Stopping 'client' and 'server' service. and setting to disabled" -ForegroundColor Green

    stop-service -name 'Workstation' -Force
    get-service -name 'Workstation' | Set-Service -StartupType Disabled
    stop-service -name 'Server' -Force 
    get-service -name 'server' | Set-Service -StartupType Disabled

    write-host 'Isolation performed. To undo these actions, please run the script with $Isolation set to false' -ForegroundColor Green
}
else {
    write-host "Undoing isolation process." -ForegroundColor Green
    write-host "Setting existing Windows Firewall isolation rule to allow traffic" -ForegroundColor Green
    Get-NetFirewallRule -Direction Outbound | Set-NetFirewallRule -Enabled:True
    Remove-NetFirewallRule -DisplayName "ISOLATION: Allowed Hosts" -ErrorAction SilentlyContinue
    get-netfirewallprofile | Set-NetFirewallProfile -DefaultOutboundAction Allow

    write-host "Removing list of hostnames from host file" -ForegroundColor Green
    foreach ($HostEntry in $ConvertedHosts) {
        $HostFile = Get-Content "$($ENV:windir)/system32/drivers/etc/hosts"
        $NewHostFile = $HostFile -replace "`n$($HostEntry.IP)`t`t$($HostEntry.Hostname)", ''
        Set-Content -Path "$($ENV:windir)/system32/drivers/etc/hosts" -Value $NewHostFile
        start-sleep -Milliseconds 200
    }
    write-host "Clearing DNS cache" -ForegroundColor Green
    Clear-DnsClientCache
    write-host "Setting DNS back to DHCP" -ForegroundColor Green
    Get-dnsclientserveraddress | Set-DnsClientServerAddress -ResetServerAddresses
    write-host "Starting 'Workstation' and 'server' service. and setting to disabled" -ForegroundColor Green
    get-service -name 'Workstation' | Set-Service -StartupType Automatic
    start-service 'Workstation'
    get-service -name 'server' | Set-Service -StartupType Automatic
    start-service 'Server'
    write-host 'Undo Isolation performed. To re-isolate, run the script with the $Isolation parameter set to true.' -ForegroundColor Green
}

And that’s it! This is of course just an example on how to isolate a host from others in case you want to, you should modify it to fir your environment.

As always, happy PowerShelling!

With my recently released RunAsUser module there’s been an influx of questions on what it could be used for. I’ve tried to describe as much as possible on the github page and the previous blog about it. But one I wanted to talk about real quick is the ability to create Toast notifications.

Toast notifications are those little OS native notifications you side in the bottom right of your screen when receiving an e-mail. Our RMM system has the ability to create a notification using an application, but to be honest that notification looks like it came straight out of 1990.

To have a bit better user experience, and to also get the ability to do specific things with user-input I’ve decided to use Burnt Toast. Burnt Toast is a module that give you the ability to generate pretty toast messages with just a couple lines of code. Brilliant really!

Combining my RunAsUser module, and Burnt Toast we’re able to send a script to the currently logged on user’s session and get full functionality in there. One example is to reboot the computer after updates. So lets get going!

The script

The following script can be used to create a toast for reboots. It creates a ‘protocol handler’. It then toasts with a nice Gif of my logo to get the users attention. The script assumes you have trusted the PSGallery before hand.

#Checking if ToastReboot:// protocol handler is present
New-PSDrive -Name HKCR -PSProvider Registry -Root HKEY_CLASSES_ROOT -erroraction silentlycontinue | out-null
$ProtocolHandler = get-item 'HKCR:\ToastReboot' -erroraction 'silentlycontinue'
if (!$ProtocolHandler) {
    #create handler for reboot
    New-item 'HKCR:\ToastReboot' -force
    set-itemproperty 'HKCR:\ToastReboot' -name '(DEFAULT)' -value 'url:ToastReboot' -force
    set-itemproperty 'HKCR:\ToastReboot' -name 'URL Protocol' -value '' -force
    new-itemproperty -path 'HKCR:\ToastReboot' -propertytype dword -name 'EditFlags' -value 2162688
    New-item 'HKCR:\ToastReboot\Shell\Open\command' -force
    set-itemproperty 'HKCR:\ToastReboot\Shell\Open\command' -name '(DEFAULT)' -value 'C:\Windows\System32\shutdown.exe -r -t 00' -force
}

Install-Module -Name BurntToast
Install-module -Name RunAsUser
invoke-ascurrentuser -scriptblock {

    $heroimage = New-BTImage -Source 'https://media.giphy.com/media/eiwIMNkeJ2cu5MI2XC/giphy.gif' -HeroImage
    $Text1 = New-BTText -Content  "Message from IT"
    $Text2 = New-BTText -Content "Your IT provider has installed updates on your computer at $(get-date). Please select if you'd like to reboot now, or snooze this message."
    $Button = New-BTButton -Content "Snooze" -snooze -id 'SnoozeTime'
    $Button2 = New-BTButton -Content "Reboot now" -Arguments "ToastReboot:" -ActivationType Protocol
    $5Min = New-BTSelectionBoxItem -Id 5 -Content '5 minutes'
    $10Min = New-BTSelectionBoxItem -Id 10 -Content '10 minutes'
    $1Hour = New-BTSelectionBoxItem -Id 60 -Content '1 hour'
    $4Hour = New-BTSelectionBoxItem -Id 240 -Content '4 hours'
    $1Day = New-BTSelectionBoxItem -Id 1440 -Content '1 day'
    $Items = $5Min, $10Min, $1Hour, $4Hour, $1Day
    $SelectionBox = New-BTInput -Id 'SnoozeTime' -DefaultSelectionBoxItemId 10 -Items $Items
    $action = New-BTAction -Buttons $Button, $Button2 -inputs $SelectionBox
    $Binding = New-BTBinding -Children $text1, $text2 -HeroImage $heroimage
    $Visual = New-BTVisual -BindingGeneric $Binding
    $Content = New-BTContent -Visual $Visual -Actions $action
    Submit-BTNotification -Content $Content
}

And that’s it! you must be wondering how it looks, so lets show you that too!

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

I wrote about monitoring the Onedrive sync status some time ago. That blog gained a lot of popularity. Implementing it allows you to monitor Onedrive, which runs in user mode while using your RMM that often runs under system.

So after a while we’ve noticed that we bumped into issues that weren’t getting captured by monitoring just the sync state. Onedrive tends to get performance issues when syncing more than 300k files. This also counts for files on demand. There are some other limitations but the best write-up about this is here. Large libraries just tend to make things a little screwy.

To tackle this you can use the following script. This gets all the synced sites, lists the Item count, checks if the sum is higher than 280k and alerts if that is true. This helped us tackle performance problems and nip them in the bud pretty early on 🙂

$IniFiles = Get-ChildItem "$ENV:LOCALAPPDATA\Microsoft\OneDrive\settings\Business1" -Filter 'ClientPolicy*' -ErrorAction SilentlyContinue

if (!$IniFiles) {
    write-host "No Onedrive configuration files found. Stopping script."
    exit 1
}

$SyncedLibraries = foreach ($inifile in $IniFiles) {
    $IniContent = get-content $inifile.fullname -Encoding Unicode
    [PSCustomObject]@{
        'Item Count' = ($IniContent | Where-Object { $_ -like 'ItemCount*' }) -split '= ' | Select-Object -last 1
        'Site Name'  = ($IniContent | Where-Object { $_ -like 'SiteTitle*' }) -split '= ' | Select-Object -last 1
        'Site URL'   = ($IniContent | Where-Object { $_ -like 'DavUrlNamespace*' }) -split '= ' | Select-Object -last 1
    }
}

if (($SyncedLibraries.'Item count' | Measure-Object -Sum).sum -gt '280000') { 
    write-host "Unhealthy - Currently syncing more than 280k files. Please investigate." 
    $SyncedLibraries
}
else {
    write-host "Healthy - Syncing less than 280k files."
}

Running this script directly often doesn’t work, because we’ll bump into the same issue we have with the OneDrive monitoring script. To fix that, use the version below. This impersonates the current user. Remember that this should run as NT AUTHORITY\SYSTEM.

$Source = @"
using System;  
using System.Runtime.InteropServices;

namespace murrayju.ProcessExtensions  
{
    public static class ProcessExtensions
    {
        #region Win32 Constants

        private const int CREATE_UNICODE_ENVIRONMENT = 0x00000400;
        private const int CREATE_NO_WINDOW = 0x08000000;

        private const int CREATE_NEW_CONSOLE = 0x00000010;

        private const uint INVALID_SESSION_ID = 0xFFFFFFFF;
        private static readonly IntPtr WTS_CURRENT_SERVER_HANDLE = IntPtr.Zero;

        #endregion

        #region DllImports

        [DllImport("advapi32.dll", EntryPoint = "CreateProcessAsUser", SetLastError = true, CharSet = CharSet.Ansi, CallingConvention = CallingConvention.StdCall)]
        private static extern bool CreateProcessAsUser(
            IntPtr hToken,
            String lpApplicationName,
            String lpCommandLine,
            IntPtr lpProcessAttributes,
            IntPtr lpThreadAttributes,
            bool bInheritHandle,
            uint dwCreationFlags,
            IntPtr lpEnvironment,
            String lpCurrentDirectory,
            ref STARTUPINFO lpStartupInfo,
            out PROCESS_INFORMATION lpProcessInformation);

        [DllImport("advapi32.dll", EntryPoint = "DuplicateTokenEx")]
        private static extern bool DuplicateTokenEx(
            IntPtr ExistingTokenHandle,
            uint dwDesiredAccess,
            IntPtr lpThreadAttributes,
            int TokenType,
            int ImpersonationLevel,
            ref IntPtr DuplicateTokenHandle);

        [DllImport("userenv.dll", SetLastError = true)]
        private static extern bool CreateEnvironmentBlock(ref IntPtr lpEnvironment, IntPtr hToken, bool bInherit);

        [DllImport("userenv.dll", SetLastError = true)]
        [return: MarshalAs(UnmanagedType.Bool)]
        private static extern bool DestroyEnvironmentBlock(IntPtr lpEnvironment);

        [DllImport("kernel32.dll", SetLastError = true)]
        private static extern bool CloseHandle(IntPtr hSnapshot);

        [DllImport("kernel32.dll")]
        private static extern uint WTSGetActiveConsoleSessionId();

        [DllImport("Wtsapi32.dll")]
        private static extern uint WTSQueryUserToken(uint SessionId, ref IntPtr phToken);

        [DllImport("wtsapi32.dll", SetLastError = true)]
        private static extern int WTSEnumerateSessions(
            IntPtr hServer,
            int Reserved,
            int Version,
            ref IntPtr ppSessionInfo,
            ref int pCount);

        #endregion

        #region Win32 Structs

        private enum SW
        {
            SW_HIDE = 0,
            SW_SHOWNORMAL = 1,
            SW_NORMAL = 1,
            SW_SHOWMINIMIZED = 2,
            SW_SHOWMAXIMIZED = 3,
            SW_MAXIMIZE = 3,
            SW_SHOWNOACTIVATE = 4,
            SW_SHOW = 5,
            SW_MINIMIZE = 6,
            SW_SHOWMINNOACTIVE = 7,
            SW_SHOWNA = 8,
            SW_RESTORE = 9,
            SW_SHOWDEFAULT = 10,
            SW_MAX = 10
        }

        private enum WTS_CONNECTSTATE_CLASS
        {
            WTSActive,
            WTSConnected,
            WTSConnectQuery,
            WTSShadow,
            WTSDisconnected,
            WTSIdle,
            WTSListen,
            WTSReset,
            WTSDown,
            WTSInit
        }

        [StructLayout(LayoutKind.Sequential)]
        private struct PROCESS_INFORMATION
        {
            public IntPtr hProcess;
            public IntPtr hThread;
            public uint dwProcessId;
            public uint dwThreadId;
        }

        private enum SECURITY_IMPERSONATION_LEVEL
        {
            SecurityAnonymous = 0,
            SecurityIdentification = 1,
            SecurityImpersonation = 2,
            SecurityDelegation = 3,
        }

        [StructLayout(LayoutKind.Sequential)]
        private struct STARTUPINFO
        {
            public int cb;
            public String lpReserved;
            public String lpDesktop;
            public String lpTitle;
            public uint dwX;
            public uint dwY;
            public uint dwXSize;
            public uint dwYSize;
            public uint dwXCountChars;
            public uint dwYCountChars;
            public uint dwFillAttribute;
            public uint dwFlags;
            public short wShowWindow;
            public short cbReserved2;
            public IntPtr lpReserved2;
            public IntPtr hStdInput;
            public IntPtr hStdOutput;
            public IntPtr hStdError;
        }

        private enum TOKEN_TYPE
        {
            TokenPrimary = 1,
            TokenImpersonation = 2
        }

        [StructLayout(LayoutKind.Sequential)]
        private struct WTS_SESSION_INFO
        {
            public readonly UInt32 SessionID;

            [MarshalAs(UnmanagedType.LPStr)]
            public readonly String pWinStationName;

            public readonly WTS_CONNECTSTATE_CLASS State;
        }

        #endregion

        // Gets the user token from the currently active session
        private static bool GetSessionUserToken(ref IntPtr phUserToken)
        {
            var bResult = false;
            var hImpersonationToken = IntPtr.Zero;
            var activeSessionId = INVALID_SESSION_ID;
            var pSessionInfo = IntPtr.Zero;
            var sessionCount = 0;

            // Get a handle to the user access token for the current active session.
            if (WTSEnumerateSessions(WTS_CURRENT_SERVER_HANDLE, 0, 1, ref pSessionInfo, ref sessionCount) != 0)
            {
                var arrayElementSize = Marshal.SizeOf(typeof(WTS_SESSION_INFO));
                var current = pSessionInfo;

                for (var i = 0; i < sessionCount; i++)
                {
                    var si = (WTS_SESSION_INFO)Marshal.PtrToStructure((IntPtr)current, typeof(WTS_SESSION_INFO));
                    current += arrayElementSize;

                    if (si.State == WTS_CONNECTSTATE_CLASS.WTSActive)
                    {
                        activeSessionId = si.SessionID;
                    }
                }
            }

            // If enumerating did not work, fall back to the old method
            if (activeSessionId == INVALID_SESSION_ID)
            {
                activeSessionId = WTSGetActiveConsoleSessionId();
            }

            if (WTSQueryUserToken(activeSessionId, ref hImpersonationToken) != 0)
            {
                // Convert the impersonation token to a primary token
                bResult = DuplicateTokenEx(hImpersonationToken, 0, IntPtr.Zero,
                    (int)SECURITY_IMPERSONATION_LEVEL.SecurityImpersonation, (int)TOKEN_TYPE.TokenPrimary,
                    ref phUserToken);

                CloseHandle(hImpersonationToken);
            }

            return bResult;
        }

        public static bool StartProcessAsCurrentUser(string appPath, string cmdLine = null, string workDir = null, bool visible = true)
        {
            var hUserToken = IntPtr.Zero;
            var startInfo = new STARTUPINFO();
            var procInfo = new PROCESS_INFORMATION();
            var pEnv = IntPtr.Zero;
            int iResultOfCreateProcessAsUser;

            startInfo.cb = Marshal.SizeOf(typeof(STARTUPINFO));

            try
            {
                if (!GetSessionUserToken(ref hUserToken))
                {
                    throw new Exception("StartProcessAsCurrentUser: GetSessionUserToken failed.");
                }

                uint dwCreationFlags = CREATE_UNICODE_ENVIRONMENT | (uint)(visible ? CREATE_NEW_CONSOLE : CREATE_NO_WINDOW);
                startInfo.wShowWindow = (short)(visible ? SW.SW_SHOW : SW.SW_HIDE);
                startInfo.lpDesktop = "winsta0\\default";

                if (!CreateEnvironmentBlock(ref pEnv, hUserToken, false))
                {
                    throw new Exception("StartProcessAsCurrentUser: CreateEnvironmentBlock failed.");
                }

                if (!CreateProcessAsUser(hUserToken,
                    appPath, // Application Name
                    cmdLine, // Command Line
                    IntPtr.Zero,
                    IntPtr.Zero,
                    false,
                    dwCreationFlags,
                    pEnv,
                    workDir, // Working directory
                    ref startInfo,
                    out procInfo))
                {
                    throw new Exception("StartProcessAsCurrentUser: CreateProcessAsUser failed.\n");
                }

                iResultOfCreateProcessAsUser = Marshal.GetLastWin32Error();
            }
            finally
            {
                CloseHandle(hUserToken);
                if (pEnv != IntPtr.Zero)
                {
                    DestroyEnvironmentBlock(pEnv);
                }
                CloseHandle(procInfo.hThread);
                CloseHandle(procInfo.hProcess);
            }
            return true;
        }
    }
}


"@

Add-Type -ReferencedAssemblies 'System', 'System.Runtime.InteropServices' -TypeDefinition $Source -Language CSharp 

$scriptblock = {
    $IniFiles = Get-ChildItem "$ENV:LOCALAPPDATA\Microsoft\OneDrive\settings\Business1" -Filter 'ClientPolicy*' -ErrorAction SilentlyContinue

    if (!$IniFiles) {
        write-host 'No Onedrive configuration files found. Stopping script.'
        exit 1
    }
    
    $SyncedLibraries = foreach ($inifile in $IniFiles) {
        $IniContent = get-content $inifile.fullname -Encoding Unicode
        [PSCustomObject]@{
            'Item Count' = ($IniContent | Where-Object { $_ -like 'ItemCount*' }) -split '= ' | Select-Object -last 1
            'Site Name'  = ($IniContent | Where-Object { $_ -like 'SiteTitle*' }) -split '= ' | Select-Object -last 1
            'Site URL'   = ($IniContent | Where-Object { $_ -like 'DavUrlNamespace*' }) -split '= ' | Select-Object -last 1
        }
    }
    $SyncedLibraries | ConvertTo-Json | Out-File 'C:\programdata\Microsoft OneDrive\OneDriveLibraries.txt'
}


[murrayju.ProcessExtensions.ProcessExtensions]::StartProcessAsCurrentUser("C:\Windows\System32\WindowsPowershell\v1.0\Powershell.exe", "-command $($scriptblock)", "C:\Windows\System32\WindowsPowershell\v1.0", $false)
start-sleep 5

$SyncedLibraries = (get-content "C:\programdata\Microsoft OneDrive\OneDriveLibraries.txt" | convertfrom-json)
if (($SyncedLibraries.'Item count' | Measure-Object -Sum).sum -gt '280000') { 
    write-host "Unhealthy - Currently syncing more than 280k files. Please investigate." 
    $SyncedLibraries
}
else {
    write-host "Healthy - Syncing less than 280k files."
}

And that’s it! as always PowerShelling 🙂

I decided this time I’m gonna be combining two small blogs, because they’re both pretty small and easy. Both are somewhat security oriented. The first part of the blog we will tackle monitoring the KRBTGT password. This needs to be reset on a regular schedule to ensure bad actors can’t abuse it.

The second part we’ll focus on creating our own ‘Canary’ files. These files can be used for a lot of things but the most common is to detect if ransomware has touched them in someway or the other. So, lets get started!

Monitoring KRBTGT Password age

So it’s actually straight forward to monitor the KRBTGT account, as it’s just a AD account. We’ll monitor this by grabbing the PasswordLastSet Attributes from the Active Directory. If you want to automatically resolve this, I’d strongly suggest to look at the script in this Github.

$Days = (Get-Date).AddDays(-31)
$Account = Get-AdUser krbtgt -property passwordlastset
$Setdate = if($Account.PasswordLastSet -gt $Days){ "Healthy - Password set date $($Account.Passwordlastset)" } else {" Unhealthy - Password set date $($Account.Passwordlastset)" }

You can change the amount of days to what you are comfortable with. I believe the documentation doesn’t have a strong suggestion in how much you should, but as this is a completely automated solution we perform this on a monthly basis.

Creating and monitoring file canaries

So, canaries are files that you place on strategic locations on a machine to check if the files aren’t being touched, corrupted, or encrypted in any way. Primarily they are used to prevent a full encryption of a computer and minimize data loss and lateral movement.

So with this script, we create canaries in a couple of locations;

• The My Documents folder of each user
• The Desktop Folder of each user
• The root of each drive on the machine

You’ll also be able to create them in locations you want by adding to the $CreateLocations variable. We create the files as hidden, so users should not see the file, the file name will be canaryfile.pdf, even though it’s just a simple text file.

So the script creates a file in each location, and immediately starts alerting on two properties; If the file has been edited in the past hour, and if the file contains the correct string. I’d advice to apply the monitoring to the device, wait an hour, and then actually start alerting on it or reacting.

$CreateLocations = @('AllDesktops', 'AllDocuments', 'AllDrives', 'C:\temp')
$FileContent = "This file is a special file created by your managed services provider. For more information contact the IT Support desk."

foreach ($Locations in $CreateLocations) {
    $AllLocations = switch ($Locations) {
        "AllDesktops" { (Get-ChildItem "C:\Users" -Recurse -Force -filter 'Desktop' -Depth 3).FullName }
        "AllDocuments" { (Get-ChildItem "C:\Users" -Recurse -Force -Filter 'Documents' -Depth 3).fullname }
        "AllDrives" { ([System.IO.DriveInfo]::getdrives() | Where-Object { $_.DriveType -eq 'Fixed' }).Name }
        default { $Locations }
    }
  $CanaryStatus = foreach ($Location in $AllLocations) {
        if ((test-path "$Location\CanaryFile.pdf") -eq $false) {
            $File = New-Item $Location -Name "CanaryFile.pdf" -Value $FileContent
            $file.Attributes = 'hidden'
        }
        else {
            $ExistingFile = get-item "$Location\CanaryFile.pdf" -Force
            if ($ExistingFile.LastWriteTime -gt (get-date).AddHours(-1)) { "$Location\CanaryFile.pdf is unhealthy. The LastWriteTime was $($ExistingFile.LastWriteTime)" }
            $ExistingFileContents = get-content $ExistingFile -Force
            if ($ExistingFileContents -ne $FileContent) { "$Location\CanaryFile.pdf is unhealthy. The contents do not match. This is a sign the file has most likely been encrypted" }
        }
    }
}
if(!$CanaryStatus){
    $CanaryStatus = "Healthy"
}

$CanaryStatus

If you feel confident enough about this, you could set up some self-healing like disabling network access, or shutting the device down before the machine is completely encrypted. And that’s it. As always, Happy PowerShelling!